/*
* TODO
- * - make period size a tuneable
- * - check all structs initialised
- * - check all fd watches properly undone
- * - check all init functions called
* - actually implement badusage
* - options for all options
* - manpage
OVERALL STATES:
- START
- |
+ START
+ |
,-->--. check F, D
| | |
| | |
| V duct unlinks D D: duct reading
| | |
`--<--' | duct finishes
- | processing D
- | duct unlinks D
- | duct exits
- V
- Dropped
- F: ENOENT
- D: ENOENT
- duct not running
+ | processing D
+ | duct unlinks D
+ | duct exits
+ V
+ Dropped
+ F: ENOENT
+ D: ENOENT
+ duct not running
"duct reading" means innduct is reading the file but also
overwriting processed tokens.
/*----- general definitions, probably best not changed -----*/
-#define PERIOD_SECONDS 60
-
#define CONNCHILD_ESTATUS_STREAM 4
#define CONNCHILD_ESTATUS_NOSTREAM 5
/*----- doubly linked lists -----*/
-#define ISNODE(T) struct { T *succ, *pred; } node /* must be at start */
-#define DEFLIST(T) typedef struct { T *hd, *tl, *tp; int count; } T##List
+#define ISNODE(T) struct node list_node
+#define DEFLIST(T) \
+ typedef struct { \
+ union { struct list li; T *for_type; } u; \
+ int count; \
+ } T##List
-#define NODE(n) (assert((void*)&(n)->node == &(n)), \
- (struct node*)&(n)->node)
+#define NODE(n) (assert((void*)&(n)->list_node == &(n)), &(n)->list_node)
#define LIST_CHECKCANHAVENODE(l,n) \
- ((void)((n) == ((l).hd))) /* just for the type check */
+ ((void)((n) == ((l).u.for_type))) /* just for the type check */
-#define LIST_ADDSOMEHOW(l,n,list_addsomehow) \
- ( LIST_CHECKCANHAVENODE(l,n), \
- list_addsomehow((struct list*)&(l), NODE((n))), \
- (void)(l).count++ \
+#define LIST_ADDSOMEHOW(l,n,list_addsomehow) \
+ ( LIST_CHECKCANHAVENODE(l,n), \
+ list_addsomehow(&(l).u.li, NODE((n))), \
+ (void)(l).count++ \
)
#define LIST_REMSOMEHOW(l,list_remsomehow) \
- ( (typeof((l).hd)) \
+ ( (typeof((l).u.for_type)) \
( (l).count \
? ( (l).count--, \
- list_remsomehow((struct list*)&(l)) ) \
+ list_remsomehow(&(l).u.li) ) \
: 0 \
) \
)
#define LIST_REMHEAD(l) LIST_REMSOMEHOW((l),list_remhead)
#define LIST_REMTAIL(l) LIST_REMSOMEHOW((l),list_remtail)
-#define LIST_HEAD(l) ((typeof((l).hd))(list_head((struct list*)&(l))))
+#define LIST_INIT(l) (list_new(&(l).u.li))
+#define LIST_HEAD(l) ((typeof((l).u.for_type))(list_head((struct list*)&(l))))
#define LIST_NEXT(n) ((typeof(n))list_succ(NODE((n))))
#define LIST_BACK(n) ((typeof(n))list_pred(NODE((n))))
static void xmit_free(XmitDetails *d);
+#define SMS(newstate, periods, why) \
+ (statemc_setstate(sm_##newstate,(periods),#newstate,(why)))
static void statemc_setstate(StateMachineState newsms, int periods,
const char *forlog, const char *why);
+
static void statemc_start_flush(const char *why); /* Normal => Flushing */
static void spawn_inndcomm_flush(const char *why); /* Moved => Flushing */
-static void check_master_queue(void);
+static void check_assign_articles(void);
static void queue_check_input_done(void);
static void statemc_check_flushing_done(void);
static void statemc_check_backlog_done(void);
-static void postfork(const char *what);
-static void postfork_inputfile(InputFile *ipf);
+static void postfork(void);
static void open_defer(void);
static void close_defer(void);
static void search_backlog_file(void);
-static void inputfile_tailing_start(InputFile *ipf);
-static void inputfile_tailing_stop(InputFile *ipf);
+static void inputfile_reading_start(InputFile *ipf);
+static void inputfile_reading_stop(InputFile *ipf);
-static int filemon_init(void);
