Merge branch 'collectd-5.4'

[collectd.git] / src / daemon / common.c

/**
 * collectd - src/common.c
 * Copyright (C) 2005-2014  Florian octo Forster
 *
 * Permission is hereby granted, free of charge, to any person obtaining a
 * copy of this software and associated documentation files (the "Software"),
 * to deal in the Software without restriction, including without limitation
 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
 * and/or sell copies of the Software, and to permit persons to whom the
 * Software is furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in
 * all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
 * DEALINGS IN THE SOFTWARE.
 *
 * Authors:
 *   Florian octo Forster <octo at collectd.org>
 *   Niki W. Waibel <niki.waibel@gmx.net>
 *   Sebastian Harl <sh at tokkee.org>
 *   Michał Mirosław <mirq-linux at rere.qmqm.pl>
**/

#if HAVE_CONFIG_H
# include "config.h"
#endif

#include "collectd.h"
#include "common.h"
#include "plugin.h"
#include "utils_cache.h"

#if HAVE_PTHREAD_H
# include <pthread.h>
#endif

#ifdef HAVE_MATH_H
# include <math.h>
#endif

/* for getaddrinfo */
#include <sys/types.h>
#include <sys/socket.h>
#include <netdb.h>

#if HAVE_NETINET_IN_H
# include <netinet/in.h>
#endif

/* for ntohl and htonl */
#if HAVE_ARPA_INET_H
# include <arpa/inet.h>
#endif

#ifdef HAVE_LIBKSTAT
extern kstat_ctl_t *kc;
#endif

#if !HAVE_GETPWNAM_R
static pthread_mutex_t getpwnam_r_lock = PTHREAD_MUTEX_INITIALIZER;
#endif

#if !HAVE_STRERROR_R
static pthread_mutex_t strerror_r_lock = PTHREAD_MUTEX_INITIALIZER;
#endif

char *sstrncpy (char *dest, const char *src, size_t n)
{
        strncpy (dest, src, n);
        dest[n - 1] = '\0';

        return (dest);
} /* char *sstrncpy */

int ssnprintf (char *dest, size_t n, const char *format, ...)
{
        int ret = 0;
        va_list ap;

        va_start (ap, format);
        ret = vsnprintf (dest, n, format, ap);
        dest[n - 1] = '\0';
        va_end (ap);

        return (ret);
} /* int ssnprintf */

char *ssnprintf_alloc (char const *format, ...) /* {{{ */
{
        char static_buffer[1024] = "";
        char *alloc_buffer;
        size_t alloc_buffer_size;
        int status;
        va_list ap;

        /* Try printing into the static buffer. In many cases it will be
         * sufficiently large and we can simply return a strdup() of this
         * buffer. */
        va_start (ap, format);
        status = vsnprintf (static_buffer, sizeof (static_buffer), format, ap);
        va_end (ap);
        if (status < 0)
                return (NULL);

        /* "status" does not include the null byte. */
        alloc_buffer_size = (size_t) (status + 1);
        if (alloc_buffer_size <= sizeof (static_buffer))
                return (strdup (static_buffer));

        /* Allocate a buffer large enough to hold the string. */
        alloc_buffer = malloc (alloc_buffer_size);
        if (alloc_buffer == NULL)
                return (NULL);
        memset (alloc_buffer, 0, alloc_buffer_size);

        /* Print again into this new buffer. */
        va_start (ap, format);
        status = vsnprintf (alloc_buffer, alloc_buffer_size, format, ap);
        va_end (ap);
        if (status < 0)
        {
                sfree (alloc_buffer);
                return (NULL);
        }

        return (alloc_buffer);
} /* }}} char *ssnprintf_alloc */

char *sstrdup (const char *s)
{
        char *r;
        size_t sz;

        if (s == NULL)
                return (NULL);

        /* Do not use `strdup' here, because it's not specified in POSIX. It's
         * ``only'' an XSI extension. */
        sz = strlen (s) + 1;
        r = (char *) malloc (sizeof (char) * sz);
        if (r == NULL)
        {
                ERROR ("sstrdup: Out of memory.");
                exit (3);
        }
        memcpy (r, s, sizeof (char) * sz);

        return (r);
} /* char *sstrdup */

/* Even though Posix requires "strerror_r" to return an "int",
 * some systems (e.g. the GNU libc) return a "char *" _and_
 * ignore the second argument ... -tokkee */
char *sstrerror (int errnum, char *buf, size_t buflen)
{
        buf[0] = '\0';

#if !HAVE_STRERROR_R
        {
                char *temp;

                pthread_mutex_lock (&strerror_r_lock);

                temp = strerror (errnum);
                sstrncpy (buf, temp, buflen);

                pthread_mutex_unlock (&strerror_r_lock);
        }
/* #endif !HAVE_STRERROR_R */

#elif STRERROR_R_CHAR_P
        {
                char *temp;
                temp = strerror_r (errnum, buf, buflen);
                if (buf[0] == '\0')
                {
                        if ((temp != NULL) && (temp != buf) && (temp[0] != '\0'))
                                sstrncpy (buf, temp, buflen);
                        else
                                sstrncpy (buf, "strerror_r did not return "
                                                "an error message", buflen);
                }
        }
/* #endif STRERROR_R_CHAR_P */

#else
        if (strerror_r (errnum, buf, buflen) != 0)
        {
                ssnprintf (buf, buflen, "Error #%i; "
                                "Additionally, strerror_r failed.",
                                errnum);
        }
#endif /* STRERROR_R_CHAR_P */

        return (buf);
} /* char *sstrerror */

void *smalloc (size_t size)
{
        void *r;

        if ((r = malloc (size)) == NULL)
        {
                ERROR ("Not enough memory.");
                exit (3);
        }

        return (r);
} /* void *smalloc */

#if 0
void sfree (void **ptr)
{
        if (ptr == NULL)
                return;

        if (*ptr != NULL)
                free (*ptr);

