Mini Shell
#ifndef RB_DEBUG_H /*-*-C++-*-vi:se ft=cpp:*/
#define RB_DEBUG_H 1
/**
* @file
* @author $Author: ko1 $
* @date Tue Nov 20 20:35:08 2012
* @copyright Copyright (C) 2012 Yukihiro Matsumoto
* @copyright This file is a part of the programming language Ruby.
* Permission is hereby granted, to either redistribute and/or
* modify this file, provided that the conditions mentioned in the
* file COPYING are met. Consult the file for details.
*/
#include "ruby/internal/attr/deprecated.h"
#include "ruby/internal/attr/nonnull.h"
#include "ruby/internal/attr/returns_nonnull.h"
#include "ruby/internal/dllexport.h"
#include "ruby/internal/event.h"
#include "ruby/internal/value.h"
RBIMPL_SYMBOL_EXPORT_BEGIN()
/* Note: This file contains experimental APIs. */
/* APIs can be replaced at Ruby 2.0.1 or later */
/**
* @name Frame-profiling APIs
*
* @{
*/
RBIMPL_ATTR_NONNULL((3))
/**
* Queries mysterious "frame"s of the given range.
*
* The returned values are opaque backtrace pointers, which you are allowed to
* issue a very limited set of operations listed below. Don't call arbitrary
* ruby methods.
*
* @param[in] start Start position (0 means the topmost).
* @param[in] limit Number objects of `buff`.
* @param[out] buff Return buffer.
* @param[out] lines Return buffer.
* @return Number of objects filled into `buff`.
* @post `buff` is filled with backtrace pointers.
* @post `lines` is filled with `__LINE__` of each backtraces.
*
* @internal
*
* @shyouhei doesn't like this abuse of ::VALUE. It should have been
* `const struct rb_callable_method_entry_struct *`.
*/
int rb_profile_frames(int start, int limit, VALUE *buff, int *lines);
/**
* Queries mysterious "frame"s of the given range.
*
* A per-thread version of rb_profile_frames().
* Arguments and return values are the same with rb_profile_frames() with the
* exception of the first argument _thread_, which accepts the Thread to be
* profiled/queried.
*
* @param[in] thread The Ruby Thread to be profiled.
* @param[in] start Start position (0 means the topmost).
* @param[in] limit Number objects of `buff`.
* @param[out] buff Return buffer.
* @param[out] lines Return buffer.
* @return Number of objects filled into `buff`.
* @post `buff` is filled with backtrace pointers.
* @post `lines` is filled with `__LINE__` of each backtraces.
*/
int rb_profile_thread_frames(VALUE thread, int start, int limit, VALUE *buff, int *lines);
/**
* Queries the path of the passed backtrace.
*
* @param[in] frame What rb_profile_frames() returned.
* @retval RUBY_Qnil The frame is implemented in C etc.
* @retval otherwise Where `frame` is running.
*/
VALUE rb_profile_frame_path(VALUE frame);
/**
* Identical to rb_profile_frame_path(), except it tries to expand the
* returning path. In case the path is `require`-d from something else
* rb_profile_frame_path() can return relative paths. This one tries to avoid
* that.
*
* @param[in] frame What rb_profile_frames() returned.
* @retval "<cfunc>" The frame is in C.
* @retval RUBY_Qnil Can't infer real path (inside of `eval` etc.).
* @retval otherwise Where `frame` is running.
*/
VALUE rb_profile_frame_absolute_path(VALUE frame);
/**
* Queries human-readable "label" string. This is `"<main>"` for the toplevel,
* `"<compiled>"` for evaluated ones, method name for methods, class name for
* classes.
*
* @param[in] frame What rb_profile_frames() returned.
* @retval RUBY_Qnil Can't infer the label (C etc.).
* @retval "<main>" The frame is global toplevel.
* @retval "<compiled>" The frame is dynamic.
* @retval otherwise Label of the frame.
