xref: /freebsd/contrib/llvm-project/lldb/include/lldb/Breakpoint/BreakpointOptions.h (revision 81ad626541db97eb356e2c1d4a20eb2a26a766ab)
1 //===-- BreakpointOptions.h -------------------------------------*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 
9 #ifndef LLDB_BREAKPOINT_BREAKPOINTOPTIONS_H
10 #define LLDB_BREAKPOINT_BREAKPOINTOPTIONS_H
11 
12 #include <memory>
13 #include <string>
14 
15 #include "lldb/Utility/Baton.h"
16 #include "lldb/Utility/Flags.h"
17 #include "lldb/Utility/StringList.h"
18 #include "lldb/Utility/StructuredData.h"
19 #include "lldb/lldb-private.h"
20 
21 namespace lldb_private {
22 
23 /// \class BreakpointOptions BreakpointOptions.h
24 /// "lldb/Breakpoint/BreakpointOptions.h" Class that manages the options on a
25 /// breakpoint or breakpoint location.
26 
27 class BreakpointOptions {
28 friend class BreakpointLocation;
29 friend class BreakpointName;
30 friend class lldb_private::BreakpointOptionGroup;
31 friend class Breakpoint;
32 
33 public:
34   enum OptionKind {
35     eCallback     = 1 << 0,
36     eEnabled      = 1 << 1,
37     eOneShot      = 1 << 2,
38     eIgnoreCount  = 1 << 3,
39     eThreadSpec   = 1 << 4,
40     eCondition    = 1 << 5,
41     eAutoContinue = 1 << 6,
42     eAllOptions   = (eCallback | eEnabled | eOneShot | eIgnoreCount | eThreadSpec
43                      | eCondition | eAutoContinue)
44   };
45   struct CommandData {
46     CommandData() = default;
47 
CommandDataCommandData48     CommandData(const StringList &user_source, lldb::ScriptLanguage interp)
49         : user_source(user_source), interpreter(interp), stop_on_error(true) {}
50 
51     virtual ~CommandData() = default;
52 
GetSerializationKeyCommandData53     static const char *GetSerializationKey() { return "BKPTCMDData"; }
54 
55     StructuredData::ObjectSP SerializeToStructuredData();
56 
57     static std::unique_ptr<CommandData>
58     CreateFromStructuredData(const StructuredData::Dictionary &options_dict,
59                              Status &error);
60 
61     StringList user_source;
62     std::string script_source;
63     enum lldb::ScriptLanguage interpreter =
64         lldb::eScriptLanguageNone; // eScriptLanguageNone means command
65                                    // interpreter.
66     bool stop_on_error = true;
67 
68   private:
69     enum class OptionNames : uint32_t {
70       UserSource = 0,
71       Interpreter,
72       StopOnError,
73       LastOptionName
74     };
75 
76     static const char
77         *g_option_names[static_cast<uint32_t>(OptionNames::LastOptionName)];
78 
GetKeyCommandData79     static const char *GetKey(OptionNames enum_value) {
80       return g_option_names[static_cast<uint32_t>(enum_value)];
81     }
82   };
83 
84   class CommandBaton : public TypedBaton<CommandData> {
85   public:
CommandBaton(std::unique_ptr<CommandData> Data)86     explicit CommandBaton(std::unique_ptr<CommandData> Data)
87         : TypedBaton(std::move(Data)) {}
88 
89     void GetDescription(llvm::raw_ostream &s, lldb::DescriptionLevel level,
90                         unsigned indentation) const override;
91   };
92 
93   typedef std::shared_ptr<CommandBaton> CommandBatonSP;
94 
95   // Constructors and Destructors
96 
97   /// This constructor allows you to specify all the breakpoint options except
98   /// the callback.  That one is more complicated, and better to do by hand.
99   ///
100   /// \param[in] condition
101   ///    The expression which if it evaluates to \b true if we are to stop
102   ///
103   /// \param[in] enabled
104   ///    Is this breakpoint enabled.