static void filemon_start(InputFile *ipf);
static void filemon_stop(InputFile *ipf);
static void filemon_callback(InputFile *ipf);
static void vconnfail(Conn *conn, const char *fmt, va_list al) PRINTF(2,0);
static void connfail(Conn *conn, const char *fmt, ...) PRINTF(2,3);
+static const oop_rd_style peer_rd_style;
+static oop_rd_call peer_rd_err, peer_rd_ok;
+
/*----- configuration options -----*/
static const char *sitename, *feedfile, *pathoutgoing;
static int max_connections=10, max_queue_per_conn=200;
static int target_max_feedfile_size=100000;
+static int period_seconds=60;
+
static double max_bad_data_ratio= 0.01;
static int max_bad_data_initial= 30;
/* in one corrupt 4096-byte block the number of newlines has
static int connection_setup_timeout=200, port=119, try_stream=1;
static int inndcomm_flush_timeout=100;
-static int reconnect_delay_periods, flushfail_retry_periods, open_wait_periods;
+static int reconnect_delay_periods, flushfail_retry_periods;
static int backlog_retry_minperiods, backlog_spontaneous_rescan_periods;
static int spontaneous_flush_periods, need_activity_periods;
static const char *inndconffile;
int fd;
Filemon_Perfile *filemon;
- oop_read *rd;
+ oop_read *rd; /* non-0: reading; 0: constructing, or had EOF */
long inprogress; /* no. of articles read but not processed */
off_t offset;
int skippinglong;
struct Conn {
ISNODE(Conn);
- int fd, max_queue, stream, quitting;
+ int fd; /* may be 0, meaning closed (during construction/destruction) */
+ oop_read *rd; /* likewise */
+ int max_queue, stream, quitting;
int since_activity; /* periods */
ArticleList waiting; /* not yet told peer */
ArticleList priority; /* peer says send it now */
};
-/*----- operational variables -----*/
+/*----- general operational variables -----*/
+/* main initialises */
static oop_source *loop;
-
-static int until_connect;
static ConnList conns;
static ArticleList queue;
-
static char *path_lock, *path_flushing, *path_defer, *globpat_backlog;
-#define SMS(newstate, periods, why) \
- (statemc_setstate(sm_##newstate,(periods),#newstate,(why)))
-
+/* statemc_init initialises */
static StateMachineState sms;
static FILE *defer;
static InputFile *main_input_file, *flushing_input_file, *backlog_input_file;
-static int sm_period_counter, until_backlog_nextscan;
+static int sm_period_counter;
+/* initialisation to 0 is good */
+static int until_connect, until_backlog_nextscan;
static double accept_proportion;
static int nocheck, nocheck_reported;
return str;
}
-static void perhaps_close(int *fd) { if (*fd) { close(*fd); fd=0; } }
+static int close_perhaps(int *fd) {
+ if (!*fd) return 0;
+ int r= close(*fd);
+ *fd=0;
+ return r;
+}
+static void xclose(int fd, const char *what, const char *what2) {
+ int r= close(fd);
+ if (r) sysdie("close %s%s",what,what2?what2:"");
+}
+static void xclose_perhaps(int *fd, const char *what, const char *what2) {
+ if (!*fd) return;
+ xclose(*fd,what,what2);
+ *fd=0;
+}
static pid_t xfork(const char *what) {
pid_t child;
child= fork();
if (child==-1) sysdie("cannot fork for %s",what);
- if (!child) postfork(what);
debug("forked %s %ld", what, (unsigned long)child);
+ if (!child) postfork();
return child;
}
if (WIFEXITED(status)) {
int es= WEXITSTATUS(status);
if (es)
- warn("%s: child died with error exit status %d",es);
+ warn("%s: child died with error exit status %d", what, es);
} else if (WIFSIGNALED(status)) {
int sig= WTERMSIG(status);
const char *sigstr= strsignal(sig);
warn("%s: child died due to unknown fatal signal %d%s",
what, sig, coredump);
} else {