        *ptr = NULL;
}
#endif

ssize_t sread (int fd, void *buf, size_t count)
{
        char    *ptr;
        size_t   nleft;
        ssize_t  status;

        ptr   = (char *) buf;
        nleft = count;

        while (nleft > 0)
        {
                status = read (fd, (void *) ptr, nleft);

                if ((status < 0) && ((errno == EAGAIN) || (errno == EINTR)))
                        continue;

                if (status < 0)
                        return (status);

                if (status == 0)
                {
                        DEBUG ("Received EOF from fd %i. "
                                        "Closing fd and returning error.",
                                        fd);
                        close (fd);
                        return (-1);
                }

                assert ((0 > status) || (nleft >= (size_t)status));

                nleft = nleft - status;
                ptr   = ptr   + status;
        }

        return (0);
}


ssize_t swrite (int fd, const void *buf, size_t count)
{
        const char *ptr;
        size_t      nleft;
        ssize_t     status;

        ptr   = (const char *) buf;
        nleft = count;

        while (nleft > 0)
        {
                status = write (fd, (const void *) ptr, nleft);

                if ((status < 0) && ((errno == EAGAIN) || (errno == EINTR)))
                        continue;

                if (status < 0)
                        return (status);

                nleft = nleft - status;
                ptr   = ptr   + status;
        }

        return (0);
}

int strsplit (char *string, char **fields, size_t size)
{
        size_t i;
        char *ptr;
        char *saveptr;

        i = 0;
        ptr = string;
        saveptr = NULL;
        while ((fields[i] = strtok_r (ptr, " \t\r\n", &saveptr)) != NULL)
        {
                ptr = NULL;
                i++;

                if (i >= size)
                        break;
        }

        return ((int) i);
}

int strjoin (char *dst, size_t dst_len,
                char **fields, size_t fields_num,
                const char *sep)
{
        size_t field_len;
        size_t sep_len;
        int i;

        memset (dst, '\0', dst_len);

        if (fields_num <= 0)
                return (-1);

        sep_len = 0;
        if (sep != NULL)
                sep_len = strlen (sep);

        for (i = 0; i < (int)fields_num; i++)
        {
                if ((i > 0) && (sep_len > 0))
                {
                        if (dst_len <= sep_len)
                                return (-1);

                        strncat (dst, sep, dst_len);
                        dst_len -= sep_len;
                }

                field_len = strlen (fields[i]);

                if (dst_len <= field_len)
                        return (-1);

                strncat (dst, fields[i], dst_len);
                dst_len -= field_len;
        }

        return (strlen (dst));
}

int strsubstitute (char *str, char c_from, char c_to)
{
        int ret;

        if (str == NULL)
                return (-1);

        ret = 0;
        while (*str != '\0')
        {
                if (*str == c_from)
                {
                        *str = c_to;
                        ret++;
                }
                str++;
        }

        return (ret);
} /* int strsubstitute */

int escape_string (char *buffer, size_t buffer_size)
{
  char *temp;
  size_t i;
  size_t j;

  /* Check if we need to escape at all first */
  temp = strpbrk (buffer, " \t\"\\");
  if (temp == NULL)
    return (0);

  if (buffer_size < 3)
    return (EINVAL);

  temp = (char *) malloc (buffer_size);
  if (temp == NULL)
    return (ENOMEM);
  memset (temp, 0, buffer_size);

  temp[0] = '"';
  j = 1;

  for (i = 0; i < buffer_size; i++)
  {
    if (buffer[i] == 0)
    {
      break;
    }
    else if ((buffer[i] == '"') || (buffer[i] == '\\'))
    {
      if (j > (buffer_size - 4))
        break;
      temp[j] = '\\';
      temp[j + 1] = buffer[i];
      j += 2;
    }
    else
    {
      if (j > (buffer_size - 3))
        break;
      temp[j] = buffer[i];
      j++;
    }
  }

  assert ((j + 1) < buffer_size);
  temp[j] = '"';
  temp[j + 1] = 0;

  sstrncpy (buffer, temp, buffer_size);
  sfree (temp);
  return (0);
} /* int escape_string */

int strunescape (char *buf, size_t buf_len)
{
        size_t i;

        for (i = 0; (i < buf_len) && (buf[i] != '\0'); ++i)
        {
                if (buf[i] != '\\')
                        continue;

                if (((i + 1) >= buf_len) || (buf[i + 1] == 0)) {
                        ERROR ("string unescape: backslash found at end of string.");
                        /* Ensure null-byte at the end of the buffer. */
                        buf[i] = 0;
                        return (-1);
                }

                switch (buf[i + 1]) {
                        case 't':
                                buf[i] = '\t';
                                break;
                        case 'n':
                                buf[i] = '\n';
                                break;
                        case 'r':
                                buf[i] = '\r';
                                break;
                        default:
                                buf[i] = buf[i + 1];
                                break;
                }