*/
VALUE rb_profile_frame_label(VALUE frame);
/**
* Identical to rb_profile_frame_label(), except it does not "qualify" the
* result. Consider the following backtrace:
*
* ```ruby
* def bar
* caller_locations
* end
*
* def foo
* [1].map { bar }.first
* end
*
* obj = foo.first
* obj.label # => "block in foo"
* obj.base_label # => "foo"
* ```
*
* @param[in] frame What rb_profile_frames() returned.
* @retval RUBY_Qnil Can't infer the label (C etc.).
* @retval "<main>" The frame is global toplevel.
* @retval "<compiled>" The frame is dynamic.
* @retval otherwise Base label of the frame.
*/
VALUE rb_profile_frame_base_label(VALUE frame);
/**
* Identical to rb_profile_frame_label(), except it returns a qualified result.
*
* @param[in] frame What rb_profile_frames() returned.
* @retval RUBY_Qnil Can't infer the label (C etc.).
* @retval "<main>" The frame is global toplevel.
* @retval "<compiled>" The frame is dynamic.
* @retval otherwise Qualified label of the frame.
*
* @internal
*
* As of writing there is no way to obtain this return value from a Ruby
* script. This may change in future (it took 8 years and still no progress,
* though).
*/
VALUE rb_profile_frame_full_label(VALUE frame);
/**
* Queries the first line of the method of the passed frame pointer. Can be
* handy when for instance a debugger want to display the frame in question.
*
* @param[in] frame What rb_profile_frames() returned.
* @retval RUBY_Qnil Can't infer the line (C etc.).
* @retval otherwise Line number of the method in question.
*/
VALUE rb_profile_frame_first_lineno(VALUE frame);
/**
* Queries the class path of the method that the passed frame represents.
*
* @param[in] frame What rb_profile_frames() returned.
* @retval RUBY_Qnil Can't infer the class (global toplevel etc.).
* @retval otherwise Class path as in rb_class_path().
*/
VALUE rb_profile_frame_classpath(VALUE frame);
/**
* Queries if the method of the passed frame is a singleton class.
*
* @param[in] frame What rb_profile_frames() returned.
* @retval RUBY_Qtrue It is a singleton method.
* @retval RUBY_Qfalse Otherwise (normal method/non-method).
*/
VALUE rb_profile_frame_singleton_method_p(VALUE frame);
/**
* Queries the name of the method of the passed frame.
*
* @param[in] frame What rb_profile_frames() returned.
* @retval RUBY_Qnil The frame in question is not a method.
* @retval otherwise Name of the method of the frame.
*/
VALUE rb_profile_frame_method_name(VALUE frame);
/**
* Identical to rb_profile_frame_method_name(), except it "qualifies" the
* return value with its defining class.
*
* @param[in] frame What rb_profile_frames() returned.
* @retval RUBY_Qnil The frame in question is not a method.
* @retval otherwise Qualified name of the method of the frame.
*/
VALUE rb_profile_frame_qualified_method_name(VALUE frame);
/** @} */
/**
* @name Debug inspector APIs
*
* @{
*/
/** Opaque struct representing a debug inspector. */
typedef struct rb_debug_inspector_struct rb_debug_inspector_t;
/**
* Type of the callback function passed to rb_debug_inspector_open().
* Inspection shall happen only inside of them. The passed pointers gets
* invalidated once after the callback returns.
*
* @param[in] dc A debug context.
* @param[in,out] data What was passed to rb_debug_inspector_open().
* @return What would be the return value of rb_debug_inspector_open().
*/
typedef VALUE (*rb_debug_inspector_func_t)(const rb_debug_inspector_t *dc, void *data);
/**
* Prepares, executes, then cleans up a debug session.
*
* @param[in] func A callback to run inside of a debug session.
* @param[in,out] data Passed as-is to `func`.
* @return What was returned from `func`.
*/
VALUE rb_debug_inspector_open(rb_debug_inspector_func_t func, void *data);
/**
* Queries the backtrace object of the context. This is as if you call
* `caller_locations` at the point of debugger.
*
* @param[in] dc A debug context.
* @return An array of `Thread::Backtrace::Location` which represents the
* current point of execution at `dc`.
*/
VALUE rb_debug_inspector_backtrace_locations(const rb_debug_inspector_t *dc);
/**
* Queries the current receiver of the passed context's upper frame.
