xref: /freebsd/contrib/llvm-project/lldb/source/Host/common/NativeProcessProtocol.cpp (revision 06c3fb2749bda94cb5201f81ffdb8fa6c3161b2e)
1 //===-- NativeProcessProtocol.cpp -----------------------------------------===//
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 #include "lldb/Host/common/NativeProcessProtocol.h"
10 #include "lldb/Host/Host.h"
11 #include "lldb/Host/common/NativeBreakpointList.h"
12 #include "lldb/Host/common/NativeRegisterContext.h"
13 #include "lldb/Host/common/NativeThreadProtocol.h"
14 #include "lldb/Utility/LLDBAssert.h"
15 #include "lldb/Utility/LLDBLog.h"
16 #include "lldb/Utility/Log.h"
17 #include "lldb/Utility/State.h"
18 #include "lldb/lldb-enumerations.h"
19 
20 #include "llvm/Support/Process.h"
21 #include <optional>
22 
23 using namespace lldb;
24 using namespace lldb_private;
25 
26 // NativeProcessProtocol Members
27 
NativeProcessProtocol(lldb::pid_t pid,int terminal_fd,NativeDelegate & delegate)28 NativeProcessProtocol::NativeProcessProtocol(lldb::pid_t pid, int terminal_fd,
29                                              NativeDelegate &delegate)
30     : m_pid(pid), m_delegate(delegate), m_terminal_fd(terminal_fd) {
31   delegate.InitializeDelegate(this);
32 }
33 
Interrupt()34 lldb_private::Status NativeProcessProtocol::Interrupt() {
35   Status error;
36 #if !defined(SIGSTOP)
37   error.SetErrorString("local host does not support signaling");
38   return error;
39 #else
40   return Signal(SIGSTOP);
41 #endif
42 }
43 
IgnoreSignals(llvm::ArrayRef<int> signals)44 Status NativeProcessProtocol::IgnoreSignals(llvm::ArrayRef<int> signals) {
45   m_signals_to_ignore.clear();
46   m_signals_to_ignore.insert(signals.begin(), signals.end());
47   return Status();
48 }
49 
50 lldb_private::Status
GetMemoryRegionInfo(lldb::addr_t load_addr,MemoryRegionInfo & range_info)51 NativeProcessProtocol::GetMemoryRegionInfo(lldb::addr_t load_addr,
52                                            MemoryRegionInfo &range_info) {
53   // Default: not implemented.
54   return Status("not implemented");
55 }
56 
57 lldb_private::Status
ReadMemoryTags(int32_t type,lldb::addr_t addr,size_t len,std::vector<uint8_t> & tags)58 NativeProcessProtocol::ReadMemoryTags(int32_t type, lldb::addr_t addr,
59                                       size_t len, std::vector<uint8_t> &tags) {
60   return Status("not implemented");
61 }
62 
63 lldb_private::Status
WriteMemoryTags(int32_t type,lldb::addr_t addr,size_t len,const std::vector<uint8_t> & tags)64 NativeProcessProtocol::WriteMemoryTags(int32_t type, lldb::addr_t addr,
65                                        size_t len,
66                                        const std::vector<uint8_t> &tags) {
67   return Status("not implemented");
68 }
69 
GetExitStatus()70 std::optional<WaitStatus> NativeProcessProtocol::GetExitStatus() {
71   if (m_state == lldb::eStateExited)
72     return m_exit_status;
73 
74   return std::nullopt;
75 }
76 
SetExitStatus(WaitStatus status,bool bNotifyStateChange)77 bool NativeProcessProtocol::SetExitStatus(WaitStatus status,
78                                           bool bNotifyStateChange) {
79   Log *log = GetLog(LLDBLog::Process);
80   LLDB_LOG(log, "status = {0}, notify = {1}", status, bNotifyStateChange);
81 
82   // Exit status already set
83   if (m_state == lldb::eStateExited) {
84     if (m_exit_status)
85       LLDB_LOG(log, "exit status already set to {0}", *m_exit_status);
86     else
87       LLDB_LOG(log, "state is exited, but status not set");
88     return false;
89   }
90 
91   m_state = lldb::eStateExited;
92   m_exit_status = status;
93 
94   if (bNotifyStateChange)
95     SynchronouslyNotifyProcessStateChanged(lldb::eStateExited);
96 
97   return true;
98 }
99 
GetThreadAtIndex(uint32_t idx)100 NativeThreadProtocol *NativeProcessProtocol::GetThreadAtIndex(uint32_t idx) {
