libgo/runtime/go-callers.c - gofrontend - Git at Google

 /* go-callers.c -- get callers for Go.

    Copyright 2012 The Go Authors. All rights reserved.
    Use of this source code is governed by a BSD-style
    license that can be found in the LICENSE file.  */

 #include "config.h"

 #include "backtrace.h"

 #include "runtime.h"
 #include "array.h"

 /* This is set to non-zero when calling backtrace_full.  This is used
    to avoid getting hanging on a recursive lock in dl_iterate_phdr on
    older versions of glibc when a SIGPROF signal arrives while
    collecting a backtrace.  */

 uint32 __go_runtime_in_callers;

 /* Argument passed to callback function.  */

 struct callers_data
 {
   Location *locbuf;
   int skip;
   int index;
   int max;
   int keep_thunks;
   int saw_sigtramp;
 };

 /* Whether to skip a particular function name in the traceback.  This
    is mostly to keep the output similar to the gc output for
    runtime.Caller(N).

    See also similar code in runtime/mprof.go that strips out such
    functions for block/mutex/memory profiles.  */

 bool
 runtime_skipInCallback(const char *function, struct callers_data *arg)
 {
   const char *p;

   /* Skip thunks and recover functions.  There is no equivalent to
      these functions in the gc toolchain.  */

   p = function + __builtin_strlen (function);
   while (p > function && p[-1] >= '0' && p[-1] <= '9')
     --p;
   if (p - function > 7 && __builtin_strncmp (p - 7, "..thunk", 7) == 0)
     return true;
   if (p - function > 3 && __builtin_strcmp (p - 3, "..r") == 0)
     return true;
   if (p - function > 6 && __builtin_strncmp (p - 6, "..stub", 6) == 0)
     return true;

   /* Skip runtime.deferreturn and runtime.sighandler as the gc
      compiler has no corresponding function.  */
   if (p - function == sizeof ("runtime.deferreturn") - 1
       && __builtin_strcmp (function, "runtime.deferreturn") == 0)
     return true;
   if (p - function == sizeof ("runtime.sighandler") - 1
       && __builtin_strcmp (function, "runtime.sighandler") == 0)
     return true;

   /* Skip the signal handler functions that remain on the stack for us
      but not for gc.  */
   if ((p - function == sizeof ("runtime.sigtramp") - 1
        && __builtin_strcmp (function, "runtime.sigtramp") == 0)
       || (p - function == sizeof ("runtime.sigtrampgo") - 1
 	  && __builtin_strcmp (function, "runtime.sigtrampgo") == 0))
     {
       /* Also try to skip the signal handler function.  */
       if (arg != NULL)
 	arg->saw_sigtramp = 1;
       return true;
     }

   return false;
 }

 /* Callback function for backtrace_full.  Just collect the locations.
    Return zero to continue, non-zero to stop.  */

 static int
 callback (void *data, uintptr_t pc, const char *filename, int lineno,
 	  const char *function)
 {
   struct callers_data *arg = (struct callers_data *) data;
   Location *loc;

   /* Skip an unnamed function above sigtramp.  It is likely the signal
      handler function.  */
   if (arg->saw_sigtramp)
     {
       arg->saw_sigtramp = 0;
       if (function == NULL)
 	return 0;
     }

   /* Skip split stack functions.  */
   if (function != NULL)
     {
       const char *p;

       p = function;
       if (__builtin_strncmp (p, "___", 3) == 0)
 	++p;
       if (__builtin_strncmp (p, "__morestack_", 12) == 0)
 	return 0;
     }
   else if (filename != NULL)
     {
       const char *p;

       p = strrchr (filename, '/');
       if (p == NULL)
 	p = filename;
       if (__builtin_strncmp (p, "/morestack.S", 12) == 0)
 	return 0;
     }

   if (function != NULL
       && !arg->keep_thunks
       && runtime_skipInCallback (function, arg))
     return 0;

   if (arg->skip > 0)
     {
       --arg->skip;
       return 0;
     }

   loc = &arg->locbuf[arg->index];

   /* On the call to backtrace_full the pc value was most likely
      decremented if there was a normal call, since the pc referred to
      the instruction where the call returned and not the call itself.
      This was done so that the line number referred to the call
      instruction.  To make sure the actual pc from the call stack is
      used, it is incremented here.

