int main(void)
#endif
{
ErlConnect conp;
Erl_IpAddr thisipaddr = (Erl_IpAddr)0;
FILE *fp = (FILE *)0;
char* charp = "foo";
double *doublep = NULL;
double doublex = 0.0;
ei_cnode xec;
ei_reg *ei_regp = NULL;
ei_term eterm;
ei_x_buff eix;
erlang_big *bigp = NULL;
erlang_fun efun;
erlang_msg *msgp = NULL;
erlang_msg emsg;
erlang_pid *pidp = NULL;
erlang_pid epid;
erlang_port eport;
erlang_ref eref;
erlang_trace etrace;
int *intp = NULL;
int intx = 0;
long *longp = NULL;
long longx = 0;
short creation = 0;
struct ei_reg_stat *ei_reg_statp = NULL;
struct ei_reg_tabstat *ei_reg_tabstatp = NULL;
struct hostent *hostp = NULL;
unsigned char * ucharp = (unsigned char *)"foo";
unsigned long *ulongp = NULL;
unsigned long ulongx = 0;
void *voidp = NULL;
#ifndef VXWORKS
EI_LONGLONG *longlongp = (EI_LONGLONG*)NULL;
EI_LONGLONG longlongx = 0;
EI_ULONGLONG *ulonglongp = (EI_ULONGLONG*)NULL;
EI_ULONGLONG ulonglongx = 0;
#endif
enum erlang_char_encoding enc;
intx = erl_errno;
ei_connect_init(&xec, charp, charp, creation);
ei_connect_xinit (&xec, charp, charp, charp, thisipaddr, charp, creation);
ei_connect(&xec, charp);
ei_xconnect (&xec, thisipaddr, charp);
ei_receive(intx, ucharp, intx);
ei_receive_msg(intx, &emsg, &eix);
ei_xreceive_msg(intx, &emsg, &eix);
ei_send(intx, &epid, charp, intx);
ei_reg_send(&xec, intx, charp, charp, intx);
ei_rpc(&xec, intx, charp, charp, charp, intx, &eix);
ei_rpc_to(&xec, intx, charp, charp, charp, intx);
ei_rpc_from(&xec, intx, intx, &emsg, &eix);
ei_publish(&xec, intx);
ei_accept(&xec, intx, &conp);
ei_unpublish(&xec);
ei_thisnodename(&xec);
ei_thishostname(&xec);
ei_thisalivename(&xec);
ei_self(&xec);
ei_gethostbyname(charp);
ei_gethostbyaddr(charp, intx, intx);
ei_gethostbyname_r(charp, hostp, charp, intx, intp);
ei_gethostbyaddr_r(charp, intx, intx, hostp, charp, intx, intp);
ei_encode_version(charp, intp);
ei_x_encode_version(&eix);
ei_encode_long(charp, intp, longx);
ei_x_encode_long(&eix, longx);
ei_encode_ulong(charp, intp, ulongx);
ei_x_encode_ulong(&eix, ulongx);
ei_encode_double(charp, intp, doublex);
ei_x_encode_double(&eix, doublex);
ei_encode_boolean(charp, intp, intx);
ei_x_encode_boolean(&eix, intx);
ei_encode_char(charp, intp, 'a');
ei_x_encode_char(&eix, 'a');
ei_encode_string(charp, intp, charp);
ei_encode_string_len(charp, intp, charp, intx);
ei_x_encode_string(&eix, charp);
ei_x_encode_string_len(&eix, charp, intx);
ei_encode_atom(charp, intp, charp);
ei_encode_atom_as(charp, intp, charp, ERLANG_LATIN1, ERLANG_UTF8);
ei_encode_atom_len(charp, intp, charp, intx);
ei_encode_atom_len_as(charp, intp, charp, intx, ERLANG_ASCII, ERLANG_LATIN1);
ei_x_encode_atom(&eix, charp);
ei_x_encode_atom_as(&eix, charp, ERLANG_LATIN1, ERLANG_UTF8);
ei_x_encode_atom_len(&eix, charp, intx);
ei_x_encode_atom_len_as(&eix, charp, intx, ERLANG_LATIN1, ERLANG_UTF8);
ei_encode_binary(charp, intp, (void *)0, longx);
ei_x_encode_binary(&eix, (void*)0, intx);
ei_encode_pid(charp, intp, &epid);
ei_x_encode_pid(&eix, &epid);
ei_encode_fun(charp, intp, &efun);
