1 //===-- MachProcess.h -------------------------------------------*- C++ -*-===// 2 // 3 // The LLVM Compiler Infrastructure 4 // 5 // This file is distributed under the University of Illinois Open Source 6 // License. See LICENSE.TXT for details. 7 // 8 //===----------------------------------------------------------------------===// 9 // 10 // Created by Greg Clayton on 6/15/07. 11 // 12 //===----------------------------------------------------------------------===// 13 14 #ifndef __MachProcess_h__ 15 #define __MachProcess_h__ 16 17 #include "DNBDefs.h" 18 #include "DNBBreakpoint.h" 19 #include "DNBError.h" 20 #include "DNBThreadResumeActions.h" 21 #include "MachException.h" 22 #include "MachVMMemory.h" 23 #include "MachTask.h" 24 #include "MachThreadList.h" 25 #include "PThreadCondition.h" 26 #include "PThreadEvent.h" 27 #include "PThreadMutex.h" 28 #include "Genealogy.h" 29 #include "ThreadInfo.h" 30 #include "JSONGenerator.h" 31 32 #include <mach/mach.h> 33 #include <sys/signal.h> 34 #include <pthread.h> 35 #include <vector> 36 37 class DNBThreadResumeActions; 38 39 class MachProcess 40 { 41 public: 42 //---------------------------------------------------------------------- 43 // Constructors and Destructors 44 //---------------------------------------------------------------------- 45 MachProcess (); 46 ~MachProcess (); 47 48 //---------------------------------------------------------------------- 49 // Child process control 50 //---------------------------------------------------------------------- 51 pid_t AttachForDebug (pid_t pid, char *err_str, size_t err_len); 52 pid_t LaunchForDebug (const char *path, 53 char const *argv[], 54 char const *envp[], 55 const char *working_directory, 56 const char *stdin_path, 57 const char *stdout_path, 58 const char *stderr_path, 59 bool no_stdio, 60 nub_launch_flavor_t launch_flavor, 61 int disable_aslr, 62 const char *event_data, 63 DNBError &err); 64 65 static uint32_t GetCPUTypeForLocalProcess (pid_t pid); 66 static pid_t ForkChildForPTraceDebugging (const char *path, char const *argv[], char const *envp[], MachProcess* process, DNBError &err); 67 static pid_t PosixSpawnChildForPTraceDebugging (const char *path, 68 cpu_type_t cpu_type, 69 char const *argv[], 70 char const *envp[], 71 const char *working_directory, 72 const char *stdin_path, 73 const char *stdout_path, 74 const char *stderr_path, 75 bool no_stdio, 76 MachProcess* process, 77 int disable_aslr, 78 DNBError& err); 79 nub_addr_t GetDYLDAllImageInfosAddress (); 80 static const void * PrepareForAttach (const char *path, nub_launch_flavor_t launch_flavor, bool waitfor, DNBError &err_str); 81 static void CleanupAfterAttach (const void *attach_token, bool success, DNBError &err_str); 82 static nub_process_t CheckForProcess (const void *attach_token); 83 static bool GetOSVersionNumbers (uint64_t *major, uint64_t *minor, uint64_t *patch); 84 #ifdef WITH_BKS 85 pid_t BKSLaunchForDebug (const char *app_bundle_path, char const *argv[], char const *envp[], bool no_stdio, bool disable_aslr, const char *event_data, DNBError &launch_err); 86 pid_t BKSForkChildForPTraceDebugging (const char *path, char const *argv[], char const *envp[], bool no_stdio, bool disable_aslr, const char *event_data, DNBError &launch_err); 87 bool BKSSendEvent (const char *event, DNBError &error); 88 static void BKSCleanupAfterAttach (const void *attach_token, DNBError &err_str); 89 #endif 90 #ifdef WITH_SPRINGBOARD 91 pid_t SBLaunchForDebug (const char *app_bundle_path, char const *argv[], char const *envp[], bool no_stdio, bool disable_aslr, DNBError &launch_err); 92 static pid_t SBForkChildForPTraceDebugging (const char *path, char const *argv[], char const *envp[], bool no_stdio, MachProcess* process, DNBError &launch_err); 93 #endif 94 nub_addr_t LookupSymbol (const char *name, const char *shlib); 95 void SetNameToAddressCallback (DNBCallbackNameToAddress callback, void *baton) 96 { 97 m_name_to_addr_callback = callback; 