105   ///
106   /// \param[in] ignore
107   ///    How many breakpoint hits we should ignore before stopping.
108   ///
109   /// \param[in] one_shot
110   ///    Should this breakpoint delete itself after being hit once.
111   ///
112   /// \param[in] auto_continue
113   ///    Should this breakpoint auto-continue after running its commands.
114   ///
115   BreakpointOptions(const char *condition, bool enabled = true,
116                     int32_t ignore = 0, bool one_shot = false,
117                     bool auto_continue = false);
118 
119   /// Breakpoints make options with all flags set.  Locations and Names make
120   /// options with no flags set.
121   BreakpointOptions(bool all_flags_set);
122   BreakpointOptions(const BreakpointOptions &rhs);
123 
124   virtual ~BreakpointOptions();
125 
126   static std::unique_ptr<BreakpointOptions>
127   CreateFromStructuredData(Target &target,
128                            const StructuredData::Dictionary &data_dict,
129                            Status &error);
130 
131   virtual StructuredData::ObjectSP SerializeToStructuredData();
132 
GetSerializationKey()133   static const char *GetSerializationKey() { return "BKPTOptions"; }
134 
135   // Operators
136   const BreakpointOptions &operator=(const BreakpointOptions &rhs);
137 
138   /// Copy over only the options set in the incoming BreakpointOptions.
139   void CopyOverSetOptions(const BreakpointOptions &rhs);
140 
141   // Callbacks
142   //
143   // Breakpoint callbacks come in two forms, synchronous and asynchronous.
144   // Synchronous callbacks will get run before any of the thread plans are
145   // consulted, and if they return false the target will continue "under the
146   // radar" of the thread plans.  There are a couple of restrictions to
147   // synchronous callbacks:
148   // 1) They should NOT resume the target themselves.
149   //     Just return false if you want the target to restart.
150   // 2) Breakpoints with synchronous callbacks can't have conditions
151   //    (or rather, they can have them, but they won't do anything.
152   //    Ditto with ignore counts, etc...  You are supposed to control that all
153   //    through the callback.
154   // Asynchronous callbacks get run as part of the "ShouldStop" logic in the
155   // thread plan.  The logic there is:
156   //   a) If the breakpoint is thread specific and not for this thread, continue
157   //   w/o running the callback.
158   //      NB. This is actually enforced underneath the breakpoint system, the
159   //      Process plugin is expected to
160   //      call BreakpointSite::IsValidForThread, and set the thread's StopInfo
161   //      to "no reason".  That way,
162   //      thread displays won't show stops for breakpoints not for that
163   //      thread...
164   //   b) If the ignore count says we shouldn't stop, then ditto.
165   //   c) If the condition says we shouldn't stop, then ditto.
166   //   d) Otherwise, the callback will get run, and if it returns true we will
167   //      stop, and if false we won't.
168   //  The asynchronous callback can run the target itself, but at present that
169   //  should be the last action the callback does.  We will relax this condition
170   //  at some point, but it will take a bit of plumbing to get that to work.
171   //
172 
173   /// Adds a callback to the breakpoint option set.
174   ///
175   /// \param[in] callback
176   ///    The function to be called when the breakpoint gets hit.
177   ///
178   /// \param[in] baton_sp
179   ///    A baton which will get passed back to the callback when it is invoked.
180   ///
181   /// \param[in] synchronous
182   ///    Whether this is a synchronous or asynchronous callback.  See discussion
183   ///    above.
184   void SetCallback(BreakpointHitCallback callback,
185                    const lldb::BatonSP &baton_sp, bool synchronous = false);
186 
187   void SetCallback(BreakpointHitCallback callback,
188                    const BreakpointOptions::CommandBatonSP &command_baton_sp,
189                    bool synchronous = false);
190 
191   /// Returns the command line commands for the callback on this breakpoint.
192   ///
193   /// \param[out] command_list
194   ///    The commands will be appended to this list.
195   ///
196   /// \return
197   ///    \b true if the command callback is a command-line callback,
198   ///    \b false otherwise.