101   std::lock_guard<std::recursive_mutex> guard(m_threads_mutex);
102   if (idx < m_threads.size())
103     return m_threads[idx].get();
104   return nullptr;
105 }
106 
107 NativeThreadProtocol *
GetThreadByIDUnlocked(lldb::tid_t tid)108 NativeProcessProtocol::GetThreadByIDUnlocked(lldb::tid_t tid) {
109   for (const auto &thread : m_threads) {
110     if (thread->GetID() == tid)
111       return thread.get();
112   }
113   return nullptr;
114 }
115 
GetThreadByID(lldb::tid_t tid)116 NativeThreadProtocol *NativeProcessProtocol::GetThreadByID(lldb::tid_t tid) {
117   std::lock_guard<std::recursive_mutex> guard(m_threads_mutex);
118   return GetThreadByIDUnlocked(tid);
119 }
120 
IsAlive() const121 bool NativeProcessProtocol::IsAlive() const {
122   return m_state != eStateDetached && m_state != eStateExited &&
123          m_state != eStateInvalid && m_state != eStateUnloaded;
124 }
125 
126 const NativeWatchpointList::WatchpointMap &
GetWatchpointMap() const127 NativeProcessProtocol::GetWatchpointMap() const {
128   return m_watchpoint_list.GetWatchpointMap();
129 }
130 
131 std::optional<std::pair<uint32_t, uint32_t>>
GetHardwareDebugSupportInfo() const132 NativeProcessProtocol::GetHardwareDebugSupportInfo() const {
133   Log *log = GetLog(LLDBLog::Process);
134 
135   // get any thread
136   NativeThreadProtocol *thread(
137       const_cast<NativeProcessProtocol *>(this)->GetThreadAtIndex(0));
138   if (!thread) {
139     LLDB_LOG(log, "failed to find a thread to grab a NativeRegisterContext!");
140     return std::nullopt;
141   }
142 
143   NativeRegisterContext &reg_ctx = thread->GetRegisterContext();
144   return std::make_pair(reg_ctx.NumSupportedHardwareBreakpoints(),
145                         reg_ctx.NumSupportedHardwareWatchpoints());
146 }
147 
SetWatchpoint(lldb::addr_t addr,size_t size,uint32_t watch_flags,bool hardware)148 Status NativeProcessProtocol::SetWatchpoint(lldb::addr_t addr, size_t size,
149                                             uint32_t watch_flags,
150                                             bool hardware) {
151   // This default implementation assumes setting the watchpoint for the process
152   // will require setting the watchpoint for each of the threads.  Furthermore,
153   // it will track watchpoints set for the process and will add them to each
154   // thread that is attached to via the (FIXME implement) OnThreadAttached ()
155   // method.
156 
157   Log *log = GetLog(LLDBLog::Process);
158 
159   // Update the thread list
160   UpdateThreads();
161 
162   // Keep track of the threads we successfully set the watchpoint for.  If one
163   // of the thread watchpoint setting operations fails, back off and remove the
164   // watchpoint for all the threads that were successfully set so we get back
165   // to a consistent state.
166   std::vector<NativeThreadProtocol *> watchpoint_established_threads;
167 
168   // Tell each thread to set a watchpoint.  In the event that hardware
169   // watchpoints are requested but the SetWatchpoint fails, try to set a
170   // software watchpoint as a fallback.  It's conceivable that if there are
171   // more threads than hardware watchpoints available, some of the threads will
172   // fail to set hardware watchpoints while software ones may be available.
173   std::lock_guard<std::recursive_mutex> guard(m_threads_mutex);
174   for (const auto &thread : m_threads) {
175     assert(thread && "thread list should not have a NULL thread!");
176 
177     Status thread_error =
178         thread->SetWatchpoint(addr, size, watch_flags, hardware);
179     if (thread_error.Fail() && hardware) {
180       // Try software watchpoints since we failed on hardware watchpoint
181       // setting and we may have just run out of hardware watchpoints.