98 m_name_to_addr_baton = baton; 99 } 100 void SetSharedLibraryInfoCallback (DNBCallbackCopyExecutableImageInfos callback, void *baton) 101 { 102 m_image_infos_callback = callback; 103 m_image_infos_baton = baton; 104 } 105 106 bool Resume (const DNBThreadResumeActions& thread_actions); 107 bool Signal (int signal, const struct timespec *timeout_abstime = NULL); 108 bool Interrupt(); 109 bool SendEvent (const char *event, DNBError &send_err); 110 bool Kill (const struct timespec *timeout_abstime = NULL); 111 bool Detach (); 112 nub_size_t ReadMemory (nub_addr_t addr, nub_size_t size, void *buf); 113 nub_size_t WriteMemory (nub_addr_t addr, nub_size_t size, const void *buf); 114 115 //---------------------------------------------------------------------- 116 // Path and arg accessors 117 //---------------------------------------------------------------------- 118 const char * Path () const { return m_path.c_str(); } 119 size_t ArgumentCount () const { return m_args.size(); } 120 const char * ArgumentAtIndex (size_t arg_idx) const 121 { 122 if (arg_idx < m_args.size()) 123 return m_args[arg_idx].c_str(); 124 return NULL; 125 } 126 127 //---------------------------------------------------------------------- 128 // Breakpoint functions 129 //---------------------------------------------------------------------- 130 DNBBreakpoint * CreateBreakpoint (nub_addr_t addr, nub_size_t length, bool hardware); 131 bool DisableBreakpoint (nub_addr_t addr, bool remove); 132 void DisableAllBreakpoints (bool remove); 133 bool EnableBreakpoint (nub_addr_t addr); 134 DNBBreakpointList& Breakpoints() { return m_breakpoints; } 135 const DNBBreakpointList& Breakpoints() const { return m_breakpoints; } 136 137 //---------------------------------------------------------------------- 138 // Watchpoint functions 139 //---------------------------------------------------------------------- 140 DNBBreakpoint * CreateWatchpoint (nub_addr_t addr, nub_size_t length, uint32_t watch_type, bool hardware); 141 bool DisableWatchpoint (nub_addr_t addr, bool remove); 142 void DisableAllWatchpoints (bool remove); 143 bool EnableWatchpoint (nub_addr_t addr); 144 uint32_t GetNumSupportedHardwareWatchpoints () const; 145 DNBBreakpointList& Watchpoints() { return m_watchpoints; } 146 const DNBBreakpointList& Watchpoints() const { return m_watchpoints; } 147 148 //---------------------------------------------------------------------- 149 // Exception thread functions 150 //---------------------------------------------------------------------- 151 bool StartSTDIOThread (); 152 static void * STDIOThread (void *arg); 153 void ExceptionMessageReceived (const MachException::Message& exceptionMessage); 154 task_t ExceptionMessageBundleComplete (); 155 void SharedLibrariesUpdated (); 156 nub_size_t CopyImageInfos (struct DNBExecutableImageInfo **image_infos, bool only_changed); 157 158 //---------------------------------------------------------------------- 159 // Profile functions 160 //---------------------------------------------------------------------- 161 void SetEnableAsyncProfiling (bool enable, uint64_t internal_usec, DNBProfileDataScanType scan_type); 162 bool IsProfilingEnabled () { return m_profile_enabled; } 163 useconds_t ProfileInterval () { return m_profile_interval_usec; } 164 bool StartProfileThread (); 165 static void * ProfileThread (void *arg); 166 void SignalAsyncProfileData (const char *info); 167 size_t GetAsyncProfileData (char *buf, size_t buf_size); 168 169 //---------------------------------------------------------------------- 170 // Accessors 171 //---------------------------------------------------------------------- 172 pid_t ProcessID () const { return m_pid; } 173 bool ProcessIDIsValid () const { return m_pid > 0; } 174 pid_t SetProcessID (pid_t pid); 175 MachTask& Task() { return m_task; } 176 const MachTask& Task() const { return m_task; } 177 178 PThreadEvent& Events() { return m_events; } 179 const DNBRegisterSetInfo * 180 GetRegisterSetInfo (nub_thread_t tid, nub_size_t *num_reg_sets) const; 181 bool GetRegisterValue (nub_thread_t tid, uint32_t set, uint32_t reg, DNBRegisterValue *reg_value) const; 182 bool SetRegisterValue (nub_thread_t tid, uint32_t set, uint32_t reg, const DNBRegisterValue *value) const; 183 nub_bool_t SyncThreadState (nub_thread_t tid); 184 const char * ThreadGetName (nub_thread_t tid); 185 nub_state_t ThreadGetState (nub_thread_t tid); 186 ThreadInfo::QoS GetRequestedQoS (nub_thread_t tid, nub_addr_t tsd, uint64_t dti_qos_class_index); 187 nub_addr_t GetPThreadT (nub_thread_t tid); 188 nub_addr_t GetDispatchQueueT (nub_thread_t tid); 189 nub_addr_t GetTSDAddressForThread (nub_thread_t tid, uint64_t plo_pthread_tsd_base_address_offset, uint64_t plo_pthread_tsd_base_offset, uint64_t plo_pthread_tsd_entry_size); 190 JSONGenerator::ObjectSP GetLoadedDynamicLibrariesInfos (nub_process_t pid, nub_addr_t image_list_address, nub_addr_t image_count); 191 192 nub_size_t GetNumThreads () const; 193 nub_thread_t GetThreadAtIndex (nub_size_t thread_idx) const; 194 nub_thread_t GetCurrentThread (); 195 nub_thread_t GetCurrentThreadMachPort (); 196 nub_thread_t SetCurrentThread (nub_thread_t tid); 197 MachThreadList & GetThreadList() { return m_thread_list; } 198 bool GetThreadStoppedReason(nub_thread_t tid, struct DNBThreadStopInfo *stop_info); 199 void DumpThreadStoppedReason(nub_thread_t tid) const; 200 const char * GetThreadInfo (nub_thread_t tid) const; 201 202 nub_thread_t GetThreadIDForMachPortNumber (thread_t mach_port_number) const; 203 204 uint32_t GetCPUType (); 205 nub_state_t GetState (); 206 void SetState (nub_state_t state); 207 bool IsRunning (nub_state_t state) 208 { 209 return state == eStateRunning || IsStepping(state); 210 } 211 bool IsStepping (nub_state_t state) 212 { 213 return state == eStateStepping; 214 } 215 bool CanResume (nub_state_t state) 216 { 217 return state == eStateStopped; 218 } 219 220 bool GetExitStatus(int* status) 221 { 222 if (GetState() == eStateExited) 223 { 224 if (status) 225 *status = m_exit_status; 226 return true; 227 } 228 return false; 229 } 230 void SetExitStatus(int status) 231 { 232 m_exit_status = status; 233 SetState(eStateExited); 234 } 235 const char * GetExitInfo () 236 { 237 return m_exit_info.c_str(); 238 } 239 240 void SetExitInfo (const char *info); 241 242 uint32_t StopCount() const { return m_stop_count; } 243 void SetChildFileDescriptors (int stdin_fileno, int stdout_fileno, int stderr_fileno) 244 { 245 m_child_stdin = stdin_fileno; 246 m_child_stdout = stdout_fileno; 247 m_child_stderr = stderr_fileno; 248 } 249 250 int GetStdinFileDescriptor () const { return m_child_stdin; } 251 int GetStdoutFileDescriptor () const { return m_child_stdout; } 252 int GetStderrFileDescriptor () const { return m_child_stderr; } 253 void AppendSTDOUT (char* s, size_t len); 254 size_t GetAvailableSTDOUT (char *buf, size_t buf_size); 255 size_t GetAvailableSTDERR (char *buf, size_t buf_size); 256 void CloseChildFileDescriptors () 257 { 258 if (m_child_stdin >= 0) 259 { 260 ::close (m_child_stdin); 261 m_child_stdin = -1; 262 } 263 if (m_child_stdout >= 0) 264 { 265 ::close (m_child_stdout); 266 m_child_stdout = -1; 267 } 268 if (m_child_stderr >= 0) 269 { 270 ::close (m_child_stderr); 271 m_child_stderr = -1; 272 } 273 } 274 275 bool ProcessUsingSpringBoard() const { return (m_flags & eMachProcessFlagsUsingSBS) != 0; } 276 bool ProcessUsingBackBoard() const { return (m_flags & eMachProcessFlagsUsingBKS) != 0; } 277 278 Genealogy::ThreadActivitySP GetGenealogyInfoForThread (nub_thread_t tid, bool &timed_out); 279 280 Genealogy::ProcessExecutableInfoSP GetGenealogyImageInfo (size_t idx); 281 282 DNBProfileDataScanType GetProfileScanType () { return m_profile_scan_type; } 283 284 private: 285 enum 286 { 287 eMachProcessFlagsNone = 0, 288 eMachProcessFlagsAttached = (1 << 0), 289 eMachProcessFlagsUsingSBS = (1 << 1), 290 eMachProcessFlagsUsingBKS = (1 << 2) 