3 * - output and logging support
4 * - program lifetime support
5 * - IP address and subnet munging routines
6 * - MPI convenience functions
10 * Copyright (C) 1995--2001 Stephen Early <steve@greenend.org.uk>
12 * It is part of secnet, which is
13 * Copyright (C) 1995--2001 Stephen Early <steve@greenend.org.uk>
14 * Copyright (C) 1998 Ross Anderson, Eli Biham, Lars Knudsen
16 * This program is free software; you can redistribute it and/or modify
17 * it under the terms of the GNU General Public License as published by
18 * the Free Software Foundation; either version 2, or (at your option)
21 * This program is distributed in the hope that it will be useful,
22 * but WITHOUT ANY WARRANTY; without even the implied warranty of
23 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
24 * GNU General Public License for more details.
26 * You should have received a copy of the GNU General Public License
27 * along with this program; if not, write to the Free Software Foundation,
28 * Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
41 #include "unaligned.h"
45 #define MIN_BUFFER_SIZE 64
46 #define DEFAULT_BUFFER_SIZE 4096
47 #define MAX_BUFFER_SIZE 131072
49 static const char *hexdigits="0123456789abcdef";
51 uint32_t current_phase=0;
56 struct phase_hook *next;
59 static struct phase_hook *hooks[NR_PHASES]={NULL,};
61 char *safe_strdup(const char *s, const char *message)
66 fatal_perror("%s",message);
71 void *safe_malloc(size_t size, const char *message)
78 fatal_perror("%s",message);
82 void *safe_realloc_ary(void *p, size_t size, size_t count,
83 const char *message) {
84 if (count >= INT_MAX/size) {
85 fatal("array allocation overflow: %s", message);
87 assert(size && count);
88 p = realloc(p, size*count);
90 fatal_perror("%s", message);
94 void *safe_malloc_ary(size_t size, size_t count, const char *message) {
97 return safe_realloc_ary(0,size,count,message);
100 /* Convert a buffer into its MP_INT representation */
101 void read_mpbin(MP_INT *a, uint8_t *bin, int binsize)
106 buff=safe_malloc(binsize*2 + 1,"read_mpbin");
108 for (i=0; i<binsize; i++) {
109 buff[i*2]=hexdigits[(bin[i] & 0xf0) >> 4];
110 buff[i*2+1]=hexdigits[(bin[i] & 0xf)];
114 mpz_set_str(a, buff, 16);
118 /* Convert a MP_INT into a hex string */
119 char *write_mpstring(MP_INT *a)
123 buff=safe_malloc(mpz_sizeinbase(a,16)+2,"write_mpstring");
124 mpz_get_str(buff, 16, a);
128 static uint8_t hexval(uint8_t c)
157 /* Convert a MP_INT into a buffer; return length; truncate if necessary */
158 int32_t write_mpbin(MP_INT *a, uint8_t *buffer, int32_t buflen)
163 if (buflen==0) return 0;
164 hb=write_mpstring(a);
169 /* The number starts with a half-byte */
170 buffer[i++]=hexval(hb[j++]);
172 for (; hb[j] && i<buflen; i++) {
173 buffer[i]=(hexval(hb[j])<<4)|hexval(hb[j+1]);
180 #define DEFINE_SETFDFLAG(fn,FL,FLAG) \
182 int r=fcntl(fd, F_GET##FL); \
183 if (r<0) fatal_perror("fcntl(,F_GET" #FL ") failed"); \
184 r=fcntl(fd, F_SET##FL, r|FLAG); \
185 if (r<0) fatal_perror("fcntl(,F_SET" #FL ",|" #FLAG ") failed"); \
188 DEFINE_SETFDFLAG(setcloexec,FD,FD_CLOEXEC);
189 DEFINE_SETFDFLAG(setnonblock,FL,O_NONBLOCK);
191 void pipe_cloexec(int fd[2]) {
193 if (r) fatal_perror("pipe");
198 static const char *phases[NR_PHASES]={
204 "PHASE_GETRESOURCES",
210 void enter_phase(uint32_t new_phase)
212 struct phase_hook *i;
214 if (hooks[new_phase])
215 Message(M_DEBUG_PHASE,"Running hooks for %s...\n", phases[new_phase]);
216 current_phase=new_phase;
218 for (i=hooks[new_phase]; i; i=i->next)
219 i->fn(i->state, new_phase);
220 Message(M_DEBUG_PHASE,"Now in %s\n",phases[new_phase]);
223 bool_t add_hook(uint32_t phase, hook_fn *fn, void *state)
225 struct phase_hook *h;
227 h=safe_malloc(sizeof(*h),"add_hook");
230 h->next=hooks[phase];
235 bool_t remove_hook(uint32_t phase, hook_fn *fn, void *state)
237 fatal("remove_hook: not implemented");
242 void vslilog(struct log_if *lf, int priority, const char *message, va_list ap)
244 lf->vlogfn(lf->st,priority,message,ap);
247 void slilog(struct log_if *lf, int priority, const char *message, ...)