182       thread_error = thread->SetWatchpoint(addr, size, watch_flags, false);
183       if (thread_error.Success())
184         LLDB_LOG(log,
185                  "hardware watchpoint requested but software watchpoint set");
186     }
187 
188     if (thread_error.Success()) {
189       // Remember that we set this watchpoint successfully in case we need to
190       // clear it later.
191       watchpoint_established_threads.push_back(thread.get());
192     } else {
193       // Unset the watchpoint for each thread we successfully set so that we
194       // get back to a consistent state of "not set" for the watchpoint.
195       for (auto unwatch_thread_sp : watchpoint_established_threads) {
196         Status remove_error = unwatch_thread_sp->RemoveWatchpoint(addr);
197         if (remove_error.Fail())
198           LLDB_LOG(log, "RemoveWatchpoint failed for pid={0}, tid={1}: {2}",
199                    GetID(), unwatch_thread_sp->GetID(), remove_error);
200       }
201 
202       return thread_error;
203     }
204   }
205   return m_watchpoint_list.Add(addr, size, watch_flags, hardware);
206 }
207 
RemoveWatchpoint(lldb::addr_t addr)208 Status NativeProcessProtocol::RemoveWatchpoint(lldb::addr_t addr) {
209   // Update the thread list
210   UpdateThreads();
211 
212   Status overall_error;
213 
214   std::lock_guard<std::recursive_mutex> guard(m_threads_mutex);
215   for (const auto &thread : m_threads) {
216     assert(thread && "thread list should not have a NULL thread!");
217 
218     const Status thread_error = thread->RemoveWatchpoint(addr);
219     if (thread_error.Fail()) {
220       // Keep track of the first thread error if any threads fail. We want to
221       // try to remove the watchpoint from every thread, though, even if one or
222       // more have errors.
223       if (!overall_error.Fail())
224         overall_error = thread_error;
225     }
226   }
227   const Status error = m_watchpoint_list.Remove(addr);
228   return overall_error.Fail() ? overall_error : error;
229 }
230 
231 const HardwareBreakpointMap &
GetHardwareBreakpointMap() const232 NativeProcessProtocol::GetHardwareBreakpointMap() const {
233   return m_hw_breakpoints_map;
234 }
235 
SetHardwareBreakpoint(lldb::addr_t addr,size_t size)236 Status NativeProcessProtocol::SetHardwareBreakpoint(lldb::addr_t addr,
237                                                     size_t size) {
238   // This default implementation assumes setting a hardware breakpoint for this
239   // process will require setting same hardware breakpoint for each of its
240   // existing threads. New thread will do the same once created.
241   Log *log = GetLog(LLDBLog::Process);
242 
243   // Update the thread list
244   UpdateThreads();
245 
246   // Exit here if target does not have required hardware breakpoint capability.
247   auto hw_debug_cap = GetHardwareDebugSupportInfo();
248 
249   if (hw_debug_cap == std::nullopt || hw_debug_cap->first == 0 ||
250       hw_debug_cap->first <= m_hw_breakpoints_map.size())
251     return Status("Target does not have required no of hardware breakpoints");
252 
253   // Vector below stores all thread pointer for which we have we successfully
254   // set this hardware breakpoint. If any of the current process threads fails
255   // to set this hardware breakpoint then roll back and remove this breakpoint
256   // for all the threads that had already set it successfully.
257   std::vector<NativeThreadProtocol *> breakpoint_established_threads;
258 
259   // Request to set a hardware breakpoint for each of current process threads.
260   std::lock_guard<std::recursive_mutex> guard(m_threads_mutex);
261   for (const auto &thread : m_threads) {
262     assert(thread && "thread list should not have a NULL thread!");
263 
264     Status thread_error = thread->SetHardwareBreakpoint(addr, size);
265     if (thread_error.Success()) {
266       // Remember that we set this breakpoint successfully in case we need to
267       // clear it later.
268       breakpoint_established_threads.push_back(thread.get());
269     } else {
270       // Unset the breakpoint for each thread we successfully set so that we
271       // get back to a consistent state of "not set" for this hardware
272       // breakpoint.
273       for (auto rollback_thread_sp : breakpoint_established_threads) {
274         Status remove_error =
275             rollback_thread_sp->RemoveHardwareBreakpoint(addr);
276         if (remove_error.Fail())
277           LLDB_LOG(log,
278                    "RemoveHardwareBreakpoint failed for pid={0}, tid={1}: {2}",
279                    GetID(), rollback_thread_sp->GetID(), remove_error);
280       }
281 
282       return thread_error;
283     }
284   }
285 
286   // Register new hardware breakpoint into hardware breakpoints map of current
287   // process.