      In the case of a signal, the pc was not decremented by
      backtrace_full but still incremented here.  That doesn't really
      hurt anything since the line number is right and the pc refers to
      the same instruction.  */

   loc->pc = pc + 1;

   /* The libbacktrace library says that these strings might disappear,
      but with the current implementation they won't.  We can't easily
      allocate memory here, so for now assume that we can save a
      pointer to the strings.  */
   loc->filename = runtime_gostringnocopy ((const byte *) filename);
   loc->function = runtime_gostringnocopy ((const byte *) function);

   loc->lineno = lineno;
   ++arg->index;

   /* There is no point to tracing past certain runtime functions.
      Stopping the backtrace here can avoid problems on systems that
      don't provide proper unwind information for makecontext, such as
      Solaris (http://gcc.gnu.org/PR52583 comment #21).  */
   if (function != NULL)
     {
       if (__builtin_strcmp (function, "makecontext") == 0)
 	return 1;
       if (filename != NULL)
 	{
 	  const char *p;

 	  p = strrchr (filename, '/');
 	  if (p == NULL)
 	    p = filename;
 	  if (__builtin_strcmp (p, "/proc.c") == 0)
 	    {
 	      if (__builtin_strcmp (function, "runtime_mstart") == 0)
 		return 1;
 	    }
 	  else if (__builtin_strcmp (p, "/proc.go") == 0)
 	    {
 	      if (__builtin_strcmp (function, "runtime.kickoff") == 0
 		  || __builtin_strcmp (function, "runtime.main") == 0)
 		return 1;
 	    }
 	}
     }

   return arg->index >= arg->max;
 }

 /* Syminfo callback.  */

 void
 __go_syminfo_fnname_callback (void *data,
 			      uintptr_t pc __attribute__ ((unused)),
 			      const char *symname,
 			      uintptr_t address __attribute__ ((unused)),
 			      uintptr_t size __attribute__ ((unused)))
 {
   String* strptr = (String*) data;

   if (symname != NULL)
     *strptr = runtime_gostringnocopy ((const byte *) symname);
 }

 /* Error callback.  */

 static void
 error_callback (void *data __attribute__ ((unused)),
 		const char *msg, int errnum)
 {
   if (errnum == -1)
     {
       /* No debug info available.  Carry on as best we can.  */
       return;
     }
   if (errnum != 0)
     runtime_printf ("%s errno %d\n", msg, errnum);
   runtime_throw (msg);
 }

 /* Return whether we are already collecting a stack trace. This is
    called from the signal handler.  */

 bool alreadyInCallers(void)
   __attribute__ ((no_split_stack));
 bool alreadyInCallers(void)
   __asm__ (GOSYM_PREFIX "runtime.alreadyInCallers");

 bool
 alreadyInCallers()
 {
   return runtime_atomicload(&__go_runtime_in_callers) > 0;
 }

 /* Gather caller PC's.  */

 int32
 runtime_callers (int32 skip, Location *locbuf, int32 m, bool keep_thunks)
 {
   struct callers_data data;
   struct backtrace_state* state;
   int32 i;

   data.locbuf = locbuf;
   data.skip = skip + 1;
   data.index = 0;
   data.max = m;
   data.keep_thunks = keep_thunks;
   data.saw_sigtramp = 0;
   runtime_xadd (&__go_runtime_in_callers, 1);
   state = __go_get_backtrace_state ();
   backtrace_full (state, 0, callback, error_callback, &data);
   runtime_xadd (&__go_runtime_in_callers, -1);

   /* For some reason GCC sometimes loses the name of a thunk function
      at the top of the stack.  If we are skipping thunks, skip that
      one too.  */
   if (!keep_thunks
       && data.index > 2
       && locbuf[data.index - 2].function.len == 0
       && locbuf[data.index - 1].function.str != NULL
       && __builtin_strcmp ((const char *) locbuf[data.index - 1].function.str,
 			   "runtime.kickoff") == 0)
     {
       locbuf[data.index - 2] = locbuf[data.index - 1];
       --data.index;
     }

   /* Try to use backtrace_syminfo to fill in any missing function
      names.  This can happen when tracing through an object which has
      no debug info; backtrace_syminfo will look at the symbol table to
      get the name.  This should only happen when tracing through code
      that is not written in Go and is not part of libgo.  */
   for (i = 0; i < data.index; ++i)
     {
       if (locbuf[i].function.len == 0 && locbuf[i].pc != 0)
 	backtrace_syminfo (state, locbuf[i].pc, __go_syminfo_fnname_callback,
 			   error_callback, &locbuf[i].function);
     }

   return data.index;
 }

 intgo Callers (intgo, struct __go_open_array)
   __asm__ (GOSYM_PREFIX "runtime.Callers");

 intgo
 Callers (intgo skip, struct __go_open_array pc)
 {
   Location *locbuf;
   int ret;
   int i;

   if (pc.__count == 0)
     return 0;

