libphobos/libdruntime/gcc/backtrace.d - gcc - Git at Google

 // GNU D Compiler routines for stack backtrace support.
 // Copyright (C) 2013-2021 Free Software Foundation, Inc.

 // GCC is free software; you can redistribute it and/or modify it under
 // the terms of the GNU General Public License as published by the Free
 // Software Foundation; either version 3, or (at your option) any later
 // version.

 // GCC is distributed in the hope that it will be useful, but WITHOUT ANY
 // WARRANTY; without even the implied warranty of MERCHANTABILITY or
 // FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 // for more details.

 // Under Section 7 of GPL version 3, you are granted additional
 // permissions described in the GCC Runtime Library Exception, version
 // 3.1, as published by the Free Software Foundation.

 // You should have received a copy of the GNU General Public License and
 // a copy of the GCC Runtime Library Exception along with this program;
 // see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see
 // <http://www.gnu.org/licenses/>.

 module gcc.backtrace;

 import gcc.libbacktrace;

 // Max size per line of the traceback.
 private enum MAX_BUFSIZE = 1536;

 static if (BACKTRACE_SUPPORTED && !BACKTRACE_USES_MALLOC)
 {
     import core.stdc.stdint, core.stdc.string, core.stdc.stdio;
     private enum MAXFRAMES = 128;

     extern(C) int simpleCallback(void* data, uintptr_t pc)
     {
         auto context = cast(LibBacktrace)data;

         if (context.numPCs == MAXFRAMES)
             return 1;

         context.pcs[context.numPCs++] = pc;
         return 0;
     }

     /*
      * Used for backtrace_create_state and backtrace_simple
      */
     extern(C) void simpleErrorCallback(void* data, const(char)* msg, int errnum)
     {
         if (data) // context is not available in backtrace_create_state
         {
             auto context = cast(LibBacktrace)data;
             strncpy(context.errorBuf.ptr, msg, context.errorBuf.length - 1);
             context.error = errnum;
         }
     }

     /*
      * Used for backtrace_pcinfo
      */
     extern(C) int pcinfoCallback(void* data, uintptr_t pc, const(char)* filename,
                                  int lineno, const(char)* func)
     {
         auto context = cast(SymbolCallbackInfo*)data;

         // Try to get the function name via backtrace_syminfo
         if (func is null)
         {
             SymbolCallbackInfo2 info;
             info.base = context;
             info.filename = filename;
             info.lineno = lineno;
             if (backtrace_syminfo(context.state, pc, &syminfoCallback2, null, &info) != 0)
             {
                 return context.retval;
             }
         }

         auto sym = SymbolOrError(0, SymbolInfo(func, filename, lineno, cast(void*)pc));
         context.retval = context.applyCB(context.num, sym);
         context.num++;

         return context.retval;
     }

     /*
      * Used for backtrace_pcinfo and backtrace_syminfo
      */
     extern(C) void pcinfoErrorCallback(void* data, const(char)* msg, int errnum)
     {
         auto context = cast(SymbolCallbackInfo*)data;

         if (errnum == -1)
         {
             context.noInfo = true;
             return;
         }

         SymbolOrError symError;
         symError.errnum = errnum;
         symError.msg = msg;

         size_t i = 0;
         context.retval = context.applyCB(i, symError);
     }

     /*
      * Used for backtrace_syminfo (in opApply)
      */
     extern(C) void syminfoCallback(void* data, uintptr_t pc,
                                    const(char)* symname, uintptr_t symval)
     {
         auto context = cast(SymbolCallbackInfo*)data;

         auto sym = SymbolOrError(0, SymbolInfo(symname, null, 0, cast(void*)pc));
         context.retval = context.applyCB(context.num, sym);

         context.num++;
     }

     /*
      * This callback is used if backtrace_syminfo is called from the pcinfoCallback
      * callback. It merges it's information with the information from pcinfoCallback.
      */
     extern(C) void syminfoCallback2(void* data, uintptr_t pc,
                                     const(char)* symname, uintptr_t symval)
     {
         auto context = cast(SymbolCallbackInfo2*)data;

         auto sym = SymbolOrError(0, SymbolInfo(symname, context.filename, context.lineno,
             cast(void*)pc));
         context.base.retval = context.base.applyCB(context.base.num, sym);

         context.base.num++;
     }

     /*
      * The callback type used with the opApply overload which returns a SymbolOrError
      */
     private alias int delegate(ref size_t, ref SymbolOrError) ApplyCallback;