251 va_start(ap,message);
252 vslilog(lf,priority,message,ap);
258 struct buffer_if ops;
261 void buffer_assert_free(struct buffer_if *buffer, cstring_t file,
265 fprintf(stderr,"secnet: BUF_ASSERT_FREE, %s line %d, owned by %s",
266 file,line,buffer->owner);
267 assert(!"buffer_assert_free failure");
271 void buffer_assert_used(struct buffer_if *buffer, cstring_t file,
275 fprintf(stderr,"secnet: BUF_ASSERT_USED, %s line %d, last owned by %s",
276 file,line,buffer->owner);
277 assert(!"buffer_assert_used failure");
281 void buffer_init(struct buffer_if *buffer, int32_t max_start_pad)
283 assert(max_start_pad<=buffer->alloclen);
284 buffer->start=buffer->base+max_start_pad;
288 void *buf_append(struct buffer_if *buf, int32_t amount) {
290 assert(amount <= buf_remaining_space(buf));
291 p=buf->start + buf->size;
296 void *buf_prepend(struct buffer_if *buf, int32_t amount) {
297 assert(amount <= buf->start - buf->base);
299 return buf->start-=amount;
302 void *buf_unappend(struct buffer_if *buf, int32_t amount) {
303 if (buf->size < amount) return 0;
304 return buf->start+(buf->size-=amount);
307 void *buf_unprepend(struct buffer_if *buf, int32_t amount) {
309 if (buf->size < amount) return 0;
316 /* Append a two-byte length and the string to the buffer. Length is in
317 network byte order. */
318 void buf_append_string(struct buffer_if *buf, cstring_t s)
323 /* fixme: if string is longer than 65535, result is a corrupted packet */
324 buf_append_uint16(buf,len);
325 BUF_ADD_BYTES(append,buf,s,len);
328 void buffer_new(struct buffer_if *buf, int32_t len)
338 buf->base=safe_malloc(len,"buffer_new");
341 void buffer_readonly_view(struct buffer_if *buf, const void *data, int32_t len)
344 buf->owner="READONLY";
348 buf->size=buf->alloclen=len;
349 buf->base=buf->start=(uint8_t*)data;
352 void buffer_readonly_clone(struct buffer_if *out, const struct buffer_if *in)
354 buffer_readonly_view(out,in->start,in->size);
357 void buffer_copy(struct buffer_if *dst, const struct buffer_if *src)
359 if (dst->alloclen < src->alloclen) {
360 dst->base=realloc(dst->base,src->alloclen);
361 if (!dst->base) fatal_perror("buffer_copy");
362 dst->alloclen = src->alloclen;
364 dst->start = dst->base + (src->start - src->base);
365 dst->size = src->size;
366 memcpy(dst->start, src->start, dst->size);
369 static list_t *buffer_apply(closure_t *self, struct cloc loc, dict_t *context,
375 bool_t lockdown=False;
376 uint32_t len=DEFAULT_BUFFER_SIZE;
378 st=safe_malloc(sizeof(*st),"buffer_apply");
379 st->cl.description="buffer";
380 st->cl.type=CL_BUFFER;
382 st->cl.interface=&st->ops;