*
* @param[in] dc A debug context.
* @param[in] index Index of the frame from top to bottom.
* @exception rb_eArgError `index` out of range.
* @return The current receiver at `index`-th frame.
*/
VALUE rb_debug_inspector_frame_self_get(const rb_debug_inspector_t *dc, long index);
/**
* Queries the current class of the passed context's upper frame.
*
* @param[in] dc A debug context.
* @param[in] index Index of the frame from top to bottom.
* @exception rb_eArgError `index` out of range.
* @return The current class at `index`-th frame.
*/
VALUE rb_debug_inspector_frame_class_get(const rb_debug_inspector_t *dc, long index);
/**
* Queries the binding of the passed context's upper frame.
*
* @param[in] dc A debug context.
* @param[in] index Index of the frame from top to bottom.
* @exception rb_eArgError `index` out of range.
* @return The binding at `index`-th frame.
*/
VALUE rb_debug_inspector_frame_binding_get(const rb_debug_inspector_t *dc, long index);
/**
* Queries the instruction sequence of the passed context's upper frame.
*
* @param[in] dc A debug context.
* @param[in] index Index of the frame from top to bottom.
* @exception rb_eArgError `index` out of range.
* @retval RUBY_Qnil `index`-th frame is not in Ruby (C etc.).
* @retval otherwise An instance of `RubyVM::InstructionSequence` which
* represents the instruction sequence at `index`-th
* frame.
*/
VALUE rb_debug_inspector_frame_iseq_get(const rb_debug_inspector_t *dc, long index);
/**
* Queries the depth of the passed context's upper frame.
*
* Note that the depth is not same as the frame index because debug_inspector
* skips some special frames but the depth counts all frames.
*
* @param[in] dc A debug context.
* @param[in] index Index of the frame from top to bottom.
* @exception rb_eArgError `index` out of range.
* @retval The depth at `index`-th frame in Integer.
*/
VALUE rb_debug_inspector_frame_depth(const rb_debug_inspector_t *dc, long index);
// A macro to recognize `rb_debug_inspector_frame_depth()` is available or not
#define RB_DEBUG_INSPECTOR_FRAME_DEPTH(dc, index) rb_debug_inspector_frame_depth(dc, index)
/**
* Return current frmae depth.
*
* @retval The depth of the current frame in Integer.
*/
VALUE rb_debug_inspector_current_depth(void);
/** @} */
/**
* @name Old style set_trace_func APIs
*
* @{
*/
/* duplicated def of include/ruby/ruby.h */
#include "ruby/internal/event.h"
/**
* Identical to rb_remove_event_hook(), except it additionally takes the data
* argument. This extra argument is the same as that of rb_add_event_hook(),
* and this function removes the hook which matches both arguments at once.
*
* @param[in] func A callback.
* @param[in] data What to be passed to `func`.
* @return Number of deleted event hooks.
* @note As multiple events can share the same `func` it is quite
* possible for the return value to become more than one.
*/
int rb_remove_event_hook_with_data(rb_event_hook_func_t func, VALUE data);
/**
* Identical to rb_add_event_hook(), except its effect is limited to the passed
* thread. Other threads are not affected by this.
*
* @param[in] thval An instance of ::rb_cThread.
* @param[in] func A callback.
* @param[in] events A set of events that `func` should run.
* @param[in] data Passed as-is to `func`.
* @exception rb_eTypeError `thval` is not a thread.
*/
void rb_thread_add_event_hook(VALUE thval, rb_event_hook_func_t func, rb_event_flag_t events, VALUE data);
/**
* Identical to rb_remove_event_hook(), except it additionally takes a thread
* argument. This extra argument is the same as that of
* rb_thread_add_event_hook(), and this function removes the hook which matches
* both arguments at once.
*
* @param[in] thval An instance of ::rb_cThread.
* @param[in] func A callback.
* @exception rb_eTypeError `thval` is not a thread.
* @return Number of deleted event hooks.
* @note As multiple events can share the same `func` it is quite
* possible for the return value to become more than one.
