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d8-debug.h
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27 
28 #ifndef V8_D8_DEBUG_H_
29 #define V8_D8_DEBUG_H_
30 
31 
32 #include "d8.h"
33 #include "debug.h"
34 
35 
36 namespace v8 {
37 
38 
39 void HandleDebugEvent(DebugEvent event,
40  Handle<Object> exec_state,
41  Handle<Object> event_data,
42  Handle<Value> data);
43 
44 // Start the remove debugger connecting to a V8 debugger agent on the specified
45 // port.
46 void RunRemoteDebugger(int port);
47 
48 // Forward declerations.
49 class RemoteDebuggerEvent;
50 class ReceiverThread;
51 
52 
53 // Remote debugging class.
55  public:
56  explicit RemoteDebugger(int port)
57  : port_(port),
58  event_access_(i::OS::CreateMutex()),
59  event_available_(i::OS::CreateSemaphore(0)),
60  head_(NULL), tail_(NULL) {}
61  void Run();
62 
63  // Handle events from the subordinate threads.
66  void ConnectionClosed();
67 
68  private:
69  // Add new debugger event to the list.
70  void AddEvent(RemoteDebuggerEvent* event);
71  // Read next debugger event from the list.
72  RemoteDebuggerEvent* GetEvent();
73 
74  // Handle a message from the debugged V8.
75  void HandleMessageReceived(char* message);
76  // Handle a keyboard command.
77  void HandleKeyboardCommand(char* command);
78 
79  // Get connection to agent in debugged V8.
80  i::Socket* conn() { return conn_; }
81 
82  int port_; // Port used to connect to debugger V8.
83  i::Socket* conn_; // Connection to debugger agent in debugged V8.
84 
85  // Linked list of events from debugged V8 and from keyboard input. Access to
86  // the list is guarded by a mutex and a semaphore signals new items in the
87  // list.
88  i::Mutex* event_access_;
89  i::Semaphore* event_available_;
90  RemoteDebuggerEvent* head_;
91  RemoteDebuggerEvent* tail_;
92 
93  friend class ReceiverThread;
94 };
95 
96 
97 // Thread reading from debugged V8 instance.
98 class ReceiverThread: public i::Thread {
99  public:
100  explicit ReceiverThread(RemoteDebugger* remote_debugger)
101  : Thread("d8:ReceiverThrd"),
102  remote_debugger_(remote_debugger) {}
104 
105  void Run();
106 
107  private:
108  RemoteDebugger* remote_debugger_;
109 };
110 
111 
112 // Thread reading keyboard input.
113 class KeyboardThread: public i::Thread {
114  public:
115  explicit KeyboardThread(RemoteDebugger* remote_debugger)
116  : Thread("d8:KeyboardThrd"),
117  remote_debugger_(remote_debugger) {}
119 
120  void Run();
121 
122  private:
123  RemoteDebugger* remote_debugger_;
124 };
125 
126 
127 // Events processed by the main deubgger thread.
129  public:
131  : type_(type), data_(data), next_(NULL) {
132  ASSERT(type == kMessage || type == kKeyboard || type == kDisconnect);
133  }
134 
135  static const int kMessage = 1;
136  static const int kKeyboard = 2;
137  static const int kDisconnect = 3;
138 
139  int type() { return type_; }
140  char* data() { return *data_; }
141 
142  private:
143  void set_next(RemoteDebuggerEvent* event) { next_ = event; }
144  RemoteDebuggerEvent* next() { return next_; }
145 
146  int type_;
148  RemoteDebuggerEvent* next_;
149 
150  friend class RemoteDebugger;
151 };
152 
153 
154 } // namespace v8
155 
156 
157 #endif // V8_D8_DEBUG_H_
void RunRemoteDebugger(int port)
Thread(const Options &options)
static const int kDisconnect
Definition: d8-debug.h:137
ReceiverThread(RemoteDebugger *remote_debugger)
Definition: d8-debug.h:100
DebugEvent
Definition: v8-debug.h:73
RemoteDebugger(int port)
Definition: d8-debug.h:56
#define ASSERT(condition)
Definition: checks.h:270
static const int kMessage
Definition: d8-debug.h:135
RemoteDebuggerEvent(int type, i::SmartArrayPointer< char > data)
Definition: d8-debug.h:130
void KeyboardCommand(i::SmartArrayPointer< char > command)
static const int kKeyboard
Definition: d8-debug.h:136
activate correct semantics for inheriting readonliness enable harmony semantics for typeof enable harmony enable harmony proxies enable all harmony harmony_scoping harmony_proxies harmony_scoping tracks arrays with only smi values automatically unbox arrays of doubles use crankshaft use hydrogen range analysis use hydrogen global value numbering use function inlining maximum number of AST nodes considered for a single inlining loop invariant code motion print statistics for hydrogen trace generated IR for specified phases trace register allocator trace range analysis trace representation types environment for every instruction put a break point before deoptimizing polymorphic inlining perform array bounds checks elimination use dead code elimination trace on stack replacement optimize closures cache optimized code for closures functions with arguments object loop weight for representation inference allow uint32 values on optimize