- warn("%s: child died with unknown wait status %d", status);
+ warn("%s: child died with unknown wait status %d", what,status);
}
}
static time_t xtime(void) {
time_t now= time(0);
if (now==-1) sysdie("time(2) failed");
+ return now;
}
static void check_isreg(const struct stat *stab, const char *path,
check_isreg(stab, path, what);
}
-static void setnonblock(int fd, int nonblocking) {
- int r= fcntl(fd, F_GETFL); if (r<0) sysdie("setnonblocking fcntl F_GETFL");
- if (nonblocking) r |= O_NONBLOCK;
- else r &= ~O_NONBLOCK;
- r= fcntl(fd, F_SETFL, r); if (r<0) sysdie("setnonblocking fcntl F_SETFL");
-}
-
static int samefile(const struct stat *a, const struct stat *b) {
assert(S_ISREG(a->st_mode));
assert(S_ISREG(b->st_mode));
return errnoval==EWOULDBLOCK || errnoval==EAGAIN;
}
-/*========== making new connections ==========*/
+/*========== management of connections ==========*/
+
+static void conn_closefd(Conn *conn, const char *msgprefix) {
+ int r= close_perhaps(&conn->fd);
+ if (r) info("C%d %serror closing socket: %s",
+ conn->fd, msgprefix, strerror(errno));
+}
static void conn_dispose(Conn *conn) {
if (!conn) return;
- perhaps_close(&conn->fd);
+ if (conn->rd) {
+ oop_rd_cancel(conn->rd);
+ oop_rd_delete_kill(conn->rd);
+ conn->rd= 0;
+ }
+ if (conn->fd) {
+ loop->cancel_fd(loop, conn->fd, OOP_WRITE);
+ loop->cancel_fd(loop, conn->fd, OOP_EXCEPTION);
+ }
+ conn_closefd(conn,"");
free(conn);
until_connect= reconnect_delay_periods;
}
-static int connecting_sockets[2]= {-1,-1};
-static pid_t connecting_child;
+static void *conn_exception(oop_source *lp, int fd,
+ oop_event ev, void *conn_v) {
+ Conn *conn= conn_v;
+ unsigned char ch;
+ assert(fd == conn->fd);
+ assert(ev == OOP_EXCEPTION);
+ int r= read(conn->fd, &ch, 1);
+ if (r<0) connfail(conn,"read failed: %s",strerror(errno));
+ else connfail(conn,"exceptional condition on socket (peer sent urgent"
+ " data? read(,&ch,1)=%d,ch='\\x%02x')",r,ch);
+ return OOP_CONTINUE;
+}
-static void connect_attempt_discard(void) {
- if (connecting_sockets[0])
- cancel_fd_read_except(connecting_sockets[0]);
+static void vconnfail(Conn *conn, const char *fmt, va_list al) {
+ int requeue[art_MaxState];
+
+ Article *art;
+ while ((art= LIST_REMHEAD(conn->priority))) LIST_ADDTAIL(queue, art);
+ while ((art= LIST_REMHEAD(conn->waiting))) LIST_ADDTAIL(queue, art);
+ while ((art= LIST_REMHEAD(conn->sent))) {
+ requeue[art->state]++;
+ if (art->state==art_Unsolicited) art->state= art_Unchecked;
+ LIST_ADDTAIL(queue,art);
+ }
+
+ int i;
+ XmitDetails *d;
+ for (i=0, d=conn->xmitd; i<conn->xmitu; i++, d++)
+ xmit_free(d);
+
+ char *m= xvasprintf(fmt,al);
+ warn("C%d connection failed (requeueing " RCI_TRIPLE_FMT_BASE "): %s",
+ conn->fd, RCI_TRIPLE_VALS_BASE(requeue, /*nothing*/), m);
+ free(m);
+
+ LIST_REMOVE(conns,conn);
+ conn_dispose(conn);
+ check_assign_articles();
+}
+
+static void connfail(Conn *conn, const char *fmt, ...) {
+ va_list al;
+ va_start(al,fmt);
+ vconnfail(conn,fmt,al);
+ va_end(al);
+}
+
+static void check_idle_conns(void) {
+ Conn *conn;
+ for (conn=LIST_HEAD(conns); conn; conn=LIST_NEXT(conn))
+ conn->since_activity++;
+ search_again:
+ for (conn=LIST_HEAD(conns); conn; conn=LIST_NEXT(conn)) {
+ if (conn->since_activity <= need_activity_periods) continue;
+
+ /* We need to shut this down */
+ if (conn->quitting)
+ connfail(conn,"timed out waiting for response to QUIT");
+ else if (conn->sent.count)
+ connfail(conn,"timed out waiting for responses");
+ else if (conn->waiting.count || conn->priority.count)