384 /* First argument, if present, is buffer length */
385 item=list_elem(args,0);
387 if (item->type!=t_number) {
388 cfgfatal(st->ops.loc,"buffer","first parameter must be a "
389 "number (buffer size)\n");
391 len=item->data.number;
392 if (len<MIN_BUFFER_SIZE) {
393 cfgfatal(st->ops.loc,"buffer","ludicrously small buffer size\n");
395 if (len>MAX_BUFFER_SIZE) {
396 cfgfatal(st->ops.loc,"buffer","ludicrously large buffer size\n");
399 /* Second argument, if present, is a dictionary */
400 item=list_elem(args,1);
402 if (item->type!=t_dict) {
403 cfgfatal(st->ops.loc,"buffer","second parameter must be a "
406 dict=item->data.dict;
407 lockdown=dict_read_bool(dict,"lockdown",False,"buffer",st->ops.loc,
411 buffer_new(&st->ops,len);
413 /* XXX mlock the buffer if possible */
416 return new_closure(&st->cl);
419 void send_nak(const struct comm_addr *dest, uint32_t our_index,
420 uint32_t their_index, uint32_t msgtype,
421 struct buffer_if *buf, const char *logwhy)
423 buffer_init(buf,calculate_max_start_pad());
424 buf_append_uint32(buf,their_index);
425 buf_append_uint32(buf,our_index);
426 buf_append_uint32(buf,LABEL_NAK);
428 Message(M_INFO,"%s: %08"PRIx32"<-%08"PRIx32": %08"PRIx32":"
429 " %s; sending NAK\n",
430 comm_addr_to_string(dest),
431 our_index, their_index, msgtype, logwhy);
432 dest->comm->sendmsg(dest->comm->st, buf, dest);
435 int consttime_memeq(const void *s1in, const void *s2in, size_t n)
437 const uint8_t *s1=s1in, *s2=s2in;
438 register volatile uint8_t accumulator=0;
441 accumulator |= (*s1++ ^ *s2++);
443 accumulator |= accumulator >> 4; /* constant-time */
444 accumulator |= accumulator >> 2; /* boolean canonicalisation */
445 accumulator |= accumulator >> 1;
451 void util_module(dict_t *dict)
453 add_closure(dict,"sysbuffer",buffer_apply);
456 void update_max_start_pad(int32_t *our_module_global, int32_t our_instance)
458 if (*our_module_global < our_instance)
459 *our_module_global=our_instance;
462 int32_t transform_max_start_pad, comm_max_start_pad;
464 int32_t calculate_max_start_pad(void)
468 transform_max_start_pad +
472 void vslilog_part(struct log_if *lf, int priority, const char *message, va_list ap)
479 assert(bp < LOG_MESSAGE_BUFLEN);
480 vsnprintf(buff+bp,LOG_MESSAGE_BUFLEN-bp,message,ap);
481 buff[LOG_MESSAGE_BUFLEN-1] = '\n';
482 buff[LOG_MESSAGE_BUFLEN] = '\0';
483 /* Each line is sent separately */
484 while ((nlp=strchr(buff,'\n'))) {
486 slilog(lf,priority,"%s",buff);
487 memmove(buff,nlp+1,strlen(nlp+1)+1);
491 extern void slilog_part(struct log_if *lf, int priority, const char *message, ...)
