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transmission/libtransmission/utils.c

1834 lines
38 KiB
C

/*
* This file Copyright (C) Mnemosyne LLC
*
* This file is licensed by the GPL version 2. Works owned by the
* Transmission project are granted a special exemption to clause 2 (b)
* so that the bulk of its code can remain under the MIT license.
* This exemption does not extend to derived works not owned by
* the Transmission project.
*
* $Id$
*/
#ifdef HAVE_MEMMEM
#define _GNU_SOURCE /* glibc's string.h needs this to pick up memmem */
#endif
#if defined (SYS_DARWIN)
#define HAVE_GETPAGESIZE
#define HAVE_ICONV_OPEN
#define HAVE_MKDTEMP
#define HAVE_VALLOC
#endif
#include <assert.h>
#include <ctype.h> /* isdigit (), isalpha (), tolower () */
#include <errno.h>
#include <float.h> /* DBL_EPSILON */
#include <locale.h> /* localeconv () */
#include <math.h> /* pow (), fabs (), floor () */
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h> /* strerror (), memset (), memmem () */
#include <time.h> /* nanosleep () */
#ifdef HAVE_ICONV_OPEN
#include <iconv.h>
#endif
#include <libgen.h> /* basename () */
#include <sys/time.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h> /* stat (), getcwd (), getpagesize () */
#include <event2/buffer.h>
#include <event2/event.h>
#ifdef WIN32
#include <w32api.h>
#define WINVER WindowsXP /* freeaddrinfo (), getaddrinfo (), getnameinfo () */
#include <direct.h> /* _getcwd () */
#include <windows.h> /* Sleep () */
#endif
#include "transmission.h"
#include "fdlimit.h"
#include "ConvertUTF.h"
#include "list.h"
#include "log.h"
#include "utils.h"
#include "platform.h" /* tr_lockLock (), TR_PATH_MAX */
#include "platform-quota.h" /* tr_device_info_create(), tr_device_info_get_free_space(), tr_device_info_free() */
#include "variant.h"
#include "version.h"
time_t __tr_current_time = 0;
/***
****
***/
struct tm *
tr_localtime_r (const time_t *_clock, struct tm *_result)
{
#ifdef HAVE_LOCALTIME_R
return localtime_r (_clock, _result);
#else
struct tm *p = localtime (_clock);
if (p)
* (_result) = *p;
return p;
#endif
}
/***
****
***/
void*
tr_malloc (size_t size)
{
return size ? malloc (size) : NULL;
}
void*
tr_malloc0 (size_t size)
{
return size ? calloc (1, size) : NULL;
}
void
tr_free (void * p)
{
if (p != NULL)
free (p);
}
void*
tr_memdup (const void * src, size_t byteCount)
{
return memcpy (tr_malloc (byteCount), src, byteCount);
}
/***
****
***/
const char*
tr_strip_positional_args (const char* str)
{
char * out;
static size_t bufsize = 0;
static char * buf = NULL;
const char * in = str;
const size_t len = str ? strlen (str) : 0;
if (!buf || (bufsize < len))
{
bufsize = len * 2 + 1;
buf = tr_renew (char, buf, bufsize);
}
for (out = buf; str && *str; ++str)
{
*out++ = *str;
if ((*str == '%') && isdigit (str[1]))
{
const char * tmp = str + 1;
while (isdigit (*tmp))
++tmp;
if (*tmp == '$')
str = tmp[1]=='\'' ? tmp+1 : tmp;
}
if ((*str == '%') && (str[1] == '\''))
str = str + 1;
}
*out = '\0';
return !in || strcmp (buf, in) ? buf : in;
}
/**
***
**/
void
tr_timerAdd (struct event * timer, int seconds, int microseconds)
{
struct timeval tv;
tv.tv_sec = seconds;
tv.tv_usec = microseconds;
assert (tv.tv_sec >= 0);
assert (tv.tv_usec >= 0);
assert (tv.tv_usec < 1000000);
evtimer_add (timer, &tv);
}
void
tr_timerAddMsec (struct event * timer, int msec)
{
const int seconds = msec / 1000;
const int usec = (msec%1000) * 1000;
tr_timerAdd (timer, seconds, usec);
}
/**
***
**/
uint8_t *
tr_loadFile (const char * path,
size_t * size)
{
uint8_t * buf;
struct stat sb;
int fd;
ssize_t n;
const char * const err_fmt = _("Couldn't read \"%1$s\": %2$s");
/* try to stat the file */
errno = 0;
if (stat (path, &sb))
{
const int err = errno;
tr_logAddDebug (err_fmt, path, tr_strerror (errno));
errno = err;
return NULL;
}
if ((sb.st_mode & S_IFMT) != S_IFREG)
{
tr_logAddError (err_fmt, path, _("Not a regular file"));
errno = EISDIR;
return NULL;
}
/* Load the torrent file into our buffer */
fd = tr_open_file_for_scanning (path);
if (fd < 0)
{
const int err = errno;
tr_logAddError (err_fmt, path, tr_strerror (errno));
errno = err;
return NULL;
}
buf = tr_malloc (sb.st_size + 1);
if (!buf)
{
const int err = errno;
tr_logAddError (err_fmt, path, _("Memory allocation failed"));
tr_close_file (fd);
errno = err;
return NULL;
}
n = read (fd, buf, (size_t)sb.st_size);
if (n == -1)
{
const int err = errno;
tr_logAddError (err_fmt, path, tr_strerror (errno));
tr_close_file (fd);
free (buf);
errno = err;
return NULL;
}
tr_close_file (fd);
buf[ sb.st_size ] = '\0';
*size = sb.st_size;
return buf;
}
char*
tr_basename (const char * path)
{
char * tmp = tr_strdup (path);
char * ret = tr_strdup (basename (tmp));
tr_free (tmp);
return ret;
}
char*
tr_dirname (const char * path)
{
char * tmp = tr_strdup (path);
char * ret = tr_strdup (dirname (tmp));
tr_free (tmp);
return ret;
}
char*
tr_mkdtemp (char * template)
{
#ifdef HAVE_MKDTEMP
return mkdtemp (template);
#else
if (!mktemp (template) || mkdir (template, 0700))
return NULL;
return template;
#endif
}
/**
* @brief Portability wrapper for mkdir ()
*
* A portability wrapper around mkdir ().