     /*
      * Passed to syminfoCallback, pcinfoCallback and pcinfoErrorCallback
      */
     struct SymbolCallbackInfo
     {
         bool noInfo = false;       // True if debug info / symbol table is not available
         size_t num = 0;            // Counter for opApply
         int retval;                // Value returned by applyCB
         backtrace_state* state;

         // info.fileName / funcName / errmsg may become invalid after this delegate returned
         ApplyCallback applyCB;

         void reset()
         {
             noInfo = false;
             num = 0;
         }
     }

     /*
      * Passed to the syminfoCallback2 callback. That function merges it's
      * funcName with this information and updates base as all other callbacks do.
      */
     struct SymbolCallbackInfo2
     {
         SymbolCallbackInfo* base;
         const(char)* filename;
         int lineno;
     }

     /*
      * Contains a valid symbol or an error message if errnum is != 0.
      */
     struct SymbolOrError
     {
         int errnum; // == 0: No error
         union
         {
             SymbolInfo symbol;
             const(char)* msg;
         }
     }

     // FIXME: state is never freed as libbacktrace doesn't provide a free function...
     public class LibBacktrace : Throwable.TraceInfo
     {
         static void initLibBacktrace()
         {
             if (!initialized)
             {
                 state = backtrace_create_state(null, false, &simpleErrorCallback, null);
                 initialized = true;
             }
         }

         this(int firstFrame)
         {
             _firstFrame = firstFrame;

             initLibBacktrace();

             if (state)
             {
                 backtrace_simple(state, _firstFrame, &simpleCallback,
                                  &simpleErrorCallback, cast(void*)this);
             }
         }

         override int opApply(scope int delegate(ref const(char[])) dg) const
         {
             return opApply(
                 (ref size_t, ref const(char[]) buf)
                 {
                     return dg(buf);
                 }
             );
         }

         override int opApply(scope int delegate(ref size_t, ref const(char[])) dg) const
         {
             return opApply(
                 (ref size_t i, ref SymbolOrError sym)
                 {
                     char[MAX_BUFSIZE] buffer = void;
                     char[] msg;
                     if (sym.errnum != 0)
                     {
                         auto retval = snprintf(buffer.ptr, buffer.length,
                                                "libbacktrace error: '%s' errno: %d", sym.msg, sym.errnum);
                         if (retval >= buffer.length)
                             retval = buffer.length - 1; // Ignore zero terminator
                         if (retval > 0)
                             msg = buffer[0 .. retval];
                         return dg(i, msg);
                     }
                     else
                     {
                         msg = formatLine(sym.symbol, buffer);
                         int ret = dg(i, msg);

                         if (!ret && sym.symbol.funcName && strcmp(sym.symbol.funcName, "_Dmain") == 0)
                             return 1;
                         return ret;
                     }
                 }
             );
         }

         int opApply(scope ApplyCallback dg) const
         {
             initLibBacktrace();

             // If backtrace_simple produced an error report it and exit
             if (!state || error != 0)
             {
                 size_t pos = 0;
                 SymbolOrError symError;
                 if (!state)
                 {
                     symError.msg = "libbacktrace failed to initialize\0";
                     symError.errnum = 1;
                 }
                 else
                 {
                     symError.errnum = error;
                     symError.msg = errorBuf.ptr;
                 }

                 return dg(pos, symError);
             }

             SymbolCallbackInfo cinfo;
             cinfo.applyCB = dg;
             cinfo.state = cast(backtrace_state*)state;

             // Try using debug info first
             foreach (i, pc; pcs[0 .. numPCs])
             {
                 // FIXME: We may violate const guarantees here...
                 if (backtrace_pcinfo(cast(backtrace_state*)state, pc, &pcinfoCallback,
                     &pcinfoErrorCallback, &cinfo) != 0)
                 {
                     break; // User delegate requested abort or no debug info at all
                 }
             }

