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/* Profile heap and stack memory usage of running program.
   Copyright (C) 1998, 1999, 2000, 2001 Free Software Foundation, Inc.
   This file is part of the GNU C Library.
   Contributed by Ulrich Drepper <drepper@cygnus.com>, 1998.

   The GNU C Library is free software; you can redistribute it and/or
   modify it under the terms of the GNU Lesser General Public
   License as published by the Free Software Foundation; either
   version 2.1 of the License, or (at your option) any later version.

   The GNU C Library 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
   Lesser General Public License for more details.

   You should have received a copy of the GNU Lesser General Public
   License along with the GNU C Library; if not, write to the Free
   Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
   02111-1307 USA.  */

#include <dlfcn.h>
#include <errno.h>
#include <fcntl.h>
#include <inttypes.h>
#include <signal.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <sys/time.h>

#include <memusage.h>

/* Pointer to the real functions.  These are determined used `dlsym'
   when really needed.  */
static void *(*mallocp) (size_t);
static void *(*reallocp) (void *, size_t);
static void *(*callocp) (size_t, size_t);
static void (*freep) (void *);

enum
{
  idx_malloc = 0,
  idx_realloc,
  idx_calloc,
  idx_free,
  idx_last
};


struct header
{
  size_t length;
  size_t magic;
};

#define MAGIC 0xfeedbeaf


static unsigned long int calls[idx_last];
static unsigned long int failed[idx_last];
static unsigned long long int total[idx_last];
static unsigned long long int grand_total;
static unsigned long int histogram[65536 / 16];
static unsigned long int large;
static unsigned long int calls_total;
static unsigned long int inplace;
static unsigned long int decreasing;
static long int current_use[2];
static long int peak_use[3];
static uintptr_t start_sp;

/* A few macros to make the source more readable.  */
#define current_heap	current_use[0]
#define current_stack	current_use[1]
#define peak_heap	peak_use[0]
#define peak_stack	peak_use[1]
#define peak_total	peak_use[2]

#define DEFAULT_BUFFER_SIZE	1024
static size_t buffer_size;

static int fd = -1;

static int not_me;
static int initialized;
extern const char *__progname;

struct entry
{
  size_t heap;
  size_t stack;
  uint32_t time_low;
  uint32_t time_high;
};

static struct entry buffer[DEFAULT_BUFFER_SIZE];
static size_t buffer_cnt;
static struct entry first;


/* Update the global data after a successful function call.  */
static void
update_data (struct header *result, size_t len, size_t old_len)
{
  long int total_use;

  if (result != NULL)
    {
      /* Record the information we need and mark the block using a
         magic number.  */
      result->length = len;
      result->magic = MAGIC;
    }

  /* Compute current heap usage and compare it with the maximum value.  */
  current_heap += len - old_len;
  if (current_heap > peak_heap)
    peak_heap = current_heap;

  /* Compute current stack usage and compare it with the maximum value.  */
#ifdef STACK_GROWS_UPWARD
  current_stack = GETSP () - start_sp;
#else
  current_stack = start_sp - GETSP ();
#endif
  if (current_stack > peak_stack)
    peak_stack = current_stack;

  /* Add up heap and stack usage and compare it with the maximum value.  */
  total_use = current_heap + current_stack;
  if (total_use > peak_total)
    peak_total = total_use;

  /* Store the value only if we are writing to a file.  */
  if (fd != -1)
    {
      buffer[buffer_cnt].heap = current_heap;
      buffer[buffer_cnt].stack = current_stack;
      GETTIME (buffer[buffer_cnt].time_low, buffer[buffer_cnt].time_high);
      ++buffer_cnt;

      /* Write out buffer if it is full.  */
      if (buffer_cnt == buffer_size)
	{
	  write (fd, buffer, buffer_cnt * sizeof (struct entry));
	  buffer_cnt = 0;
	}
    }
}


/* Interrupt handler.  */
static void
int_handler (int signo)
{
  /* Nothing gets allocated.  Just record the stack pointer position.  */
  update_data (NULL, 0, 0);
}


/* Find out whether this is the program we are supposed to profile.
   For this the name in the variable `__progname' must match the one
   given in the environment variable MEMUSAGE_PROG_NAME.  If the variable
   is not present every program assumes it should be profiling.

   If this is the program open a file descriptor to the output file.
   We will write to it whenever the buffer overflows.  The name of the
   output file is determined by the environment variable MEMUSAGE_OUTPUT.