                /* Move everything after the position one position to the left.
                 * Add a null-byte as last character in the buffer. */
                memmove (buf + i + 1, buf + i + 2, buf_len - i - 2);
                buf[buf_len - 1] = 0;
        }
        return (0);
} /* int strunescape */

size_t strstripnewline (char *buffer)
{
        size_t buffer_len = strlen (buffer);

        while (buffer_len > 0)
        {
                if ((buffer[buffer_len - 1] != '\n')
                                && (buffer[buffer_len - 1] != '\r'))
                        break;
                buffer_len--;
                buffer[buffer_len] = 0;
        }

        return (buffer_len);
} /* size_t strstripnewline */

int escape_slashes (char *buffer, size_t buffer_size)
{
        int i;
        size_t buffer_len;

        buffer_len = strlen (buffer);

        if (buffer_len <= 1)
        {
                if (strcmp ("/", buffer) == 0)
                {
                        if (buffer_size < 5)
                                return (-1);
                        sstrncpy (buffer, "root", buffer_size);
                }
                return (0);
        }

        /* Move one to the left */
        if (buffer[0] == '/')
        {
                memmove (buffer, buffer + 1, buffer_len);
                buffer_len--;
        }

        for (i = 0; i < buffer_len - 1; i++)
        {
                if (buffer[i] == '/')
                        buffer[i] = '_';
        }

        return (0);
} /* int escape_slashes */

void replace_special (char *buffer, size_t buffer_size)
{
        size_t i;

        for (i = 0; i < buffer_size; i++)
        {
                if (buffer[i] == 0)
                        return;
                if ((!isalnum ((int) buffer[i])) && (buffer[i] != '-'))
                        buffer[i] = '_';
        }
} /* void replace_special */

int timeval_cmp (struct timeval tv0, struct timeval tv1, struct timeval *delta)
{
        struct timeval *larger;
        struct timeval *smaller;

        int status;

        NORMALIZE_TIMEVAL (tv0);
        NORMALIZE_TIMEVAL (tv1);

        if ((tv0.tv_sec == tv1.tv_sec) && (tv0.tv_usec == tv1.tv_usec))
        {
                if (delta != NULL) {
                        delta->tv_sec  = 0;
                        delta->tv_usec = 0;
                }
                return (0);
        }

        if ((tv0.tv_sec < tv1.tv_sec)
                        || ((tv0.tv_sec == tv1.tv_sec) && (tv0.tv_usec < tv1.tv_usec)))
        {
                larger  = &tv1;
                smaller = &tv0;
                status  = -1;
        }
        else
        {
                larger  = &tv0;
                smaller = &tv1;
                status  = 1;
        }

        if (delta != NULL) {
                delta->tv_sec = larger->tv_sec - smaller->tv_sec;

                if (smaller->tv_usec <= larger->tv_usec)
                        delta->tv_usec = larger->tv_usec - smaller->tv_usec;
                else
                {
                        --delta->tv_sec;
                        delta->tv_usec = 1000000 + larger->tv_usec - smaller->tv_usec;
                }
        }

        assert ((delta == NULL)
                        || ((0 <= delta->tv_usec) && (delta->tv_usec < 1000000)));

        return (status);
} /* int timeval_cmp */

int check_create_dir (const char *file_orig)
{
        struct stat statbuf;

        char  file_copy[512];
        char  dir[512];
        int   dir_len = 512;
        char *fields[16];
        int   fields_num;
        char *ptr;
        char *saveptr;
        int   last_is_file = 1;
        int   path_is_absolute = 0;
        size_t len;
        int   i;

        /*
         * Sanity checks first
         */
        if (file_orig == NULL)
                return (-1);

        if ((len = strlen (file_orig)) < 1)
                return (-1);
        else if (len >= sizeof (file_copy))
                return (-1);

        /*
         * If `file_orig' ends in a slash the last component is a directory,
         * otherwise it's a file. Act accordingly..
         */
        if (file_orig[len - 1] == '/')
                last_is_file = 0;
        if (file_orig[0] == '/')
                path_is_absolute = 1;

        /*
         * Create a copy for `strtok_r' to destroy
         */
        sstrncpy (file_copy, file_orig, sizeof (file_copy));

        /*
         * Break into components. This will eat up several slashes in a row and
         * remove leading and trailing slashes..
         */
        ptr = file_copy;
        saveptr = NULL;
        fields_num = 0;
        while ((fields[fields_num] = strtok_r (ptr, "/", &saveptr)) != NULL)
        {
                ptr = NULL;
                fields_num++;

                if (fields_num >= 16)
                        break;
        }

        /*
         * For each component, do..
         */
        for (i = 0; i < (fields_num - last_is_file); i++)
        {
                /*
                 * Do not create directories that start with a dot. This
                 * prevents `../../' attacks and other likely malicious
                 * behavior.
                 */
                if (fields[i][0] == '.')
                {
                        ERROR ("Cowardly refusing to create a directory that "
                                        "begins with a `.' (dot): `%s'", file_orig);
                        return (-2);
                }

                /*
                 * Join the components together again
                 */
                dir[0] = '/';
                if (strjoin (dir + path_is_absolute, dir_len - path_is_absolute,
                                        fields, i + 1, "/") < 0)
                {
                        ERROR ("strjoin failed: `%s', component #%i", file_orig, i);
                        return (-1);
                }

                while (42) {
                        if ((stat (dir, &statbuf) == -1)
                                        && (lstat (dir, &statbuf) == -1))
                        {
                                if (errno == ENOENT)
                                {
                                        if (mkdir (dir, S_IRWXU | S_IRWXG | S_IRWXO) == 0)
                                                break;

                                        /* this might happen, if a different thread created
                                         * the directory in the meantime
                                         * => call stat() again to check for S_ISDIR() */
                                        if (EEXIST == errno)
                                                continue;

