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|
/* Copyright 2003 Roger Dingledine */
/* See LICENSE for licensing information */
/* $Id$ */
/*****
* util.c: Common functions for strings, IO, network, data structures,
* process control, and cross-platform portability.
*****/
#include "orconfig.h"
#ifdef MS_WINDOWS
#define WIN32_WINNT 0x400
#define _WIN32_WINNT 0x400
#define WIN32_LEAN_AND_MEAN
#if _MSC_VER > 1300
#include <winsock2.h>
#include <ws2tcpip.h>
#elif defined(_MSC_VER)
#include <winsock.h>
#endif
#include <io.h>
#include <process.h>
#include <direct.h>
#include <windows.h>
#endif
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>
#include "util.h"
#include "log.h"
#include "crypto.h"
#include "../or/tree.h"
#ifdef HAVE_UNAME
#include <sys/utsname.h>
#endif
#ifdef HAVE_CTYPE_H
#include <ctype.h>
#endif
#ifdef HAVE_NETINET_IN_H
#include <netinet/in.h>
#endif
#ifdef HAVE_ARPA_INET_H
#include <arpa/inet.h>
#endif
#ifdef HAVE_ERRNO_H
#include <errno.h>
#endif
#ifdef HAVE_LIMITS_H
#include <limits.h>
#endif
#ifdef HAVE_SYS_LIMITS_H
#include <sys/limits.h>
#endif
#ifdef HAVE_MACHINE_LIMITS_H
#include <machine/limits.h>
#endif
#ifdef HAVE_SYS_TYPES_H
#include <sys/types.h> /* Must be included before sys/stat.h for Ultrix */
#endif
#ifdef HAVE_SYS_SOCKET_H
#include <sys/socket.h>
#endif
#ifdef HAVE_NETDB_H
#include <netdb.h>
#endif
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
#ifdef HAVE_SYS_STAT_H
#include <sys/stat.h>
#endif
#ifdef HAVE_SYS_FCNTL_H
#include <sys/fcntl.h>
#endif
#ifdef HAVE_PWD_H
#include <pwd.h>
#endif
#ifdef HAVE_GRP_H
#include <grp.h>
#endif
#ifdef HAVE_FCNTL_H
#include <fcntl.h>
#endif
/* used by inet_addr, not defined on solaris anywhere!? */
#ifndef INADDR_NONE
#define INADDR_NONE ((unsigned long) -1)
#endif
/* Inline the strl functions if the plaform doesn't have them. */
#ifndef HAVE_STRLCPY
#include "strlcpy.c"
#endif
#ifndef HAVE_STRLCAT
#include "strlcat.c"
#endif
/*****
* Memory wrappers
*****/
/* Allocate a chunk of 'size' bytes of memory, and return a pointer to
* result. On error, log and terminate the process. (Same as malloc(size),
* but never returns NULL.)
*/
void *tor_malloc(size_t size) {
void *result;
/* Some libcs don't do the right thing on size==0. Override them. */
if (size==0) {
size=1;
}
result = malloc(size);
if(!result) {
log_fn(LOG_ERR, "Out of memory. Dying.");
exit(1);
}
// memset(result,'X',size); /* deadbeef to encourage bugs */
return result;
}
/* Allocate a chunk of 'size' bytes of memory, fill the memory with
* zero bytes, and return a pointer to the result. Log and terminate
* the process on error. (Same as calloc(size,1), but never returns NULL.)
*/
void *tor_malloc_zero(size_t size) {
void *result = tor_malloc(size);
memset(result, 0, size);
return result;
}
/* Change the size of the memory block pointed to by 'ptr' to 'size'
* bytes long; return the new memory block. On error, log and
* terminate. (Like realloc(ptr,size), but never returns NULL.)
*/
void *tor_realloc(void *ptr, size_t size) {
void *result;
result = realloc(ptr, size);
if (!result) {
log_fn(LOG_ERR, "Out of memory. Dying.");
exit(1);
}
return result;
}
/* Return a newly allocated copy of the NUL-terminated string s. On
* error, log and terminate. (Like strdup(s), but never returns
* NULL.)
*/
char *tor_strdup(const char *s) {
char *dup;
tor_assert(s);
dup = strdup(s);
if(!dup) {
log_fn(LOG_ERR,"Out of memory. Dying.");
exit(1);
}
return dup;
}
/* Allocate and return a new string containing the first 'n'
* characters of 's'. If 's' is longer than 'n' characters, only the
* first 'n' are copied. The result is always NUL-terminated. (Like
* strndup(s,n), but never returns NULL.)
*/
char *tor_strndup(const char *s, size_t n) {
char *dup;
tor_assert(s);
dup = tor_malloc(n+1);
strncpy(dup, s, n);
dup[n] = 0;
return dup;
}
/* Convert all alphabetic characters in the nul-terminated string 's' to
* lowercase. */
void tor_strlower(char *s)
{
while (*s) {
*s = tolower(*s);
++s;
}
}
#ifndef UNALIGNED_INT_ACCESS_OK
uint16_t get_uint16(const char *cp)
{
uint16_t v;
memcpy(&v,cp,2);
return v;
}
uint32_t get_uint32(const char *cp)
{
uint32_t v;
memcpy(&v,cp,4);
return v;
}
void set_uint16(char *cp, uint16_t v)
{
memcpy(cp,&v,2);
}
void set_uint32(char *cp, uint32_t v)
{
memcpy(cp,&v,4);
}
#endif
/* Encode the first 'fromlen' bytes stored at 'from' in hexidecimal;
* write the result as a NUL-terminated string to 'to'. 'to' must
* have at least (2*fromlen)+1 bytes of free space.