* On WIN32, the `permissions' argument is unused.
*
* @return zero on success, or -1 if an error occurred
* (in which case errno is set appropriately).
*/
static int
tr_mkdir (const char * path, int permissions UNUSED)
{
#ifdef WIN32
if (path && isalpha (path[0]) && path[1] == ':' && !path[2])
return 0;
return mkdir (path);
#else
return mkdir (path, permissions);
#endif
}
int
tr_mkdirp (const char * path_in,
int permissions)
{
char * p;
char * pp;
bool done;
int tmperr;
int rv;
struct stat sb;
char * path;
/* make a temporary copy of path */
path = tr_strdup (path_in);
if (path == NULL)
{
errno = ENOMEM;
return -1;
}
/* walk past the root */
p = path;
while (*p == TR_PATH_DELIMITER)
++p;
pp = p;
done = false;
while ((p = strchr (pp, TR_PATH_DELIMITER)) || (p = strchr (pp, '\0')))
{
if (!*p)
done = true;
else
*p = '\0';
tmperr = errno;
rv = stat (path, &sb);
errno = tmperr;
if (rv)
{
/* Folder doesn't exist yet */
if (tr_mkdir (path, permissions))
{
tmperr = errno;
tr_logAddError (_("Couldn't create \"%1$s\": %2$s"), path, tr_strerror (tmperr));
tr_free (path);
errno = tmperr;
return -1;
}
}
else if ((sb.st_mode & S_IFMT) != S_IFDIR)
{
/* Node exists but isn't a folder */
char * buf = tr_strdup_printf (_("File \"%s\" is in the way"), path);
tr_logAddError (_("Couldn't create \"%1$s\": %2$s"), path_in, buf);
tr_free (buf);
tr_free (path);
errno = ENOTDIR;
return -1;
}
if (done)
break;
*p = TR_PATH_DELIMITER;
p++;
pp = p;
}
tr_free (path);
return 0;
}
char*
tr_buildPath (const char *first_element, ...)
{
const char * element;
char * buf;
char * pch;
va_list vl;
size_t bufLen = 0;
/* pass 1: allocate enough space for the string */
va_start (vl, first_element);
element = first_element;
while (element)
{
bufLen += strlen (element) + 1;
element = va_arg (vl, const char*);
}
pch = buf = tr_new (char, bufLen);
va_end (vl);
if (buf == NULL)
return NULL;
/* pass 2: build the string piece by piece */
va_start (vl, first_element);
element = first_element;
while (element)
{
const size_t elementLen = strlen (element);
memcpy (pch, element, elementLen);
pch += elementLen;
*pch++ = TR_PATH_DELIMITER;
element = va_arg (vl, const char*);
}
va_end (vl);
/* terminate the string. if nonempty, eat the unwanted trailing slash */
if (pch != buf)
--pch;
*pch++ = '\0';
/* sanity checks & return */
assert (pch - buf == (off_t)bufLen);
return buf;
}
#ifdef SYS_DARWIN
#define TR_STAT_MTIME(sb)((sb).st_mtimespec.tv_sec)
#else
#define TR_STAT_MTIME(sb)((sb).st_mtime)
#endif
bool
tr_fileExists (const char * filename, time_t * mtime)
{
struct stat sb;
const bool ok = !stat (filename, &sb);
if (ok && (mtime != NULL))
*mtime = TR_STAT_MTIME (sb);
return ok;
}
int64_t
tr_getDirFreeSpace (const char * dir)
{
int64_t free_space;
if (!dir || !*dir)
{
errno = EINVAL;
free_space = -1;
}
else
{
struct tr_device_info * info;
info = tr_device_info_create (dir);
free_space = tr_device_info_get_free_space (info);
tr_device_info_free (info);
}
return free_space;
}
/****
*****
****/
char*
evbuffer_free_to_str (struct evbuffer * buf)
{
const size_t n = evbuffer_get_length (buf);
char * ret = tr_new (char, n + 1);
evbuffer_copyout (buf, ret, n);
evbuffer_free (buf);
ret[n] = '\0';
return ret;
}
char*
tr_strdup (const void * in)
{
return tr_strndup (in, in ? (int)strlen ((const char *)in) : 0);
}
char*
tr_strndup (const void * in, int len)
{
char * out = NULL;
if (len < 0)
{
out = tr_strdup (in);
}
else if (in)
{
out = tr_malloc (len + 1);
if (out != NULL)
{
memcpy (out, in, len);
out[len] = '\0';
}
}
return out;
}
const char*
tr_memmem (const char * haystack, size_t haystacklen,
const char * needle, size_t needlelen)
{
#ifdef HAVE_MEMMEM
return memmem (haystack, haystacklen, needle, needlelen);
#else
size_t i;
if (!needlelen)
return haystack;
if (needlelen > haystacklen || !haystack || !needle)
return NULL;
for (i=0; i<=haystacklen-needlelen; ++i)
if (!memcmp (haystack+i, needle, needlelen))
return haystack+i;
return NULL;
#endif
}
char*
tr_strdup_printf (const char * fmt, ...)
