/* * This file Copyright (C) 2009-2014 Mnemosyne LLC * * It may be used under the GNU GPL versions 2 or 3 * or any future license endorsed by Mnemosyne LLC. * * $Id$ */ #ifdef HAVE_MEMMEM #define _GNU_SOURCE /* glibc's string.h needs this to pick up memmem */ #endif #if defined (XCODE_BUILD) #define HAVE_GETPAGESIZE #define HAVE_ICONV_OPEN #define HAVE_VALLOC #endif #include #include /* isdigit (), tolower () */ #include #include /* DBL_EPSILON */ #include /* localeconv () */ #include /* pow (), fabs (), floor () */ #include #include /* getenv () */ #include /* strerror (), memset (), memmem () */ #include /* nanosleep () */ #ifdef _WIN32 #include /* Sleep (), GetSystemTimeAsFileTime (), GetEnvironmentVariable () */ #include /* CommandLineToArgv () */ #else #include #include /* getpagesize () */ #endif #ifdef HAVE_ICONV_OPEN #include #endif #include #include #include "transmission.h" #include "error.h" #include "error-types.h" #include "file.h" #include "ConvertUTF.h" #include "list.h" #include "log.h" #include "net.h" #include "utils.h" #include "platform.h" /* tr_lockLock () */ #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 } int tr_gettimeofday (struct timeval * tv) { #ifdef _WIN32 #define DELTA_EPOCH_IN_MICROSECS 11644473600000000ULL FILETIME ft; uint64_t tmp = 0; if (tv == NULL) { errno = EINVAL; return -1; } GetSystemTimeAsFileTime(&ft); tmp |= ft.dwHighDateTime; tmp <<= 32; tmp |= ft.dwLowDateTime; tmp /= 10; /* to microseconds */ tmp -= DELTA_EPOCH_IN_MICROSECS; tv->tv_sec = tmp / 1000000UL; tv->tv_usec = tmp % 1000000UL; return 0; #undef DELTA_EPOCH_IN_MICROSECS #else return gettimeofday (tv, NULL); #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 == '$') str = tmp[1]=='\'' ? tmp+1 : tmp; } if ((*str == '%') && (str[1] == '\'')) str = str + 1; } *out = '\0'; return !in || strcmp (buf, in) ? buf : in; } /** *** **/ void tr_timerAdd (struct event * timer, int seconds, int microseconds) { struct timeval tv; tv.tv_sec = seconds; tv.tv_usec = microseconds; assert (tv.tv_sec >= 0); assert (tv.tv_usec >= 0); assert (tv.tv_usec < 1000000); evtimer_add (timer, &tv); } void tr_timerAddMsec (struct event * timer, int msec) { const int seconds = msec / 1000; const int usec = (msec%1000) * 1000; tr_timerAdd (timer, seconds, usec); } /** *** **/ uint8_t * tr_loadFile (const char * path, size_t * size, tr_error ** error) { uint8_t * buf; tr_sys_path_info info; tr_sys_file_t fd; tr_error * my_error = NULL; const char * const err_fmt = _("Couldn't read \"%1$s\": %2$s"); /* try to stat the file */ if (!tr_sys_path_get_info (path, 0, &info, &my_error)) { tr_logAddDebug (err_fmt, path, my_error->message); tr_error_propagate (error, &my_error); return NULL; } if (info.type != TR_SYS_PATH_IS_FILE) { tr_logAddError (err_fmt, path, _("Not a regular file")); tr_error_set_literal (error, TR_ERROR_EISDIR, _("Not a regular file")); return NULL; } /* file size should be able to fit into size_t */ if (sizeof(info.size) > sizeof(*size)) assert (info.size <= SIZE_MAX); /* Load the torrent file into our buffer */ fd = tr_sys_file_open (path, TR_SYS_FILE_READ | TR_SYS_FILE_SEQUENTIAL, 0, &my_error); if (fd == TR_BAD_SYS_FILE) { tr_logAddError (err_fmt, path, my_error->message); tr_error_propagate (error, &my_error); return NULL; } buf = tr_malloc (info.size + 1); if (!tr_sys_file_read (fd, buf, info.size, NULL, &my_error)) { tr_logAddError (err_fmt, path, my_error->message); tr_sys_file_close (fd, NULL); free (buf); tr_error_propagate (error, &my_error); return NULL; } tr_sys_file_close (fd, NULL); buf[info.size] = '\0'; *size = info.size; return buf; } 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 == (ptrdiff_t)bufLen); return buf; } 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; va_start (ap, fmt); ret = tr_strdup_vprintf (fmt, ap); va_end (ap); return ret; } char * tr_strdup_vprintf (const char * fmt, va_list args) { struct evbuffer * buf = evbuffer_new (); evbuffer_add_vprintf (buf, fmt, args); return evbuffer_free_to_str (buf); } 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; tr_gettimeofday (&tv); 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_binary_to_hex (const void * input, char * output, size_t byte_length) { static const char hex[] = "0123456789abcdef"; const uint8_t * input_octets = input; size_t i; for (i = 0; i < byte_length; ++i) { const unsigned int val = *input_octets++; *output++ = hex[val >> 4]; *output++ = hex[val & 0xf]; } *output = '\0'; } void tr_hex_to_binary (const char * input, void * output, size_t byte_length) { static const char hex[] = "0123456789abcdef"; uint8_t * output_octets = output; size_t i; for (i = 0; i < byte_length; ++i) { const int hi = strchr (hex, tolower (*input++)) - hex; const int lo = strchr (hex, tolower (*input++)) - hex; *output_octets++ = (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; } /*** **** ***/ 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= 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= 