             // If no error or other error which has already been reported via callback
             if (!cinfo.noInfo)
                 return cinfo.retval;

             // Try using symbol table
             cinfo.reset();
             foreach (pc; pcs[0 .. numPCs])
             {
                 if (backtrace_syminfo(cast(backtrace_state*)state, pc, &syminfoCallback,
                     &pcinfoErrorCallback, &cinfo) == 0)
                 {
                     break;
                 }
             }

             if (!cinfo.noInfo)
                 return cinfo.retval;

             // No symbol table
             foreach (i, pc; pcs[0 .. numPCs])
             {
                 auto sym = SymbolOrError(0, SymbolInfo(null, null, 0, cast(void*)pc));
                 if (auto ret = dg(i, sym) != 0)
                     return ret;
             }

             return 0;
         }

         override string toString() const
         {
             string buf;
             foreach (i, const(char[]) line; this)
                 buf ~= i ? "\n" ~ line : line;
             return buf;
         }

     private:
         static backtrace_state* state = null;
         static bool initialized       = false;
         size_t                 numPCs = 0;
         uintptr_t[MAXFRAMES] pcs;

         int       error = 0;
         int _firstFrame = 0;
         char[128] errorBuf = "\0";
     }
 }
 else
 {
     /*
      * Our fallback backtrace implementation using libgcc's unwind
      * and backtrace support. In theory libbacktrace should be available
      * everywhere where this code works. We keep it anyway till libbacktrace
      * is well-tested.
      */
     public class UnwindBacktrace : Throwable.TraceInfo
     {
         this(int firstFrame)
         {
             _firstFrame = firstFrame;
             _callstack = getBacktrace();
             _framelist = getBacktraceSymbols(_callstack);
         }

         override int opApply(scope int delegate(ref const(char[])) dg) const
         {
             return opApply(
                 (ref size_t, ref const(char[]) buf)
                 {
                     return dg(buf);
                 }
             );
         }

         override int opApply(scope int delegate(ref size_t, ref const(char[])) dg) const
         {
             char[MAX_BUFSIZE] buffer = void;
             int ret = 0;

             for (int i = _firstFrame; i < _framelist.entries; ++i)
             {
                 auto pos = cast(size_t)(i - _firstFrame);
                 auto msg = formatLine(_framelist.symbols[i], buffer);
                 ret = dg(pos, msg);
                 if (ret)
                     break;
             }
             return ret;
         }

         override string toString() const
         {
             string buf;
             foreach (i, line; this)
                 buf ~= i ? "\n" ~ line : line;
             return buf;
         }

     private:
         BTSymbolData     _framelist;
         UnwindBacktraceData _callstack;
         int              _firstFrame = 0;
     }

     // Implementation details
 private:
     import gcc.unwind;

     version (linux)
         import core.sys.linux.dlfcn;
     else version (OSX)
         import core.sys.darwin.dlfcn;
     else version (FreeBSD)
         import core.sys.freebsd.dlfcn;
     else version (NetBSD)
         import core.sys.netbsd.dlfcn;
     else version (OpenBSD)
         import core.sys.openbsd.dlfcn;
     else version (Solaris)
         import core.sys.solaris.dlfcn;
     else version (Posix)
         import core.sys.posix.dlfcn;

     private enum MAXFRAMES = 128;

     struct UnwindBacktraceData
     {
         void*[MAXFRAMES] callstack;
         int numframes = 0;
     }

     struct BTSymbolData
     {
         size_t entries;
         SymbolInfo[MAXFRAMES] symbols;
     }

     static extern (C) _Unwind_Reason_Code unwindCB(_Unwind_Context *ctx, void *d)
     {
         UnwindBacktraceData* bt = cast(UnwindBacktraceData*)d;
         if (bt.numframes >= MAXFRAMES)
             return _URC_NO_REASON;

         bt.callstack[bt.numframes] = cast(void*)_Unwind_GetIP(ctx);
         bt.numframes++;
         return _URC_NO_REASON;
     }

     UnwindBacktraceData getBacktrace()
     {
         UnwindBacktraceData stackframe;
         _Unwind_Backtrace(&unwindCB, &stackframe);
         return stackframe;
     }

