third_party/llvm-project/compiler-rt/include/xray/xray_interface.h - cobalt - Git at Google

 //===- xray_interface.h -----------------------------------------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 // This file is a part of XRay, a dynamic runtime instrumentation system.
 //
 // APIs for controlling XRay functionality explicitly.
 //===----------------------------------------------------------------------===//

 #ifndef XRAY_XRAY_INTERFACE_H
 #define XRAY_XRAY_INTERFACE_H

 #include <cstddef>
 #include <cstdint>

 extern "C" {

 /// Synchronize this with AsmPrinter::SledKind in LLVM.
 enum XRayEntryType {
   ENTRY = 0,
   EXIT = 1,
   TAIL = 2,
   LOG_ARGS_ENTRY = 3,
   CUSTOM_EVENT = 4,
   TYPED_EVENT = 5,
 };

 /// Provide a function to invoke for when instrumentation points are hit. This
 /// is a user-visible control surface that overrides the default implementation.
 /// The function provided should take the following arguments:
 ///
 ///   - function id: an identifier that indicates the id of a function; this id
 ///                  is generated by xray; the mapping between the function id
 ///                  and the actual function pointer is available through
 ///                  __xray_table.
 ///   - entry type: identifies what kind of instrumentation point was
 ///                 encountered (function entry, function exit, etc.). See the
 ///                 enum XRayEntryType for more details.
 ///
 /// The user handler must handle correctly spurious calls after this handler is
 /// removed or replaced with another handler, because it would be too costly for
 /// XRay runtime to avoid spurious calls.
 /// To prevent circular calling, the handler function itself and all its
 /// direct&indirect callees must not be instrumented with XRay, which can be
 /// achieved by marking them all with: __attribute__((xray_never_instrument))
 ///
 /// Returns 1 on success, 0 on error.
 extern int __xray_set_handler(void (*entry)(int32_t, XRayEntryType));

 /// This removes whatever the currently provided handler is. Returns 1 on
 /// success, 0 on error.
 extern int __xray_remove_handler();

 /// Use XRay to log the first argument of each (instrumented) function call.
 /// When this function exits, all threads will have observed the effect and
 /// start logging their subsequent affected function calls (if patched).
 ///
 /// Returns 1 on success, 0 on error.
 extern int __xray_set_handler_arg1(void (*entry)(int32_t, XRayEntryType,
                                                  uint64_t));

 /// Disables the XRay handler used to log first arguments of function calls.
 /// Returns 1 on success, 0 on error.
 extern int __xray_remove_handler_arg1();

 /// Provide a function to invoke when XRay encounters a custom event.
 extern int __xray_set_customevent_handler(void (*entry)(void *, std::size_t));

 /// This removes whatever the currently provided custom event handler is.
 /// Returns 1 on success, 0 on error.
 extern int __xray_remove_customevent_handler();

 /// Set a handler for xray typed event logging. The first parameter is a type
 /// identifier, the second is a payload, and the third is the payload size.
 extern int __xray_set_typedevent_handler(void (*entry)(uint16_t, const void *,
                                                        std::size_t));

 /// Removes the currently set typed event handler.
 /// Returns 1 on success, 0 on error.
 extern int __xray_remove_typedevent_handler();

 extern uint16_t __xray_register_event_type(const char *event_type);

 enum XRayPatchingStatus {
   NOT_INITIALIZED = 0,
   SUCCESS = 1,
   ONGOING = 2,
   FAILED = 3,
 };

 /// This tells XRay to patch the instrumentation points. See XRayPatchingStatus
 /// for possible result values.
 extern XRayPatchingStatus __xray_patch();

 /// Reverses the effect of __xray_patch(). See XRayPatchingStatus for possible
 /// result values.
 extern XRayPatchingStatus __xray_unpatch();

 /// This patches a specific function id. See XRayPatchingStatus for possible
 /// result values.
 extern XRayPatchingStatus __xray_patch_function(int32_t FuncId);

 /// This unpatches a specific function id. See XRayPatchingStatus for possible
 /// result values.
 extern XRayPatchingStatus __xray_unpatch_function(int32_t FuncId);

 /// This function returns the address of the function provided a valid function
 /// id. We return 0 if we encounter any error, even if 0 may be a valid function
 /// address.
 extern uintptr_t __xray_function_address(int32_t FuncId);

 /// This function returns the maximum valid function id. Returns 0 if we
 /// encounter errors (when there are no instrumented functions, etc.).
 extern size_t __xray_max_function_id();

 /// Initialize the required XRay data structures. This is useful in cases where
 /// users want to control precisely when the XRay instrumentation data
 /// structures are initialized, for example when the XRay library is built with
 /// the XRAY_NO_PREINIT preprocessor definition.
 ///
 /// Calling __xray_init() more than once is safe across multiple threads.
 extern void __xray_init();