{
va_list ap;
char * ret;
size_t len;
char statbuf[2048];
va_start (ap, fmt);
len = evutil_vsnprintf (statbuf, sizeof (statbuf), fmt, ap);
va_end (ap);
if (len < sizeof (statbuf))
{
ret = tr_strndup (statbuf, len);
}
else
{
ret = tr_new (char, len + 1);
va_start (ap, fmt);
evutil_vsnprintf (ret, len + 1, fmt, ap);
va_end (ap);
}
return ret;
}
const char*
tr_strerror (int i)
{
const char * ret = strerror (i);
if (ret == NULL)
ret = "Unknown Error";
return ret;
}
int
tr_strcmp0 (const char * str1, const char * str2)
{
if (str1 && str2) return strcmp (str1, str2);
if (str1) return 1;
if (str2) return -1;
return 0;
}
/****
*****
****/
/* https://bugs.launchpad.net/percona-patches/+bug/526863/+attachment/1160199/+files/solaris_10_fix.patch */
char*
tr_strsep (char ** str, const char * delims)
{
#ifdef HAVE_STRSEP
return strsep (str, delims);
#else
char *token;
if (*str == NULL) /* no more tokens */
return NULL;
token = *str;
while (**str != '\0')
{
if (strchr (delims, **str) != NULL)
{
**str = '\0';
(*str)++;
return token;
}
(*str)++;
}
/* there is not another token */
*str = NULL;
return token;
#endif
}
char*
tr_strstrip (char * str)
{
if (str != NULL)
{
size_t pos;
size_t len = strlen (str);
while (len && isspace (str[len - 1]))
--len;
for (pos = 0; pos < len && isspace (str[pos]);)
++pos;
len -= pos;
memmove (str, str + pos, len);
str[len] = '\0';
}
return str;
}
bool
tr_str_has_suffix (const char *str, const char *suffix)
{
size_t str_len;
size_t suffix_len;
if (!str)
return false;
if (!suffix)
return true;
str_len = strlen (str);
suffix_len = strlen (suffix);
if (str_len < suffix_len)
return false;
return !evutil_ascii_strncasecmp (str + str_len - suffix_len, suffix, suffix_len);
}
/****
*****
****/
uint64_t
tr_time_msec (void)
{
struct timeval tv;
gettimeofday (&tv, NULL);
return (uint64_t) tv.tv_sec * 1000 + (tv.tv_usec / 1000);
}
void
tr_wait_msec (long int msec)
{
#ifdef WIN32
Sleep ((DWORD)msec);
#else
struct timespec ts;
ts.tv_sec = msec / 1000;
ts.tv_nsec = (msec % 1000) * 1000000;
nanosleep (&ts, NULL);
#endif
}
/***
****
***/
int
tr_snprintf (char * buf, size_t buflen, const char * fmt, ...)
{
int len;
va_list args;
va_start (args, fmt);
len = evutil_vsnprintf (buf, buflen, fmt, args);
va_end (args);
return len;
}
/*
* Copy src to string dst of size siz. At most siz-1 characters
* will be copied. Always NUL terminates (unless siz == 0).
* Returns strlen (src); if retval >= siz, truncation occurred.