   /* Note that calling mallocgc here assumes that we are not going to
      store any allocated Go pointers in the slice.  */
   locbuf = (Location *) runtime_mallocgc (pc.__count * sizeof (Location),
 					  nil, false);

   /* In the Go 1 release runtime.Callers has an off-by-one error,
      which we can not correct because it would break backward
      compatibility.  Normally we would add 1 to SKIP here, but we
      don't so that we are compatible.  */
   ret = runtime_callers (skip, locbuf, pc.__count, false);

   for (i = 0; i < ret; i++)
     ((uintptr *) pc.__values)[i] = locbuf[i].pc;

   return ret;
 }

 struct callersRaw_data
 {
   uintptr* pcbuf;
   int index;
   int max;
 };

 // Callback function for backtrace_simple.  Just collect pc's.
 // Return zero to continue, non-zero to stop.

 static int callback_raw (void *data, uintptr_t pc)
 {
   struct callersRaw_data *arg = (struct callersRaw_data *) data;

   /* On the call to backtrace_simple the pc value was most likely
      decremented if there was a normal call, since the pc referred to
      the instruction where the call returned and not the call itself.
      This was done so that the line number referred to the call
      instruction.  To make sure the actual pc from the call stack is
      used, it is incremented here.

      In the case of a signal, the pc was not decremented by
      backtrace_full but still incremented here.  That doesn't really
      hurt anything since the line number is right and the pc refers to
      the same instruction.  */

   arg->pcbuf[arg->index] = pc + 1;
   arg->index++;
   return arg->index >= arg->max;
 }

 /* runtime_callersRaw is similar to runtime_callers() above, but
    it returns raw PC values as opposed to file/func/line locations. */
 int32
 runtime_callersRaw (uintptr *pcbuf, int32 m)
 {
   struct callersRaw_data data;
   struct backtrace_state* state;

   data.pcbuf = pcbuf;
   data.index = 0;
   data.max = m;
   runtime_xadd (&__go_runtime_in_callers, 1);
   state = __go_get_backtrace_state ();
   backtrace_simple (state, 0, callback_raw, error_callback, &data);
   runtime_xadd (&__go_runtime_in_callers, -1);

   return data.index;
 }
	/* go-callers.c -- get callers for Go.

	Copyright 2012 The Go Authors. All rights reserved.
	Use of this source code is governed by a BSD-style
	license that can be found in the LICENSE file. */

	#include "config.h"

	#include "backtrace.h"

	#include "runtime.h"
	#include "array.h"

	/* This is set to non-zero when calling backtrace_full. This is used
	to avoid getting hanging on a recursive lock in dl_iterate_phdr on
	older versions of glibc when a SIGPROF signal arrives while
	collecting a backtrace. */

	uint32 __go_runtime_in_callers;

	/* Argument passed to callback function. */

	struct callers_data
	{
	Location *locbuf;
	int skip;
	int index;
	int max;
	int keep_thunks;
	int saw_sigtramp;
	};

	/* Whether to skip a particular function name in the traceback. This
	is mostly to keep the output similar to the gc output for
	runtime.Caller(N).

	See also similar code in runtime/mprof.go that strips out such
	functions for block/mutex/memory profiles. */

	bool
	runtime_skipInCallback(const char function, struct callers_data arg)
	{
	const char *p;

	/* Skip thunks and recover functions. There is no equivalent to
	these functions in the gc toolchain. */

	p = function + __builtin_strlen (function);
	while (p > function && p[-1] >= '0' && p[-1] <= '9')
	--p;
	if (p - function > 7 && __builtin_strncmp (p - 7, "..thunk", 7) == 0)
	return true;
	if (p - function > 3 && __builtin_strcmp (p - 3, "..r") == 0)
	return true;
	if (p - function > 6 && __builtin_strncmp (p - 6, "..stub", 6) == 0)
	return true;

	/* Skip runtime.deferreturn and runtime.sighandler as the gc
	compiler has no corresponding function. */
	if (p - function == sizeof ("runtime.deferreturn") - 1
	&& __builtin_strcmp (function, "runtime.deferreturn") == 0)
	return true;
	if (p - function == sizeof ("runtime.sighandler") - 1
	&& __builtin_strcmp (function, "runtime.sighandler") == 0)
	return true;