   If the environment variable MEMUSAGE_BUFFER_SIZE is set its numerical
   value determines the size of the internal buffer.  The number gives
   the number of elements in the buffer.  By setting the number to one
   one effectively selects unbuffered operation.

   If MEMUSAGE_NO_TIMER is not present an alarm handler is installed
   which at the highest possible frequency records the stack pointer.  */
static void
me (void)
{
  const char *env = getenv ("MEMUSAGE_PROG_NAME");
  size_t prog_len = strlen (__progname);

  if (env != NULL)
    {
      /* Check for program name.  */
      size_t len = strlen (env);
      if (len > prog_len || strcmp (env, &__progname[prog_len - len]) != 0
	  || (prog_len != len && __progname[prog_len - len - 1] != '/'))
	not_me = 1;
    }

  /* Only open the file if it's really us.  */
  if (!not_me && fd == -1)
    {
      const char *outname;

      if (!start_sp)
	start_sp = GETSP ();

      initialized = -1;
      mallocp = (void *(*) (size_t)) dlsym (RTLD_NEXT, "malloc");
      reallocp = (void *(*) (void *, size_t)) dlsym (RTLD_NEXT, "realloc");
      callocp = (void *(*) (size_t, size_t)) dlsym (RTLD_NEXT, "calloc");
      freep = (void (*) (void *)) dlsym (RTLD_NEXT, "free");
      initialized = 1;

      outname = getenv ("MEMUSAGE_OUTPUT");
      if (outname != NULL && outname[0] != '\0'
	  && (access (outname, R_OK | W_OK) == 0 || errno == ENOENT))
	{
	  fd = creat (outname, 0666);

	  if (fd == -1)
	    /* Don't do anything in future calls if we cannot write to
	       the output file.  */
	    not_me = 1;
	  else
	    {
	      /* Write the first entry.  */
	      first.heap = 0;
	      first.stack = 0;
	      GETTIME (first.time_low, first.time_high);
	      /* Write it two times since we need the starting and end time. */
	      write (fd, &first, sizeof (first));

	      /* Determine the buffer size.  We use the default if the
		 environment variable is not present.  */
	      buffer_size = DEFAULT_BUFFER_SIZE;
	      if (getenv ("MEMUSAGE_BUFFER_SIZE") != NULL)
		{
		  buffer_size = atoi (getenv ("MEMUSAGE_BUFFER_SIZE"));
		  if (buffer_size == 0 || buffer_size > DEFAULT_BUFFER_SIZE)
		    buffer_size = DEFAULT_BUFFER_SIZE;
		}

	      /* Possibly enable timer-based stack pointer retrieval.  */
	      if (getenv ("MEMUSAGE_NO_TIMER") == NULL)
		{
		  struct sigaction act;

		  act.sa_handler = (sighandler_t) &int_handler;
		  act.sa_flags = SA_RESTART;
		  sigfillset (&act.sa_mask);

		  if (sigaction (SIGPROF, &act, NULL) >= 0)
		    {
		      struct itimerval timer;

		      timer.it_value.tv_sec = 0;
		      timer.it_value.tv_usec = 1;
		      timer.it_interval = timer.it_value;
		      setitimer (ITIMER_PROF, &timer, NULL);
		    }
		}
	    }
	}
    }
}


/* Record the initial stack position.  */
static void
__attribute__ ((constructor))
init (void)
{
  start_sp = GETSP ();
  if (! initialized)
    me ();
}


/* `malloc' replacement.  We keep track of the memory usage if this is the
   correct program.  */
void *
malloc (size_t len)
{
  struct header *result = NULL;

  /* Determine real implementation if not already happened.  */
  if (__builtin_expect (initialized <= 0, 0))
    {
      if (initialized == -1)
	return NULL;
      me ();
    }

  /* If this is not the correct program just use the normal function.  */
  if (not_me)
    return (*mallocp) (len);

  /* Keep track of number of calls.  */
  ++calls[idx_malloc];
  /* Keep track of total memory consumption for `malloc'.  */
  total[idx_malloc] += len;
  /* Keep track of total memory requirement.  */
  grand_total += len;
  /* Remember the size of the request.  */
  if (len < 65536)
    ++histogram[len / 16];
  else
    ++large;
  /* Total number of calls of any of the functions.  */
  ++calls_total;