*/
size_t
tr_strlcpy (char * dst, const void * src, size_t siz)
{
#ifdef HAVE_STRLCPY
return strlcpy (dst, src, siz);
#else
char * d = dst;
const char *s = src;
size_t n = siz;
assert (s);
assert (d);
/* Copy as many bytes as will fit */
if (n != 0)
{
while (--n != 0)
{
if ((*d++ = *s++) == '\0')
break;
}
}
/* Not enough room in dst, add NUL and traverse rest of src */
if (n == 0)
{
if (siz != 0)
*d = '\0'; /* NUL-terminate dst */
while (*s++)
;
}
return s - (char*)src - 1; /* count does not include NUL */
#endif
}
/***
****
***/
double
tr_getRatio (uint64_t numerator, uint64_t denominator)
{
double ratio;
if (denominator > 0)
ratio = numerator / (double)denominator;
else if (numerator > 0)
ratio = TR_RATIO_INF;
else
ratio = TR_RATIO_NA;
return ratio;
}
void
tr_sha1_to_hex (char * out, const uint8_t * sha1)
{
int i;
static const char hex[] = "0123456789abcdef";
for (i=0; i<20; ++i)
{
const unsigned int val = *sha1++;
*out++ = hex[val >> 4];
*out++ = hex[val & 0xf];
}
*out = '\0';
}
void
tr_hex_to_sha1 (uint8_t * out, const char * in)
{
int i;
static const char hex[] = "0123456789abcdef";
for (i=0; i<20; ++i)
{
const int hi = strchr (hex, tolower (*in++)) - hex;
const int lo = strchr (hex, tolower (*in++)) - hex;
*out++ = (uint8_t)((hi<<4) | lo);
}
}
/***
****
***/
static bool
isValidURLChars (const char * url, int url_len)
{
const char * c;
const char * end;
static const char * rfc2396_valid_chars =
"abcdefghijklmnopqrstuvwxyz" /* lowalpha */
"ABCDEFGHIJKLMNOPQRSTUVWXYZ" /* upalpha */
"0123456789" /* digit */
"-_.!~*'()" /* mark */
";/?:@&=+$," /* reserved */
"<>#%<\"" /* delims */
"{}|\\^[]`"; /* unwise */
if (url == NULL)
return false;
for (c=url, end=c+url_len; c && *c && c!=end; ++c)
if (!strchr (rfc2396_valid_chars, *c))
return false;
return true;
}
/** @brief return true if the URL is a http or https or UDP one that Transmission understands */
bool
tr_urlIsValidTracker (const char * url)
{
bool valid;
if (url == NULL)
{
valid = false;
}
else
{
const int len = strlen (url);
valid = isValidURLChars (url, len)
&& !tr_urlParse (url, len, NULL, NULL, NULL, NULL)
&& (!memcmp (url,"http://",7) || !memcmp (url,"https://",8) || !memcmp (url,"udp://",6));
}
return valid;
}
/** @brief return true if the URL is a http or https or ftp or sftp one that Transmission understands */
bool
tr_urlIsValid (const char * url, int url_len)
{
bool valid;
if (url == NULL)
{
valid = false;
}
else
{
if (url_len < 0)
url_len = strlen (url);
valid = isValidURLChars (url, url_len)
&& !tr_urlParse (url, url_len, NULL, NULL, NULL, NULL)
&& (!memcmp (url,"http://",7) || !memcmp (url,"https://",8) || !memcmp (url,"ftp://",6) || !memcmp (url,"sftp://",7));
}
return valid;
}
bool
tr_addressIsIP (const char * str)
{
tr_address tmp;
return tr_address_from_string (&tmp, str);
}
int
tr_urlParse (const char * url_in,
int len,
char ** setme_protocol,
char ** setme_host,
int * setme_port,
char ** setme_path)
{
int err;
int port = 0;
int n;
char * tmp;
char * pch;
size_t host_len;
size_t protocol_len;
const char * host = NULL;
const char * protocol = NULL;
const char * path = NULL;
tmp = tr_strndup (url_in, len);
if ((pch = strstr (tmp, "://")))
{
*pch = '\0';
protocol = tmp;
protocol_len = pch - protocol;
pch += 3;
if ((n = strcspn (pch, ":/")))
{
const int havePort = pch[n] == ':';
host = pch;
host_len = n;
pch += n;
if (pch && *pch)
*pch++ = '\0';
if (havePort)
{
char * end;
port = strtol (pch, &end, 10);
pch = end;
}
path = pch;
}
}
err = !host || !path || !protocol;
if (!err && !port)
{
if (!strcmp (protocol, "udp")) port = 80;
else if (!strcmp (protocol, "ftp")) port = 21;
else if (!strcmp (protocol, "sftp")) port = 22;
else if (!strcmp (protocol, "http")) port = 80;
else if (!strcmp (protocol, "https")) port = 443;
}
if (!err)
{
if (setme_protocol) *setme_protocol = tr_strndup (protocol, protocol_len);
if (setme_host){ ((char*)host)[-3] = ':'; *setme_host =
tr_strndup (host, host_len); }
if (setme_path){ if (!*path) *setme_path = tr_strdup ("/");
else if (path[0] == '/') *setme_path = tr_strdup (path);
else { ((char*)path)[-1] = '/'; *setme_path = tr_strdup (path - 1); } }
if (setme_port) *setme_port = port;
}
tr_free (tmp);
return err;
}
#include <string.h>
#include <openssl/sha.h>
#include <openssl/hmac.h>
#include <openssl/evp.h>
#include <openssl/bio.h>
#include <openssl/buffer.h>
char *
tr_base64_encode (const void * input, int length, int * setme_len)
{
int retlen = 0;
char * ret = NULL;
if (input != NULL)
{
BIO * b64;
BIO * bmem;
BUF_MEM * bptr;
if (length < 1)
length = (int)strlen (input);
bmem = BIO_new (BIO_s_mem ());
b64 = BIO_new (BIO_f_base64 ());
BIO_set_flags (b64, BIO_FLAGS_BASE64_NO_NL);
b64 = BIO_push (b64, bmem);
BIO_write (b64, input, length);
(void) BIO_flush (b64);
BIO_get_mem_ptr (b64, &bptr);
ret = tr_strndup (bptr->data, bptr->length);
retlen = bptr->length;
BIO_free_all (b64);
}
if (setme_len)
*setme_len = retlen;
return ret;
}
char *
tr_base64_decode (const void * input,
int length,
int * setme_len)
{
char * ret;
BIO * b64;
BIO * bmem;
int retlen;
if (length < 1)
length = strlen (input);
ret = tr_new0 (char, length);
b64 = BIO_new (BIO_f_base64 ());
bmem = BIO_new_mem_buf ((unsigned char*)input, length);
bmem = BIO_push (b64, bmem);
retlen = BIO_read (bmem, ret, length);
if (!retlen)
{
/* try again, but with the BIO_FLAGS_BASE64_NO_NL flag */
BIO_free_all (bmem);
b64 = BIO_new (BIO_f_base64 ());
BIO_set_flags (b64, BIO_FLAGS_BASE64_NO_NL);
bmem = BIO_new_mem_buf ((unsigned char*)input, length);
bmem = BIO_push (b64, bmem);
retlen = BIO_read (bmem, ret, length);
}
if (setme_len)
*setme_len = retlen;
BIO_free_all (bmem);
return ret;
}
/***
****
***/
void
tr_removeElementFromArray (void * array,
unsigned int index_to_remove,
size_t sizeof_element,
size_t nmemb)
{
char * a = array;
memmove (a + sizeof_element * index_to_remove,
a + sizeof_element * (index_to_remove + 1),
sizeof_element * (--nmemb - index_to_remove));
}
int
tr_lowerBound (const void * key,
const void * base,
size_t nmemb,
size_t size,
int (* compar)(const void* key, const void* arrayMember),
bool * exact_match)
{
size_t first = 0;
const char * cbase = base;
bool exact = false;
while (nmemb != 0)
{
const size_t half = nmemb / 2;
const size_t middle = first + half;
const int c = compar (key, cbase + size*middle);
if (c <= 0)
{
if (c == 0)
exact = true;
nmemb = half;
}
else
{
first = middle + 1;
nmemb = nmemb - half - 1;
}
}
*exact_match = exact;
return first;
}
/***
****
****
***/
/* Byte-wise swap two items of size SIZE.