*/
void hex_encode(const char *from, int fromlen, char *to)
{
const unsigned char *fp = from;
static const char TABLE[] = "0123456789abcdef";
tor_assert(from && fromlen>=0 && to);
while (fromlen--) {
*to++ = TABLE[*fp >> 4];
*to++ = TABLE[*fp & 7];
++fp;
}
*to = '\0';
}
/* Return a pointer to a NUL-terminated hexidecimal string encoding
* the first 'fromlen' bytes of 'from'. (fromlen must be <= 32.) The
* result does not need to be deallocated, but repeated calls to
* hex_str will trash old results.
*/
const char *hex_str(const char *from, int fromlen)
{
static char buf[65];
if (fromlen>(sizeof(buf)-1)/2)
fromlen = (sizeof(buf)-1)/2;
hex_encode(from,fromlen,buf);
return buf;
}
/*****
* smartlist_t: a simple resizeable array abstraction.
*****/
/* All newly allocated smartlists have this capacity.
*/
#define SMARTLIST_DEFAULT_CAPACITY 32
struct smartlist_t {
/* 'list' has enough capacity to store exactly 'capacity' elements
* before it needs to be resized. Only the first 'num_used' (<=
* capacity) elements point to valid data.
*/
void **list;
int num_used;
int capacity;
};
/* Allocate and return an empty smartlist.
*/
smartlist_t *smartlist_create() {
smartlist_t *sl = tor_malloc(sizeof(smartlist_t));
sl->num_used = 0;
sl->capacity = SMARTLIST_DEFAULT_CAPACITY;
sl->list = tor_malloc(sizeof(void *) * sl->capacity);
return sl;
}
/* Deallocate a smartlist. Does not release storage associated with the
* list's elements.
*/
void smartlist_free(smartlist_t *sl) {
free(sl->list);
free(sl);
}
/* Change the capacity of the smartlist to 'n', so that we can grow
* the list upt to'n' elements with no further reallocation or wasted
* space. If 'n' is less than or equal to the number of elements
* currently in the list, reduces the list's capacity as much as
* possible without losing elements.
*/
void smartlist_set_capacity(smartlist_t *sl, int n) {
if (n < sl->num_used)
n = sl->num_used;
if (sl->capacity != n) {
sl->capacity = n;
sl->list = tor_realloc(sl->list, sizeof(void*)*sl->capacity);
}
}
/* Remove all elements from the list.
*/
void smartlist_clear(smartlist_t *sl) {
sl->num_used = 0;
}
/* Set the list's new length to 'len' (which must be <= the list's
* current size). Remove the last smartlist_len(sl)-len elements from the
* list.
*/
void smartlist_truncate(smartlist_t *sl, int len)
{
tor_assert(len <= sl->num_used);
sl->num_used = len;
}
/* Append element to the end of the list. */
void smartlist_add(smartlist_t *sl, void *element) {
if (sl->num_used >= sl->capacity) {
sl->capacity *= 2;
sl->list = tor_realloc(sl->list, sizeof(void*)*sl->capacity);
}
sl->list[sl->num_used++] = element;
}
/* Append each elements from S2 to the end of S1. */
void smartlist_add_all(smartlist_t *sl, const smartlist_t *s2)
{
SMARTLIST_FOREACH(s2, void *, element, smartlist_add(sl, element));
}
/* Remove all elements E from sl such that E==element. Does not preserve
* the order of s1.
*/
void smartlist_remove(smartlist_t *sl, void *element) {
int i;
if(element == NULL)
return;
for(i=0; i < sl->num_used; i++)
if(sl->list[i] == element) {
sl->list[i] = sl->list[--sl->num_used]; /* swap with the end */
i--; /* so we process the new i'th element */
}
}
/* Return true iff some element E of sl has E==element.
*/
int smartlist_isin(const smartlist_t *sl, void *element) {
int i;
for(i=0; i < sl->num_used; i++)
if(sl->list[i] == element)
return 1;
return 0;
}
/* Return true iff some element E of sl2 has smartlist_isin(sl1,E).
*/
int smartlist_overlap(const smartlist_t *sl1, const smartlist_t *sl2) {
int i;
for(i=0; i < sl2->num_used; i++)
if(smartlist_isin(sl1, sl2->list[i]))
return 1;
return 0;
}
/* Remove every element E of sl1 such that !smartlist_isin(sl2,E).
* Does not preserve the order of sl1.
*/
void smartlist_intersect(smartlist_t *sl1, const smartlist_t *sl2) {
int i;
for(i=0; i < sl1->num_used; i++)
if(!smartlist_isin(sl2, sl1->list[i])) {
sl1->list[i] = sl1->list[--sl1->num_used]; /* swap with the end */
i--; /* so we process the new i'th element */
}
}
/* Remove every element E of sl1 such that smartlist_isin(sl2,E).
* Does not preserve the order of sl1.
*/
void smartlist_subtract(smartlist_t *sl1, const smartlist_t *sl2) {
int i;
for(i=0; i < sl2->num_used; i++)
smartlist_remove(sl1, sl2->list[i]);
}
/* Return a randomly chosen element of sl; or NULL if sl is empty.
*/
void *smartlist_choose(const smartlist_t *sl) {
if(sl->num_used)
return sl->list[crypto_pseudo_rand_int(sl->num_used)];
return NULL; /* no elements to choose from */
}
/* Return the 'idx'th element of sl.
*/
void *smartlist_get(const smartlist_t *sl, int idx)
{
tor_assert(sl && idx>=0 && idx < sl->num_used);
return sl->list[idx];
}
/* Change the value of the 'idx'th element of sl to 'val'; return the old
* value of the 'idx'th element.
*/
void *smartlist_set(smartlist_t *sl, int idx, void *val)
{
void *old;
tor_assert(sl && idx>=0 && idx < sl->num_used);
old = sl->list[idx];
sl->list[idx] = val;
return old;
}
/* Remove the 'idx'th element of sl; if idx is not the last element,
* swap the last element of sl into the 'idx'th space. Return the old value
* of the 'idx'th element.