288   m_hw_breakpoints_map[addr] = {addr, size};
289 
290   return Status();
291 }
292 
RemoveHardwareBreakpoint(lldb::addr_t addr)293 Status NativeProcessProtocol::RemoveHardwareBreakpoint(lldb::addr_t addr) {
294   // Update the thread list
295   UpdateThreads();
296 
297   Status error;
298 
299   std::lock_guard<std::recursive_mutex> guard(m_threads_mutex);
300   for (const auto &thread : m_threads) {
301     assert(thread && "thread list should not have a NULL thread!");
302     error = thread->RemoveHardwareBreakpoint(addr);
303   }
304 
305   // Also remove from hardware breakpoint map of current process.
306   m_hw_breakpoints_map.erase(addr);
307 
308   return error;
309 }
310 
SynchronouslyNotifyProcessStateChanged(lldb::StateType state)311 void NativeProcessProtocol::SynchronouslyNotifyProcessStateChanged(
312     lldb::StateType state) {
313   Log *log = GetLog(LLDBLog::Process);
314 
315   m_delegate.ProcessStateChanged(this, state);
316 
317   switch (state) {
318   case eStateStopped:
319   case eStateExited:
320   case eStateCrashed:
321     NotifyTracersProcessDidStop();
322     break;
323   default:
324     break;
325   }
326 
327   LLDB_LOG(log, "sent state notification [{0}] from process {1}", state,
328            GetID());
329 }
330 
NotifyDidExec()331 void NativeProcessProtocol::NotifyDidExec() {
332   Log *log = GetLog(LLDBLog::Process);
333   LLDB_LOG(log, "process {0} exec()ed", GetID());
334 
335   m_software_breakpoints.clear();
336 
337   m_delegate.DidExec(this);
338 }
339 
SetSoftwareBreakpoint(lldb::addr_t addr,uint32_t size_hint)340 Status NativeProcessProtocol::SetSoftwareBreakpoint(lldb::addr_t addr,
341                                                     uint32_t size_hint) {
342   Log *log = GetLog(LLDBLog::Breakpoints);
343   LLDB_LOG(log, "addr = {0:x}, size_hint = {1}", addr, size_hint);
344 
345   auto it = m_software_breakpoints.find(addr);
346   if (it != m_software_breakpoints.end()) {
347     ++it->second.ref_count;
348     return Status();
349   }
350   auto expected_bkpt = EnableSoftwareBreakpoint(addr, size_hint);
351   if (!expected_bkpt)
352     return Status(expected_bkpt.takeError());
353 
354   m_software_breakpoints.emplace(addr, std::move(*expected_bkpt));
355   return Status();
356 }
357 
RemoveSoftwareBreakpoint(lldb::addr_t addr)358 Status NativeProcessProtocol::RemoveSoftwareBreakpoint(lldb::addr_t addr) {
359   Log *log = GetLog(LLDBLog::Breakpoints);
360   LLDB_LOG(log, "addr = {0:x}", addr);
361   auto it = m_software_breakpoints.find(addr);
362   if (it == m_software_breakpoints.end())
363     return Status("Breakpoint not found.");
364   assert(it->second.ref_count > 0);
365   if (--it->second.ref_count > 0)
366     return Status();
367 
368   // This is the last reference. Let's remove the breakpoint.
369   Status error;
370 
371   // Clear a software breakpoint instruction
372   llvm::SmallVector<uint8_t, 4> curr_break_op(
373       it->second.breakpoint_opcodes.size(), 0);
374 
375   // Read the breakpoint opcode
376   size_t bytes_read = 0;
377   error =
378       ReadMemory(addr, curr_break_op.data(), curr_break_op.size(), bytes_read);
379   if (error.Fail() || bytes_read < curr_break_op.size()) {
380     return Status("addr=0x%" PRIx64
381                   ": tried to read %zu bytes but only read %zu",
382                   addr, curr_break_op.size(), bytes_read);
383   }
384   const auto &saved = it->second.saved_opcodes;
385   // Make sure the breakpoint opcode exists at this address
386   if (llvm::ArrayRef(curr_break_op) != it->second.breakpoint_opcodes) {
387     if (curr_break_op != it->second.saved_opcodes)
388       return Status("Original breakpoint trap is no longer in memory.");
389     LLDB_LOG(log,
390              "Saved opcodes ({0:@[x]}) have already been restored at {1:x}.",
391              llvm::make_range(saved.begin(), saved.end()), addr);
392   } else {
393     // We found a valid breakpoint opcode at this address, now restore the
394     // saved opcode.