*/
int rb_thread_remove_event_hook(VALUE thval, rb_event_hook_func_t func);
/**
* Identical to rb_thread_remove_event_hook(), except it additionally takes the
* data argument. It can also be seen as a routine identical to
* rb_remove_event_hook_with_data(), except it additionally takes the thread.
* This function deletes hooks that satisfy all three criteria.
*
* @param[in] thval An instance of ::rb_cThread.
* @param[in] func A callback.
* @param[in] data What to be passed to `func`.
* @exception rb_eTypeError `thval` is not a thread.
* @return Number of deleted event hooks.
* @note As multiple events can share the same `func` it is quite
* possible for the return value to become more than one.
*/
int rb_thread_remove_event_hook_with_data(VALUE thval, rb_event_hook_func_t func, VALUE data);
/** @} */
/**
* @name TracePoint APIs
*
* @{
*/
/**
* Creates a tracepoint by registering a callback function for one or more
* tracepoint events. Once the tracepoint is created, you can use
* rb_tracepoint_enable to enable the tracepoint.
*
* @param[in] target_thread_not_supported_yet Meant for picking the
* thread in which the tracepoint is to be created.
* However, current implementation ignore this
* parameter, tracepoint is created for all threads.
* Simply specify Qnil.
* @param[in] events Event(s) to listen to.
* @param[in] func A callback function.
* @param[in,out] data Void pointer that will be passed to the callback
* function.
*
* When the callback function is called, it will be passed 2 parameters:
* 1. `VALUE tpval` - the TracePoint object from which trace args can be
* extracted.
* 1. `void *data` - A void pointer which helps to share scope with the
* callback function.
*
* It is important to note that you cannot register callbacks for normal events
* and internal events simultaneously because they are different purpose. You
* can use any Ruby APIs (calling methods and so on) on normal event hooks.
* However, in internal events, you can not use any Ruby APIs (even object
* creations). This is why we can't specify internal events by TracePoint
* directly. Limitations are MRI version specific.
*
* Example:
*
* ```CXX
* rb_tracepoint_new(
* Qnil,
* RUBY_INTERNAL_EVENT_NEWOBJ | RUBY_INTERNAL_EVENT_FREEOBJ,
* obj_event_i,
* data);
* ```
*
* In this example, a callback function `obj_event_i` will be registered for
* internal events #RUBY_INTERNAL_EVENT_NEWOBJ and
* #RUBY_INTERNAL_EVENT_FREEOBJ.
*/
VALUE rb_tracepoint_new(VALUE target_thread_not_supported_yet, rb_event_flag_t events, void (*func)(VALUE, void *), void *data);
/**
* Starts (enables) trace(s) defined by the passed object. A TracePoint object
* does not immediately take effect on creation. You have to explicitly call
* this API.
*
* @param[in] tpval An instance of TracePoint.
* @exception rb_eArgError A trace is already running.
* @return Undefined value. Forget this. It should have returned `void`.
* @post Trace(s) defined by `tpval` start.
*/
VALUE rb_tracepoint_enable(VALUE tpval);
/**
* Stops (disables) an already running instance of TracePoint.
*
* @param[in] tpval An instance of TracePoint.
* @return Undefined value. Forget this. It should have returned `void`.
* @post Trace(s) defined by `tpval` stop.
*/
VALUE rb_tracepoint_disable(VALUE tpval);
/**
* Queries if the passed TracePoint is up and running.
*
* @param[in] tpval An instance of TracePoint.
* @retval RUBY_Qtrue It is.
* @retval RUBY_Qfalse It isn't.
*/
VALUE rb_tracepoint_enabled_p(VALUE tpval);
/**
* Type that represents a specific trace event. Roughly resembles the
* tracepoint object that is passed to the block of `TracePoint.new`:
*
* ```ruby
* TracePoint.new(*events) do |obj|
* ... # ^^^^^ Resembles this object.
* end
* ```
*/
typedef struct rb_trace_arg_struct rb_trace_arg_t;
RBIMPL_ATTR_RETURNS_NONNULL()
/**
* Queries the current event of the passed tracepoint.
*
* @param[in] tpval An instance of TracePoint.