*/
void *smartlist_del(smartlist_t *sl, int idx)
{
void *old;
tor_assert(sl && idx>=0 && idx < sl->num_used);
old = sl->list[idx];
sl->list[idx] = sl->list[--sl->num_used];
return old;
}
/* Remove the 'idx'th element of sl; if idx is not the last element,
* moving all subsequent elements back one space. Return the old value
* of the 'idx'th element.
*/
void *smartlist_del_keeporder(smartlist_t *sl, int idx)
{
void *old;
tor_assert(sl && idx>=0 && idx < sl->num_used);
old = sl->list[idx];
--sl->num_used;
if (idx < sl->num_used)
memmove(sl->list+idx, sl->list+idx+1, sizeof(void*)*(sl->num_used-idx));
return old;
}
/* Return the number of items in sl.
*/
int smartlist_len(const smartlist_t *sl)
{
return sl->num_used;
}
/* Insert the value 'val' as the new 'idx'th element of 'sl', moving all
* items previously at 'idx' or later forward on space.
*/
void smartlist_insert(smartlist_t *sl, int idx, void *val)
{
tor_assert(sl && idx >= 0 && idx <= sl->num_used);
if (idx == sl->num_used) {
smartlist_add(sl, val);
} else {
/* Ensure sufficient capacity */
if (sl->num_used >= sl->capacity) {
sl->capacity *= 2;
sl->list = tor_realloc(sl->list, sizeof(void*)*sl->capacity);
}
/* Move other elements away */
if (idx < sl->num_used)
memmove(sl->list + idx + 1, sl->list + idx,
sizeof(void*)*(sl->num_used-idx));
sl->num_used++;
sl->list[idx] = val;
}
}
/*****
* Splay-tree implementation of string-to-void* map
*****/
struct strmap_entry_t {
SPLAY_ENTRY(strmap_entry_t) node;
char *key;
void *val;
};
struct strmap_t {
SPLAY_HEAD(strmap_tree, strmap_entry_t) head;
};
static int compare_strmap_entries(struct strmap_entry_t *a,
struct strmap_entry_t *b)
{
return strcmp(a->key, b->key);
}
SPLAY_PROTOTYPE(strmap_tree, strmap_entry_t, node, compare_strmap_entries);
SPLAY_GENERATE(strmap_tree, strmap_entry_t, node, compare_strmap_entries);
/* Create a new empty map from strings to void*'s.
*/
strmap_t* strmap_new(void)
{
strmap_t *result;
result = tor_malloc(sizeof(strmap_t));
SPLAY_INIT(&result->head);
return result;
}
/* Set the current value for <key> with <val>. Returns the previous
* value for <key> if one was set, or NULL if one was not.
*
* This function makes a copy of 'key' if necessary, but not of 'val'.
*/
void* strmap_set(strmap_t *map, const char *key, void *val)
{
strmap_entry_t *resolve;
strmap_entry_t search;
void *oldval;
tor_assert(map && key && val);
search.key = (char*)key;
resolve = SPLAY_FIND(strmap_tree, &map->head, &search);
if (resolve) {
oldval = resolve->val;
resolve->val = val;
return oldval;
} else {
resolve = tor_malloc_zero(sizeof(strmap_entry_t));
resolve->key = tor_strdup(key);
resolve->val = val;
SPLAY_INSERT(strmap_tree, &map->head, resolve);
return NULL;
}
}
/* Return the current value associated with <key>, or NULL if no
* value is set.
*/
void* strmap_get(strmap_t *map, const char *key)
{
strmap_entry_t *resolve;
strmap_entry_t search;
tor_assert(map && key);
search.key = (char*)key;
resolve = SPLAY_FIND(strmap_tree, &map->head, &search);
if (resolve) {
return resolve->val;
} else {
return NULL;
}
}
/* Remove the value currently associated with <key> from the map.
* Return the value if one was set, or NULL if there was no entry for
* <key>.
*
* Note: you must free any storage associated with the returned value.
*/
void* strmap_remove(strmap_t *map, const char *key)
{
strmap_entry_t *resolve;
strmap_entry_t search;
void *oldval;
tor_assert(map && key);
search.key = (char*)key;
resolve = SPLAY_FIND(strmap_tree, &map->head, &search);
if (resolve) {
oldval = resolve->val;
SPLAY_REMOVE(strmap_tree, &map->head, resolve);
tor_free(resolve->key);
tor_free(resolve);
return oldval;
} else {
return NULL;
}
}
/* Same as strmap_set, but first converts <key> to lowercase. */
void* strmap_set_lc(strmap_t *map, const char *key, void *val)
{
/* We could be a little faster by using strcasecmp instead, and a separate
* type, but I don't think it matters. */
void *v;
char *lc_key = tor_strdup(key);
tor_strlower(lc_key);
v = strmap_set(map,lc_key,val);
tor_free(lc_key);
return v;
}
/* Same as strmap_get, but first converts <key> to lowercase. */
void* strmap_get_lc(strmap_t *map, const char *key)
{
void *v;
char *lc_key = tor_strdup(key);
tor_strlower(lc_key);
v = strmap_get(map,lc_key);
tor_free(lc_key);
return v;
}
/* Same as strmap_remove, but first converts <key> to lowercase */
void* strmap_remove_lc(strmap_t *map, const char *key)
{
void *v;
char *lc_key = tor_strdup(key);
tor_strlower(lc_key);
v = strmap_remove(map,lc_key);
tor_free(lc_key);
return v;
}
/* Invoke fn() on every entry of the map, in order. For every entry,
* fn() is invoked with that entry's key, that entry's value, and the
* value of <data> supplied to strmap_foreach. fn() must return a new
* (possibly unmodified) value for each entry: if fn() returns NULL, the
* entry is removed.