  /* Do the real work.  */
  result = (struct header *) (*mallocp) (len + sizeof (struct header));
  if (result == NULL)
    {
      ++failed[idx_malloc];
      return NULL;
    }

  /* Update the allocation data and write out the records if necessary.  */
  update_data (result, len, 0);

  /* Return the pointer to the user buffer.  */
  return (void *) (result + 1);
}


/* `realloc' replacement.  We keep track of the memory usage if this is the
   correct program.  */
void *
realloc (void *old, size_t len)
{
  struct header *result = NULL;
  struct header *real;
  size_t old_len;

  /* Determine real implementation if not already happened.  */
  if (__builtin_expect (initialized <= 0, 0))
    {
      if (initialized == -1)
	return NULL;
      me ();
    }

  /* If this is not the correct program just use the normal function.  */
  if (not_me)
    return (*reallocp) (old, len);

  if (old == NULL)
    {
      /* This is really a `malloc' call.  */
      real = NULL;
      old_len = 0;
    }
  else
    {
      real = ((struct header *) old) - 1;
      if (real->magic != MAGIC)
	/* This is no memory allocated here.  */
	return (*reallocp) (old, len);
      old_len = real->length;
    }

  /* Keep track of number of calls.  */
  ++calls[idx_realloc];
  /* Keep track of total memory consumption for `realloc'.  */
  total[idx_realloc] += len;
  /* Keep track of total memory requirement.  */
  grand_total += len;
  /* Remember the size of the request.  */
  if (len < 65536)
    ++histogram[len / 16];
  else
    ++large;
  /* Total number of calls of any of the functions.  */
  ++calls_total;

  /* Do the real work.  */
  result = (struct header *) (*reallocp) (real, len + sizeof (struct header));
  if (result == NULL)
    {
      ++failed[idx_realloc];
      return NULL;
    }

  /* Record whether the reduction/increase happened in place.  */
  if (real == result)
    ++inplace;
  /* Was the buffer increased?  */
  if (old_len > len)
    ++decreasing;

  /* Update the allocation data and write out the records if necessary.  */
  update_data (result, len, old_len);

  /* Return the pointer to the user buffer.  */
  return (void *) (result + 1);
}


/* `calloc' replacement.  We keep track of the memory usage if this is the
   correct program.  */
void *
calloc (size_t n, size_t len)
{
  struct header *result;
  size_t size = n * len;

  /* Determine real implementation if not already happened.  */
  if (__builtin_expect (initialized <= 0, 0))
    {
      if (initialized == -1)
	return NULL;
      me ();
    }

  /* If this is not the correct program just use the normal function.  */
  if (not_me)
    return (*callocp) (n, len);

  /* Keep track of number of calls.  */
  ++calls[idx_calloc];
  /* Keep track of total memory consumption for `calloc'.  */
  total[idx_calloc] += size;
  /* Keep track of total memory requirement.  */
  grand_total += size;
  /* Remember the size of the request.  */
  if (size < 65536)
    ++histogram[size / 16];
  else
    ++large;
  /* Total number of calls of any of the functions.  */
  ++calls_total;

  /* Do the real work.  */
  result = (struct header *) (*mallocp) (size + sizeof (struct header));
  if (result == NULL)
    {
      ++failed[idx_calloc];
      return NULL;
    }

  /* Update the allocation data and write out the records if necessary.  */
  update_data (result, size, 0);

  /* Do what `calloc' would have done and return the buffer to the caller.  */
  return memset (result + 1, '\0', size);
}


/* `free' replacement.  We keep track of the memory usage if this is the
   correct program.  */
void
free (void *ptr)
{
  struct header *real;

  /* Determine real implementation if not already happened.  */
  if (__builtin_expect (initialized <= 0, 0))
    {
      if (initialized == -1)
	return;
      me ();
    }

  /* If this is not the correct program just use the normal function.  */
  if (not_me)
    {
      (*freep) (ptr);
      return;
    }

  /* `free (NULL)' has no effect.  */
  if (ptr == NULL)
    {
      ++calls[idx_free];
      return;
    }

  /* Determine the pointer to the header.  */
  real = ((struct header *) ptr) - 1;
  if (real->magic != MAGIC)
    {
      /* This block wasn't allocated here.  */
      (*freep) (ptr);
      return;
    }