                                        char errbuf[1024];
                                        ERROR ("check_create_dir: mkdir (%s): %s", dir,
                                                        sstrerror (errno,
                                                                errbuf, sizeof (errbuf)));
                                        return (-1);
                                }
                                else
                                {
                                        char errbuf[1024];
                                        ERROR ("check_create_dir: stat (%s): %s", dir,
                                                        sstrerror (errno, errbuf,
                                                                sizeof (errbuf)));
                                        return (-1);
                                }
                        }
                        else if (!S_ISDIR (statbuf.st_mode))
                        {
                                ERROR ("check_create_dir: `%s' exists but is not "
                                                "a directory!", dir);
                                return (-1);
                        }
                        break;
                }
        }

        return (0);
} /* check_create_dir */

#ifdef HAVE_LIBKSTAT
int get_kstat (kstat_t **ksp_ptr, char *module, int instance, char *name)
{
        char ident[128];

        *ksp_ptr = NULL;

        if (kc == NULL)
                return (-1);

        ssnprintf (ident, sizeof (ident), "%s,%i,%s", module, instance, name);

        *ksp_ptr = kstat_lookup (kc, module, instance, name);
        if (*ksp_ptr == NULL)
        {
                ERROR ("get_kstat: Cound not find kstat %s", ident);
                return (-1);
        }

        if ((*ksp_ptr)->ks_type != KSTAT_TYPE_NAMED)
        {
                ERROR ("get_kstat: kstat %s has wrong type", ident);
                *ksp_ptr = NULL;
                return (-1);
        }

#ifdef assert
        assert (*ksp_ptr != NULL);
        assert ((*ksp_ptr)->ks_type == KSTAT_TYPE_NAMED);
#endif

        if (kstat_read (kc, *ksp_ptr, NULL) == -1)
        {
                ERROR ("get_kstat: kstat %s could not be read", ident);
                return (-1);
        }

        if ((*ksp_ptr)->ks_type != KSTAT_TYPE_NAMED)
        {
                ERROR ("get_kstat: kstat %s has wrong type", ident);
                return (-1);
        }

        return (0);
}

long long get_kstat_value (kstat_t *ksp, char *name)
{
        kstat_named_t *kn;
        long long retval = -1LL;

        if (ksp == NULL)
        {
                ERROR ("get_kstat_value (\"%s\"): ksp is NULL.", name);
                return (-1LL);
        }
        else if (ksp->ks_type != KSTAT_TYPE_NAMED)
        {
                ERROR ("get_kstat_value (\"%s\"): ksp->ks_type (%#x) "
                                "is not KSTAT_TYPE_NAMED (%#x).",
                                name,
                                (unsigned int) ksp->ks_type,
                                (unsigned int) KSTAT_TYPE_NAMED);
                return (-1LL);
        }

        if ((kn = (kstat_named_t *) kstat_data_lookup (ksp, name)) == NULL)
                return (-1LL);

        if (kn->data_type == KSTAT_DATA_INT32)
                retval = (long long) kn->value.i32;
        else if (kn->data_type == KSTAT_DATA_UINT32)
                retval = (long long) kn->value.ui32;
        else if (kn->data_type == KSTAT_DATA_INT64)
                retval = (long long) kn->value.i64; /* According to ANSI C99 `long long' must hold at least 64 bits */
        else if (kn->data_type == KSTAT_DATA_UINT64)
                retval = (long long) kn->value.ui64; /* XXX: Might overflow! */
        else
                WARNING ("get_kstat_value: Not a numeric value: %s", name);

        return (retval);
}
#endif /* HAVE_LIBKSTAT */

#ifndef HAVE_HTONLL
unsigned long long ntohll (unsigned long long n)
{
#if BYTE_ORDER == BIG_ENDIAN
        return (n);
#else
        return (((unsigned long long) ntohl (n)) << 32) + ntohl (n >> 32);
#endif
} /* unsigned long long ntohll */

unsigned long long htonll (unsigned long long n)
{
#if BYTE_ORDER == BIG_ENDIAN
        return (n);
#else
        return (((unsigned long long) htonl (n)) << 32) + htonl (n >> 32);
#endif
} /* unsigned long long htonll */
#endif /* HAVE_HTONLL */

#if FP_LAYOUT_NEED_NOTHING
/* Well, we need nothing.. */
/* #endif FP_LAYOUT_NEED_NOTHING */

#elif FP_LAYOUT_NEED_ENDIANFLIP || FP_LAYOUT_NEED_INTSWAP
# if FP_LAYOUT_NEED_ENDIANFLIP
#  define FP_CONVERT(A) ((((uint64_t)(A) & 0xff00000000000000LL) >> 56) | \
                         (((uint64_t)(A) & 0x00ff000000000000LL) >> 40) | \
                         (((uint64_t)(A) & 0x0000ff0000000000LL) >> 24) | \
                         (((uint64_t)(A) & 0x000000ff00000000LL) >> 8)  | \
                         (((uint64_t)(A) & 0x00000000ff000000LL) << 8)  | \
                         (((uint64_t)(A) & 0x0000000000ff0000LL) << 24) | \
                         (((uint64_t)(A) & 0x000000000000ff00LL) << 40) | \
                         (((uint64_t)(A) & 0x00000000000000ffLL) << 56))
# else
#  define FP_CONVERT(A) ((((uint64_t)(A) & 0xffffffff00000000LL) >> 32) | \
                         (((uint64_t)(A) & 0x00000000ffffffffLL) << 32))
# endif

double ntohd (double d)
{
        union
        {
                uint8_t  byte[8];
                uint64_t integer;
                double   floating;
        } ret;

        ret.floating = d;