*
* Example:
* static void* upcase_and_remove_empty_vals(const char *key, void *val,
* void* data) {
* char *cp = (char*)val;
* if (!*cp) { // val is an empty string.
* free(val);
* return NULL;
* } else {
* for (; *cp; cp++)
* *cp = toupper(*cp);
* }
* return val;
* }
* }
*
* ...
*
* strmap_foreach(map, upcase_and_remove_empty_vals, NULL);
*/
void strmap_foreach(strmap_t *map,
void* (*fn)(const char *key, void *val, void *data),
void *data)
{
strmap_entry_t *ptr, *next;
tor_assert(map && fn);
for (ptr = SPLAY_MIN(strmap_tree, &map->head); ptr != NULL; ptr = next) {
/* This remove-in-place usage is specifically blessed in tree(3). */
next = SPLAY_NEXT(strmap_tree, &map->head, ptr);
ptr->val = fn(ptr->key, ptr->val, data);
if (!ptr->val) {
SPLAY_REMOVE(strmap_tree, &map->head, ptr);
tor_free(ptr->key);
tor_free(ptr);
}
}
}
/* return an 'iterator' pointer to the front of a map.
*
* Iterator example:
*
* // uppercase values in "map", removing empty values.
*
* strmap_iter_t *iter;
* const char *key;
* void *val;
* char *cp;
*
* for (iter = strmap_iter_init(map); !strmap_iter_done(iter); ) {
* strmap_iter_get(iter, &key, &val);
* cp = (char*)val;
* if (!*cp) {
* iter = strmap_iter_next_rmv(iter);
* free(val);
* } else {
* for(;*cp;cp++) *cp = toupper(*cp);
* iter = strmap_iter_next(iter);
* }
* }
*
*/
strmap_iter_t *strmap_iter_init(strmap_t *map)
{
tor_assert(map);
return SPLAY_MIN(strmap_tree, &map->head);
}
/* Advance the iterator 'iter' for map a single step to the next entry.
*/
strmap_iter_t *strmap_iter_next(strmap_t *map, strmap_iter_t *iter)
{
tor_assert(map && iter);
return SPLAY_NEXT(strmap_tree, &map->head, iter);
}
/* Advance the iterator 'iter' a single step to the next entry, removing
* the current entry.
*/
strmap_iter_t *strmap_iter_next_rmv(strmap_t *map, strmap_iter_t *iter)
{
strmap_iter_t *next;
tor_assert(map && iter);
next = SPLAY_NEXT(strmap_tree, &map->head, iter);
SPLAY_REMOVE(strmap_tree, &map->head, iter);
tor_free(iter->key);
tor_free(iter);
return next;
}
/* Set *keyp and *valp to the current entry pointed to by iter.
*/
void strmap_iter_get(strmap_iter_t *iter, const char **keyp, void **valp)
{
tor_assert(iter && keyp && valp);
*keyp = iter->key;
*valp = iter->val;
}
/* Return true iff iter has advanced past the last entry of map.
*/
int strmap_iter_done(strmap_iter_t *iter)
{
return iter == NULL;
}
/* Remove all entries from <map>, and deallocate storage for those entries.
* If free_val is provided, it is invoked on every value in <map>.
*/
void strmap_free(strmap_t *map, void (*free_val)(void*))
{
strmap_entry_t *ent, *next;
for (ent = SPLAY_MIN(strmap_tree, &map->head); ent != NULL; ent = next) {
next = SPLAY_NEXT(strmap_tree, &map->head, ent);
SPLAY_REMOVE(strmap_tree, &map->head, ent);
tor_free(ent->key);
if (free_val)
tor_free(ent->val);
}
tor_assert(SPLAY_EMPTY(&map->head));
tor_free(map);
}
/*
* String manipulation
*/
/* Return a pointer to the first char of s that is not whitespace and
* not a comment, or to the terminating NUL if no such character exists.
*/
const char *eat_whitespace(const char *s) {
tor_assert(s);
while(isspace((int)*s) || *s == '#') {
while(isspace((int)*s))
s++;
if(*s == '#') { /* read to a \n or \0 */
while(*s && *s != '\n')
s++;
if(!*s)
return s;
}
}
return s;
}
/* Return a pointer to the first char of s that is not a space or a tab,
* or to the terminating NUL if no such character exists. */
const char *eat_whitespace_no_nl(const char *s) {
while(*s == ' ' || *s == '\t')
++s;
return s;
}
/* Return a pointer to the first char of s that is whitespace or '#',
* or to the terminating NUL if no such character exists.
*/
const char *find_whitespace(const char *s) {
tor_assert(s);
while(*s && !isspace((int)*s) && *s != '#')
s++;
return s;
}
/*****
* Time
*****/
/* Set *timeval to the current time of day. On error, log and terminate.
* (Same as gettimeofday(timeval,NULL), but never returns -1.)
*/
void tor_gettimeofday(struct timeval *timeval) {
#ifdef HAVE_GETTIMEOFDAY
if (gettimeofday(timeval, NULL)) {
log_fn(LOG_ERR, "gettimeofday failed.");
/* If gettimeofday dies, we have either given a bad timezone (we didn't),
or segfaulted.*/
exit(1);
}
#elif defined(HAVE_FTIME)
ftime(timeval);
#else
#error "No way to get time."
#endif
return;
}
/* Returns the number of microseconds elapsed between *start and *end.
*/
long
tv_udiff(struct timeval *start, struct timeval *end)
{
long udiff;
long secdiff = end->tv_sec - start->tv_sec;
if (secdiff+1 > LONG_MAX/1000000) {
log_fn(LOG_WARN, "comparing times too far apart.");
return LONG_MAX;
}
udiff = secdiff*1000000L + (end->tv_usec - start->tv_usec);
if(udiff < 0) {
log_fn(LOG_INFO, "start (%ld.%ld) is after end (%ld.%ld). Returning 0.",
(long)start->tv_sec, (long)start->tv_usec, (long)end->tv_sec, (long)end->tv_usec);
return 0;
}
return udiff;
}
/* Return -1 if *a<*b, 0 if *a==*b, and 1 if *a>*b.