ei_x_encode_fun(&eix, &efun);
ei_encode_port(charp, intp, &eport);
ei_x_encode_port(&eix, &eport);
ei_encode_ref(charp, intp, &eref);
ei_x_encode_ref(&eix, &eref);
ei_encode_trace(charp, intp, &etrace);
ei_x_encode_trace(&eix, &etrace);
ei_encode_tuple_header(charp, intp, intx);
ei_x_encode_tuple_header(&eix, longx);
ei_encode_list_header(charp, intp, intx);
ei_x_encode_list_header(&eix, longx);
/* #define ei_encode_empty_list(buf,i) ei_encode_list_header(buf,i,0) */
ei_x_encode_empty_list(&eix);
ei_get_type(charp, intp, intp, intp);
ei_get_type_internal(charp, intp, intp, intp);
ei_decode_version(charp, intp, intp);
ei_decode_long(charp, intp, longp);
ei_decode_ulong(charp, intp, ulongp);
ei_decode_double(charp, intp, doublep);
ei_decode_boolean(charp, intp, intp);
ei_decode_char(charp, intp, charp);
ei_decode_string(charp, intp, charp);
ei_decode_atom(charp, intp, charp);
ei_decode_atom_as(charp, intp, charp, MAXATOMLEN_UTF8, ERLANG_WHATEVER, &enc, &enc);
ei_decode_binary(charp, intp, (void *)0, longp);
ei_decode_fun(charp, intp, &efun);
free_fun(&efun);
ei_decode_pid(charp, intp, &epid);
ei_decode_port(charp, intp, &eport);
ei_decode_ref(charp, intp, &eref);
ei_decode_trace(charp, intp, &etrace);
ei_decode_tuple_header(charp, intp, intp);
ei_decode_list_header(charp, intp, intp);
ei_decode_ei_term(charp, intp, &eterm);
ei_print_term(fp, charp, intp);
ei_s_print_term(&charp, charp, intp);
ei_x_format(&eix, charp);
ei_x_format_wo_ver(&eix, charp);
ei_x_new(&eix);
ei_x_new_with_version(&eix);
ei_x_free(&eix);
ei_x_append(&eix, &eix);
ei_x_append_buf(&eix, charp, intx);
ei_skip_term(charp, intp);
ei_reg_open(intx);
ei_reg_resize(ei_regp, intx);
ei_reg_close(ei_regp);
ei_reg_setival(ei_regp, charp, longx);
ei_reg_setfval(ei_regp, charp, doublex);
ei_reg_setsval(ei_regp, charp, charp);
ei_reg_setpval(ei_regp, charp, voidp, intx);
ei_reg_setval(ei_regp, charp, intx);
ei_reg_getival(ei_regp, charp);
ei_reg_getfval(ei_regp, charp);
ei_reg_getsval(ei_regp, charp);
ei_reg_getpval(ei_regp, charp, intp);
ei_reg_getval(ei_regp, charp, intx);
ei_reg_markdirty(ei_regp, charp);
ei_reg_delete(ei_regp, charp);
ei_reg_stat(ei_regp, charp, ei_reg_statp);
ei_reg_tabstat(ei_regp, ei_reg_tabstatp);
ei_reg_dump(intx, ei_regp, charp, intx);
ei_reg_restore(intx, ei_regp, charp);
ei_reg_purge(ei_regp);
#if defined(HAVE_GMP_H) && defined(HAVE_LIBGMP)
{
mpz_t obj;
ei_decode_bignum(charp, intp, obj);
ei_encode_bignum(charp, intp, obj);
ei_x_encode_bignum(&eix, obj);
}
#endif /* HAVE_GMP_H && HAVE_LIBGMP */
#ifndef VXWORKS
ei_decode_longlong(charp, intp, longlongp);
ei_decode_ulonglong(charp, intp, ulonglongp);
ei_encode_longlong(charp, intp, longlongx);
ei_encode_ulonglong(charp, intp, ulonglongx);
ei_x_encode_longlong(&eix, longlongx);
ei_x_encode_ulonglong(&eix, ulonglongx);
#endif
#ifdef USE_EI_UNDOCUMENTED
ei_decode_intlist(charp, intp, longp, intp);
ei_receive_encoded(intx, &charp, intp, msgp, intp);
ei_send_encoded(intx, pidp, charp, intx);