+ connfail(conn,"BUG IN INNDUCT conn has queue but nothing sent");
+ else if (conn->xmitu)
+ connfail(conn,"peer has been sending responses"
+ " before receiving our commands!");
+ else {
+ static const char quitcmd[]= "QUIT\r\n";
+ int todo= sizeof(quitcmd)-1;
+ const char *p= quitcmd;
+ for (;;) {
+ int r= write(conn->fd, p, todo);
+ if (r<0) {
+ if (isewouldblock(errno))
+ connfail(conn, "blocked writing QUIT to idle connection");
+ else
+ connfail(conn, "failed to write QUIT to idle connection: %s",
+ strerror(errno));
+ break;
+ }
+ assert(r<=todo);
+ todo -= r;
+ if (!todo) {
+ conn->quitting= 1;
+ conn->since_activity= 0;
+ debug("C%d is idle, quitting", conn->fd);
+ break;
+ }
+ }
+ }
+ goto search_again;
+ }
+}
- perhaps_close(&connecting_sockets[0]);
- perhaps_close(&connecting_sockets[1]);
+/*---------- making new connections ----------*/
+static pid_t connecting_child;
+static int connecting_fdpass_sock;
+
+static void connect_attempt_discard(void) {
if (connecting_child) {
int r= kill(connecting_child, SIGTERM);
if (r) syswarn("failed to kill connecting child");
(WIFSIGNALED(status) && WTERMSIG(status) == SIGKILL)))
report_child_status("connect", status);
}
+ if (connecting_fdpass_sock) {
+ cancel_fd_read_except(connecting_fdpass_sock);
+ xclose_perhaps(&connecting_fdpass_sock, "connecting fdpass socket",0);
+ }
}
#define PREP_DECL_MSG_CMSG(msg) \
static void *connchild_event(oop_source *lp, int fd, oop_event e, void *u) {
Conn *conn= 0;
+ assert(fd == connecting_fdpass_sock);
+
conn= xmalloc(sizeof(*conn));
memset(conn,0,sizeof(*conn));
if (got != -1) {
assert(got==connecting_child);
connecting_child= 0;
- if (WIFEXITED(status) &&
- (WEXITSTATUS(status) != 0 &&
- WEXITSTATUS(status) != CONNCHILD_ESTATUS_STREAM &&
- WEXITSTATUS(status) != CONNCHILD_ESTATUS_NOSTREAM)) {
- /* child already reported the problem */
+ if (WIFEXITED(status)) {
+ if (WEXITSTATUS(status) != 0 &&
+ WEXITSTATUS(status) != CONNCHILD_ESTATUS_STREAM &&
+ WEXITSTATUS(status) != CONNCHILD_ESTATUS_NOSTREAM)
+ /* child already reported the problem */;
+ else
+ warn("connect: connection child exited code %d but no cmsg",
+ WEXITSTATUS(status));
} else if (WIFSIGNALED(status) && WTERMSIG(status) == SIGALRM) {
warn("connect: connection attempt timed out");
- } else if (!WIFEXITED(status)) {
+ } else {
report_child_status("connect", status);
- /* that's probably the root cause then */
}
} else {
/* child is still running apparently, report the socket problem */
if (rs < 0)
- syswarn("connect: read from child socket failed");
+ syswarn("connect: read from fdpass socket failed");
else if (e == OOP_EXCEPTION)
- warn("connect: unexpected exception on child socket");
+ warn("connect: unexpected exception on fdpass socket");
+ else if (!rs)
+ warn("connect: unexpected EOF on fdpass socket");
else
- warn("connect: unexpected EOF on child socket");
+ fatal("connect: unexpected lack of cmsg from child");
}
goto x;
}
-#define CHK(field, val) \
- if (h->cmsg_##field != val) { \
- die("connect: child sent cmsg with cmsg_" #field "=%d, expected %d"); \
- goto x; \
+#define CHK(field, val) \
+ if (h->cmsg_##field != val) { \
+ die("connect: child sent cmsg with cmsg_" #field "=%d, expected %d", \
+ h->cmsg_##field, val); \
+ goto x; \
}
CHK(level, SOL_SOCKET);
CHK(type, SCM_RIGHTS);
CHK(len, CMSG_LEN(sizeof(conn->fd)));
#undef CHK
- if (CMSG_NXTHDR(&msg,h)) { die("connect: child sent many cmsgs"); goto x; }
+ if (CMSG_NXTHDR(&msg,h)) die("connect: child sent many cmsgs");
memcpy(&conn->fd, CMSG_DATA(h), sizeof(conn->fd));
}
/* Phew! */