*/
int tv_cmp(struct timeval *a, struct timeval *b) {
if (a->tv_sec > b->tv_sec)
return 1;
if (a->tv_sec < b->tv_sec)
return -1;
if (a->tv_usec > b->tv_usec)
return 1;
if (a->tv_usec < b->tv_usec)
return -1;
return 0;
}
/* Increment *a by the number of seconds and microseconds in *b.
*/
void tv_add(struct timeval *a, struct timeval *b) {
a->tv_usec += b->tv_usec;
a->tv_sec += b->tv_sec + (a->tv_usec / 1000000);
a->tv_usec %= 1000000;
}
/* Increment *a by 'ms' milliseconds.
*/
void tv_addms(struct timeval *a, long ms) {
a->tv_usec += (ms * 1000) % 1000000;
a->tv_sec += ((ms * 1000) / 1000000) + (a->tv_usec / 1000000);
a->tv_usec %= 1000000;
}
#define IS_LEAPYEAR(y) (!(y % 4) && ((y % 100) || !(y % 400)))
static int n_leapdays(int y1, int y2) {
--y1;
--y2;
return (y2/4 - y1/4) - (y2/100 - y1/100) + (y2/400 - y1/400);
}
static const int days_per_month[] =
{ 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31};
/* Return a time_t given a struct tm. The result is given in GMT, and
* does not account for leap seconds.
*/
time_t tor_timegm (struct tm *tm) {
/* This is a pretty ironclad timegm implementation, snarfed from Python2.2.
* It's way more brute-force than fiddling with tzset().
*/
time_t ret;
unsigned long year, days, hours, minutes;
int i;
year = tm->tm_year + 1900;
tor_assert(year >= 1970);
tor_assert(tm->tm_mon >= 0 && tm->tm_mon <= 11);
days = 365 * (year-1970) + n_leapdays(1970,year);
for (i = 0; i < tm->tm_mon; ++i)
days += days_per_month[i];
if (tm->tm_mon > 1 && IS_LEAPYEAR(year))
++days;
days += tm->tm_mday - 1;
hours = days*24 + tm->tm_hour;
minutes = hours*60 + tm->tm_min;
ret = minutes*60 + tm->tm_sec;
return ret;
}
/*
* Low-level I/O.
*/
/* Write 'count' bytes from 'buf' to 'fd'. isSocket must be 1 if fd
* was returned by socket() or accept(), and 0 if fd was returned by
* open(). Return the number of bytes written, or -1 on error. Only
* use if fd is a blocking fd. */
int write_all(int fd, const char *buf, size_t count, int isSocket) {
size_t written = 0;
int result;
while(written != count) {
if (isSocket)
result = send(fd, buf+written, count-written, 0);
else
result = write(fd, buf+written, count-written);
if(result<0)
return -1;
written += result;
}
return count;
}
/* Read 'count' bytes from 'fd' to 'buf'. isSocket must be 1 if fd
* was returned by socket() or accept(), and 0 if fd was returned by
* open(). Return the number of bytes read, or -1 on error. Only use
* if fd is a blocking fd. */
int read_all(int fd, char *buf, size_t count, int isSocket) {
size_t numread = 0;
int result;
while(numread != count) {
if (isSocket)
result = recv(fd, buf+numread, count-numread, 0);
else
result = read(fd, buf+numread, count-numread);
if(result<=0)
return -1;
numread += result;
}
return count;
}
/* Turn 'socket' into a nonblocking socket.
*/
void set_socket_nonblocking(int socket)
{
#ifdef MS_WINDOWS
/* Yes means no and no means yes. Do you not want to be nonblocking? */
int nonblocking = 0;
ioctlsocket(socket, FIONBIO, (unsigned long*) &nonblocking);
#else
fcntl(socket, F_SETFL, O_NONBLOCK);
#endif
}
/*
* Process control
*/
/* Minimalist interface to run a void function in the background. On
* unix calls fork, on win32 calls beginthread. Returns -1 on failure.
* func should not return, but rather should call spawn_exit.
*/
int spawn_func(int (*func)(void *), void *data)
{
#ifdef MS_WINDOWS
int rv;
rv = _beginthread(func, 0, data);
if (rv == (unsigned long) -1)
return -1;
return 0;
#else
pid_t pid;
pid = fork();
if (pid<0)
return -1;
if (pid==0) {
/* Child */
func(data);
tor_assert(0); /* Should never reach here. */
return 0; /* suppress "control-reaches-end-of-non-void" warning. */
} else {
/* Parent */
return 0;
}
#endif
}
/* End the current thread/process.
*/
void spawn_exit()
{
#ifdef MS_WINDOWS
_endthread();
#else
exit(0);
#endif
}
/**
* Allocate a pair of connected sockets. (Like socketpair(family,
* type,protocol,fd), but works on systems that don't have
* socketpair.)
*
* Currently, only (AF_UNIX, SOCK_STREAM, 0 ) sockets are supported.
* Note that on systems without socketpair, this call will sometimes
* fail if localhost is inaccessible (for example, if the networking
* stack is down).
**/
int
tor_socketpair(int family, int type, int protocol, int fd[2])
{
#ifdef HAVE_SOCKETPAIR
return socketpair(family, type, protocol, fd);
#else
/* This socketpair does not work when localhost is down. So
* it's really not the same thing at all. But it's close enough
* for now, and really, when localhost is down sometimes, we
* have other problems too.