* @exception rb_eRuntimeError `tpval` is disabled.
* @return The current event.
*
* @internal
*
* `tpval` is a fake. There is only one instance of ::rb_trace_arg_t at one
* time. This function just returns that global variable.
*/
rb_trace_arg_t *rb_tracearg_from_tracepoint(VALUE tpval);
RBIMPL_ATTR_NONNULL(())
/**
* Queries the event of the passed trace.
*
* @param[in] trace_arg A trace instance.
* @return Its event.
*/
rb_event_flag_t rb_tracearg_event_flag(rb_trace_arg_t *trace_arg);
RBIMPL_ATTR_NONNULL(())
/**
* Identical to rb_tracearg_event_flag(), except it returns the name of the
* event in Ruby's symbol.
*
* @param[in] trace_arg A trace instance.
* @return Its event, in Ruby level Symbol object.
*/
VALUE rb_tracearg_event(rb_trace_arg_t *trace_arg);
RBIMPL_ATTR_NONNULL(())
/**
* Queries the line of the point where the trace is at.
*
* @param[in] trace_arg A trace instance.
* @retval 0 The trace is not at Ruby frame.
* @return otherwise Its line number.
*/
VALUE rb_tracearg_lineno(rb_trace_arg_t *trace_arg);
RBIMPL_ATTR_NONNULL(())
/**
* Queries the file name of the point where the trace is at.
*
* @param[in] trace_arg A trace instance.
* @retval RUBY_Qnil The trace is not at Ruby frame.
* @retval otherwise Its path.
*/
VALUE rb_tracearg_path(rb_trace_arg_t *trace_arg);
RBIMPL_ATTR_NONNULL(())
/**
* Queries the method name of the point where the trace is at.
*
* @param[in] trace_arg A trace instance.
* @retval RUBY_Qnil There is no method.
* @retval otherwise Its method name, in Ruby level Symbol.
*/
VALUE rb_tracearg_method_id(rb_trace_arg_t *trace_arg);
RBIMPL_ATTR_NONNULL(())
/**
* Identical to rb_tracearg_method_id(), except it returns callee id like
* rb_frame_callee().
*
* @param[in] trace_arg A trace instance.
* @retval RUBY_Qnil There is no method.
* @retval otherwise Its method name, in Ruby level Symbol.
*/
VALUE rb_tracearg_callee_id(rb_trace_arg_t *trace_arg);
RBIMPL_ATTR_NONNULL(())
/**
* Queries the class that defines the method that the passed trace is at. This
* can be different from the class of rb_tracearg_self()'s return value because
* of inheritance(s).
*
* @param[in] trace_arg A trace instance.
* @retval RUBY_Qnil There is no method.
* @retval otherwise Its method's class.
*/
VALUE rb_tracearg_defined_class(rb_trace_arg_t *trace_arg);
RBIMPL_ATTR_NONNULL(())
/**
* Creates a binding object of the point where the trace is at.
*
* @param[in] trace_arg A trace instance.
* @retval RUBY_Qnil The point has no binding.
* @retval otherwise Its binding.
*
* @internal
*
* @shyouhei has no idea on which situation shall this function return
* ::RUBY_Qnil.
*/
VALUE rb_tracearg_binding(rb_trace_arg_t *trace_arg);
RBIMPL_ATTR_NONNULL(())
/**
* Queries the receiver of the point trace is at.
*
* @param[in] trace_arg A trace instance.
* @return Its receiver.
*/
VALUE rb_tracearg_self(rb_trace_arg_t *trace_arg);
RBIMPL_ATTR_NONNULL(())
/**
* Queries the return value that the trace represents.
*
* @param[in] trace_arg A trace instance.
* @exception rb_eRuntimeError The tracing event is not return-related.
* @return The return value.
*/
VALUE rb_tracearg_return_value(rb_trace_arg_t *trace_arg);
RBIMPL_ATTR_NONNULL(())
/**
* Queries the raised exception that the trace represents.
*
* @param[in] trace_arg A trace instance.
* @exception rb_eRuntimeError The tracing event is not exception-related.
* @return The raised exception.