From glibc, written by Douglas C. Schmidt, LGPL 2.1 or higher */
#define SWAP(a, b, size) \
do { \
register size_t __size = (size); \
register char *__a = (a), *__b = (b); \
if (__a != __b) do { \
char __tmp = *__a; \
*__a++ = *__b; \
*__b++ = __tmp; \
} while (--__size > 0); \
} while (0)
static size_t
quickfindPartition (char * base, size_t left, size_t right, size_t size,
int (*compar)(const void *, const void *), size_t pivotIndex)
{
size_t i;
size_t storeIndex;
/* move pivot to the end */
SWAP (base+(size*pivotIndex), base+(size*right), size);
storeIndex = left;
for (i=left; i<=right-1; ++i)
{
if (compar (base+(size*i), base+(size*right)) <= 0)
{
SWAP (base+(size*storeIndex), base+(size*i), size);
++storeIndex;
}
}
/* move pivot to its final place */
SWAP (base+(size*right), base+(size*storeIndex), size);
/* sanity check the partition */
#ifndef NDEBUG
assert (storeIndex >= left);
assert (storeIndex <= right);
for (i=left; i<storeIndex; ++i)
assert (compar (base+(size*i), base+(size*storeIndex)) <= 0);
for (i=storeIndex+1; i<=right; ++i)
assert (compar (base+(size*i), base+(size*storeIndex)) >= 0);
#endif
return storeIndex;
}
static void
quickfindFirstK (char * base, size_t left, size_t right, size_t size,
int (*compar)(const void *, const void *), size_t k)
{
if (right > left)
{
const size_t pivotIndex = left + (right-left)/2u;
const size_t pivotNewIndex = quickfindPartition (base, left, right, size, compar, pivotIndex);
if (pivotNewIndex > left + k) /* new condition */
quickfindFirstK (base, left, pivotNewIndex-1, size, compar, k);
else if (pivotNewIndex < left + k)
quickfindFirstK (base, pivotNewIndex+1, right, size, compar, k+left-pivotNewIndex-1);
}
}
#ifndef NDEBUG
static void
checkBestScoresComeFirst (char * base, size_t nmemb, size_t size,
int (*compar)(const void *, const void *), size_t k)
{
size_t i;
size_t worstFirstPos = 0;
for (i=1; i<k; ++i)
if (compar (base+(size*worstFirstPos), base+(size*i)) < 0)
worstFirstPos = i;
for (i=0; i<k; ++i)
assert (compar (base+(size*i), base+(size*worstFirstPos)) <= 0);
for (i=k; i<nmemb; ++i)
assert (compar (base+(size*i), base+(size*worstFirstPos)) >= 0);
}
#endif
void
tr_quickfindFirstK (void * base, size_t nmemb, size_t size,
int (*compar)(const void *, const void *), size_t k)
{
if (k < nmemb)
{
quickfindFirstK (base, 0, nmemb-1, size, compar, k);
#ifndef NDEBUG
checkBestScoresComeFirst (base, nmemb, size, compar, k);
#endif
}
}
/***
****
***/
static char*
strip_non_utf8 (const char * in, size_t inlen)
{
const char * end;
const char zero = '\0';
struct evbuffer * buf = evbuffer_new ();
while (!tr_utf8_validate (in, inlen, &end))
{
const int good_len = end - in;
evbuffer_add (buf, in, good_len);
inlen -= (good_len + 1);
in += (good_len + 1);
evbuffer_add (buf, "?", 1);
}
evbuffer_add (buf, in, inlen);
evbuffer_add (buf, &zero, 1);
return evbuffer_free_to_str (buf);
}
static char*
to_utf8 (const char * in, size_t inlen)
{
char * ret = NULL;
#ifdef HAVE_ICONV_OPEN
int i;
const char * encodings[] = { "CURRENT", "ISO-8859-15" };
const int encoding_count = sizeof (encodings) / sizeof (encodings[1]);
const size_t buflen = inlen*4 + 10;
char * out = tr_new (char, buflen);
for (i=0; !ret && i<encoding_count; ++i)
{
char * inbuf = (char*) in;
char * outbuf = out;
size_t inbytesleft = inlen;
size_t outbytesleft = buflen;
const char * test_encoding = encodings[i];
iconv_t cd = iconv_open ("UTF-8", test_encoding);
if (cd != (iconv_t)-1)
{
if (iconv (cd, &inbuf, &inbytesleft, &outbuf, &outbytesleft) != (size_t)-1)
ret = tr_strndup (out, buflen-outbytesleft);
iconv_close (cd);
}
}
tr_free (out);
#endif
if (ret == NULL)
ret = strip_non_utf8 (in, inlen);
return ret;
}
char*
tr_utf8clean (const char * str, int max_len)
{
char * ret;
const char * end;
if (max_len < 0)
max_len = (int) strlen (str);
if (tr_utf8_validate (str, max_len, &end))
ret = tr_strndup (str, max_len);
else
ret = to_utf8 (str, max_len);
assert (tr_utf8_validate (ret, -1, NULL));
return ret;
}
/***
****
***/
struct number_range
{
int low;
int high;
};
/**
* This should be a single number (ex. "6") or a range (ex. "6-9").