- setnonblock(conn->fd, 1);
+ LIST_INIT(conn->waiting);
+ LIST_INIT(conn->priority);
+ LIST_INIT(conn->sent);
conn->max_queue= conn->stream ? max_queue_per_conn : 1;
- LIST_ADDHEAD(conns, conn);
+
+ loop->on_fd(loop, conn->fd, OOP_EXCEPTION, conn_exception, conn);
+ conn->rd= oop_rd_new_fd(loop,conn->fd, 0, 0); /* sets nonblocking, too */
+ if (!conn->fd) sysdie("oop_rd_new_fd (fd=%d)",conn->fd);
+ int r= oop_rd_read(conn->rd, &peer_rd_style, NNTP_STRLEN,
+ &peer_rd_ok, conn,
+ &peer_rd_err, conn);
+ if (r) sysdie("oop_rd_read for peer (fd=%d)",conn->fd);
+
notice("C%d connected %s", conn->fd, conn->stream ? "streaming" : "plain");
+ LIST_ADDHEAD(conns, conn);
+
connect_attempt_discard();
- check_master_queue();
+ check_assign_articles();
return 0;
x:
conn_dispose(conn);
connect_attempt_discard();
+ return OOP_CONTINUE;
}
static int allow_connect_start(void) {
}
static void connect_start(void) {
- assert(!connecting_sockets[0]);
- assert(!connecting_sockets[1]);
assert(!connecting_child);
+ assert(!connecting_fdpass_sock);
notice("starting connection attempt");
- int r= socketpair(AF_UNIX, SOCK_STREAM, 0, connecting_sockets);
- if (r) { syswarn("connect: cannot create socketpair for child"); goto x; }
+ int socks[2];
+ int r= socketpair(AF_UNIX, SOCK_STREAM, 0, socks);
+ if (r) { syswarn("connect: cannot create socketpair for child"); return; }
connecting_child= xfork("connection");
char buf[NNTP_STRLEN+100];
int exitstatus= CONNCHILD_ESTATUS_NOSTREAM;
- r= close(connecting_sockets[0]);
- if (r) sysdie("connect: close parent socket in child");
+ xclose(socks[0], "(in child) parent's connection fdpass socket",0);
alarm(connection_setup_timeout);
if (NNTPconnect((char*)remote_host, port, &cn_from, &cn_to, buf) < 0) {
assert(l>=1);
if (buf[-1]!='\n')
fatal("connect: response to MODE STREAM is too long: %.100s...",
- remote_host, sanitise(buf));
+ sanitise(buf));
l--; if (l>0 && buf[l-1]=='\r') l--;
buf[l]= 0;
char *ep;
memcpy(CMSG_DATA(cmsg), &fd, sizeof(fd));
msg.msg_controllen= cmsg->cmsg_len;
- r= sendmsg(connecting_sockets[1], &msg, 0);
+ r= sendmsg(socks[1], &msg, 0);
if (r) sysdie("sendmsg failed for new connection");
_exit(exitstatus);
}
- r= close(connecting_sockets[1]); connecting_sockets[1]= 0;
- if (r) sysdie("connect: close child socket in parent");
-
- on_fd_read_except(connecting_sockets[0], connchild_event);
- return;
-
- x:
- connect_attempt_discard();
+ xclose(socks[1], "connecting fdpass child's socket",0);
+ connecting_fdpass_sock= socks[0];
+ on_fd_read_except(connecting_fdpass_sock, connchild_event);
}
-static void check_idle_conns(void) {
- Conn *conn;
- for (conn=LIST_HEAD(conns); conn; conn=LIST_NEXT(conn))
- conn->since_activity++;
- search_again:
- for (conn=LIST_HEAD(conns); conn; conn=LIST_NEXT(conn)) {
- if (conn->since_activity <= need_activity_periods) continue;
-
- /* We need to shut this down */
- if (conn->quitting)
- connfail(conn,"timed out waiting for response to QUIT");
- else if (conn->sent.count)
- connfail(conn,"timed out waiting for responses");
- else if (conn->waiting.count || conn->priority.count)
- connfail(conn,"BUG IN INNDUCT conn has queue but nothing sent");
- else if (conn->xmitu)
- connfail(conn,"peer has been sending responses"
- " before receiving our commands!");
- else {
- static const char quitcmd[]= "QUIT\r\n";
- int todo= sizeof(quitcmd)-1;
- const char *p= quitcmd;
- for (;;) {
- int r= write(conn->fd, p, todo);
- if (r<0) {
- if (isewouldblock(errno))
- connfail(conn, "blocked writing QUIT to idle connection");