*/
int listener = -1;
int connector = -1;
int acceptor = -1;
struct sockaddr_in listen_addr;
struct sockaddr_in connect_addr;
int size;
if (protocol
#ifdef AF_UNIX
|| family != AF_UNIX
#endif
) {
#ifdef MS_WINDOWS
errno = WSAEAFNOSUPPORT;
#else
errno = EAFNOSUPPORT;
#endif
return -1;
}
if (!fd) {
errno = EINVAL;
return -1;
}
listener = socket(AF_INET, type, 0);
if (listener == -1)
return -1;
memset (&listen_addr, 0, sizeof (listen_addr));
listen_addr.sin_family = AF_INET;
listen_addr.sin_addr.s_addr = htonl (INADDR_LOOPBACK);
listen_addr.sin_port = 0; /* kernel choses port. */
if (bind(listener, (struct sockaddr *) &listen_addr, sizeof (listen_addr))
== -1)
goto tidy_up_and_fail;
if (listen(listener, 1) == -1)
goto tidy_up_and_fail;
connector = socket(AF_INET, type, 0);
if (connector == -1)
goto tidy_up_and_fail;
/* We want to find out the port number to connect to. */
size = sizeof (connect_addr);
if (getsockname(listener, (struct sockaddr *) &connect_addr, &size) == -1)
goto tidy_up_and_fail;
if (size != sizeof (connect_addr))
goto abort_tidy_up_and_fail;
if (connect(connector, (struct sockaddr *) &connect_addr,
sizeof (connect_addr)) == -1)
goto tidy_up_and_fail;
size = sizeof (listen_addr);
acceptor = accept(listener, (struct sockaddr *) &listen_addr, &size);
if (acceptor == -1)
goto tidy_up_and_fail;
if (size != sizeof(listen_addr))
goto abort_tidy_up_and_fail;
tor_close_socket(listener);
/* Now check we are talking to ourself by matching port and host on the
two sockets. */
if (getsockname(connector, (struct sockaddr *) &connect_addr, &size) == -1)
goto tidy_up_and_fail;
if (size != sizeof (connect_addr)
|| listen_addr.sin_family != connect_addr.sin_family
|| listen_addr.sin_addr.s_addr != connect_addr.sin_addr.s_addr
|| listen_addr.sin_port != connect_addr.sin_port) {
goto abort_tidy_up_and_fail;
}
fd[0] = connector;
fd[1] = acceptor;
return 0;
abort_tidy_up_and_fail:
#ifdef MS_WINDOWS
errno = WSAECONNABORTED;
#else
errno = ECONNABORTED; /* I hope this is portable and appropriate. */
#endif
tidy_up_and_fail:
{
int save_errno = errno;
if (listener != -1)
tor_close_socket(listener);
if (connector != -1)
tor_close_socket(connector);
if (acceptor != -1)
tor_close_socket(acceptor);
errno = save_errno;
return -1;
}
#endif
}
/* On Windows, WSAEWOULDBLOCK is not always correct: when you see it,
* you need to ask the socket for its actual errno. Also, you need to
* get your errors from WSAGetLastError, not errno.
*/
#ifdef MS_WINDOWS
int tor_socket_errno(int sock)
{
int optval, optvallen=sizeof(optval);
int err = WSAGetLastError();
if (err == WSAEWOULDBLOCK && sock >= 0) {
if (getsockopt(sock, SOL_SOCKET, SO_ERROR, (void*)&optval, &optvallen))
return err;
if (optval)
return optval;
}
return err;
}
#endif
/*
* Filesystem operations.
*/
/* Return FN_ERROR if filename can't be read, FN_NOENT if it doesn't
* exist, FN_FILE if it is a regular file, or FN_DIR if it's a
* directory. */
file_status_t file_status(const char *fname)
{
struct stat st;
if (stat(fname, &st)) {
if (errno == ENOENT) {
return FN_NOENT;
}
return FN_ERROR;
}
if (st.st_mode & S_IFDIR)
return FN_DIR;
else if (st.st_mode & S_IFREG)
return FN_FILE;
else
return FN_ERROR;
}
/* Check whether dirname exists and is private. If yes returns 0. If
* it does not exist, and create is set, try to creat it and return 0
* on success. Else return -1. */
int check_private_dir(const char *dirname, int create)
{
int r;
struct stat st;
if (stat(dirname, &st)) {
if (errno != ENOENT) {
log(LOG_WARN, "Directory %s cannot be read: %s", dirname,
strerror(errno));
return -1;
}
if (!create) {
log(LOG_WARN, "Directory %s does not exist.", dirname);
return -1;
}
log(LOG_INFO, "Creating directory %s", dirname);
#ifdef MS_WINDOWS
r = mkdir(dirname);
#else
r = mkdir(dirname, 0700);
#endif
if (r) {
log(LOG_WARN, "Error creating directory %s: %s", dirname,
strerror(errno));
return -1;
} else {
return 0;
}
}
if (!(st.st_mode & S_IFDIR)) {
log(LOG_WARN, "%s is not a directory", dirname);
return -1;
}
#ifndef MS_WINDOWS
if (st.st_uid != getuid()) {
log(LOG_WARN, "%s is not owned by this UID (%d)", dirname, (int)getuid());
return -1;
}
if (st.st_mode & 0077) {
log(LOG_WARN, "Fixing permissions on directory %s", dirname);
if (chmod(dirname, 0700)) {
log(LOG_WARN, "Could not chmod directory %s: %s", dirname,
strerror(errno));
return -1;
} else {
return 0;
}
}
#endif
return 0;
}
/* Create a file named 'fname' with the contents 'str'. Overwrite the
* previous 'fname' if possible. Return 0 on success, -1 on failure.
*
* This function replaces the old file atomically, if possible.