        /* NAN in x86 byte order */
        if ((ret.byte[0] == 0x00) && (ret.byte[1] == 0x00)
                        && (ret.byte[2] == 0x00) && (ret.byte[3] == 0x00)
                        && (ret.byte[4] == 0x00) && (ret.byte[5] == 0x00)
                        && (ret.byte[6] == 0xf8) && (ret.byte[7] == 0x7f))
        {
                return (NAN);
        }
        else
        {
                uint64_t tmp;

                tmp = ret.integer;
                ret.integer = FP_CONVERT (tmp);
                return (ret.floating);
        }
} /* double ntohd */

double htond (double d)
{
        union
        {
                uint8_t  byte[8];
                uint64_t integer;
                double   floating;
        } ret;

        if (isnan (d))
        {
                ret.byte[0] = ret.byte[1] = ret.byte[2] = ret.byte[3] = 0x00;
                ret.byte[4] = ret.byte[5] = 0x00;
                ret.byte[6] = 0xf8;
                ret.byte[7] = 0x7f;
                return (ret.floating);
        }
        else
        {
                uint64_t tmp;

                ret.floating = d;
                tmp = FP_CONVERT (ret.integer);
                ret.integer = tmp;
                return (ret.floating);
        }
} /* double htond */
#endif /* FP_LAYOUT_NEED_ENDIANFLIP || FP_LAYOUT_NEED_INTSWAP */

int format_name (char *ret, int ret_len,
                const char *hostname,
                const char *plugin, const char *plugin_instance,
                const char *type, const char *type_instance)
{
  char *buffer;
  size_t buffer_size;

  buffer = ret;
  buffer_size = (size_t) ret_len;

#define APPEND(str) do {                                               \
  size_t l = strlen (str);                                             \
  if (l >= buffer_size)                                                \
    return (ENOBUFS);                                                  \
  memcpy (buffer, (str), l);                                           \
  buffer += l; buffer_size -= l;                                       \
} while (0)

  assert (plugin != NULL);
  assert (type != NULL);

  APPEND (hostname);
  APPEND ("/");
  APPEND (plugin);
  if ((plugin_instance != NULL) && (plugin_instance[0] != 0))
  {
    APPEND ("-");
    APPEND (plugin_instance);
  }
  APPEND ("/");
  APPEND (type);
  if ((type_instance != NULL) && (type_instance[0] != 0))
  {
    APPEND ("-");
    APPEND (type_instance);
  }
  assert (buffer_size > 0);
  buffer[0] = 0;

#undef APPEND
  return (0);
} /* int format_name */

int format_values (char *ret, size_t ret_len, /* {{{ */
                const data_set_t *ds, const value_list_t *vl,
                _Bool store_rates)
{
        size_t offset = 0;
        int status;
        int i;
        gauge_t *rates = NULL;

        assert (0 == strcmp (ds->type, vl->type));

        memset (ret, 0, ret_len);

#define BUFFER_ADD(...) do { \
        status = ssnprintf (ret + offset, ret_len - offset, \
                        __VA_ARGS__); \
        if (status < 1) \
        { \
                sfree (rates); \
                return (-1); \
        } \
        else if (((size_t) status) >= (ret_len - offset)) \
        { \
                sfree (rates); \
                return (-1); \
        } \
        else \
                offset += ((size_t) status); \
} while (0)

        BUFFER_ADD ("%.3f", CDTIME_T_TO_DOUBLE (vl->time));

        for (i = 0; i < ds->ds_num; i++)
        {
                if (ds->ds[i].type == DS_TYPE_GAUGE)
                        BUFFER_ADD (":%f", vl->values[i].gauge);
                else if (store_rates)
                {
                        if (rates == NULL)
                                rates = uc_get_rate (ds, vl);
                        if (rates == NULL)
                        {
                                WARNING ("format_values: "
                                                "uc_get_rate failed.");
                                return (-1);
                        }
                        BUFFER_ADD (":%g", rates[i]);
                }
                else if (ds->ds[i].type == DS_TYPE_COUNTER)
                        BUFFER_ADD (":%llu", vl->values[i].counter);
                else if (ds->ds[i].type == DS_TYPE_DERIVE)
                        BUFFER_ADD (":%"PRIi64, vl->values[i].derive);
                else if (ds->ds[i].type == DS_TYPE_ABSOLUTE)
                        BUFFER_ADD (":%"PRIu64, vl->values[i].absolute);
                else
                {
                        ERROR ("format_values plugin: Unknown data source type: %i",
                                        ds->ds[i].type);
                        sfree (rates);
                        return (-1);
                }
        } /* for ds->ds_num */

#undef BUFFER_ADD

        sfree (rates);
        return (0);
} /* }}} int format_values */

int parse_identifier (char *str, char **ret_host,
                char **ret_plugin, char **ret_plugin_instance,
                char **ret_type, char **ret_type_instance)
{
        char *hostname = NULL;
        char *plugin = NULL;
        char *plugin_instance = NULL;
        char *type = NULL;
        char *type_instance = NULL;

        hostname = str;
        if (hostname == NULL)
                return (-1);

        plugin = strchr (hostname, '/');
        if (plugin == NULL)
                return (-1);
        *plugin = '\0'; plugin++;

        type = strchr (plugin, '/');
        if (type == NULL)
                return (-1);
        *type = '\0'; type++;

        plugin_instance = strchr (plugin, '-');
        if (plugin_instance != NULL)
        {
                *plugin_instance = '\0';
                plugin_instance++;
        }

        type_instance = strchr (type, '-');
        if (type_instance != NULL)
        {
                *type_instance = '\0';
                type_instance++;
        }