ei_send_reg_encoded(intx, pidp, charp, charp, intx);
ei_decode_big(charp, intp, bigp);
ei_big_comp(bigp, bigp);
ei_big_to_double(bigp, doublep);
ei_small_to_big(intx, bigp);
ei_alloc_big(intx);
ei_free_big(bigp);
#endif /* USE_EI_UNDOCUMENTED */
return
BUFSIZ +
EAGAIN +
EHOSTUNREACH +
EIO +
EI_BIN +
EI_DELET +
EI_DIRTY +
EI_FLT +
EI_FORCE +
EI_INT +
EI_NOPURGE +
EI_STR +
EMSGSIZE +
ENOMEM +
ERL_ERROR +
ERL_EXIT +
ERL_LINK +
ERL_MSG +
ERL_NO_TIMEOUT +
ERL_REG_SEND +
ERL_SEND +
ERL_TICK +
ERL_TIMEOUT +
ERL_UNLINK +
ETIMEDOUT +
MAXATOMLEN;
}
int ei_reg_restore(int fd, ei_reg *reg, const char *mntab)
{
int i,j;
char tag[32];
char sbuf[EISMALLBUF];
char *dbuf = NULL;
char *msgbuf = NULL;
char *keybuf = NULL;
erlang_pid self;
erlang_pid mnesia = {"",0,0,0};
erlang_msg msg;
int index = 0;
int len = 0;
int msglen;
int version = 0;
int arity = 0;
long count = 0;
long maxkey = 0;
long maxobj = 0;
ei_cnode *ec;
if (!reg || !mntab) return -1; /* return EI_BADARG; */
/* make a self pid */
if ((ec = ei_fd_to_cnode(fd)) == NULL) {
return -1;
}
strcpy(self.node,ei_thisnodename(ec));
self.num = fd;
self.serial = 0;
self.creation = ei_thiscreation(ec);
if (mn_start_restore(fd,&self,&mnesia,mntab,&count,&maxkey,&maxobj)) {
/* send exit *only* if we have pid */
if (mnesia.node[0]) ei_send_exit(fd,&self,&mnesia,"bad response from rpc start");
return -1;
}
if (count <= 0) {
ei_send_exit(fd,&self,&mnesia,"nothing to do");
return 0;
}
/* make sure receive buffer can handle largest expected message */
len = maxkey + maxobj + 512;
if (len > EISMALLBUF)
if (!(dbuf = malloc(len))) {
ei_send_exit(fd,&self,&mnesia,"cannot allocate space for incoming data");
return -1;
}
msgbuf = (dbuf ? dbuf : sbuf);
/* allocate space for largest key */
if (!(keybuf = malloc(maxkey+1))) goto restore_failure;
/* get this ball rolling */
index = 0;
ei_encode_version(msgbuf,&index);
ei_encode_tuple_header(msgbuf,&index,2);
ei_encode_atom(msgbuf,&index,"send_records");
ei_encode_pid(msgbuf,&index,&self);
if (ei_send_encoded(fd,&mnesia,msgbuf,index)) goto restore_failure;
/* read as much as possible, until count or EXIT */
for (i=0; i<count; i++) {
index = len;
while ((j = ei_recv_internal(fd,&msgbuf,&index,&msg,&msglen,1,0)) == 0) index = len;
if (j<0) goto restore_failure;
/* decode the first part of the message */
index = 0;
if ((msg.msgtype != ERL_SEND)
|| ei_decode_version(msgbuf,&index,&version)
|| ei_decode_tuple_header(msgbuf,&index,&arity)
|| (arity != 6)
|| ei_decode_atom(msgbuf,&index,tag)
|| strcmp(tag,EI_MNESIA_RECV))
goto restore_failure;
/* decode the rest of the message and insert data into table */
if (mn_decode_insert(reg,msgbuf,&index,keybuf)) goto restore_failure;
}
if (keybuf) free(keybuf);
if (dbuf) free(dbuf);
/* wait for unlink */
if (mn_unlink(fd)) return -1;
/* clear all the dirty bits */
ei_hash_foreach(reg->tab,clean_obj);
/* success */
return 0;
restore_failure:
ei_send_exit(fd,&self,&mnesia,"restore failure");
if (keybuf) free(keybuf);
if (dbuf) free(dbuf);
return -1;
}
const char *erl_thisnodename(void)