199   bool GetCommandLineCallbacks(StringList &command_list);
200 
201   /// Remove the callback from this option set.
202   void ClearCallback();
203 
204   // The rest of these functions are meant to be used only within the
205   // breakpoint handling mechanism.
206 
207   /// Use this function to invoke the callback for a specific stop.
208   ///
209   /// \param[in] context
210   ///    The context in which the callback is to be invoked.  This includes the
211   ///    stop event, the
212   ///    execution context of the stop (since you might hit the same breakpoint
213   ///    on multiple threads) and
214   ///    whether we are currently executing synchronous or asynchronous
215   ///    callbacks.
216   ///
217   /// \param[in] break_id
218   ///    The breakpoint ID that owns this option set.
219   ///
220   /// \param[in] break_loc_id
221   ///    The breakpoint location ID that owns this option set.
222   ///
223   /// \return
224   ///     The callback return value.
225   bool InvokeCallback(StoppointCallbackContext *context,
226                       lldb::user_id_t break_id, lldb::user_id_t break_loc_id);
227 
228   /// Used in InvokeCallback to tell whether it is the right time to run this
229   /// kind of callback.
230   ///
231   /// \return
232   ///     The synchronicity of our callback.
IsCallbackSynchronous()233   bool IsCallbackSynchronous() const { return m_callback_is_synchronous; }
234 
235   /// Fetch the baton from the callback.
236   ///
237   /// \return
238   ///     The baton.
239   Baton *GetBaton();
240 
241   /// Fetch  a const version of the baton from the callback.
242   ///
243   /// \return
244   ///     The baton.
245   const Baton *GetBaton() const;
246 
247   // Condition
248   /// Set the breakpoint option's condition.
249   ///
250   /// \param[in] condition
251   ///    The condition expression to evaluate when the breakpoint is hit.
252   void SetCondition(const char *condition);
253 
254   /// Return a pointer to the text of the condition expression.
255   ///
256   /// \return
257   ///    A pointer to the condition expression text, or nullptr if no
258   //     condition has been set.
259   const char *GetConditionText(size_t *hash = nullptr) const;
260 
261   // Enabled/Ignore Count
262 
263   /// Check the Enable/Disable state.
264   /// \return
265   ///     \b true if the breakpoint is enabled, \b false if disabled.
IsEnabled()266   bool IsEnabled() const { return m_enabled; }
267 
268   /// If \a enable is \b true, enable the breakpoint, if \b false disable it.
SetEnabled(bool enabled)269   void SetEnabled(bool enabled) {
270     m_enabled = enabled;
271     m_set_flags.Set(eEnabled);
272   }
273 
274   /// Check the auto-continue state.
275   /// \return
276   ///     \b true if the breakpoint is set to auto-continue, \b false otherwise.
IsAutoContinue()277   bool IsAutoContinue() const { return m_auto_continue; }
278 
279   /// Set the auto-continue state.
SetAutoContinue(bool auto_continue)280   void SetAutoContinue(bool auto_continue) {
281     m_auto_continue = auto_continue;
282     m_set_flags.Set(eAutoContinue);
283   }
284 
285   /// Check the One-shot state.
286   /// \return
287   ///     \b true if the breakpoint is one-shot, \b false otherwise.
IsOneShot()288   bool IsOneShot() const { return m_one_shot; }
289 
290   /// If \a enable is \b true, enable the breakpoint, if \b false disable it.
SetOneShot(bool one_shot)291   void SetOneShot(bool one_shot) {
292     m_one_shot = one_shot;
293     m_set_flags.Set(eOneShot);
294   }
295 
296   /// Set the breakpoint to ignore the next \a count breakpoint hits.
297   /// \param[in] n
298   ///    The number of breakpoint hits to ignore.
SetIgnoreCount(uint32_t n)299   void SetIgnoreCount(uint32_t n) {
300     m_ignore_count = n;
301     m_set_flags.Set(eIgnoreCount);
302   }
303 
304   /// Return the current Ignore Count.