395     size_t bytes_written = 0;
396     error = WriteMemory(addr, saved.data(), saved.size(), bytes_written);
397     if (error.Fail() || bytes_written < saved.size()) {
398       return Status("addr=0x%" PRIx64
399                     ": tried to write %zu bytes but only wrote %zu",
400                     addr, saved.size(), bytes_written);
401     }
402 
403     // Verify that our original opcode made it back to the inferior
404     llvm::SmallVector<uint8_t, 4> verify_opcode(saved.size(), 0);
405     size_t verify_bytes_read = 0;
406     error = ReadMemory(addr, verify_opcode.data(), verify_opcode.size(),
407                        verify_bytes_read);
408     if (error.Fail() || verify_bytes_read < verify_opcode.size()) {
409       return Status("addr=0x%" PRIx64
410                     ": tried to read %zu verification bytes but only read %zu",
411                     addr, verify_opcode.size(), verify_bytes_read);
412     }
413     if (verify_opcode != saved)
414       LLDB_LOG(log, "Restoring bytes at {0:x}: {1:@[x]}", addr,
415                llvm::make_range(saved.begin(), saved.end()));
416   }
417 
418   m_software_breakpoints.erase(it);
419   return Status();
420 }
421 
422 llvm::Expected<NativeProcessProtocol::SoftwareBreakpoint>
EnableSoftwareBreakpoint(lldb::addr_t addr,uint32_t size_hint)423 NativeProcessProtocol::EnableSoftwareBreakpoint(lldb::addr_t addr,
424                                                 uint32_t size_hint) {
425   Log *log = GetLog(LLDBLog::Breakpoints);
426 
427   auto expected_trap = GetSoftwareBreakpointTrapOpcode(size_hint);
428   if (!expected_trap)
429     return expected_trap.takeError();
430 
431   llvm::SmallVector<uint8_t, 4> saved_opcode_bytes(expected_trap->size(), 0);
432   // Save the original opcodes by reading them so we can restore later.
433   size_t bytes_read = 0;
434   Status error = ReadMemory(addr, saved_opcode_bytes.data(),
435                             saved_opcode_bytes.size(), bytes_read);
436   if (error.Fail())
437     return error.ToError();
438 
439   // Ensure we read as many bytes as we expected.
440   if (bytes_read != saved_opcode_bytes.size()) {
441     return llvm::createStringError(
442         llvm::inconvertibleErrorCode(),
443         "Failed to read memory while attempting to set breakpoint: attempted "
444         "to read {0} bytes but only read {1}.",
445         saved_opcode_bytes.size(), bytes_read);
446   }
447 
448   LLDB_LOG(
449       log, "Overwriting bytes at {0:x}: {1:@[x]}", addr,
450       llvm::make_range(saved_opcode_bytes.begin(), saved_opcode_bytes.end()));
451 
452   // Write a software breakpoint in place of the original opcode.
453   size_t bytes_written = 0;
454   error = WriteMemory(addr, expected_trap->data(), expected_trap->size(),
455                       bytes_written);
456   if (error.Fail())
457     return error.ToError();
458 
459   // Ensure we wrote as many bytes as we expected.
460   if (bytes_written != expected_trap->size()) {
461     return llvm::createStringError(
462         llvm::inconvertibleErrorCode(),
463         "Failed write memory while attempting to set "
464         "breakpoint: attempted to write {0} bytes but only wrote {1}",
465         expected_trap->size(), bytes_written);
466   }
467 
468   llvm::SmallVector<uint8_t, 4> verify_bp_opcode_bytes(expected_trap->size(),
469                                                        0);
470   size_t verify_bytes_read = 0;
471   error = ReadMemory(addr, verify_bp_opcode_bytes.data(),
472                      verify_bp_opcode_bytes.size(), verify_bytes_read);
473   if (error.Fail())
474     return error.ToError();
475 
476   // Ensure we read as many verification bytes as we expected.