     BTSymbolData getBacktraceSymbols(UnwindBacktraceData data)
     {
         BTSymbolData symData;

         for (auto i = 0; i < data.numframes; i++)
         {
             static if ( __traits(compiles, Dl_info))
             {
                 Dl_info funcInfo;

                 if (data.callstack[i] !is null && dladdr(data.callstack[i], &funcInfo) != 0)
                 {
                     symData.symbols[symData.entries].funcName = funcInfo.dli_sname;

                     symData.symbols[symData.entries].address = data.callstack[i];
                     symData.entries++;
                 }
                 else
                 {
                     symData.symbols[symData.entries].address = data.callstack[i];
                     symData.entries++;
                 }
             }
             else
             {
                 symData.symbols[symData.entries].address = data.callstack[i];
                 symData.entries++;
             }
         }

         return symData;
     }
 }

 /*
  * Struct representing a symbol (function) in the backtrace
  */
 struct SymbolInfo
 {
     const(char)* funcName, fileName;
     size_t line;
     const(void)* address;
 }

 /*
  * Format one output line for symbol sym.
  * Returns a slice of buffer.
  */
 char[] formatLine(const SymbolInfo sym, return ref char[MAX_BUFSIZE] buffer)
 {
     import core.demangle, core.stdc.config;
     import core.stdc.stdio : snprintf, printf;
     import core.stdc.string : strlen;

     size_t bufferLength = 0;

     void appendToBuffer(Args...)(const(char)* format, Args args)
     {
         const count = snprintf(buffer.ptr + bufferLength,
                                buffer.length - bufferLength,
                                format, args);
         assert(count >= 0);
         bufferLength += count;
         if (bufferLength >= buffer.length)
             bufferLength = buffer.length - 1;
     }


     if (sym.fileName is null)
         appendToBuffer("??:? ");
     else
         appendToBuffer("%s:%d ", sym.fileName, sym.line);

     if (sym.funcName is null)
         appendToBuffer("???");
     else
     {
         char[1024] symbol = void;
         auto demangled = demangle(sym.funcName[0 .. strlen(sym.funcName)], symbol);

         if (demangled.length > 0)
             appendToBuffer("%.*s ", cast(int) demangled.length, demangled.ptr);
     }

     version (D_LP64)
         appendToBuffer("[0x%llx]", cast(size_t)sym.address);
     else
         appendToBuffer("[0x%x]", cast(size_t)sym.address);

     return buffer[0 .. bufferLength];
 }


 unittest
 {
     char[MAX_BUFSIZE] sbuf = '\0';
     char[] result;
     string longString;
     for (size_t i = 0; i < 60; i++)
         longString ~= "abcdefghij";
     longString ~= '\0';

     auto symbol = SymbolInfo(null, null, 0, null);
     result = formatLine(symbol, sbuf);
     assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

     symbol = SymbolInfo(longString.ptr, null, 0, null);
     result = formatLine(symbol, sbuf);
     assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

     symbol = SymbolInfo("func", "test.d", 0, null);
     result = formatLine(symbol, sbuf);
     assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

     symbol = SymbolInfo("func", longString.ptr, 0, null);
     result = formatLine(symbol, sbuf);
     assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

     symbol = SymbolInfo(longString.ptr, "test.d", 0, null);
     result = formatLine(symbol, sbuf);
     assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

     symbol = SymbolInfo(longString.ptr, longString.ptr, 0, null);
     result = formatLine(symbol, sbuf);
     assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

     symbol = SymbolInfo("func", "test.d", 1000, null);
     result = formatLine(symbol, sbuf);
     assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

     symbol = SymbolInfo(null, (longString[0..500] ~ '\0').ptr, 100000000, null);
     result = formatLine(symbol, sbuf);
     assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

     symbol = SymbolInfo("func", "test.d", 0, cast(void*)0x100000);
     result = formatLine(symbol, sbuf);
     assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

     symbol = SymbolInfo("func", null, 0, cast(void*)0x100000);
     result = formatLine(symbol, sbuf);
     assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

     symbol = SymbolInfo(null, "test.d", 0, cast(void*)0x100000);
     result = formatLine(symbol, sbuf);
     assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

     symbol = SymbolInfo(longString.ptr, "test.d", 0, cast(void*)0x100000);
     result = formatLine(symbol, sbuf);
     assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');
 }
	// GNU D Compiler routines for stack backtrace support.
	// Copyright (C) 2013-2021 Free Software Foundation, Inc.