	/* Skip the signal handler functions that remain on the stack for us
	but not for gc. */
	if ((p - function == sizeof ("runtime.sigtramp") - 1
	&& __builtin_strcmp (function, "runtime.sigtramp") == 0)
	\|\| (p - function == sizeof ("runtime.sigtrampgo") - 1
	&& __builtin_strcmp (function, "runtime.sigtrampgo") == 0))
	{
	/* Also try to skip the signal handler function. */
	if (arg != NULL)
	arg->saw_sigtramp = 1;
	return true;
	}

	return false;
	}

	/* Callback function for backtrace_full. Just collect the locations.
	Return zero to continue, non-zero to stop. */

	static int
	callback (void data, uintptr_t pc, const char filename, int lineno,
	const char *function)
	{
	struct callers_data arg = (struct callers_data ) data;
	Location *loc;

	/* Skip an unnamed function above sigtramp. It is likely the signal
	handler function. */
	if (arg->saw_sigtramp)
	{
	arg->saw_sigtramp = 0;
	if (function == NULL)
	return 0;
	}

	/* Skip split stack functions. */
	if (function != NULL)
	{
	const char *p;

	p = function;
	if (__builtin_strncmp (p, "___", 3) == 0)
	++p;
	if (__builtin_strncmp (p, "__morestack_", 12) == 0)
	return 0;
	}
	else if (filename != NULL)
	{
	const char *p;

	p = strrchr (filename, '/');
	if (p == NULL)
	p = filename;
	if (__builtin_strncmp (p, "/morestack.S", 12) == 0)
	return 0;
	}

	if (function != NULL
	&& !arg->keep_thunks
	&& runtime_skipInCallback (function, arg))
	return 0;

	if (arg->skip > 0)
	{
	--arg->skip;
	return 0;
	}

	loc = &arg->locbuf[arg->index];

	/* On the call to backtrace_full the pc value was most likely
	decremented if there was a normal call, since the pc referred to
	the instruction where the call returned and not the call itself.
	This was done so that the line number referred to the call
	instruction. To make sure the actual pc from the call stack is
	used, it is incremented here.

	In the case of a signal, the pc was not decremented by
	backtrace_full but still incremented here. That doesn't really
	hurt anything since the line number is right and the pc refers to
	the same instruction. */

	loc->pc = pc + 1;

	/* The libbacktrace library says that these strings might disappear,
	but with the current implementation they won't. We can't easily
	allocate memory here, so for now assume that we can save a
	pointer to the strings. */
	loc->filename = runtime_gostringnocopy ((const byte *) filename);
	loc->function = runtime_gostringnocopy ((const byte *) function);

	loc->lineno = lineno;
	++arg->index;

	/* There is no point to tracing past certain runtime functions.
	Stopping the backtrace here can avoid problems on systems that
	don't provide proper unwind information for makecontext, such as
	Solaris (http://gcc.gnu.org/PR52583 comment #21). */
	if (function != NULL)
	{
	if (__builtin_strcmp (function, "makecontext") == 0)
	return 1;
	if (filename != NULL)
	{
	const char *p;

	p = strrchr (filename, '/');
	if (p == NULL)
	p = filename;
	if (__builtin_strcmp (p, "/proc.c") == 0)
	{
	if (__builtin_strcmp (function, "runtime_mstart") == 0)
	return 1;
	}
	else if (__builtin_strcmp (p, "/proc.go") == 0)
	{
	if (__builtin_strcmp (function, "runtime.kickoff") == 0
	\|\| __builtin_strcmp (function, "runtime.main") == 0)
	return 1;
	}
	}
	}

	return arg->index >= arg->max;
	}

	/* Syminfo callback. */

	void
	__go_syminfo_fnname_callback (void *data,
	uintptr_t pc __attribute__ ((unused)),
	const char *symname,
	uintptr_t address __attribute__ ((unused)),
	uintptr_t size __attribute__ ((unused)))
	{
	String* strptr = (String*) data;

	if (symname != NULL)
	strptr = runtime_gostringnocopy ((const byte ) symname);
	}

	/* Error callback. */

	static void
	error_callback (void *data __attribute__ ((unused)),
	const char *msg, int errnum)
	{
	if (errnum == -1)
	{
	/* No debug info available. Carry on as best we can. */
	return;
	}
	if (errnum != 0)
	runtime_printf ("%s errno %d\n", msg, errnum);
	runtime_throw (msg);
	}

