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// Copyright 2018 The Abseil Authors. 
// 
// Licensed under the Apache License, Version 2.0 (the "License"); 
// you may not use this file except in compliance with the License. 
// You may obtain a copy of the License at 
// 
//      https://www.apache.org/licenses/LICENSE-2.0 
// 
// Unless required by applicable law or agreed to in writing, software 
// distributed under the License is distributed on an "AS IS" BASIS, 
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 
// See the License for the specific language governing permissions and 
// limitations under the License. 
// 
// ----------------------------------------------------------------------------- 
// File: stacktrace.h 
// ----------------------------------------------------------------------------- 
// 
// This file contains routines to extract the current stack trace and associated 
// stack frames. These functions are thread-safe and async-signal-safe. 
// 
// Note that stack trace functionality is platform dependent and requires 
// additional support from the compiler/build system in most cases. (That is, 
// this functionality generally only works on platforms/builds that have been 
// specifically configured to support it.) 
// 
// Note: stack traces in Abseil that do not utilize a symbolizer will result in 
// frames consisting of function addresses rather than human-readable function 
// names. (See symbolize.h for information on symbolizing these values.) 
 
#ifndef ABSL_DEBUGGING_STACKTRACE_H_ 
#define ABSL_DEBUGGING_STACKTRACE_H_ 
 
#include "y_absl/base/config.h"

namespace y_absl {
ABSL_NAMESPACE_BEGIN
 
// GetStackFrames() 
// 
// Records program counter values for up to `max_depth` frames, skipping the 
// most recent `skip_count` stack frames, stores their corresponding values 
// and sizes in `results` and `sizes` buffers, and returns the number of frames 
// stored. (Note that the frame generated for the `y_absl::GetStackFrames()`
// routine itself is also skipped.) 
// 
// Example: 
// 
//      main() { foo(); } 
//      foo() { bar(); } 
//      bar() { 
//        void* result[10]; 
//        int sizes[10]; 
//        int depth = y_absl::GetStackFrames(result, sizes, 10, 1);
//      } 
// 
// The current stack frame would consist of three function calls: `bar()`, 
// `foo()`, and then `main()`; however, since the `GetStackFrames()` call sets 
// `skip_count` to `1`, it will skip the frame for `bar()`, the most recently 
// invoked function call. It will therefore return 2 and fill `result` with 
// program counters within the following functions: 
// 
//      result[0]       foo() 
//      result[1]       main() 
// 
// (Note: in practice, a few more entries after `main()` may be added to account 
// for startup processes.) 
// 
// Corresponding stack frame sizes will also be recorded: 
// 
//    sizes[0]       16 
//    sizes[1]       16 
// 
// (Stack frame sizes of `16` above are just for illustration purposes.) 
// 
// Stack frame sizes of 0 or less indicate that those frame sizes couldn't 
// be identified. 
// 
// This routine may return fewer stack frame entries than are 
// available. Also note that `result` and `sizes` must both be non-null. 
extern int GetStackFrames(void** result, int* sizes, int max_depth, 
                          int skip_count); 
 
// GetStackFramesWithContext() 
// 
// Records program counter values obtained from a signal handler. Records 
// program counter values for up to `max_depth` frames, skipping the most recent 
// `skip_count` stack frames, stores their corresponding values and sizes in 
// `results` and `sizes` buffers, and returns the number of frames stored. (Note 
// that the frame generated for the `y_absl::GetStackFramesWithContext()` routine
// itself is also skipped.) 
// 
// The `uc` parameter, if non-null, should be a pointer to a `ucontext_t` value 
// passed to a signal handler registered via the `sa_sigaction` field of a 
// `sigaction` struct. (See 
// http://man7.org/linux/man-pages/man2/sigaction.2.html.) The `uc` value may 
// help a stack unwinder to provide a better stack trace under certain 
// conditions. `uc` may safely be null. 
// 
// The `min_dropped_frames` output parameter, if non-null, points to the 
// location to note any dropped stack frames, if any, due to buffer limitations 
// or other reasons. (This value will be set to `0` if no frames were dropped.) 
// The number of total stack frames is guaranteed to be >= skip_count + 
// max_depth + *min_dropped_frames. 
extern int GetStackFramesWithContext(void** result, int* sizes, int max_depth, 
                                     int skip_count, const void* uc, 
                                     int* min_dropped_frames); 
 
// GetStackTrace() 
// 
// Records program counter values for up to `max_depth` frames, skipping the 
// most recent `skip_count` stack frames, stores their corresponding values 
// in `results`, and returns the number of frames 
// stored. Note that this function is similar to `y_absl::GetStackFrames()`
// except that it returns the stack trace only, and not stack frame sizes. 
// 
// Example: 
// 
//      main() { foo(); } 
//      foo() { bar(); } 
//      bar() { 
//        void* result[10]; 
//        int depth = y_absl::GetStackTrace(result, 10, 1);
//      } 
// 
// This produces: 
// 
//      result[0]       foo 
//      result[1]       main 
//           ....       ... 
// 
// `result` must not be null. 
extern int GetStackTrace(void** result, int max_depth, int skip_count); 
 