	// GCC is free software; you can redistribute it and/or modify it under
	// the terms of the GNU General Public License as published by the Free
	// Software Foundation; either version 3, or (at your option) any later
	// version.

	// GCC is distributed in the hope that it will be useful, but WITHOUT ANY
	// WARRANTY; without even the implied warranty of MERCHANTABILITY or
	// FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
	// for more details.

	// Under Section 7 of GPL version 3, you are granted additional
	// permissions described in the GCC Runtime Library Exception, version
	// 3.1, as published by the Free Software Foundation.

	// You should have received a copy of the GNU General Public License and
	// a copy of the GCC Runtime Library Exception along with this program;
	// see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
	// <http://www.gnu.org/licenses/>.

	module gcc.backtrace;

	import gcc.libbacktrace;

	// Max size per line of the traceback.
	private enum MAX_BUFSIZE = 1536;

	static if (BACKTRACE_SUPPORTED && !BACKTRACE_USES_MALLOC)
	{
	import core.stdc.stdint, core.stdc.string, core.stdc.stdio;
	private enum MAXFRAMES = 128;

	extern(C) int simpleCallback(void* data, uintptr_t pc)
	{
	auto context = cast(LibBacktrace)data;

	if (context.numPCs == MAXFRAMES)
	return 1;

	context.pcs[context.numPCs++] = pc;
	return 0;
	}

	/*
	* Used for backtrace_create_state and backtrace_simple
	*/
	extern(C) void simpleErrorCallback(void* data, const(char)* msg, int errnum)
	{
	if (data) // context is not available in backtrace_create_state
	{
	auto context = cast(LibBacktrace)data;
	strncpy(context.errorBuf.ptr, msg, context.errorBuf.length - 1);
	context.error = errnum;
	}
	}

	/*
	* Used for backtrace_pcinfo
	*/
	extern(C) int pcinfoCallback(void* data, uintptr_t pc, const(char)* filename,
	int lineno, const(char)* func)
	{
	auto context = cast(SymbolCallbackInfo*)data;

	// Try to get the function name via backtrace_syminfo
	if (func is null)
	{
	SymbolCallbackInfo2 info;
	info.base = context;
	info.filename = filename;
	info.lineno = lineno;
	if (backtrace_syminfo(context.state, pc, &syminfoCallback2, null, &info) != 0)
	{
	return context.retval;
	}
	}

	auto sym = SymbolOrError(0, SymbolInfo(func, filename, lineno, cast(void*)pc));
	context.retval = context.applyCB(context.num, sym);
	context.num++;

	return context.retval;
	}

	/*
	* Used for backtrace_pcinfo and backtrace_syminfo
	*/
	extern(C) void pcinfoErrorCallback(void* data, const(char)* msg, int errnum)
	{
	auto context = cast(SymbolCallbackInfo*)data;

	if (errnum == -1)
	{
	context.noInfo = true;
	return;
	}

	SymbolOrError symError;
	symError.errnum = errnum;
	symError.msg = msg;

	size_t i = 0;
	context.retval = context.applyCB(i, symError);
	}

	/*
	* Used for backtrace_syminfo (in opApply)
	*/
	extern(C) void syminfoCallback(void* data, uintptr_t pc,
	const(char)* symname, uintptr_t symval)
	{
	auto context = cast(SymbolCallbackInfo*)data;

	auto sym = SymbolOrError(0, SymbolInfo(symname, null, 0, cast(void*)pc));
	context.retval = context.applyCB(context.num, sym);

	context.num++;
	}

	/*
	* This callback is used if backtrace_syminfo is called from the pcinfoCallback
	* callback. It merges it's information with the information from pcinfoCallback.
	*/
	extern(C) void syminfoCallback2(void* data, uintptr_t pc,
	const(char)* symname, uintptr_t symval)
	{
	auto context = cast(SymbolCallbackInfo2*)data;

	auto sym = SymbolOrError(0, SymbolInfo(symname, context.filename, context.lineno,
	cast(void*)pc));
	context.base.retval = context.base.applyCB(context.base.num, sym);

	context.base.num++;
	}

	/*
	* The callback type used with the opApply overload which returns a SymbolOrError
	*/
	private alias int delegate(ref size_t, ref SymbolOrError) ApplyCallback;