*/
int
write_str_to_file(const char *fname, const char *str)
{
char tempname[1024];
int fd;
FILE *file;
if ((strlcpy(tempname,fname,1024) >= 1024) ||
(strlcat(tempname,".tmp",1024) >= 1024)) {
log(LOG_WARN, "Filename %s.tmp too long (>1024 chars)", fname);
return -1;
}
if ((fd = open(tempname, O_WRONLY|O_CREAT|O_TRUNC, 0600)) < 0) {
log(LOG_WARN, "Couldn't open %s for writing: %s", tempname,
strerror(errno));
return -1;
}
if (!(file = fdopen(fd, "w"))) {
log(LOG_WARN, "Couldn't fdopen %s for writing: %s", tempname,
strerror(errno));
close(fd);
return -1;
}
if (fputs(str,file) == EOF) {
log(LOG_WARN, "Error writing to %s: %s", tempname, strerror(errno));
fclose(file);
return -1;
}
fclose(file);
/* XXXX This won't work on windows: you can't use rename to replace a file.*/
if (rename(tempname, fname)) {
log(LOG_WARN, "Error replacing %s: %s", fname, strerror(errno));
return -1;
}
return 0;
}
/* Read the contents of 'filename' into a newly allocated string; return the
* string on success or NULL on failure.
*/
char *read_file_to_str(const char *filename) {
int fd; /* router file */
struct stat statbuf;
char *string;
tor_assert(filename);
if(strcspn(filename,CONFIG_LEGAL_FILENAME_CHARACTERS) != 0) {
log_fn(LOG_WARN,"Filename %s contains illegal characters.",filename);
return NULL;
}
if(stat(filename, &statbuf) < 0) {
log_fn(LOG_INFO,"Could not stat %s.",filename);
return NULL;
}
fd = open(filename,O_RDONLY,0);
if (fd<0) {
log_fn(LOG_WARN,"Could not open %s.",filename);
return NULL;
}
string = tor_malloc(statbuf.st_size+1);
if(read_all(fd,string,statbuf.st_size,0) != statbuf.st_size) {
log_fn(LOG_WARN,"Couldn't read all %ld bytes of file '%s'.",
(long)statbuf.st_size,filename);
free(string);
close(fd);
return NULL;
}
close(fd);
string[statbuf.st_size] = 0; /* null terminate it */
return string;
}
/* read lines from f (no more than maxlen-1 bytes each) until we
* get a non-whitespace line. If it isn't of the form "key value"
* (value can have spaces), return -1.
* Point *key to the first word in line, point *value * to the second.
* Put a \0 at the end of key, remove everything at the end of value
* that is whitespace or comment.
* Return 1 if success, 0 if no more lines, -1 if error.
*/
int parse_line_from_file(char *line, int maxlen, FILE *f, char **key_out, char **value_out) {
char *s, *key, *end, *value;
try_next_line:
if(!fgets(line, maxlen, f)) {
if(feof(f))
return 0;
return -1; /* real error */
}
if((s = strchr(line,'#'))) /* strip comments */
*s = 0; /* stop the line there */
/* remove end whitespace */
s = strchr(line, 0); /* now we're at the null */
do {
*s = 0;
s--;
} while (s >= line && isspace((int)*s));
key = line;
while(isspace((int)*key))
key++;
if(*key == 0)
goto try_next_line; /* this line has nothing on it */
end = key;
while(*end && !isspace((int)*end))
end++;
value = end;
while(*value && isspace((int)*value))
value++;
if(!*end || !*value) { /* only a key on this line. no value. */
*end = 0;
log_fn(LOG_WARN,"Line has keyword '%s' but no value. Failing.",key);
return -1;
}
*end = 0; /* null it out */
log_fn(LOG_DEBUG,"got keyword '%s', value '%s'", key, value);
*key_out = key, *value_out = value;
return 1;
}
/* Return true iff 'ip' (in host order) is an IP reserved to localhost,
* or reserved for local networks by RFC 1918.
*/
int is_internal_IP(uint32_t ip) {
if (((ip & 0xff000000) == 0x0a000000) || /* 10/8 */
((ip & 0xff000000) == 0x00000000) || /* 0/8 */
((ip & 0xff000000) == 0x7f000000) || /* 127/8 */
((ip & 0xffff0000) == 0xa9fe0000) || /* 169.254/16 */
((ip & 0xfff00000) == 0xac100000) || /* 172.16/12 */
((ip & 0xffff0000) == 0xc0a80000)) /* 192.168/16 */
return 1;
return 0;
}
/* Hold the result of our call to 'uname'. */
static char uname_result[256];
/* True iff uname_Result is set. */
static int uname_result_is_set = 0;
/* Return a pointer to a description of our platform.
*/
const char *
get_uname(void)
{
#ifdef HAVE_UNAME
struct utsname u;
#endif
if (!uname_result_is_set) {
#ifdef HAVE_UNAME
if (uname(&u) != -1) {
/* (linux says 0 is success, solaris says 1 is success) */
snprintf(uname_result, 255, "%s %s %s",
u.sysname, u.nodename, u.machine);
uname_result[255] = '\0';
} else
#endif
{
strcpy(uname_result, "Unknown platform");
}
uname_result_is_set = 1;
}
return uname_result;
}
#ifndef MS_WINDOWS
/* Based on code contributed by christian grothoff */
static int start_daemon_called = 0;
static int finish_daemon_called = 0;
static int daemon_filedes[2];
/* Begin running this process as a daemon. The child process will return
* quickly; the parent process will wait around until the child process calls
* finish_daemon.