305   /// \return
306   ///     The number of breakpoint hits to be ignored.
GetIgnoreCount()307   uint32_t GetIgnoreCount() const { return m_ignore_count; }
308 
309   /// Return the current thread spec for this option. This will return nullptr
310   /// if the no thread specifications have been set for this Option yet.
311   /// \return
312   ///     The thread specification pointer for this option, or nullptr if none
313   ///     has
314   ///     been set yet.
315   const ThreadSpec *GetThreadSpecNoCreate() const;
316 
317   /// Returns a pointer to the ThreadSpec for this option, creating it. if it
318   /// hasn't been created already.   This API is used for setting the
319   /// ThreadSpec items for this option.
320   ThreadSpec *GetThreadSpec();
321 
322   void SetThreadID(lldb::tid_t thread_id);
323 
324   void GetDescription(Stream *s, lldb::DescriptionLevel level) const;
325 
326   /// Check if the breakpoint option has a callback set.
327   ///
328   /// \return
329   ///    If the breakpoint option has a callback, \b true otherwise \b false.
330   bool HasCallback() const;
331 
332   /// This is the default empty callback.
333   static bool NullCallback(void *baton, StoppointCallbackContext *context,
334                            lldb::user_id_t break_id,
335                            lldb::user_id_t break_loc_id);
336 
337   /// Set a callback based on BreakpointOptions::CommandData. \param[in]
338   /// cmd_data
339   ///     A UP holding the new'ed CommandData object.
340   ///     The breakpoint will take ownership of pointer held by this object.
341   void SetCommandDataCallback(std::unique_ptr<CommandData> &cmd_data);
342 
343   void Clear();
344 
AnySet()345   bool AnySet() const {
346     return m_set_flags.AnySet(eAllOptions);
347   }
348 
349 protected:
350   // Classes that inherit from BreakpointOptions can see and modify these
IsOptionSet(OptionKind kind)351   bool IsOptionSet(OptionKind kind)
352   {
353     return m_set_flags.Test(kind);
354   }
355 
356   enum class OptionNames {
357     ConditionText = 0,
358     IgnoreCount,
359     EnabledState,
360     OneShotState,
361     AutoContinue,
362     LastOptionName
363   };
364   static const char *g_option_names[(size_t)OptionNames::LastOptionName];
365 
GetKey(OptionNames enum_value)366   static const char *GetKey(OptionNames enum_value) {
367     return g_option_names[(size_t)enum_value];
368   }
369 
370   static bool BreakpointOptionsCallbackFunction(
371       void *baton, StoppointCallbackContext *context, lldb::user_id_t break_id,
372       lldb::user_id_t break_loc_id);
373 
374   void SetThreadSpec(std::unique_ptr<ThreadSpec> &thread_spec_up);
375 
376 private:
377   /// For BreakpointOptions only
378 
379   /// This is the callback function pointer
380   BreakpointHitCallback m_callback;
381   /// This is the client data for the callback
382   lldb::BatonSP m_callback_baton_sp;
383   bool m_baton_is_command_baton;
384   bool m_callback_is_synchronous;
385   bool m_enabled;
386   /// If set, the breakpoint delete itself after being hit once.
387   bool m_one_shot;
388   /// Number of times to ignore this breakpoint.
389   uint32_t m_ignore_count;
390   /// Thread for which this breakpoint will stop.
391   std::unique_ptr<ThreadSpec> m_thread_spec_up;
392   /// The condition to test.
393   std::string m_condition_text;
394   /// Its hash, so that locations know when the condition is updated.
395   size_t m_condition_text_hash;
396   /// If set, inject breakpoint condition into process.
397   bool m_inject_condition;
398   /// If set, auto-continue from breakpoint.
399   bool m_auto_continue;
400   /// Which options are set at this level.
401   /// Drawn from BreakpointOptions::SetOptionsFlags.
402   Flags m_set_flags;
403 };
404 
405 } // namespace lldb_private
406 
407 #endif // LLDB_BREAKPOINT_BREAKPOINTOPTIONS_H
408