- else
- connfail(conn, "failed to write QUIT to idle connection: %s",
- strerror(errno));
- break;
- }
- assert(r<=todo);
- todo -= r;
- if (!todo) {
- conn->quitting= 1;
- conn->since_activity= 0;
- debug("C%d is idle, quitting", conn->fd);
- break;
- }
- }
- }
- goto search_again;
- }
-}
-
-/*========== overall control of article flow ==========*/
+/*---------- assigning articles to conns, and transmitting ----------*/
-static void check_master_queue(void) {
+static void check_assign_articles(void) {
for (;;) {
if (!queue.count)
break;
-
+
Conn *walk, *use=0;
- int spare, inqueue;
+ int spare=0, inqueue=0;
/* Find a connection to offer this article. We prefer a busy
* connection to an idle one, provided it's not full. We take the
}
static void conn_maybe_write(Conn *conn) {
- void *rp= 0;
for (;;) {
conn_make_some_xmits(conn);
if (!conn->xmitu) {
}
}
-static void vconnfail(Conn *conn, const char *fmt, va_list al) {
- int requeue[art_MaxState];
-
- Article *art;
- while ((art= LIST_REMHEAD(conn->priority))) LIST_ADDTAIL(queue, art);
- while ((art= LIST_REMHEAD(conn->waiting))) LIST_ADDTAIL(queue, art);
- while ((art= LIST_REMHEAD(conn->sent))) {
- requeue[art->state]++;
- if (art->state==art_Unsolicited) art->state= art_Unchecked;
- LIST_ADDTAIL(queue,art);
- }
-
- int i;
- XmitDetails *d;
- for (i=0, d=conn->xmitd; i<conn->xmitu; i++, d++)
- xmit_free(d);
-
- char *m= xvasprintf(fmt,al);
- warn("C%d connection failed (requeueing " RCI_TRIPLE_FMT_BASE "): %s",
- conn->fd, RCI_TRIPLE_VALS_BASE(requeue, /*nothing*/), m);
- free(m);
-
- LIST_REMOVE(conns,conn);
- conn_dispose(conn);
- check_master_queue();
-}
-
-static void connfail(Conn *conn, const char *fmt, ...) {
- va_list al;
- va_start(al,fmt);
- vconnfail(conn,fmt,al);
- va_end(al);
-}
-
/*========== article transmission ==========*/
static XmitDetails *xmit_core(Conn *conn, const char *data, int len,
- XmitKind kind) { /* caller must then fill in details */
+ XmitKind kind) { /* caller must then fill in details */
struct iovec *v= &conn->xmit[conn->xmitu];
XmitDetails *d= &conn->xmitd[conn->xmitu++];
v->iov_base= (char*)data;
rs -= vp->iov_len;
xmit_free(dp);
} else {
- vp->iov_base += rs;
+ vp->iov_base= (char*)vp->iov_base + rs;
vp->iov_len -= rs;
}
}
OOP_RD_SHORTREC_FORBID
};
-static void *peer_rd_err(oop_source *lp, oop_read *oread, oop_event ev,
+static void *peer_rd_err(oop_source *lp, oop_read *oread, oop_rd_event ev,
const char *errmsg, int errnoval,
const char *data, size_t recsz, void *conn_v) {
Conn *conn= conn_v;
static Article *article_reply_check(Conn *conn, const char *response,
int code_indicates_streaming,
int must_have_sent
- /* 1:yes, -1:no, 0:dontcare */,
+ /* 1:yes, -1:no, 0:dontcare */,
const char *sanitised_response) {
Article *art= LIST_HEAD(conn->sent);
else if (whichcount == RC_unwanted) update_nocheck(0);
InputFile *ipf= art->ipf;
+
while (art->blanklen) {
static const char spaces[]=
" "
if (r==-1) {
if (errno==EINTR) continue;
sysdie("failed to blank entry for %s (length %d at offset %lu) in %s",
- art->messageid, art->blanklen, art->offset, ipf->path);
+ art->messageid, art->blanklen,
+ (unsigned long)art->offset, ipf->path);
}
assert(r>=0 && r<=w);
art->blanklen -= w;
ipf->inprogress--;
assert(ipf->inprogress >= 0);
+ free(art);
if (!ipf->inprogress && ipf != main_input_file)
queue_check_input_done();
-
- free(art);
}
-static void *peer_rd_ok(oop_source *lp, oop_read *oread, oop_event ev,
+static void *peer_rd_ok(oop_source *lp, oop_read *oread, oop_rd_event ev,
const char *errmsg, int errnoval,