frames if they are used only in safe operations track parallel recompilation enable all profiler experiments number of stack frames inspected by the profiler call recompile stub directly when self optimizing trigger profiler ticks based on counting instead of timing weight back edges by jump distance for interrupt triggering percentage of ICs that must have type info to allow optimization watch_ic_patching retry_self_opt interrupt_at_exit extra verbose compilation tracing generate extra emit comments in code disassembly enable use of SSE3 instructions if available enable use of CMOV instruction if available enable use of SAHF instruction if enable use of VFP3 instructions if available this implies enabling ARMv7 and VFP2 enable use of VFP2 instructions if available enable use of SDIV and UDIV instructions if enable loading bit constant by means of movw movt instruction enable unaligned accesses for enable use of MIPS FPU instructions if expose natives in global object expose gc extension number of stack frames to capture disable builtin natives files print a stack trace if an assertion failure occurs use random jit cookie to mask large constants trace lazy optimization use adaptive optimizations prepare for turning on always opt minimum length for automatic enable preparsing maximum number of optimization attempts before giving up cache prototype transitions automatically set the debug break flag when debugger commands are in the queue always cause a debug break before aborting maximum length of function source code printed in a stack trace max size of the new max size of the old max size of executable always perform global GCs print one trace line following each garbage collection do not print trace line after scavenger collection print more details following each garbage collection print amount of external allocated memory after each time it is adjusted flush code that we expect not to use again before full gc do incremental marking steps track object counts and memory usage use caching Perform compaction on every full GC Never perform compaction on full GC testing only Compact code space on full incremental collections Default seed for initializing random allows verbose printing trace parsing and preparsing Check icache flushes in ARM and MIPS simulator Stack alingment in bytes in print stack trace when throwing exceptions randomize hashes to avoid predictable hash Fixed seed to use to hash property activate a timer that switches between V8 threads testing_bool_flag float flag Seed used for threading test randomness A filename with extra code to be included in the Print usage message
activate correct semantics for inheriting readonliness enable harmony semantics for typeof enable harmony enable harmony proxies enable all harmony harmony_scoping harmony_proxies harmony_scoping tracks arrays with only smi values automatically unbox arrays of doubles use crankshaft use hydrogen range analysis use hydrogen global value numbering use function inlining maximum number of AST nodes considered for a single inlining loop invariant code motion print statistics for hydrogen trace generated IR for specified phases trace register allocator trace range analysis trace representation types environment for every instruction put a break point before deoptimizing polymorphic inlining perform array bounds checks elimination use dead code elimination trace on stack replacement optimize closures cache optimized code for closures functions with arguments object loop weight for representation inference allow uint32 values on optimize frames if they are used only in safe operations track parallel recompilation enable all profiler experiments number of stack frames inspected by the profiler call recompile stub directly when self optimizing trigger profiler ticks based on counting instead of timing weight back edges by jump distance for interrupt triggering percentage of ICs that must have type info to allow optimization watch_ic_patching retry_self_opt interrupt_at_exit extra verbose compilation tracing generate extra emit comments in code disassembly enable use of SSE3 instructions if available enable use of CMOV instruction if available enable use of SAHF instruction if enable use of VFP3 instructions if available this implies enabling ARMv7 and VFP2 enable use of VFP2 instructions if available enable use of SDIV and UDIV instructions if enable loading bit constant by means of movw movt instruction enable unaligned accesses for enable use of MIPS FPU instructions if NULL
KeyboardThread(RemoteDebugger *remote_debugger)
Definition: d8-debug.h:115
void MessageReceived(i::SmartArrayPointer< char > message)
void HandleDebugEvent(DebugEvent event, Handle< Object > exec_state, Handle< Object > event_data, Handle< Value > data)