477   if (verify_bytes_read != verify_bp_opcode_bytes.size()) {
478     return llvm::createStringError(
479         llvm::inconvertibleErrorCode(),
480         "Failed to read memory while "
481         "attempting to verify breakpoint: attempted to read {0} bytes "
482         "but only read {1}",
483         verify_bp_opcode_bytes.size(), verify_bytes_read);
484   }
485 
486   if (llvm::ArrayRef(verify_bp_opcode_bytes.data(), verify_bytes_read) !=
487       *expected_trap) {
488     return llvm::createStringError(
489         llvm::inconvertibleErrorCode(),
490         "Verification of software breakpoint "
491         "writing failed - trap opcodes not successfully read back "
492         "after writing when setting breakpoint at {0:x}",
493         addr);
494   }
495 
496   LLDB_LOG(log, "addr = {0:x}: SUCCESS", addr);
497   return SoftwareBreakpoint{1, saved_opcode_bytes, *expected_trap};
498 }
499 
500 llvm::Expected<llvm::ArrayRef<uint8_t>>
GetSoftwareBreakpointTrapOpcode(size_t size_hint)501 NativeProcessProtocol::GetSoftwareBreakpointTrapOpcode(size_t size_hint) {
502   static const uint8_t g_aarch64_opcode[] = {0x00, 0x00, 0x20, 0xd4};
503   static const uint8_t g_i386_opcode[] = {0xCC};
504   static const uint8_t g_mips64_opcode[] = {0x00, 0x00, 0x00, 0x0d};
505   static const uint8_t g_mips64el_opcode[] = {0x0d, 0x00, 0x00, 0x00};
506   static const uint8_t g_msp430_opcode[] = {0x43, 0x43};
507   static const uint8_t g_s390x_opcode[] = {0x00, 0x01};
508   static const uint8_t g_ppc_opcode[] = {0x7f, 0xe0, 0x00, 0x08};   // trap
509   static const uint8_t g_ppcle_opcode[] = {0x08, 0x00, 0xe0, 0x7f}; // trap
510   static const uint8_t g_riscv_opcode[] = {0x73, 0x00, 0x10, 0x00}; // ebreak
511   static const uint8_t g_riscv_opcode_c[] = {0x02, 0x90};           // c.ebreak
512   static const uint8_t g_loongarch_opcode[] = {0x05, 0x00, 0x2a,
513                                                0x00}; // break 0x5
514 
515   switch (GetArchitecture().GetMachine()) {
516   case llvm::Triple::aarch64:
517   case llvm::Triple::aarch64_32:
518     return llvm::ArrayRef(g_aarch64_opcode);
519 
520   case llvm::Triple::x86:
521   case llvm::Triple::x86_64:
522     return llvm::ArrayRef(g_i386_opcode);
523 
524   case llvm::Triple::mips:
525   case llvm::Triple::mips64:
526     return llvm::ArrayRef(g_mips64_opcode);
527 
528   case llvm::Triple::mipsel:
529   case llvm::Triple::mips64el:
530     return llvm::ArrayRef(g_mips64el_opcode);
531 
532   case llvm::Triple::msp430:
533     return llvm::ArrayRef(g_msp430_opcode);
534 
535   case llvm::Triple::systemz:
536     return llvm::ArrayRef(g_s390x_opcode);
537 
538   case llvm::Triple::ppc:
539   case llvm::Triple::ppc64:
540     return llvm::ArrayRef(g_ppc_opcode);
541 
542   case llvm::Triple::ppc64le:
543     return llvm::ArrayRef(g_ppcle_opcode);
544 
545   case llvm::Triple::riscv32:
546   case llvm::Triple::riscv64: {
547     return size_hint == 2 ? llvm::ArrayRef(g_riscv_opcode_c)
548                           : llvm::ArrayRef(g_riscv_opcode);
549   }
550 
551   case llvm::Triple::loongarch32:
552   case llvm::Triple::loongarch64:
553     return llvm::ArrayRef(g_loongarch_opcode);
554 
555   default:
556     return llvm::createStringError(llvm::inconvertibleErrorCode(),
557                                    "CPU type not supported!");
558   }
559 }
560 
GetSoftwareBreakpointPCOffset()561 size_t NativeProcessProtocol::GetSoftwareBreakpointPCOffset() {
562   switch (GetArchitecture().GetMachine()) {
563   case llvm::Triple::x86:
564   case llvm::Triple::x86_64:
565   case llvm::Triple::systemz:
566     // These architectures report increment the PC after breakpoint is hit.