	/* Return whether we are already collecting a stack trace. This is
	called from the signal handler. */

	bool alreadyInCallers(void)
	__attribute__ ((no_split_stack));
	bool alreadyInCallers(void)
	__asm__ (GOSYM_PREFIX "runtime.alreadyInCallers");

	bool
	alreadyInCallers()
	{
	return runtime_atomicload(&__go_runtime_in_callers) > 0;
	}

	/* Gather caller PC's. */

	int32
	runtime_callers (int32 skip, Location *locbuf, int32 m, bool keep_thunks)
	{
	struct callers_data data;
	struct backtrace_state* state;
	int32 i;

	data.locbuf = locbuf;
	data.skip = skip + 1;
	data.index = 0;
	data.max = m;
	data.keep_thunks = keep_thunks;
	data.saw_sigtramp = 0;
	runtime_xadd (&__go_runtime_in_callers, 1);
	state = __go_get_backtrace_state ();
	backtrace_full (state, 0, callback, error_callback, &data);
	runtime_xadd (&__go_runtime_in_callers, -1);

	/* For some reason GCC sometimes loses the name of a thunk function
	at the top of the stack. If we are skipping thunks, skip that
	one too. */
	if (!keep_thunks
	&& data.index > 2
	&& locbuf[data.index - 2].function.len == 0
	&& locbuf[data.index - 1].function.str != NULL
	&& __builtin_strcmp ((const char *) locbuf[data.index - 1].function.str,
	"runtime.kickoff") == 0)
	{
	locbuf[data.index - 2] = locbuf[data.index - 1];
	--data.index;
	}

	/* Try to use backtrace_syminfo to fill in any missing function
	names. This can happen when tracing through an object which has
	no debug info; backtrace_syminfo will look at the symbol table to
	get the name. This should only happen when tracing through code
	that is not written in Go and is not part of libgo. */
	for (i = 0; i < data.index; ++i)
	{
	if (locbuf[i].function.len == 0 && locbuf[i].pc != 0)
	backtrace_syminfo (state, locbuf[i].pc, __go_syminfo_fnname_callback,
	error_callback, &locbuf[i].function);
	}

	return data.index;
	}

	intgo Callers (intgo, struct __go_open_array)
	__asm__ (GOSYM_PREFIX "runtime.Callers");

	intgo
	Callers (intgo skip, struct __go_open_array pc)
	{
	Location *locbuf;
	int ret;
	int i;

	if (pc.__count == 0)
	return 0;

	/* Note that calling mallocgc here assumes that we are not going to
	store any allocated Go pointers in the slice. */
	locbuf = (Location ) runtime_mallocgc (pc.__count sizeof (Location),
	nil, false);

	/* In the Go 1 release runtime.Callers has an off-by-one error,
	which we can not correct because it would break backward
	compatibility. Normally we would add 1 to SKIP here, but we
	don't so that we are compatible. */
	ret = runtime_callers (skip, locbuf, pc.__count, false);

	for (i = 0; i < ret; i++)
	((uintptr *) pc.__values)[i] = locbuf[i].pc;

	return ret;
	}

	struct callersRaw_data
	{
	uintptr* pcbuf;
	int index;
	int max;
	};

	// Callback function for backtrace_simple. Just collect pc's.
	// Return zero to continue, non-zero to stop.

	static int callback_raw (void *data, uintptr_t pc)
	{
	struct callersRaw_data arg = (struct callersRaw_data ) data;

	/* On the call to backtrace_simple the pc value was most likely
	decremented if there was a normal call, since the pc referred to
	the instruction where the call returned and not the call itself.
	This was done so that the line number referred to the call
	instruction. To make sure the actual pc from the call stack is
	used, it is incremented here.

	In the case of a signal, the pc was not decremented by
	backtrace_full but still incremented here. That doesn't really
	hurt anything since the line number is right and the pc refers to
	the same instruction. */

	arg->pcbuf[arg->index] = pc + 1;
	arg->index++;
	return arg->index >= arg->max;
	}

	/* runtime_callersRaw is similar to runtime_callers() above, but
	it returns raw PC values as opposed to file/func/line locations. */
	int32
	runtime_callersRaw (uintptr *pcbuf, int32 m)
	{
	struct callersRaw_data data;
	struct backtrace_state* state;

	data.pcbuf = pcbuf;
	data.index = 0;
	data.max = m;
	runtime_xadd (&__go_runtime_in_callers, 1);
	state = __go_get_backtrace_state ();
	backtrace_simple (state, 0, callback_raw, error_callback, &data);
	runtime_xadd (&__go_runtime_in_callers, -1);

	return data.index;
	}