        *ret_host = hostname;
        *ret_plugin = plugin;
        *ret_plugin_instance = plugin_instance;
        *ret_type = type;
        *ret_type_instance = type_instance;
        return (0);
} /* int parse_identifier */

int parse_identifier_vl (const char *str, value_list_t *vl) /* {{{ */
{
        char str_copy[6 * DATA_MAX_NAME_LEN];
        char *host = NULL;
        char *plugin = NULL;
        char *plugin_instance = NULL;
        char *type = NULL;
        char *type_instance = NULL;
        int status;

        if ((str == NULL) || (vl == NULL))
                return (EINVAL);

        sstrncpy (str_copy, str, sizeof (str_copy));

        status = parse_identifier (str_copy, &host,
                        &plugin, &plugin_instance,
                        &type, &type_instance);
        if (status != 0)
                return (status);

        sstrncpy (vl->host, host, sizeof (vl->host));
        sstrncpy (vl->plugin, plugin, sizeof (vl->plugin));
        sstrncpy (vl->plugin_instance,
                        (plugin_instance != NULL) ? plugin_instance : "",
                        sizeof (vl->plugin_instance));
        sstrncpy (vl->type, type, sizeof (vl->type));
        sstrncpy (vl->type_instance,
                        (type_instance != NULL) ? type_instance : "",
                        sizeof (vl->type_instance));

        return (0);
} /* }}} int parse_identifier_vl */

int parse_value (const char *value_orig, value_t *ret_value, int ds_type)
{
  char *value;
  char *endptr = NULL;
  size_t value_len;

  if (value_orig == NULL)
    return (EINVAL);

  value = strdup (value_orig);
  if (value == NULL)
    return (ENOMEM);
  value_len = strlen (value);

  while ((value_len > 0) && isspace ((int) value[value_len - 1]))
  {
    value[value_len - 1] = 0;
    value_len--;
  }

  switch (ds_type)
  {
    case DS_TYPE_COUNTER:
      ret_value->counter = (counter_t) strtoull (value, &endptr, 0);
      break;

    case DS_TYPE_GAUGE:
      ret_value->gauge = (gauge_t) strtod (value, &endptr);
      break;

    case DS_TYPE_DERIVE:
      ret_value->derive = (derive_t) strtoll (value, &endptr, 0);
      break;

    case DS_TYPE_ABSOLUTE:
      ret_value->absolute = (absolute_t) strtoull (value, &endptr, 0);
      break;

    default:
      sfree (value);
      ERROR ("parse_value: Invalid data source type: %i.", ds_type);
      return -1;
  }

  if (value == endptr) {
    ERROR ("parse_value: Failed to parse string as %s: %s.",
        DS_TYPE_TO_STRING (ds_type), value);
    sfree (value);
    return -1;
  }
  else if ((NULL != endptr) && ('\0' != *endptr))
    INFO ("parse_value: Ignoring trailing garbage \"%s\" after %s value. "
        "Input string was \"%s\".",
        endptr, DS_TYPE_TO_STRING (ds_type), value_orig);

  sfree (value);
  return 0;
} /* int parse_value */

int parse_values (char *buffer, value_list_t *vl, const data_set_t *ds)
{
        int i;
        char *dummy;
        char *ptr;
        char *saveptr;

        i = -1;
        dummy = buffer;
        saveptr = NULL;
        while ((ptr = strtok_r (dummy, ":", &saveptr)) != NULL)
        {
                dummy = NULL;

                if (i >= vl->values_len)
                {
                        /* Make sure i is invalid. */
                        i = vl->values_len + 1;
                        break;
                }

                if (i == -1)
                {
                        if (strcmp ("N", ptr) == 0)
                                vl->time = cdtime ();
                        else
                        {
                                char *endptr = NULL;
                                double tmp;

                                errno = 0;
                                tmp = strtod (ptr, &endptr);
                                if ((errno != 0)                    /* Overflow */
                                                || (endptr == ptr)  /* Invalid string */
                                                || (endptr == NULL) /* This should not happen */
                                                || (*endptr != 0))  /* Trailing chars */
                                        return (-1);

                                vl->time = DOUBLE_TO_CDTIME_T (tmp);
                        }
                }
                else
                {
                        if ((strcmp ("U", ptr) == 0) && (ds->ds[i].type == DS_TYPE_GAUGE))
                                vl->values[i].gauge = NAN;
                        else if (0 != parse_value (ptr, &vl->values[i], ds->ds[i].type))
                                return -1;
                }

                i++;
        } /* while (strtok_r) */

        if ((ptr != NULL) || (i != vl->values_len))
                return (-1);
        return (0);
} /* int parse_values */

#if !HAVE_GETPWNAM_R
int getpwnam_r (const char *name, struct passwd *pwbuf, char *buf,
                size_t buflen, struct passwd **pwbufp)
{
        int status = 0;
        struct passwd *pw;

        memset (pwbuf, '\0', sizeof (struct passwd));

        pthread_mutex_lock (&getpwnam_r_lock);

        do
        {
                pw = getpwnam (name);
                if (pw == NULL)
                {
                        status = (errno != 0) ? errno : ENOENT;
                        break;
                }