567     return cantFail(GetSoftwareBreakpointTrapOpcode(0)).size();
568 
569   case llvm::Triple::arm:
570   case llvm::Triple::aarch64:
571   case llvm::Triple::aarch64_32:
572   case llvm::Triple::mips64:
573   case llvm::Triple::mips64el:
574   case llvm::Triple::mips:
575   case llvm::Triple::mipsel:
576   case llvm::Triple::ppc:
577   case llvm::Triple::ppc64:
578   case llvm::Triple::ppc64le:
579   case llvm::Triple::riscv32:
580   case llvm::Triple::riscv64:
581   case llvm::Triple::loongarch32:
582   case llvm::Triple::loongarch64:
583     // On these architectures the PC doesn't get updated for breakpoint hits.
584     return 0;
585 
586   default:
587     llvm_unreachable("CPU type not supported!");
588   }
589 }
590 
FixupBreakpointPCAsNeeded(NativeThreadProtocol & thread)591 void NativeProcessProtocol::FixupBreakpointPCAsNeeded(
592     NativeThreadProtocol &thread) {
593   Log *log = GetLog(LLDBLog::Breakpoints);
594 
595   Status error;
596 
597   // Find out the size of a breakpoint (might depend on where we are in the
598   // code).
599   NativeRegisterContext &context = thread.GetRegisterContext();
600 
601   uint32_t breakpoint_size = GetSoftwareBreakpointPCOffset();
602   LLDB_LOG(log, "breakpoint size: {0}", breakpoint_size);
603   if (breakpoint_size == 0)
604     return;
605 
606   // First try probing for a breakpoint at a software breakpoint location: PC -
607   // breakpoint size.
608   const lldb::addr_t initial_pc_addr = context.GetPCfromBreakpointLocation();
609   lldb::addr_t breakpoint_addr = initial_pc_addr;
610   // Do not allow breakpoint probe to wrap around.
611   if (breakpoint_addr >= breakpoint_size)
612     breakpoint_addr -= breakpoint_size;
613 
614   if (m_software_breakpoints.count(breakpoint_addr) == 0) {
615     // We didn't find one at a software probe location.  Nothing to do.
616     LLDB_LOG(log,
617              "pid {0} no lldb software breakpoint found at current pc with "
618              "adjustment: {1}",
619              GetID(), breakpoint_addr);
620     return;
621   }
622 
623   //
624   // We have a software breakpoint and need to adjust the PC.
625   //
626 
627   // Change the program counter.
628   LLDB_LOG(log, "pid {0} tid {1}: changing PC from {2:x} to {3:x}", GetID(),
629            thread.GetID(), initial_pc_addr, breakpoint_addr);
630 
631   error = context.SetPC(breakpoint_addr);
632   if (error.Fail()) {
633     // This can happen in case the process was killed between the time we read
634     // the PC and when we are updating it. There's nothing better to do than to
635     // swallow the error.