291 }; 292 void Clear (bool detaching = false); 293 void ReplyToAllExceptions (); 294 void PrivateResume (); 295 296 uint32_t Flags () const { return m_flags; } 297 nub_state_t DoSIGSTOP (bool clear_bps_and_wps, bool allow_running, uint32_t *thread_idx_ptr); 298 299 pid_t m_pid; // Process ID of child process 300 cpu_type_t m_cpu_type; // The CPU type of this process 301 int m_child_stdin; 302 int m_child_stdout; 303 int m_child_stderr; 304 std::string m_path; // A path to the executable if we have one 305 std::vector<std::string> m_args; // The arguments with which the process was lauched 306 int m_exit_status; // The exit status for the process 307 std::string m_exit_info; // Any extra info that we may have about the exit 308 MachTask m_task; // The mach task for this process 309 uint32_t m_flags; // Process specific flags (see eMachProcessFlags enums) 310 uint32_t m_stop_count; // A count of many times have we stopped 311 pthread_t m_stdio_thread; // Thread ID for the thread that watches for child process stdio 312 PThreadMutex m_stdio_mutex; // Multithreaded protection for stdio 313 std::string m_stdout_data; 314 315 bool m_profile_enabled; // A flag to indicate if profiling is enabled 316 useconds_t m_profile_interval_usec; // If enable, the profiling interval in microseconds 317 DNBProfileDataScanType m_profile_scan_type; // Indicates what needs to be profiled 318 pthread_t m_profile_thread; // Thread ID for the thread that profiles the inferior 319 PThreadMutex m_profile_data_mutex; // Multithreaded protection for profile info data 320 std::vector<std::string> m_profile_data; // Profile data, must be protected by m_profile_data_mutex 321 322 DNBThreadResumeActions m_thread_actions; // The thread actions for the current MachProcess::Resume() call 323 MachException::Message::collection 324 m_exception_messages; // A collection of exception messages caught when listening to the exception port 325 PThreadMutex m_exception_messages_mutex; // Multithreaded protection for m_exception_messages 326 327 MachThreadList m_thread_list; // A list of threads that is maintained/updated after each stop 328 Genealogy m_activities; // A list of activities that is updated after every stop lazily 329 nub_state_t m_state; // The state of our process 330 PThreadMutex m_state_mutex; // Multithreaded protection for m_state 331 PThreadEvent m_events; // Process related events in the child processes lifetime can be waited upon 332 PThreadEvent m_private_events; // Used to coordinate running and stopping the process without affecting m_events 333 DNBBreakpointList m_breakpoints; // Breakpoint list for this process 334 DNBBreakpointList m_watchpoints; // Watchpoint list for this process 335 DNBCallbackNameToAddress m_name_to_addr_callback; 336 void * m_name_to_addr_baton; 337 DNBCallbackCopyExecutableImageInfos 338 m_image_infos_callback; 339 void * m_image_infos_baton; 340 std::string m_bundle_id; // If we are a SB or BKS process, this will be our bundle ID. 341 int m_sent_interrupt_signo; // When we call MachProcess::Interrupt(), we want to send a single signal 342 // to the inferior and only send the signal if we aren't already stopped. 343 // If we end up sending a signal to stop the process we store it until we 344 // receive an exception with this signal. This helps us to verify we got 345 // the signal that interrupted the process. We might stop due to another 346 // reason after an interrupt signal is sent, so this helps us ensure that 347 // we don't report a spurious stop on the next resume. 348 int m_auto_resume_signo; // If we resume the process and still haven't received our interrupt signal 349 // acknownledgement, we will shortly after the next resume. We store the 350 // interrupt signal in this variable so when we get the interrupt signal 351 // as the sole reason for the process being stopped, we can auto resume 352 // the process. 353 bool m_did_exec; 354 }; 355 356 357 #endif // __MachProcess_h__ 358