const char *data, size_t recsz, void *conn_v) {
Conn *conn= conn_v;
}
conn_maybe_write(conn);
- check_master_queue();
+ check_assign_articles();
return OOP_CONTINUE;
}
static void feedfile_eof(InputFile *ipf) {
assert(ipf != main_input_file); /* promised by tailing_try_read */
-
- inputfile_tailing_stop(ipf);
- assert(ipf->fd >= 0);
- if (close(ipf->fd)) sysdie("could not close input file %s", ipf->path);
- ipf->fd= -1;
+ inputfile_reading_stop(ipf);
if (ipf == flushing_input_file) {
assert(sms==sm_SEPARATED || sms==sm_DROPPING);
- if (main_input_file) inputfile_tailing_start(main_input_file);
+ if (main_input_file) inputfile_reading_start(main_input_file);
statemc_check_flushing_done();
} else if (ipf == backlog_input_file) {
statemc_check_backlog_done();
if (errno==ENOENT) return 0;
sysfatal("unable to open input file %s", path);
}
+ assert(fd>0);
InputFile *ipf= xmalloc(sizeof(*ipf) + strlen(path) + 1);
memset(ipf,0,sizeof(*ipf));
return ipf;
}
-static void close_input_file(InputFile *ipf) {
+static void close_input_file(InputFile *ipf) { /* does not free */
assert(!ipf->readable_callback); /* must have had ->on_cancel */
- assert(!ipf->filemon); /* must have had inputfile_tailing_stop */
- assert(!ipf->rd); /* must have had inputfile_tailing_stop */
+ assert(!ipf->filemon); /* must have had inputfile_reading_stop */
+ assert(!ipf->rd); /* must have had inputfile_reading_stop */
assert(!ipf->inprogress); /* no dangling pointers pointing here */
-
- if (ipf->fd >= 0)
- if (close(ipf->fd)) sysdie("could not close input file %s", ipf->path);
+ xclose_perhaps(&ipf->fd, "input file ", ipf->path);
}
if (ipf->skippinglong) {
if (ev==OOP_RD_OK) ipf->skippinglong= 0; /* fine now */
- return;
+ return OOP_CONTINUE;
}
if (ev==OOP_RD_LONG) {
ipf->skippinglong= 1;
ipf->readcount_blank++;
return OOP_CONTINUE;
}
-
+
char *space= strchr(data,' ');
int tokenlen= space-data;
int midlen= (int)recsz-tokenlen-1;
ipf->readcount_ok++;
art= xmalloc(sizeof(*art) - 1 + midlen + 1);
- art->offset= ipf->offset;
- art->blanklen= recsz;
- art->midlen= midlen;
art->state= art_Unchecked;
+ art->midlen= midlen;
art->ipf= ipf; ipf->inprogress++;
art->token= TextToToken(tokentextbuf);
+ art->offset= ipf->offset;
+ art->blanklen= recsz;
strcpy(art->messageid, space+1);
LIST_ADDTAIL(queue, art);
ipf->offset >= target_max_feedfile_size)
statemc_start_flush("feed file size");
- check_master_queue();
+ check_assign_articles();
return OOP_CONTINUE;
}
errno=EAGAIN;
return -1;
} else if (ipf==flushing_input_file) {
- assert(ipf->fd>=0);
+ assert(ipf->rd);
assert(sms==sm_SEPARATED || sms==sm_DROPPING);
} else if (ipf==backlog_input_file) {
- assert(ipf->fd>=0);
+ assert(ipf->rd);
} else {
abort();
}
OOP_RD_SHORTREC_LONG,
};
-static void inputfile_tailing_start(InputFile *ipf) {
- assert(!ipf->fd);
+static void inputfile_reading_start(InputFile *ipf) {
+ assert(!ipf->rd);
ipf->readable.on_readable= tailing_on_readable;
ipf->readable.on_cancel= tailing_on_cancel;
ipf->readable.try_read= tailing_try_read;
ipf->readable_callback_user= 0;
ipf->rd= oop_rd_new(loop, &ipf->readable, 0,0);
- assert(ipf->fd);
+ assert(ipf->rd);
int r= oop_rd_read(ipf->rd, &feedfile_rdstyle, MAX_LINE_FEEDFILE,
feedfile_got_article,ipf, feedfile_read_err, ipf);
if (r) sysdie("unable start reading feedfile %s",ipf->path);
}
-static void inputfile_tailing_stop(InputFile *ipf) {
- assert(ipf->fd);
+static void inputfile_reading_stop(InputFile *ipf) {
+ assert(ipf->rd);
oop_rd_cancel(ipf->rd);
oop_rd_delete(ipf->rd);
ipf->rd= 0;
.=======.