*/
VALUE rb_tracearg_raised_exception(rb_trace_arg_t *trace_arg);
RBIMPL_ATTR_NONNULL(())
/**
* Queries the allocated/deallocated object that the trace represents.
*
* @param[in] trace_arg A trace instance.
* @exception rb_eRuntimeError The tracing event is not GC-related.
* @return The allocated/deallocated object.
*/
VALUE rb_tracearg_object(rb_trace_arg_t *trace_arg);
/** @} */
/**
* @name Postponed Job API
*
* @{
*/
/*
* Postponed Job API
*
* This API is designed to be called from contexts where it is not safe to run Ruby
* code (e.g. because they do not hold the GVL or because GC is in progress), and
* defer a callback to run in a context where it _is_ safe. The primary intended
* users of this API is for sampling profilers like the "stackprof" gem; these work
* by scheduling the periodic delivery of a SIGPROF signal, and inside the C-level
* signal handler, deferring a job to collect a Ruby backtrace when it is next safe
* to do so.
*
* Ruby maintains a small, fixed-size postponed job table. An extension using this
* API should first call `rb_postponed_job_preregister` to register a callback
* function in this table and obtain a handle of type `rb_postponed_job_handle_t`
* to it. Subsequently, the callback can be triggered by calling
* `rb_postponed_job_trigger` with that handle, or the `data` associated with the
* callback function can be changed by calling `rb_postponed_job_preregister` again.
*
* Because the postponed job table is quite small (it only has 32 entries on most
* common systems), extensions should generally only preregister one or two `func`
* values.
*
* Historically, this API provided two functions `rb_postponed_job_register` and
* `rb_postponed_job_register_one`, which claimed to be fully async-signal-safe and
* would call back the provided `func` and `data` at an appropriate time. However,
* these functions were subject to race conditions which could cause crashes when
* racing with Ruby's internal use of them. These two functions are still present,
* but are marked as deprecated and have slightly changed semantics:
*
* * rb_postponed_job_register now works like rb_postponed_job_register_one i.e.
* `func` will only be executed at most one time each time Ruby checks for
* interrupts, no matter how many times it is registered
* * They are also called with the last `data` to be registered, not the first
* (which is how rb_postponed_job_register_one previously worked)
*/
/**
* Type of postponed jobs.
*
* @param[in,out] arg What was passed to `rb_postponed_job_preregister`
*/
typedef void (*rb_postponed_job_func_t)(void *arg);
/**
* The type of a handle returned from `rb_postponed_job_preregister` and
* passed to `rb_postponed_job_trigger`
*/
typedef unsigned int rb_postponed_job_handle_t;
#define POSTPONED_JOB_HANDLE_INVALID ((rb_postponed_job_handle_t)UINT_MAX)
/**
* Pre-registers a func in Ruby's postponed job preregistration table,
* returning an opaque handle which can be used to trigger the job later. Generally,
* this function will be called during the initialization routine of an extension.
*
* The returned handle can be used later to call `rb_postponed_job_trigger`. This will
* cause Ruby to call back into the registered `func` with `data` at a later time, in
* a context where the GVL is held and it is safe to perform Ruby allocations.
*
* If the given `func` was already pre-registered, this function will overwrite the
* stored data with the newly passed data, and return the same handle instance as
* was previously returned.
*
* If this function is called concurrently with the same `func`, then the stored data
* could be the value from either call (but will definitely be one of them).
*
* If this function is called to update the data concurrently with a call to
* `rb_postponed_job_trigger` on the same handle, it's undefined whether `func` will
* be called with the old data or the new data.
*
* Although the current implementation of this function is in fact async-signal-safe and
* has defined semantics when called concurrently on the same `func`, a future Ruby
* version might require that this method be called under the GVL; thus, programs which
* aim to be forward-compatible should call this method whilst holding the GVL.
*
* @param[in] flags Unused and ignored
* @param[in] func The function to be pre-registered
* @param[in] data The data to be pre-registered
* @retval POSTPONED_JOB_HANDLE_INVALID The job table is full; this registration
* did not succeed and no further registration will do so for
* the lifetime of the program.