* Anything else is an error and will return failure.
*/
static bool
parseNumberSection (const char * str, int len, struct number_range * setme)
{
long a, b;
bool success;
char * end;
const int error = errno;
char * tmp = tr_strndup (str, len);
errno = 0;
a = b = strtol (tmp, &end, 10);
if (errno || (end == tmp))
{
success = false;
}
else if (*end != '-')
{
success = true;
}
else
{
const char * pch = end + 1;
b = strtol (pch, &end, 10);
if (errno || (pch == end))
success = false;
else if (*end) /* trailing data */
success = false;
else
success = true;
}
tr_free (tmp);
setme->low = MIN (a, b);
setme->high = MAX (a, b);
errno = error;
return success;
}
int
compareInt (const void * va, const void * vb)
{
const int a = * (const int *)va;
const int b = * (const int *)vb;
return a - b;
}
/**
* Given a string like "1-4" or "1-4,6,9,14-51", this allocates and returns an
* array of setmeCount ints of all the values in the array.
* For example, "5-8" will return [ 5, 6, 7, 8 ] and setmeCount will be 4.
* It's the caller's responsibility to call tr_free () on the returned array.
* If a fragment of the string can't be parsed, NULL is returned.
*/
int*
tr_parseNumberRange (const char * str_in, int len, int * setmeCount)
{
int n = 0;
int * uniq = NULL;
char * str = tr_strndup (str_in, len);
const char * walk;
tr_list * ranges = NULL;
bool success = true;
walk = str;
while (walk && *walk && success)
{
struct number_range range;
const char * pch = strchr (walk, ',');
if (pch)
{
success = parseNumberSection (walk, pch-walk, &range);
walk = pch + 1;
}
else
{
success = parseNumberSection (walk, strlen (walk), &range);
walk += strlen (walk);
}
if (success)
tr_list_append (&ranges, tr_memdup (&range, sizeof (struct number_range)));
}
if (!success)
{
*setmeCount = 0;
uniq = NULL;
}
else
{
int i;
int n2;
tr_list * l;
int * sorted = NULL;
/* build a sorted number array */
n = n2 = 0;
for (l=ranges; l!=NULL; l=l->next)
{
const struct number_range * r = l->data;
n += r->high + 1 - r->low;
}
sorted = tr_new (int, n);
if (sorted == NULL)
{
n = 0;
uniq = NULL;
}
else
{
for (l=ranges; l!=NULL; l=l->next)
{
int i;
const struct number_range * r = l->data;
for (i=r->low; i<=r->high; ++i)
sorted[n2++] = i;
}
qsort (sorted, n, sizeof (int), compareInt);
assert (n == n2);
/* remove duplicates */
uniq = tr_new (int, n);
if (uniq == NULL)
{
n = 0;
}
else
{
for (i=n=0; i<n2; ++i)
if (!n || uniq[n-1] != sorted[i])
uniq[n++] = sorted[i];
}
tr_free (sorted);
}
}
/* cleanup */
tr_list_free (&ranges, tr_free);
tr_free (str);
/* return the result */
*setmeCount = n;
return uniq;
}
/***
****
***/
double
tr_truncd (double x, int precision)
{
char * pt;
char buf[128];
const int max_precision = (int) log10 (1.0 / DBL_EPSILON) - 1;
tr_snprintf (buf, sizeof (buf), "%.*f", max_precision, x);
if ((pt = strstr (buf, localeconv ()->decimal_point)))
pt[precision ? precision+1 : 0] = '\0';
return atof (buf);
}
/* return a truncated double as a string */
static char*
tr_strtruncd (char * buf, double x, int precision, size_t buflen)
{
tr_snprintf (buf, buflen, "%.*f", precision, tr_truncd (x, precision));
return buf;
}
char*
tr_strpercent (char * buf, double x, size_t buflen)
{
if (x < 100.0)
tr_strtruncd (buf, x, 1, buflen);
else
tr_strtruncd (buf, x, 0, buflen);
return buf;
}
char*
tr_strratio (char * buf, size_t buflen, double ratio, const char * infinity)
{
if ((int)ratio == TR_RATIO_NA)
tr_strlcpy (buf, _("None"), buflen);
else if ((int)ratio == TR_RATIO_INF)
tr_strlcpy (buf, infinity, buflen);
else
tr_strpercent (buf, ratio, buflen);
return buf;
}
/***
****
***/
int
tr_moveFile (const char * oldpath, const char * newpath, bool * renamed)
{
int in;
int out;
char * buf;
struct stat st;
off_t bytesLeft;
const size_t buflen = 1024 * 128; /* 128 KiB buffer */
/* make sure the old file exists */
if (stat (oldpath, &st))