#define GETPWNAM_COPY_MEMBER(member) \
                if (pw->member != NULL) \
                { \
                        int len = strlen (pw->member); \
                        if (len >= buflen) \
                        { \
                                status = ENOMEM; \
                                break; \
                        } \
                        sstrncpy (buf, pw->member, buflen); \
                        pwbuf->member = buf; \
                        buf    += (len + 1); \
                        buflen -= (len + 1); \
                }
                GETPWNAM_COPY_MEMBER(pw_name);
                GETPWNAM_COPY_MEMBER(pw_passwd);
                GETPWNAM_COPY_MEMBER(pw_gecos);
                GETPWNAM_COPY_MEMBER(pw_dir);
                GETPWNAM_COPY_MEMBER(pw_shell);

                pwbuf->pw_uid = pw->pw_uid;
                pwbuf->pw_gid = pw->pw_gid;

                if (pwbufp != NULL)
                        *pwbufp = pwbuf;
        } while (0);

        pthread_mutex_unlock (&getpwnam_r_lock);

        return (status);
} /* int getpwnam_r */
#endif /* !HAVE_GETPWNAM_R */

int notification_init (notification_t *n, int severity, const char *message,
                const char *host,
                const char *plugin, const char *plugin_instance,
                const char *type, const char *type_instance)
{
        memset (n, '\0', sizeof (notification_t));

        n->severity = severity;

        if (message != NULL)
                sstrncpy (n->message, message, sizeof (n->message));
        if (host != NULL)
                sstrncpy (n->host, host, sizeof (n->host));
        if (plugin != NULL)
                sstrncpy (n->plugin, plugin, sizeof (n->plugin));
        if (plugin_instance != NULL)
                sstrncpy (n->plugin_instance, plugin_instance,
                                sizeof (n->plugin_instance));
        if (type != NULL)
                sstrncpy (n->type, type, sizeof (n->type));
        if (type_instance != NULL)
                sstrncpy (n->type_instance, type_instance,
                                sizeof (n->type_instance));

        return (0);
} /* int notification_init */

int walk_directory (const char *dir, dirwalk_callback_f callback,
                void *user_data, int include_hidden)
{
        struct dirent *ent;
        DIR *dh;
        int success;
        int failure;

        success = 0;
        failure = 0;

        if ((dh = opendir (dir)) == NULL)
        {
                char errbuf[1024];
                ERROR ("walk_directory: Cannot open '%s': %s", dir,
                                sstrerror (errno, errbuf, sizeof (errbuf)));
                return -1;
        }

        while ((ent = readdir (dh)) != NULL)
        {
                int status;

                if (include_hidden)
                {
                        if ((strcmp (".", ent->d_name) == 0)
                                        || (strcmp ("..", ent->d_name) == 0))
                                continue;
                }
                else /* if (!include_hidden) */
                {
                        if (ent->d_name[0]=='.')
                                continue;
                }

                status = (*callback) (dir, ent->d_name, user_data);
                if (status != 0)
                        failure++;
                else
                        success++;
        }

        closedir (dh);

        if ((success == 0) && (failure > 0))
                return (-1);
        return (0);
}

ssize_t read_file_contents (const char *filename, char *buf, size_t bufsize)
{
        FILE *fh;
        ssize_t ret;

        fh = fopen (filename, "r");
        if (fh == NULL)
                return (-1);

        ret = (ssize_t) fread (buf, 1, bufsize, fh);
        if ((ret == 0) && (ferror (fh) != 0))
        {
                ERROR ("read_file_contents: Reading file \"%s\" failed.",
                                filename);
                ret = -1;
        }

        fclose(fh);
        return (ret);
}

counter_t counter_diff (counter_t old_value, counter_t new_value)
{
        counter_t diff;

        if (old_value > new_value)
        {
                if (old_value <= 4294967295U)
                        diff = (4294967295U - old_value) + new_value;
                else
                        diff = (18446744073709551615ULL - old_value)
                                + new_value;
        }
        else
        {
                diff = new_value - old_value;
        }

        return (diff);
} /* counter_t counter_diff */

int rate_to_value (value_t *ret_value, gauge_t rate, /* {{{ */
                rate_to_value_state_t *state,
                int ds_type, cdtime_t t)
{
        gauge_t delta_gauge;
        cdtime_t delta_t;

        if (ds_type == DS_TYPE_GAUGE)
        {
                state->last_value.gauge = rate;
                state->last_time = t;

                *ret_value = state->last_value;
                return (0);
        }

        /* Counter and absolute can't handle negative rates. Reset "last time"
         * to zero, so that the next valid rate will re-initialize the
         * structure. */
        if ((rate < 0.0)
                        && ((ds_type == DS_TYPE_COUNTER)
                                || (ds_type == DS_TYPE_ABSOLUTE)))
        {
                memset (state, 0, sizeof (*state));
                return (EINVAL);
        }

        /* Another invalid state: The time is not increasing. */
        if (t <= state->last_time)
        {
                memset (state, 0, sizeof (*state));
                return (EINVAL);
        }

        delta_t = t - state->last_time;
        delta_gauge = (rate * CDTIME_T_TO_DOUBLE (delta_t)) + state->residual;

        /* Previous value is invalid. */
        if (state->last_time == 0) /* {{{ */
        {
                if (ds_type == DS_TYPE_DERIVE)
                {
                        state->last_value.derive = (derive_t) rate;
                        state->residual = rate - ((gauge_t) state->last_value.derive);
                }
                else if (ds_type == DS_TYPE_COUNTER)
                {
                        state->last_value.counter = (counter_t) rate;
                        state->residual = rate - ((gauge_t) state->last_value.counter);
                }
                else if (ds_type == DS_TYPE_ABSOLUTE)
                {
                        state->last_value.absolute = (absolute_t) rate;
                        state->residual = rate - ((gauge_t) state->last_value.absolute);
                }
                else
                {
                        assert (23 == 42);
                }

                state->last_time = t;
                return (EAGAIN);
        } /* }}} */

        if (ds_type == DS_TYPE_DERIVE)
        {
                derive_t delta_derive = (derive_t) delta_gauge;

                state->last_value.derive += delta_derive;
                state->residual = delta_gauge - ((gauge_t) delta_derive);
        }
        else if (ds_type == DS_TYPE_COUNTER)
        {
                counter_t delta_counter = (counter_t) delta_gauge;

                state->last_value.counter += delta_counter;
                state->residual = delta_gauge - ((gauge_t) delta_counter);
        }
        else if (ds_type == DS_TYPE_ABSOLUTE)
        {
                absolute_t delta_absolute = (absolute_t) delta_gauge;

                state->last_value.absolute = delta_absolute;
                state->residual = delta_gauge - ((gauge_t) delta_absolute);
        }
        else
        {
                assert (23 == 42);
        }

        state->last_time = t;
        *ret_value = state->last_value;
        return (0);
} /* }}} value_t rate_to_value */

int value_to_rate (value_t *ret_rate, derive_t value, /* {{{ */
                value_to_rate_state_t *state,
                int ds_type, cdtime_t t)
{
        double interval;