* @retval otherwise A handle which can be passed to `rb_postponed_job_trigger`
*/
rb_postponed_job_handle_t rb_postponed_job_preregister(unsigned int flags, rb_postponed_job_func_t func, void *data);
/**
* Triggers a pre-registered job registered with rb_postponed_job_preregister,
* scheduling it for execution the next time the Ruby VM checks for interrupts.
* The context in which the job is called in holds the GVL and is safe to perform
* Ruby allocations within (i.e. it is not during GC).
*
* This method is async-signal-safe and can be called from any thread, at any
* time, including in signal handlers.
*
* If this method is called multiple times, Ruby will coalesce this into only
* one call to the job the next time it checks for interrupts.
*
* @params[in] h A handle returned from rb_postponed_job_preregister
*/
void rb_postponed_job_trigger(rb_postponed_job_handle_t h);
/**
* Schedules the given `func` to be called with `data` when Ruby next checks for
* interrupts. If this function is called multiple times in between Ruby checking
* for interrupts, then `func` will be called only once with the `data` value from
* the first call to this function.
*
* Like `rb_postponed_job_trigger`, the context in which the job is called
* holds the GVL and can allocate Ruby objects.
*
* This method essentially has the same semantics as:
*
* ```
* rb_postponed_job_trigger(rb_postponed_job_preregister(func, data));
* ```
*
* @note Previous versions of Ruby promised that the (`func`, `data`) pairs would
* be executed as many times as they were registered with this function; in
* reality this was always subject to race conditions and this function no
* longer provides this guarantee. Instead, multiple calls to this function
* can be coalesced into a single execution of the passed `func`, with the
* most recent `data` registered at that time passed in.
*
* @deprecated This interface implies that arbitrarily many `func`'s can be enqueued
* over the lifetime of the program, whilst in reality the registration
* slots for postponed jobs are a finite resource. This is made clearer
* by the `rb_postponed_job_preregister` and `rb_postponed_job_trigger`
* functions, and a future version of Ruby might delete this function.
*
* @param[in] flags Unused and ignored.
* @param[in] func Job body.
* @param[in,out] data Passed as-is to `func`.
* @retval 0 Postponed job registration table is full. Failed.
* @retval 1 Registration succeeded.
* @post The passed job will run on the next interrupt check.
*/
RBIMPL_ATTR_DEPRECATED(("use rb_postponed_job_preregister and rb_postponed_job_trigger"))
int rb_postponed_job_register(unsigned int flags, rb_postponed_job_func_t func, void *data);
/**
* Identical to `rb_postponed_job_register`
*
* @deprecated This is deprecated for the same reason as `rb_postponed_job_register`
*
* @param[in] flags Unused and ignored.
* @param[in] func Job body.
* @param[in,out] data Passed as-is to `func`.
* @retval 0 Postponed job registration table is full. Failed.
* @retval 1 Registration succeeded.
* @post The passed job will run on the next interrupt check.
*/
RBIMPL_ATTR_DEPRECATED(("use rb_postponed_job_preregister and rb_postponed_job_trigger"))
int rb_postponed_job_register_one(unsigned int flags, rb_postponed_job_func_t func, void *data);
/** @} */
/**
* @cond INTERNAL_MACRO
*
* Anything after this are intentionally left undocumented, to honour the
* comment below.
*/
/* undocumented advanced tracing APIs */
typedef enum {
RUBY_EVENT_HOOK_FLAG_SAFE = 0x01,
RUBY_EVENT_HOOK_FLAG_DELETED = 0x02,
RUBY_EVENT_HOOK_FLAG_RAW_ARG = 0x04
} rb_event_hook_flag_t;
void rb_add_event_hook2(rb_event_hook_func_t func, rb_event_flag_t events, VALUE data, rb_event_hook_flag_t hook_flag);
void rb_thread_add_event_hook2(VALUE thval, rb_event_hook_func_t func, rb_event_flag_t events, VALUE data, rb_event_hook_flag_t hook_flag);
/** @endcond */
RBIMPL_SYMBOL_EXPORT_END()
#endif /* RUBY_DEBUG_H */
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