// GetStackTraceWithContext() 
// 
// Records program counter values obtained from a signal handler. Records 
// program counter values for up to `max_depth` frames, skipping the most recent 
// `skip_count` stack frames, stores their corresponding values in `results`, 
// and returns the number of frames stored. (Note that the frame generated for 
// the `y_absl::GetStackFramesWithContext()` routine itself is also skipped.)
// 
// The `uc` parameter, if non-null, should be a pointer to a `ucontext_t` value 
// passed to a signal handler registered via the `sa_sigaction` field of a 
// `sigaction` struct. (See 
// http://man7.org/linux/man-pages/man2/sigaction.2.html.) The `uc` value may 
// help a stack unwinder to provide a better stack trace under certain 
// conditions. `uc` may safely be null. 
// 
// The `min_dropped_frames` output parameter, if non-null, points to the 
// location to note any dropped stack frames, if any, due to buffer limitations 
// or other reasons. (This value will be set to `0` if no frames were dropped.) 
// The number of total stack frames is guaranteed to be >= skip_count + 
// max_depth + *min_dropped_frames. 
extern int GetStackTraceWithContext(void** result, int max_depth, 
                                    int skip_count, const void* uc, 
                                    int* min_dropped_frames); 
 
// SetStackUnwinder() 
// 
// Provides a custom function for unwinding stack frames that will be used in 
// place of the default stack unwinder when invoking the static 
// GetStack{Frames,Trace}{,WithContext}() functions above. 
// 
// The arguments passed to the unwinder function will match the 
// arguments passed to `y_absl::GetStackFramesWithContext()` except that sizes
// will be non-null iff the caller is interested in frame sizes. 
// 
// If unwinder is set to null, we revert to the default stack-tracing behavior. 
// 
// ***************************************************************************** 
// WARNING 
// ***************************************************************************** 
// 
// y_absl::SetStackUnwinder is not suitable for general purpose use.  It is
// provided for custom runtimes. 
// Some things to watch out for when calling `y_absl::SetStackUnwinder()`:
// 
// (a) The unwinder may be called from within signal handlers and 
// therefore must be async-signal-safe. 
// 
// (b) Even after a custom stack unwinder has been unregistered, other 
// threads may still be in the process of using that unwinder. 
// Therefore do not clean up any state that may be needed by an old 
// unwinder. 
// ***************************************************************************** 
extern void SetStackUnwinder(int (*unwinder)(void** pcs, int* sizes, 
                                             int max_depth, int skip_count, 
                                             const void* uc, 
                                             int* min_dropped_frames)); 
 
// DefaultStackUnwinder() 
// 
// Records program counter values of up to `max_depth` frames, skipping the most 
// recent `skip_count` stack frames, and stores their corresponding values in 
// `pcs`. (Note that the frame generated for this call itself is also skipped.) 
// This function acts as a generic stack-unwinder; prefer usage of the more 
// specific `GetStack{Trace,Frames}{,WithContext}()` functions above. 
// 
// If you have set your own stack unwinder (with the `SetStackUnwinder()` 
// function above, you can still get the default stack unwinder by calling 
// `DefaultStackUnwinder()`, which will ignore any previously set stack unwinder 
// and use the default one instead. 
// 
// Because this function is generic, only `pcs` is guaranteed to be non-null 
// upon return. It is legal for `sizes`, `uc`, and `min_dropped_frames` to all 
// be null when called. 
// 
// The semantics are the same as the corresponding `GetStack*()` function in the 
// case where `y_absl::SetStackUnwinder()` was never called. Equivalents are:
// 
//                       null sizes         |        non-nullptr sizes 
//             |==========================================================| 
//     null uc | GetStackTrace()            | GetStackFrames()            | 
// non-null uc | GetStackTraceWithContext() | GetStackFramesWithContext() | 
//             |==========================================================| 
extern int DefaultStackUnwinder(void** pcs, int* sizes, int max_depth, 
                                int skip_count, const void* uc, 
                                int* min_dropped_frames); 
 
namespace debugging_internal { 
// Returns true for platforms which are expected to have functioning stack trace 
// implementations. Intended to be used for tests which want to exclude 
// verification of logic known to be broken because stack traces are not 
// working. 
extern bool StackTraceWorksForTest(); 
}  // namespace debugging_internal 
ABSL_NAMESPACE_END
}  // namespace y_absl
 
#endif  // ABSL_DEBUGGING_STACKTRACE_H_