{
const int err = errno;
errno = err;
return -1;
}
if (!S_ISREG (st.st_mode))
{
errno = ENOENT;
return -1;
}
bytesLeft = st.st_size;
/* make sure the target directory exists */
{
char * newdir = tr_dirname (newpath);
int i = tr_mkdirp (newdir, 0777);
tr_free (newdir);
if (i)
return i;
}
/* they might be on the same filesystem... */
{
const int i = tr_rename (oldpath, newpath);
if (renamed != NULL)
*renamed = i == 0;
if (!i)
return 0;
}
/* copy the file */
in = tr_open_file_for_scanning (oldpath);
out = tr_open_file_for_writing (newpath);
buf = tr_valloc (buflen);
while (bytesLeft > 0)
{
ssize_t bytesWritten;
const off_t bytesThisPass = MIN (bytesLeft, (off_t)buflen);
const int numRead = read (in, buf, bytesThisPass);
if (numRead < 0)
break;
bytesWritten = write (out, buf, numRead);
if (bytesWritten < 0)
break;
bytesLeft -= bytesWritten;
}
/* cleanup */
tr_free (buf);
tr_close_file (out);
tr_close_file (in);
if (bytesLeft != 0)
return -1;
tr_remove (oldpath);
return 0;
}
int
tr_rename (const char * oldpath, const char * newpath)
{
/* FIXME: needs win32 utf-16 support */
return rename (oldpath, newpath);
}
int
tr_remove (const char * pathname)
{
/* FIXME: needs win32 utf-16 support */
return remove (pathname);
}
bool
tr_is_same_file (const char * filename1, const char * filename2)
{
#ifdef WIN32
bool res;
HANDLE fh1, fh2;
BY_HANDLE_FILE_INFORMATION fi1, fi2;
int n = strlen (filename1) + 1;
int m = strlen (filename2) + 1;
wchar_t f1nameUTF16[n];
wchar_t f2nameUTF16[m];
MultiByteToWideChar (CP_UTF8, 0, filename1, -1, f1nameUTF16, n);
MultiByteToWideChar (CP_UTF8, 0, filename2, -1, f2nameUTF16, m);
fh1 = CreateFileW (chkFilename (f1nameUTF16), 0, 0, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, NULL);
fh2 = CreateFileW (chkFilename (f2nameUTF16), 0, 0, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, NULL);
res = GetFileInformationByHandle (fh1, &fi1)
&& GetFileInformationByHandle (fh2, &fi2)
&& (fi1.dwVolumeSerialNumber == fi2.dwVolumeSerialNumber)
&& (fi1.nFileIndexHigh == fi2.nFileIndexHigh)
&& (fi1.nFileIndexLow == fi2.nFileIndexLow);
CloseHandle (fh1);
CloseHandle (fh2);
return res;
#else
struct stat sb1, sb2;
return !stat (filename1, &sb1)
&& !stat (filename2, &sb2)
&& (sb1.st_dev == sb2.st_dev)
&& (sb1.st_ino == sb2.st_ino);
#endif
}
/***
****
***/
void*
tr_valloc (size_t bufLen)
{
size_t allocLen;
void * buf = NULL;
static size_t pageSize = 0;
if (!pageSize)
{
#ifdef HAVE_GETPAGESIZE
pageSize = (size_t) getpagesize ();
#else /* guess */
pageSize = 4096;
#endif
}
allocLen = pageSize;
while (allocLen < bufLen)
allocLen += pageSize;
#ifdef HAVE_POSIX_MEMALIGN
if (!buf)
if (posix_memalign (&buf, pageSize, allocLen))
buf = NULL; /* just retry with valloc/malloc */
#endif
#ifdef HAVE_VALLOC
if (!buf)
buf = valloc (allocLen);
#endif
if (!buf)
buf = tr_malloc (allocLen);
return buf;
}
char *
tr_realpath (const char * path, char * resolved_path)
{
#ifdef WIN32
/* From a message to the Mingw-msys list, Jun 2, 2005 by Mark Junker. */
if (GetFullPathNameA (path, TR_PATH_MAX, resolved_path, NULL) == 0)
return NULL;
return resolved_path;
#else
return realpath (path, resolved_path);
#endif
}
/***
****
***/
uint64_t
tr_htonll (uint64_t x)
{
#ifdef HAVE_HTONLL
return htonll (x);
#else
/* fallback code by bdonlan at
* http://stackoverflow.com/questions/809902/64-bit-ntohl-in-c/875505#875505 */
union { uint32_t lx[2]; uint64_t llx; } u;
u.lx[0] = htonl (x >> 32);
u.lx[1] = htonl (x & 0xFFFFFFFFULL);
return u.llx;
#endif
}
uint64_t
tr_ntohll (uint64_t x)
{
#ifdef HAVE_NTOHLL
return ntohll (x);
#else
/* fallback code by bdonlan at
* http://stackoverflow.com/questions/809902/64-bit-ntohl-in-c/875505#875505 */
union { uint32_t lx[2]; uint64_t llx; } u;
u.llx = x;
return ((uint64_t)ntohl (u.lx[0]) << 32) | (uint64_t)ntohl (u.lx[1]);
#endif
}
/***