636     LLDB_LOG(log, "pid {0} tid {1}: failed to set PC: {2}", GetID(),
637              thread.GetID(), error);
638   }
639 }
640 
RemoveBreakpoint(lldb::addr_t addr,bool hardware)641 Status NativeProcessProtocol::RemoveBreakpoint(lldb::addr_t addr,
642                                                bool hardware) {
643   if (hardware)
644     return RemoveHardwareBreakpoint(addr);
645   else
646     return RemoveSoftwareBreakpoint(addr);
647 }
648 
ReadMemoryWithoutTrap(lldb::addr_t addr,void * buf,size_t size,size_t & bytes_read)649 Status NativeProcessProtocol::ReadMemoryWithoutTrap(lldb::addr_t addr,
650                                                     void *buf, size_t size,
651                                                     size_t &bytes_read) {
652   Status error = ReadMemory(addr, buf, size, bytes_read);
653   if (error.Fail())
654     return error;
655 
656   llvm::MutableArrayRef data(static_cast<uint8_t *>(buf), bytes_read);
657   for (const auto &pair : m_software_breakpoints) {
658     lldb::addr_t bp_addr = pair.first;
659     auto saved_opcodes = llvm::ArrayRef(pair.second.saved_opcodes);
660 
661     if (bp_addr + saved_opcodes.size() < addr || addr + bytes_read <= bp_addr)
662       continue; // Breakpoint not in range, ignore
663 
664     if (bp_addr < addr) {
665       saved_opcodes = saved_opcodes.drop_front(addr - bp_addr);
666       bp_addr = addr;
667     }
668     auto bp_data = data.drop_front(bp_addr - addr);
669     std::copy_n(saved_opcodes.begin(),
670                 std::min(saved_opcodes.size(), bp_data.size()),
671                 bp_data.begin());
672   }
673   return Status();
674 }
675 
676 llvm::Expected<llvm::StringRef>
ReadCStringFromMemory(lldb::addr_t addr,char * buffer,size_t max_size,size_t & total_bytes_read)677 NativeProcessProtocol::ReadCStringFromMemory(lldb::addr_t addr, char *buffer,
678                                              size_t max_size,
679                                              size_t &total_bytes_read) {
680   static const size_t cache_line_size =
681       llvm::sys::Process::getPageSizeEstimate();
682   size_t bytes_read = 0;
683   size_t bytes_left = max_size;
684   addr_t curr_addr = addr;
685   size_t string_size;
686   char *curr_buffer = buffer;
687   total_bytes_read = 0;
688   Status status;
689 
690   while (bytes_left > 0 && status.Success()) {
691     addr_t cache_line_bytes_left =
692         cache_line_size - (curr_addr % cache_line_size);
693     addr_t bytes_to_read = std::min<addr_t>(bytes_left, cache_line_bytes_left);
694     status = ReadMemory(curr_addr, static_cast<void *>(curr_buffer),
695                         bytes_to_read, bytes_read);
696 
697     if (bytes_read == 0)
698       break;
699 
700     void *str_end = std::memchr(curr_buffer, '\0', bytes_read);
701     if (str_end != nullptr) {
702       total_bytes_read =
703           static_cast<size_t>((static_cast<char *>(str_end) - buffer + 1));
704       status.Clear();
705       break;
706     }
707 
708     total_bytes_read += bytes_read;
709     curr_buffer += bytes_read;
710     curr_addr += bytes_read;
711     bytes_left -= bytes_read;
712   }
713 
714   string_size = total_bytes_read - 1;
715 
716   // Make sure we return a null terminated string.
717   if (bytes_left == 0 && max_size > 0 && buffer[max_size - 1] != '\0') {
718     buffer[max_size - 1] = '\0';
719     total_bytes_read--;
720   }
721 
722   if (!status.Success())
723     return status.ToError();
724 
725   return llvm::StringRef(buffer, string_size);
726 }
727 
GetState() const728 lldb::StateType NativeProcessProtocol::GetState() const {
729   std::lock_guard<std::recursive_mutex> guard(m_state_mutex);
730   return m_state;
731 }
732 
SetState(lldb::StateType state,bool notify_delegates)733 void NativeProcessProtocol::SetState(lldb::StateType state,
734                                      bool notify_delegates) {
735   std::lock_guard<std::recursive_mutex> guard(m_state_mutex);
736 
737   if (state == m_state)
738     return;
739 
740   m_state = state;
741 
742   if (StateIsStoppedState(state, false)) {
743     ++m_stop_id;
744 
745     // Give process a chance to do any stop id bump processing, such as
746     // clearing cached data that is invalidated each time the process runs.
747     // Note if/when we support some threads running, we'll end up needing to
748     // manage this per thread and per process.
749     DoStopIDBumped(m_stop_id);
750   }
751 
752   // Optionally notify delegates of the state change.
753   if (notify_delegates)
754     SynchronouslyNotifyProcessStateChanged(state);
755 }
756 
GetStopID() const757 uint32_t NativeProcessProtocol::GetStopID() const {
758   std::lock_guard<std::recursive_mutex> guard(m_state_mutex);
759   return m_stop_id;
760 }
761 
DoStopIDBumped(uint32_t)762 void NativeProcessProtocol::DoStopIDBumped(uint32_t /* newBumpId */) {
763   // Default implementation does nothing.
764 }
765 
766 NativeProcessProtocol::Manager::~Manager() = default;
767