        /* Another invalid state: The time is not increasing. */
        if (t <= state->last_time)
        {
                memset (state, 0, sizeof (*state));
                return (EINVAL);
        }

        interval = CDTIME_T_TO_DOUBLE(t - state->last_time);

        /* Previous value is invalid. */
        if (state->last_time == 0) /* {{{ */
        {
                if (ds_type == DS_TYPE_DERIVE)
                {
                        state->last_value.derive = value;
                }
                else if (ds_type == DS_TYPE_COUNTER)
                {
                        state->last_value.counter = (counter_t) value;
                }
                else if (ds_type == DS_TYPE_ABSOLUTE)
                {
                        state->last_value.absolute = (absolute_t) value;
                }
                else
                {
                        assert (23 == 42);
                }

                state->last_time = t;
                return (EAGAIN);
        } /* }}} */

        if (ds_type == DS_TYPE_DERIVE)
        {
                ret_rate->gauge = (value - state->last_value.derive) / interval;
                state->last_value.derive = value;
        }
        else if (ds_type == DS_TYPE_COUNTER)
        {
                ret_rate->gauge = (((counter_t)value) - state->last_value.counter) / interval;
                state->last_value.counter = (counter_t) value;
        }
        else if (ds_type == DS_TYPE_ABSOLUTE)
        {
                ret_rate->gauge = (((absolute_t)value) - state->last_value.absolute) / interval;
                state->last_value.absolute = (absolute_t) value;
        }
        else
        {
                assert (23 == 42);
        }

        state->last_time = t;
        return (0);
} /* }}} value_t rate_to_value */

int service_name_to_port_number (const char *service_name)
{
        struct addrinfo *ai_list;
        struct addrinfo *ai_ptr;
        struct addrinfo ai_hints;
        int status;
        int service_number;

        if (service_name == NULL)
                return (-1);

        ai_list = NULL;
        memset (&ai_hints, 0, sizeof (ai_hints));
        ai_hints.ai_family = AF_UNSPEC;

        status = getaddrinfo (/* node = */ NULL, service_name,
                        &ai_hints, &ai_list);
        if (status != 0)
        {
                ERROR ("service_name_to_port_number: getaddrinfo failed: %s",
                                gai_strerror (status));
                return (-1);
        }

        service_number = -1;
        for (ai_ptr = ai_list; ai_ptr != NULL; ai_ptr = ai_ptr->ai_next)
        {
                if (ai_ptr->ai_family == AF_INET)
                {
                        struct sockaddr_in *sa;

                        sa = (void *) ai_ptr->ai_addr;
                        service_number = (int) ntohs (sa->sin_port);
                }
                else if (ai_ptr->ai_family == AF_INET6)
                {
                        struct sockaddr_in6 *sa;

                        sa = (void *) ai_ptr->ai_addr;
                        service_number = (int) ntohs (sa->sin6_port);
                }

                if ((service_number > 0) && (service_number <= 65535))
                        break;
        }

        freeaddrinfo (ai_list);

        if ((service_number > 0) && (service_number <= 65535))
                return (service_number);
        return (-1);
} /* int service_name_to_port_number */

int strtoderive (const char *string, derive_t *ret_value) /* {{{ */
{
        derive_t tmp;
        char *endptr;

        if ((string == NULL) || (ret_value == NULL))
                return (EINVAL);

        errno = 0;
        endptr = NULL;
        tmp = (derive_t) strtoll (string, &endptr, /* base = */ 0);
        if ((endptr == string) || (errno != 0))
                return (-1);

        *ret_value = tmp;
        return (0);
} /* }}} int strtoderive */

int strtogauge (const char *string, gauge_t *ret_value) /* {{{ */
{
        gauge_t tmp;
        char *endptr = NULL;

        if ((string == NULL) || (ret_value == NULL))
                return (EINVAL);

        errno = 0;
        endptr = NULL;
        tmp = (gauge_t) strtod (string, &endptr);
        if (errno != 0)
                return (errno);
        else if ((endptr == NULL) || (*endptr != 0))
                return (EINVAL);

        *ret_value = tmp;
        return (0);
} /* }}} int strtogauge */

int strarray_add (char ***ret_array, size_t *ret_array_len, char const *str) /* {{{ */
{
        char **array;
        size_t array_len = *ret_array_len;

        if (str == NULL)
                return (EINVAL);

        array = realloc (*ret_array,
            (array_len + 1) * sizeof (*array));
        if (array == NULL)
                return (ENOMEM);
        *ret_array = array;

        array[array_len] = strdup (str);
        if (array[array_len] == NULL)
                return (ENOMEM);

        array_len++;
        *ret_array_len = array_len;
        return (0);
} /* }}} int strarray_add */

void strarray_free (char **array, size_t array_len) /* {{{ */
{
        size_t i;

        for (i = 0; i < array_len; i++)
                sfree (array[i]);
        sfree (array);
} /* }}} void strarray_free */