494 va_start(ap,message);
495 vslilog_part(lf,priority,message,ap);
499 void string_item_to_iaddr(const item_t *item, uint16_t port, union iaddr *ia,
504 ia->sin.sin_family=AF_INET;
505 ia->sin.sin_addr.s_addr=string_item_to_ipaddr(item,desc);
507 #else /* CONFIG_IPV6 => we have adns_text2addr */
509 if (item->type!=t_string)
510 cfgfatal(item->loc,desc,"expecting a string IP (v4 or v6) address\n");
511 socklen_t salen=sizeof(*ia);
512 int r=adns_text2addr(item->data.string, port,
513 adns_qf_addrlit_ipv4_quadonly,
516 if (r) cfgfatal(item->loc,desc,"invalid IP (v4 or v6) address: %s\n",
519 #endif /* CONFIG_IPV6 */
522 #define IADDR_NBUFS_SHIFT 3
523 #define IADDR_NBUFS (1 << IADDR_NBUFS_SHIFT)
525 const char *iaddr_to_string(const union iaddr *ia)
534 static char bufs[IADDR_NBUFS][100];
536 assert(ia->sa.sa_family == AF_INET);
538 snprintf(bufs[b], sizeof(bufs[b]), "[%s]:%d",
539 inet_ntoa(ia->sin.sin_addr),
540 ntohs(ia->sin.sin_port));
542 #else /* CONFIG_IPV6 => we have adns_addr2text */
544 static char bufs[IADDR_NBUFS][1+ADNS_ADDR2TEXT_BUFLEN+20];
548 char *addrbuf = bufs[b];
550 int addrbuflen = ADNS_ADDR2TEXT_BUFLEN;
552 int r = adns_addr2text(&ia->sa, 0, addrbuf, &addrbuflen, &port);
554 const char fmt[]= "scoped IPv6 addr, error: %.*s";
555 sprintf(addrbuf, fmt,
556 ADNS_ADDR2TEXT_BUFLEN - sizeof(fmt) /* underestimate */,
560 char *portbuf = addrbuf;
561 int addrl = strlen(addrbuf);
564 snprintf(portbuf, sizeof(bufs[b])-addrl, "]:%d", port);
566 #endif /* CONFIG_IPV6 */
571 bool_t iaddr_equal(const union iaddr *ia, const union iaddr *ib)
573 if (ia->sa.sa_family != ib->sa.sa_family)
575 switch (ia->sa.sa_family) {
577 return ia->sin.sin_addr.s_addr == ib->sin.sin_addr.s_addr
578 && ia->sin.sin_port == ib->sin.sin_port;
581 return !memcmp(&ia->sin6.sin6_addr, &ib->sin6.sin6_addr, 16)
582 && ia->sin6.sin6_scope_id == ib->sin6.sin6_scope_id
583 && ia->sin6.sin6_port == ib->sin6.sin6_port
584 /* we ignore the flowinfo field */;
585 #endif /* CONFIG_IPV6 */
591 int iaddr_socklen(const union iaddr *ia)
593 switch (ia->sa.sa_family) {
594 case AF_INET: return sizeof(ia->sin);
596 case AF_INET6: return sizeof(ia->sin6);
597 #endif /* CONFIG_IPV6 */
602 enum async_linebuf_result
603 async_linebuf_read(struct pollfd *pfd, struct buffer_if *buf,
604 const char **emsg_out)
606 int revents=pfd->revents;
608 #define BAD(m) do{ *emsg_out=(m); return async_linebuf_broken; }while(0)
610 if (!(revents & b)) ; else BAD(#b)
613 /* POLLNVAL is handled by the event loop - see afterpoll_fn comment */
616 if (!(revents & POLLIN))
617 return async_linebuf_nothing;
620 * Data structure: A line which has been returned to the user is
621 * stored in buf at base before start. But we retain the usual
622 * buffer meaning of size. So:
624 * | returned : | input read, | unused |
625 * | to user : \0 | awaiting | buffer |
626 * | : | processing | space |
628 * ^base ^start ^start+size ^base+alloclen
631 BUF_ASSERT_USED(buf);
633 /* firstly, eat any previous */
634 if (buf->start != buf->base) {
635 memmove(buf->base,buf->start,buf->size);
636 buf->start=buf->base;
639 uint8_t *searched=buf->base;
642 * During the workings here we do not use start. We set start
643 * when we return some actual data. So we have this:
645 * | searched | read, might | unused |
646 * | for \n | contain \n | buffer |
647 * | none found | but not \0 | space |
649 * ^base ^searched ^base+size ^base+alloclen
654 uint8_t *dataend=buf->base+buf->size;
655 char *newline=memchr(searched,'\n',dataend-searched);
658 buf->start=newline+1;
659 buf->size=dataend-buf->start;
660 return async_linebuf_ok;
663 ssize_t space=(buf->base+buf->alloclen)-dataend;
664 if (!space) BAD("input line too long");
665 ssize_t r=read(pfd->fd,searched,space);
668 *emsg_out=buf->size?"no newline at eof":0;
669 buf->start=searched+1;
671 return async_linebuf_eof;
676 if (iswouldblock(errno))
677 return async_linebuf_nothing;
678 BAD(strerror(errno));
681 if (memchr(searched,0,r)) BAD("nul in input data");