*/
void start_daemon(char *desired_cwd)
{
pid_t pid;
if (start_daemon_called)
return;
start_daemon_called = 1;
if(!desired_cwd)
desired_cwd = "/";
/* Don't hold the wrong FS mounted */
if (chdir(desired_cwd) < 0) {
log_fn(LOG_ERR,"chdir to %s failed. Exiting.",desired_cwd);
exit(1);
}
pipe(daemon_filedes);
pid = fork();
if (pid < 0) {
log_fn(LOG_ERR,"fork failed. Exiting.");
exit(1);
}
if (pid) { /* Parent */
int ok;
char c;
close(daemon_filedes[1]); /* we only read */
ok = -1;
while (0 < read(daemon_filedes[0], &c, sizeof(char))) {
if (c == '.')
ok = 1;
}
fflush(stdout);
if (ok == 1)
exit(0);
else
exit(1); /* child reported error */
} else { /* Child */
close(daemon_filedes[0]); /* we only write */
pid = setsid(); /* Detach from controlling terminal */
/*
* Fork one more time, so the parent (the session group leader) can exit.
* This means that we, as a non-session group leader, can never regain a
* controlling terminal. This part is recommended by Stevens's
* _Advanced Programming in the Unix Environment_.
*/
if (fork() != 0) {
exit(0);
}
return;
}
}
/* Tell the parent process that the child has successfully finished setup,
* and the daemon is now running.
*/
void finish_daemon(void)
{
int nullfd;
char c = '.';
if (finish_daemon_called)
return;
if (!start_daemon_called)
start_daemon(NULL);
finish_daemon_called = 1;
nullfd = open("/dev/null",
O_CREAT | O_RDWR | O_APPEND);
if (nullfd < 0) {
log_fn(LOG_ERR,"/dev/null can't be opened. Exiting.");
exit(1);
}
/* close fds linking to invoking terminal, but
* close usual incoming fds, but redirect them somewhere
* useful so the fds don't get reallocated elsewhere.
*/
if (dup2(nullfd,0) < 0 ||
dup2(nullfd,1) < 0 ||
dup2(nullfd,2) < 0) {
log_fn(LOG_ERR,"dup2 failed. Exiting.");
exit(1);
}
write(daemon_filedes[1], &c, sizeof(char)); /* signal success */
close(daemon_filedes[1]);
}
#else
/* defined(MS_WINDOWS) */
void start_daemon(char *cp) {}
void finish_daemon(void) {}
#endif
/* Write the current process ID, followed by NL, into 'filaname',
*/
void write_pidfile(char *filename) {
#ifndef MS_WINDOWS
FILE *pidfile;
if ((pidfile = fopen(filename, "w")) == NULL) {
log_fn(LOG_WARN, "unable to open %s for writing: %s", filename,
strerror(errno));
} else {
fprintf(pidfile, "%d\n", (int)getpid());
fclose(pidfile);
}
#endif
}
/* Call setuid and setgid to run as 'user':'group'. Return 0 on
* success. On failure, log and return -1.
*/
int switch_id(char *user, char *group) {
#ifndef MS_WINDOWS
struct passwd *pw = NULL;
struct group *gr = NULL;
if (user) {
pw = getpwnam(user);
if (pw == NULL) {
log_fn(LOG_ERR,"User '%s' not found.", user);
return -1;
}
}
/* switch the group first, while we still have the privileges to do so */
if (group) {
gr = getgrnam(group);
if (gr == NULL) {
log_fn(LOG_ERR,"Group '%s' not found.", group);
return -1;
}
if (setgid(gr->gr_gid) != 0) {
log_fn(LOG_ERR,"Error setting GID: %s", strerror(errno));
return -1;
}
} else if (user) {
if (setgid(pw->pw_gid) != 0) {
log_fn(LOG_ERR,"Error setting GID: %s", strerror(errno));
return -1;
}
}
/* now that the group is switched, we can switch users and lose
privileges */
if (user) {
if (setuid(pw->pw_uid) != 0) {
log_fn(LOG_ERR,"Error setting UID: %s", strerror(errno));
return -1;
}
}
return 0;
#endif
log_fn(LOG_ERR,
"User or group specified, but switching users is not supported.");
return -1;
}
/* Set *addr to the IP address (in dotted-quad notation) stored in c.
* Return 1 on success, 0 if c is badly formatted. (Like inet_aton(c,addr),
* but works on Windows.)
*/
int tor_inet_aton(const char *c, struct in_addr* addr)
{
#ifdef HAVE_INET_ATON
return inet_aton(c, addr);
#else
uint32_t r;
tor_assert(c && addr);
if (strcmp(c, "255.255.255.255") == 0) {
addr->s_addr = 0xFFFFFFFFu;
return 1;
}
r = inet_addr(c);
if (r == INADDR_NONE)
return 0;
addr->s_addr = r;
return 1;
#endif
}
/* Similar behavior to Unix gethostbyname: resolve 'name', and set
* *addr to the proper IP address, in network byte order. Returns 0
* on success, -1 on failure; 1 on transient failure.
*
* (This function exists because standard windows gethostbyname
* doesn't treat raw IP addresses properly.)
*/
/* Perhaps eventually this should be replaced by a tor_getaddrinfo or
* something.
*/
int tor_lookup_hostname(const char *name, uint32_t *addr)
{
struct in_addr iaddr;
struct hostent *ent;
tor_assert(addr);
if (tor_inet_aton(name, &iaddr)) {
/* It's an IP. */
memcpy(addr, &iaddr.s_addr, 4);
return 0;
} else {
ent = gethostbyname(name);
if (ent) {
/* break to remind us if we move away from IPv4 */
tor_assert(ent->h_length == 4);
memcpy(addr, ent->h_addr, 4);
return 0;
}
memset(addr, 0, 4);
#ifdef MS_WINDOWS
return (WSAGetLastError() == WSATRY_AGAIN) ? 1 : -1;
#else
return (h_errno == TRY_AGAIN) ? 1 : -1;
#endif
}
}
/*
Local Variables:
mode:c
indent-tabs-mode:nil
c-basic-offset:2
End:
*/
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