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 0 && text[text_size - 1] >= '\0' && text[text_size - 1] <= ' ') text[--text_size] = '\0'; return text; } void tr_win32_make_args_utf8 (int * argc, char *** argv) { int my_argc, i; char ** my_argv; wchar_t ** my_wide_argv; my_wide_argv = CommandLineToArgvW (GetCommandLineW (), &my_argc); if (my_wide_argv == NULL) return; assert (*argc == my_argc); my_argv = tr_new (char *, my_argc + 1); for (i = 0; i < my_argc; ++i) { my_argv[i] = tr_win32_native_to_utf8 (my_wide_argv[i], -1); if (my_argv[i] == NULL) break; } if (i < my_argc) { int j; for (j = 0; j < i; ++j) { tr_free (my_argv[j]); } tr_free (my_argv); } else { my_argv[my_argc] = NULL; *argc = my_argc; *argv = my_argv; /* TODO: Add atexit handler to cleanup? */ } LocalFree (my_wide_argv); } int tr_main_win32 (int argc, char ** argv, int (*real_main) (int, char **)) { tr_win32_make_args_utf8 (&argc, &argv); SetConsoleCP (CP_UTF8); SetConsoleOutputCP (CP_UTF8); return real_main (argc, argv); } #endif /*** **** ***/ 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; idecimal_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; } /*** **** ***/ bool tr_moveFile (const char * oldpath, const char * newpath, tr_error ** error) { tr_sys_file_t in; tr_sys_file_t out; char * buf = NULL; tr_sys_path_info info; uint64_t bytesLeft; const size_t buflen = 1024 * 128; /* 128 KiB buffer */ /* make sure the old file exists */ if (!tr_sys_path_get_info (oldpath, 0, &info, error)) { tr_error_prefix (error, "Unable to get information on old file: "); return false; } if (info.type != TR_SYS_PATH_IS_FILE) { tr_error_set_literal (error, TR_ERROR_EINVAL, "Old path does not point to a file."); return false; } /* make sure the target directory exists */ { char * newdir = tr_sys_path_dirname (newpath, NULL); const bool i = tr_sys_dir_create (newdir, TR_SYS_DIR_CREATE_PARENTS, 0777, error); tr_free (newdir); if (!i) { tr_error_prefix (error, "Unable to create directory for new file: "); return false; } } /* they might be on the same filesystem... */ if (tr_sys_path_rename (oldpath, newpath, NULL)) return true; /* copy the file */ in = tr_sys_file_open (oldpath, TR_SYS_FILE_READ | TR_SYS_FILE_SEQUENTIAL, 0, error); if (in == TR_BAD_SYS_FILE) { tr_error_prefix (error, "Unable to open old file: "); return false; } out = tr_sys_file_open (newpath, TR_SYS_FILE_WRITE | TR_SYS_FILE_CREATE | TR_SYS_FILE_TRUNCATE, 0666, error); if (out == TR_BAD_SYS_FILE) { tr_error_prefix (error, "Unable to open new file: "); tr_sys_file_close (in, NULL); return false; } buf = tr_valloc (buflen); bytesLeft = info.size; while (bytesLeft > 0) { const uint64_t bytesThisPass = MIN (bytesLeft, buflen); uint64_t numRead, bytesWritten; if (!tr_sys_file_read (in, buf, bytesThisPass, &numRead, error)) break; if (!tr_sys_file_write (out, buf, numRead, &bytesWritten, error)) break; assert (numRead == bytesWritten); assert (bytesWritten <= bytesLeft); bytesLeft -= bytesWritten; } /* cleanup */ tr_free (buf); tr_sys_file_close (out, NULL); tr_sys_file_close (in, NULL); if (bytesLeft != 0) { tr_error_prefix (error, "Unable to read/write: "); return false; } { tr_error * my_error = NULL; if (!tr_sys_path_remove (oldpath, &my_error)) { tr_logAddError ("Unable to remove file at old path: %s", my_error->message); tr_error_free (my_error); } } return true; } /*** **** ***/ void* tr_valloc (size_t bufLen) { size_t allocLen; void * buf = NULL; static size_t pageSize = 0; if (!pageSize) { #if defined (HAVE_GETPAGESIZE) && !defined (_WIN32) 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; } /*** **** ***/ 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); } /*** **** ENVIRONMENT ***/ bool tr_env_key_exists (const char * key) { assert (key != NULL); #ifdef _WIN32 return GetEnvironmentVariableA (key, NULL, 0) != 0; #else return getenv (key) != NULL; #endif } int tr_env_get_int (const char * key, int default_value) { #ifdef _WIN32 char value[16]; assert (key != NULL); if (GetEnvironmentVariableA (key, value, ARRAYSIZE (value)) > 1) return atoi (value); #else const char * value; assert (key != NULL); value = getenv (key); if (value != NULL && *value != '\0') return atoi (value); #endif return default_value; } char * tr_env_get_string (const char * key, const char * default_value) { #ifdef _WIN32 wchar_t * wide_key; char * value = NULL; wide_key = tr_win32_utf8_to_native (key, -1); if (wide_key != NULL) { const DWORD size = GetEnvironmentVariableW (wide_key, NULL, 0); if (size != 0) { wchar_t * const wide_value = tr_new (wchar_t, size); if (GetEnvironmentVariableW (wide_key, wide_value, size) == size - 1) value = tr_win32_native_to_utf8 (wide_value, size); tr_free (wide_value); } tr_free (wide_key); } if (value == NULL && default_value != NULL) value = tr_strdup (default_value); return value; #else char * value; assert (key != NULL); value = getenv (key); if (value == NULL) value = (char *) default_value; if (value != NULL) value = tr_strdup (value); return value; #endif }