{
return ei_thisnodename(&erl_if_ec);
}
/* fd is open connection to erlang node */
int ei_reg_dump(int fd, ei_reg *reg, const char *mntab, int flags)
{
ei_hash *tab;
erlang_pid self;
erlang_pid mnesia;
ei_bucket *b;
ei_reg_obj *obj;
const char *key;
ei_cnode *ec;
int i;
if (!reg || !mntab) return -1; /* return EI_BADARG; */
tab = reg->tab;
/* make a self pid */
if ((ec = ei_fd_to_cnode(fd)) == NULL) {
return -1;
}
strcpy(self.node,ei_thisnodename(ec));
self.num = fd;
self.serial = 0;
self.creation = ei_thiscreation(ec);
if (mn_start_dump(fd,&self,&mnesia,mntab)) return -1;
/* traverse the table, passing objects to mnesia */
for (i=0; i<tab->size; i++) {
b=tab->tab[i];
while (b) {
obj = (ei_reg_obj*)(b->value); /* cast to eliminate 'const' warning */
key = b->key;
if ((flags & EI_FORCE) || (obj->attr & EI_DIRTY)) {
if (obj->attr & EI_DELET) {
if (mn_send_delete(fd,&mnesia,key)) {
ei_send_exit(fd,&self,&mnesia,"delete failed");
return -1;
}
}
else {
if (mn_send_write(fd,&mnesia,key,obj)) {
ei_send_exit(fd,&self,&mnesia,"update failed");
return -1;
}
}
}
b = b->next;
}
}
/* end the transaction */
if (mn_send_commit(fd,&mnesia,&self)) {
ei_send_exit(fd,&self,&mnesia,"commit failed");
return -1;
}
/* wait for unlink */
if (mn_get_unlink(fd)) return -1;
/* this point only reached if all went ok so far... */
/* now remove all deleted objects, unless the caller asked us not to */
if (!(flags & EI_NOPURGE)) ei_reg_purge(reg);
/* success */
return 0;
}
int erlang_init() {
char *host;
struct sockaddr_in sin;
socklen_t slen = sizeof(struct sockaddr_in);
char *ip = NULL;
char *nodename;
struct in_addr addr;
uerl.lock = uwsgi_lock_init("erlang");
if (uerl.name) {
host = strchr(uerl.name, '@');
if (!host) {
if (ei_connect_init(&uerl.cnode, uerl.name, uerl.cookie, 0) < 0) {
uwsgi_log("unable to initialize erlang connection\n");
exit(1);
}
}
else {
nodename = uwsgi_concat2n(uerl.name, host-uerl.name, "",0);
ip = uwsgi_resolve_ip(host+1);
if (ip) {
#ifdef UWSGI_DEBUG
uwsgi_log("ip: %s\n", ip);
#endif
addr.s_addr = inet_addr(ip);
if (ei_connect_xinit(&uerl.cnode, host+1, nodename, uerl.name, &addr, uerl.cookie, 0) < 0) {
uwsgi_log("unable to initialize erlang connection\n");
exit(1);
}
}
else {
if (ei_connect_init(&uerl.cnode, nodename, uerl.cookie, 0) < 0) {
uwsgi_log("unable to initialize erlang connection\n");
exit(1);
}
}
free(nodename);
}
if (ip) {
uerl.fd = bind_to_tcp(ip, uwsgi.listen_queue, NULL);
}
else {
uerl.fd = bind_to_tcp("", uwsgi.listen_queue, NULL);
}
if (uerl.fd < 0) {
exit(1);
}
if (getsockname(uerl.fd, (struct sockaddr *) &sin, &slen)) {
uwsgi_error("getsockname()");
exit(1);
}
if (ei_publish(&uerl.cnode, ntohs(sin.sin_port)) < 0) {
uwsgi_log( "*** unable to subscribe with EPMD ***\n");
exit(1);
}
uwsgi_log("Erlang C-Node %s registered on port %d\n", ei_thisnodename(&uerl.cnode), ntohs(sin.sin_port));
if (register_gateway("uWSGI erlang c-node", erlang_loop, NULL) == NULL) {
uwsgi_log("unable to register the erlang gateway\n");
exit(1);
}
}
return 0;
}