  /* Keep track of number of calls.  */
  ++calls[idx_free];
  /* Keep track of total memory freed using `free'.  */
  total[idx_free] += real->length;

  /* Update the allocation data and write out the records if necessary.  */
  update_data (NULL, 0, real->length);

  /* Do the real work.  */
  (*freep) (real);
}


/* Write some statistics to standard error.  */
static void
__attribute__ ((destructor))
dest (void)
{
  int percent, cnt;
  unsigned long int maxcalls;

  /* If we haven't done anything here just return.  */
  if (not_me)
    return;
  /* If we should call any of the memory functions don't do any profiling.  */
  not_me = 1;

  /* Finish the output file.  */
  if (fd != -1)
    {
      /* Write the partially filled buffer.  */
      write (fd, buffer, buffer_cnt * sizeof (struct entry));
      /* Go back to the beginning of the file.  We allocated two records
	 here when we opened the file.  */
      lseek (fd, 0, SEEK_SET);
      /* Write out a record containing the total size.  */
      first.stack = peak_total;
      write (fd, &first, sizeof (struct entry));
      /* Write out another record containing the maximum for heap and
         stack.  */
      first.heap = peak_heap;
      first.stack = peak_stack;
      GETTIME (first.time_low, first.time_high);
      write (fd, &first, sizeof (struct entry));

      /* Close the file.  */
      close (fd);
      fd = -1;
    }

  /* Write a colorful statistic.  */
  fprintf (stderr, "\n\
\e[01;32mMemory usage summary:\e[0;0m heap total: %llu, heap peak: %lu, stack peak: %lu\n\
\e[04;34m         total calls   total memory   failed calls\e[0m\n\
\e[00;34m malloc|\e[0m %10lu   %12llu   %s%12lu\e[00;00m\n\
\e[00;34mrealloc|\e[0m %10lu   %12llu   %s%12lu\e[00;00m   (in place: %ld, dec: %ld)\n\
\e[00;34m calloc|\e[0m %10lu   %12llu   %s%12lu\e[00;00m\n\
\e[00;34m   free|\e[0m %10lu   %12llu\n",
	   grand_total, (unsigned long int) peak_heap,
	   (unsigned long int) peak_stack,
	   calls[idx_malloc], total[idx_malloc],
	   failed[idx_malloc] ? "\e[01;41m" : "", failed[idx_malloc],
	   calls[idx_realloc], total[idx_realloc],
	   failed[idx_realloc] ? "\e[01;41m" : "", failed[idx_realloc],
	   inplace, decreasing,
	   calls[idx_calloc], total[idx_calloc],
	   failed[idx_calloc] ? "\e[01;41m" : "", failed[idx_calloc],
	   calls[idx_free], total[idx_free]);

  /* Write out a histoogram of the sizes of the allocations.  */
  fprintf (stderr, "\e[01;32mHistogram for block sizes:\e[0;0m\n");

  /* Determine the maximum of all calls for each size range.  */
  maxcalls = large;
  for (cnt = 0; cnt < 65536; cnt += 16)
    if (histogram[cnt / 16] > maxcalls)
      maxcalls = histogram[cnt / 16];

  for (cnt = 0; cnt < 65536; cnt += 16)
    /* Only write out the nonzero entries.  */
    if (histogram[cnt / 16] != 0)
      {
	percent = (histogram[cnt / 16] * 100) / calls_total;
	fprintf (stderr, "%5d-%-5d%12lu ", cnt, cnt + 15,
		 histogram[cnt / 16]);
	if (percent == 0)
	  fputs (" <1% \e[41;37m", stderr);
	else
	  fprintf (stderr, "%3d%% \e[41;37m", percent);

	/* Draw a bar with a length corresponding to the current
           percentage.  */
	percent = (histogram[cnt / 16] * 50) / maxcalls;
	while (percent-- > 0)
	  fputc ('=', stderr);
	 fputs ("\e[0;0m\n", stderr);
      }

  if (large != 0)
    {
      percent = (large * 100) / calls_total;
      fprintf (stderr, "   large   %12lu ", large);
      if (percent == 0)
	fputs (" <1% \e[41;37m", stderr);
      else
	fprintf (stderr, "%3d%% \e[41;37m", percent);
      percent = (large * 50) / maxcalls;
      while (percent-- > 0)
        fputc ('=', stderr);
      fputs ("\e[0;0m\n", stderr);
    }
}