 } // end extern "C"

 #endif // XRAY_XRAY_INTERFACE_H
	//===- xray_interface.h ------------------------------------------ C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	// This file is a part of XRay, a dynamic runtime instrumentation system.
	//
	// APIs for controlling XRay functionality explicitly.
	//===----------------------------------------------------------------------===//

	#ifndef XRAY_XRAY_INTERFACE_H
	#define XRAY_XRAY_INTERFACE_H

	#include <cstddef>
	#include <cstdint>

	extern "C" {

	/// Synchronize this with AsmPrinter::SledKind in LLVM.
	enum XRayEntryType {
	ENTRY = 0,
	EXIT = 1,
	TAIL = 2,
	LOG_ARGS_ENTRY = 3,
	CUSTOM_EVENT = 4,
	TYPED_EVENT = 5,
	};

	/// Provide a function to invoke for when instrumentation points are hit. This
	/// is a user-visible control surface that overrides the default implementation.
	/// The function provided should take the following arguments:
	///
	/// - function id: an identifier that indicates the id of a function; this id
	/// is generated by xray; the mapping between the function id
	/// and the actual function pointer is available through
	/// __xray_table.
	/// - entry type: identifies what kind of instrumentation point was
	/// encountered (function entry, function exit, etc.). See the
	/// enum XRayEntryType for more details.
	///
	/// The user handler must handle correctly spurious calls after this handler is
	/// removed or replaced with another handler, because it would be too costly for
	/// XRay runtime to avoid spurious calls.
	/// To prevent circular calling, the handler function itself and all its
	/// direct&indirect callees must not be instrumented with XRay, which can be
	/// achieved by marking them all with: __attribute__((xray_never_instrument))
	///
	/// Returns 1 on success, 0 on error.
	extern int __xray_set_handler(void (*entry)(int32_t, XRayEntryType));

	/// This removes whatever the currently provided handler is. Returns 1 on
	/// success, 0 on error.
	extern int __xray_remove_handler();

	/// Use XRay to log the first argument of each (instrumented) function call.
	/// When this function exits, all threads will have observed the effect and
	/// start logging their subsequent affected function calls (if patched).
	///
	/// Returns 1 on success, 0 on error.
	extern int __xray_set_handler_arg1(void (*entry)(int32_t, XRayEntryType,
	uint64_t));

	/// Disables the XRay handler used to log first arguments of function calls.
	/// Returns 1 on success, 0 on error.
	extern int __xray_remove_handler_arg1();

	/// Provide a function to invoke when XRay encounters a custom event.
	extern int __xray_set_customevent_handler(void (entry)(void , std::size_t));

	/// This removes whatever the currently provided custom event handler is.
	/// Returns 1 on success, 0 on error.
	extern int __xray_remove_customevent_handler();

	/// Set a handler for xray typed event logging. The first parameter is a type
	/// identifier, the second is a payload, and the third is the payload size.
	extern int __xray_set_typedevent_handler(void (entry)(uint16_t, const void ,
	std::size_t));

	/// Removes the currently set typed event handler.
	/// Returns 1 on success, 0 on error.
	extern int __xray_remove_typedevent_handler();

	extern uint16_t __xray_register_event_type(const char *event_type);

	enum XRayPatchingStatus {
	NOT_INITIALIZED = 0,
	SUCCESS = 1,
	ONGOING = 2,
	FAILED = 3,
	};

	/// This tells XRay to patch the instrumentation points. See XRayPatchingStatus
	/// for possible result values.
	extern XRayPatchingStatus __xray_patch();

	/// Reverses the effect of __xray_patch(). See XRayPatchingStatus for possible
	/// result values.
	extern XRayPatchingStatus __xray_unpatch();

	/// This patches a specific function id. See XRayPatchingStatus for possible
	/// result values.
	extern XRayPatchingStatus __xray_patch_function(int32_t FuncId);

	/// This unpatches a specific function id. See XRayPatchingStatus for possible
	/// result values.
	extern XRayPatchingStatus __xray_unpatch_function(int32_t FuncId);

	/// This function returns the address of the function provided a valid function
	/// id. We return 0 if we encounter any error, even if 0 may be a valid function
	/// address.
	extern uintptr_t __xray_function_address(int32_t FuncId);

	/// This function returns the maximum valid function id. Returns 0 if we
	/// encounter errors (when there are no instrumented functions, etc.).
	extern size_t __xray_max_function_id();

	/// Initialize the required XRay data structures. This is useful in cases where
	/// users want to control precisely when the XRay instrumentation data
	/// structures are initialized, for example when the XRay library is built with
	/// the XRAY_NO_PREINIT preprocessor definition.
	///
	/// Calling __xray_init() more than once is safe across multiple threads.
	extern void __xray_init();

	} // end extern "C"

	#endif // XRAY_XRAY_INTERFACE_H