	/*
	* Passed to syminfoCallback, pcinfoCallback and pcinfoErrorCallback
	*/
	struct SymbolCallbackInfo
	{
	bool noInfo = false; // True if debug info / symbol table is not available
	size_t num = 0; // Counter for opApply
	int retval; // Value returned by applyCB
	backtrace_state* state;

	// info.fileName / funcName / errmsg may become invalid after this delegate returned
	ApplyCallback applyCB;

	void reset()
	{
	noInfo = false;
	num = 0;
	}
	}

	/*
	* Passed to the syminfoCallback2 callback. That function merges it's
	* funcName with this information and updates base as all other callbacks do.
	*/
	struct SymbolCallbackInfo2
	{
	SymbolCallbackInfo* base;
	const(char)* filename;
	int lineno;
	}

	/*
	* Contains a valid symbol or an error message if errnum is != 0.
	*/
	struct SymbolOrError
	{
	int errnum; // == 0: No error
	union
	{
	SymbolInfo symbol;
	const(char)* msg;
	}
	}

	// FIXME: state is never freed as libbacktrace doesn't provide a free function...
	public class LibBacktrace : Throwable.TraceInfo
	{
	static void initLibBacktrace()
	{
	if (!initialized)
	{
	state = backtrace_create_state(null, false, &simpleErrorCallback, null);
	initialized = true;
	}
	}

	this(int firstFrame)
	{
	_firstFrame = firstFrame;

	initLibBacktrace();

	if (state)
	{
	backtrace_simple(state, _firstFrame, &simpleCallback,
	&simpleErrorCallback, cast(void*)this);
	}
	}

	override int opApply(scope int delegate(ref const(char[])) dg) const
	{
	return opApply(
	(ref size_t, ref const(char[]) buf)
	{
	return dg(buf);
	}
	);
	}

	override int opApply(scope int delegate(ref size_t, ref const(char[])) dg) const
	{
	return opApply(
	(ref size_t i, ref SymbolOrError sym)
	{
	char[MAX_BUFSIZE] buffer = void;
	char[] msg;
	if (sym.errnum != 0)
	{
	auto retval = snprintf(buffer.ptr, buffer.length,
	"libbacktrace error: '%s' errno: %d", sym.msg, sym.errnum);
	if (retval >= buffer.length)
	retval = buffer.length - 1; // Ignore zero terminator
	if (retval > 0)
	msg = buffer[0 .. retval];
	return dg(i, msg);
	}
	else
	{
	msg = formatLine(sym.symbol, buffer);
	int ret = dg(i, msg);

	if (!ret && sym.symbol.funcName && strcmp(sym.symbol.funcName, "_Dmain") == 0)
	return 1;
	return ret;
	}
	}
	);
	}

	int opApply(scope ApplyCallback dg) const
	{
	initLibBacktrace();

	// If backtrace_simple produced an error report it and exit
	if (!state \|\| error != 0)
	{
	size_t pos = 0;
	SymbolOrError symError;
	if (!state)
	{
	symError.msg = "libbacktrace failed to initialize\0";
	symError.errnum = 1;
	}
	else
	{
	symError.errnum = error;
	symError.msg = errorBuf.ptr;
	}

	return dg(pos, symError);
	}

	SymbolCallbackInfo cinfo;
	cinfo.applyCB = dg;
	cinfo.state = cast(backtrace_state*)state;

	// Try using debug info first
	foreach (i, pc; pcs[0 .. numPCs])
	{
	// FIXME: We may violate const guarantees here...
	if (backtrace_pcinfo(cast(backtrace_state*)state, pc, &pcinfoCallback,
	&pcinfoErrorCallback, &cinfo) != 0)
	{
	break; // User delegate requested abort or no debug info at all
	}
	}

	// If no error or other error which has already been reported via callback
	if (!cinfo.noInfo)
	return cinfo.retval;