****
****
****
***/
struct formatter_unit
{
char * name;
int64_t value;
};
struct formatter_units
{
struct formatter_unit units[4];
};
enum { TR_FMT_KB, TR_FMT_MB, TR_FMT_GB, TR_FMT_TB };
static void
formatter_init (struct formatter_units * units,
unsigned int kilo,
const char * kb, const char * mb,
const char * gb, const char * tb)
{
uint64_t value;
value = kilo;
units->units[TR_FMT_KB].name = tr_strdup (kb);
units->units[TR_FMT_KB].value = value;
value *= kilo;
units->units[TR_FMT_MB].name = tr_strdup (mb);
units->units[TR_FMT_MB].value = value;
value *= kilo;
units->units[TR_FMT_GB].name = tr_strdup (gb);
units->units[TR_FMT_GB].value = value;
value *= kilo;
units->units[TR_FMT_TB].name = tr_strdup (tb);
units->units[TR_FMT_TB].value = value;
}
static char*
formatter_get_size_str (const struct formatter_units * u,
char * buf, int64_t bytes, size_t buflen)
{
int precision;
double value;
const char * units;
const struct formatter_unit * unit;
if (bytes < u->units[1].value) unit = &u->units[0];
else if (bytes < u->units[2].value) unit = &u->units[1];
else if (bytes < u->units[3].value) unit = &u->units[2];
else unit = &u->units[3];
value = (double)bytes / unit->value;
units = unit->name;
if (unit->value == 1)
precision = 0;
else if (value < 100)
precision = 2;
else
precision = 1;
tr_snprintf (buf, buflen, "%.*f %s", precision, value, units);
return buf;
}
static struct formatter_units size_units;
void
tr_formatter_size_init (unsigned int kilo,
const char * kb, const char * mb,
const char * gb, const char * tb)
{
formatter_init (&size_units, kilo, kb, mb, gb, tb);
}
char*
tr_formatter_size_B (char * buf, int64_t bytes, size_t buflen)
{
return formatter_get_size_str (&size_units, buf, bytes, buflen);
}
static struct formatter_units speed_units;
unsigned int tr_speed_K = 0u;
void
tr_formatter_speed_init (unsigned int kilo,
const char * kb, const char * mb,
const char * gb, const char * tb)
{
tr_speed_K = kilo;
formatter_init (&speed_units, kilo, kb, mb, gb, tb);
}
char*
tr_formatter_speed_KBps (char * buf, double KBps, size_t buflen)
{
const double K = speed_units.units[TR_FMT_KB].value;
double speed = KBps;
if (speed <= 999.95) /* 0.0 KB to 999.9 KB */
{
tr_snprintf (buf, buflen, "%d %s", (int)speed, speed_units.units[TR_FMT_KB].name);
}
else
{
speed /= K;
if (speed <= 99.995) /* 0.98 MB to 99.99 MB */
tr_snprintf (buf, buflen, "%.2f %s", speed, speed_units.units[TR_FMT_MB].name);
else if (speed <= 999.95) /* 100.0 MB to 999.9 MB */
tr_snprintf (buf, buflen, "%.1f %s", speed, speed_units.units[TR_FMT_MB].name);
else
tr_snprintf (buf, buflen, "%.1f %s", speed/K, speed_units.units[TR_FMT_GB].name);
}
return buf;
}
static struct formatter_units mem_units;
unsigned int tr_mem_K = 0u;
void
tr_formatter_mem_init (unsigned int kilo,
const char * kb, const char * mb,
const char * gb, const char * tb)
{
tr_mem_K = kilo;
formatter_init (&mem_units, kilo, kb, mb, gb, tb);
}
char*
tr_formatter_mem_B (char * buf, int64_t bytes_per_second, size_t buflen)
{
return formatter_get_size_str (&mem_units, buf, bytes_per_second, buflen);
}
void
tr_formatter_get_units (void * vdict)
{
int i;
tr_variant * l;
tr_variant * dict = vdict;
tr_variantDictReserve (dict, 6);
tr_variantDictAddInt (dict, TR_KEY_memory_bytes, mem_units.units[TR_FMT_KB].value);
l = tr_variantDictAddList (dict, TR_KEY_memory_units, 4);
for (i=0; i<4; i++)
tr_variantListAddStr (l, mem_units.units[i].name);
tr_variantDictAddInt (dict, TR_KEY_size_bytes, size_units.units[TR_FMT_KB].value);
l = tr_variantDictAddList (dict, TR_KEY_size_units, 4);
for (i=0; i<4; i++)
tr_variantListAddStr (l, size_units.units[i].name);
tr_variantDictAddInt (dict, TR_KEY_speed_bytes, speed_units.units[TR_FMT_KB].value);
l = tr_variantDictAddList (dict, TR_KEY_speed_units, 4);
for (i=0; i<4; i++)
tr_variantListAddStr (l, speed_units.units[i].name);
}