	// Try using symbol table
	cinfo.reset();
	foreach (pc; pcs[0 .. numPCs])
	{
	if (backtrace_syminfo(cast(backtrace_state*)state, pc, &syminfoCallback,
	&pcinfoErrorCallback, &cinfo) == 0)
	{
	break;
	}
	}

	if (!cinfo.noInfo)
	return cinfo.retval;

	// No symbol table
	foreach (i, pc; pcs[0 .. numPCs])
	{
	auto sym = SymbolOrError(0, SymbolInfo(null, null, 0, cast(void*)pc));
	if (auto ret = dg(i, sym) != 0)
	return ret;
	}

	return 0;
	}

	override string toString() const
	{
	string buf;
	foreach (i, const(char[]) line; this)
	buf ~= i ? "\n" ~ line : line;
	return buf;
	}

	private:
	static backtrace_state* state = null;
	static bool initialized = false;
	size_t numPCs = 0;
	uintptr_t[MAXFRAMES] pcs;

	int error = 0;
	int _firstFrame = 0;
	char[128] errorBuf = "\0";
	}
	}
	else
	{
	/*
	* Our fallback backtrace implementation using libgcc's unwind
	* and backtrace support. In theory libbacktrace should be available
	* everywhere where this code works. We keep it anyway till libbacktrace
	* is well-tested.
	*/
	public class UnwindBacktrace : Throwable.TraceInfo
	{
	this(int firstFrame)
	{
	_firstFrame = firstFrame;
	_callstack = getBacktrace();
	_framelist = getBacktraceSymbols(_callstack);
	}

	override int opApply(scope int delegate(ref const(char[])) dg) const
	{
	return opApply(
	(ref size_t, ref const(char[]) buf)
	{
	return dg(buf);
	}
	);
	}

	override int opApply(scope int delegate(ref size_t, ref const(char[])) dg) const
	{
	char[MAX_BUFSIZE] buffer = void;
	int ret = 0;

	for (int i = _firstFrame; i < _framelist.entries; ++i)
	{
	auto pos = cast(size_t)(i - _firstFrame);
	auto msg = formatLine(_framelist.symbols[i], buffer);
	ret = dg(pos, msg);
	if (ret)
	break;
	}
	return ret;
	}

	override string toString() const
	{
	string buf;
	foreach (i, line; this)
	buf ~= i ? "\n" ~ line : line;
	return buf;
	}

	private:
	BTSymbolData _framelist;
	UnwindBacktraceData _callstack;
	int _firstFrame = 0;
	}

	// Implementation details
	private:
	import gcc.unwind;

	version (linux)
	import core.sys.linux.dlfcn;
	else version (OSX)
	import core.sys.darwin.dlfcn;
	else version (FreeBSD)
	import core.sys.freebsd.dlfcn;
	else version (NetBSD)
	import core.sys.netbsd.dlfcn;
	else version (OpenBSD)
	import core.sys.openbsd.dlfcn;
	else version (Solaris)
	import core.sys.solaris.dlfcn;
	else version (Posix)
	import core.sys.posix.dlfcn;

	private enum MAXFRAMES = 128;

	struct UnwindBacktraceData
	{
	void*[MAXFRAMES] callstack;
	int numframes = 0;
	}

	struct BTSymbolData
	{
	size_t entries;
	SymbolInfo[MAXFRAMES] symbols;
	}

	static extern (C) _Unwind_Reason_Code unwindCB(_Unwind_Context ctx, void d)
	{
	UnwindBacktraceData* bt = cast(UnwindBacktraceData*)d;
	if (bt.numframes >= MAXFRAMES)
	return _URC_NO_REASON;

	bt.callstack[bt.numframes] = cast(void*)_Unwind_GetIP(ctx);
	bt.numframes++;
	return _URC_NO_REASON;
	}

	UnwindBacktraceData getBacktrace()
	{
	UnwindBacktraceData stackframe;
	_Unwind_Backtrace(&unwindCB, &stackframe);
	return stackframe;
	}

	BTSymbolData getBacktraceSymbols(UnwindBacktraceData data)
	{
	BTSymbolData symData;

	for (auto i = 0; i < data.numframes; i++)
	{
	static if ( __traits(compiles, Dl_info))
	{
	Dl_info funcInfo;

	if (data.callstack[i] !is null && dladdr(data.callstack[i], &funcInfo) != 0)
	{
	symData.symbols[symData.entries].funcName = funcInfo.dli_sname;

	symData.symbols[symData.entries].address = data.callstack[i];
	symData.entries++;
	}
	else
	{
	symData.symbols[symData.entries].address = data.callstack[i];
	symData.entries++;
	}
	}
	else
	{
	symData.symbols[symData.entries].address = data.callstack[i];
	symData.entries++;
	}
	}

	return symData;
	}
	}

	/*
	* Struct representing a symbol (function) in the backtrace
	*/
	struct SymbolInfo
	{
	const(char)* funcName, fileName;
	size_t line;
	const(void)* address;
	}

	/*
	* Format one output line for symbol sym.
	* Returns a slice of buffer.
	*/
	char[] formatLine(const SymbolInfo sym, return ref char[MAX_BUFSIZE] buffer)
	{
	import core.demangle, core.stdc.config;
	import core.stdc.stdio : snprintf, printf;
	import core.stdc.string : strlen;

	size_t bufferLength = 0;

	void appendToBuffer(Args...)(const(char)* format, Args args)
	{
	const count = snprintf(buffer.ptr + bufferLength,
	buffer.length - bufferLength,
	format, args);
	assert(count >= 0);
	bufferLength += count;
	if (bufferLength >= buffer.length)
	bufferLength = buffer.length - 1;
	}


	if (sym.fileName is null)
	appendToBuffer("??:? ");
	else
	appendToBuffer("%s:%d ", sym.fileName, sym.line);

	if (sym.funcName is null)
	appendToBuffer("???");
	else
	{
	char[1024] symbol = void;
	auto demangled = demangle(sym.funcName[0 .. strlen(sym.funcName)], symbol);

	if (demangled.length > 0)
	appendToBuffer("%.*s ", cast(int) demangled.length, demangled.ptr);
	}

	version (D_LP64)
	appendToBuffer("[0x%llx]", cast(size_t)sym.address);
	else
	appendToBuffer("[0x%x]", cast(size_t)sym.address);

	return buffer[0 .. bufferLength];
	}


	unittest
	{
	char[MAX_BUFSIZE] sbuf = '\0';
	char[] result;
	string longString;
	for (size_t i = 0; i < 60; i++)
	longString ~= "abcdefghij";
	longString ~= '\0';

	auto symbol = SymbolInfo(null, null, 0, null);
	result = formatLine(symbol, sbuf);
	assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

	symbol = SymbolInfo(longString.ptr, null, 0, null);
	result = formatLine(symbol, sbuf);
	assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

	symbol = SymbolInfo("func", "test.d", 0, null);
	result = formatLine(symbol, sbuf);
	assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

	symbol = SymbolInfo("func", longString.ptr, 0, null);
	result = formatLine(symbol, sbuf);
	assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

	symbol = SymbolInfo(longString.ptr, "test.d", 0, null);
	result = formatLine(symbol, sbuf);
	assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

	symbol = SymbolInfo(longString.ptr, longString.ptr, 0, null);
	result = formatLine(symbol, sbuf);
	assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

	symbol = SymbolInfo("func", "test.d", 1000, null);
	result = formatLine(symbol, sbuf);
	assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

	symbol = SymbolInfo(null, (longString[0..500] ~ '\0').ptr, 100000000, null);
	result = formatLine(symbol, sbuf);
	assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

	symbol = SymbolInfo("func", "test.d", 0, cast(void*)0x100000);
	result = formatLine(symbol, sbuf);
	assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

	symbol = SymbolInfo("func", null, 0, cast(void*)0x100000);
	result = formatLine(symbol, sbuf);
	assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

	symbol = SymbolInfo(null, "test.d", 0, cast(void*)0x100000);
	result = formatLine(symbol, sbuf);
	assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');

	symbol = SymbolInfo(longString.ptr, "test.d", 0, cast(void*)0x100000);
	result = formatLine(symbol, sbuf);
	assert(result.length < MAX_BUFSIZE && result.ptr[result.length] == '\0' && sbuf[$-1] == '\0');
	}