||START||
- `======='
- |
- | open F
- |
- | F ENOENT
- |`---------------------------------------------------.
+ `======='
+ |
+ | open F
+ |
+ | F ENOENT
+ |`---------------------------------------------------.
F OPEN OK | |
- |`---------------- - - - |
+ |`---------------- - - - |
D ENOENT | D EXISTS see OVERALL STATES diagram |
- | for full startup logic |
+ | for full startup logic |
,--------->| |
| V |
| ============ try to |
| V | | V
| ============= V V ============
| SEPARATED-1 | | DROPPING-1
- | flsh->fd>=0 | | flsh->fd>=0
+ | flsh->rd!=0 | | flsh->rd!=0
| [Separated] | | [Dropping]
| main F idle | | main none
| old D tail | | old D tail
| V | | V
| =============== | | ===============
| SEPARATED-2 | | DROPPING-2
- | flsh->fd==-1 | V flsh->fd==-1
+ | flsh->rd==0 | V flsh->rd==0
| [Finishing] | | [Dropping]
| main F tail | `. main none
| old D closed | `. old D closed
| | | |
| | V V
`----------' ==============
- DROPPED
- [Dropped]
- main none
- old none
- some backlog
- ==============
- |
- | ALL BACKLOG DONE
- |
- | unlink lock
- | exit
- V
- ==========
- (ESRCH)
- [Droppped]
- ==========
+ DROPPED
+ [Dropped]
+ main none
+ old none
+ some backlog
+ ==============
+ |
+ | ALL BACKLOG DONE
+ |
+ | unlink lock
+ | exit
+ V
+ ==========
+ (ESRCH)
+ [Droppped]
+ ==========
* ->8-
*/
static void startup_set_input_file(InputFile *f) {
assert(!main_input_file);
main_input_file= f;
- inputfile_tailing_start(f);
+ inputfile_reading_start(f);
}
static void statemc_init(void) {
if (!lock_noent && samefile(&stab, &stabf))
break;
- if (close(lockfd))
- sysdie("could not close stale lockfile %s", path_lock);
+ xclose(lockfd, "stale lockfile ", path_lock);
}
debug("startup: locked");
static int inputfile_is_done(InputFile *ipf) {
if (!ipf) return 0;
if (ipf->inprogress) return 0; /* new article in the meantime */
- if (ipf->fd >= 0); return 0; /* not had EOF */
+ if (ipf->rd) return 0; /* not had EOF */
return 1;
}
const char *rest= under ? under+1 : leaf;
if (!strncmp(rest,"backlog",7)) rest += 7;
notice_processed(ipf,"backlog:",rest);
-
+
close_input_file(ipf);
if (unlink(ipf->path)) {
if (errno != ENOENT)
const char *xtra= "";
switch (sms) {
- case sm_FLUSHING: sm_FLUSHFAILED:
+ case sm_FLUSHING:
+ case sm_FLUSHFAILED:
if (!main_input_file) xtra= "-ABSENT";
break;
- case sm_SEPARATED: case sm_DROPPING:
- xtra= flushing_input_file->fd >= 0 ? "-1" : "-2";
+ case sm_SEPARATED:
+ case sm_DROPPING:
+ xtra= flushing_input_file->rd ? "-1" : "-2";
break;
default:;
}
int r, i;
struct stat stab;
const char *oldest_path=0;
- time_t oldest_mtime, now;
+ time_t oldest_mtime=0, now;
if (backlog_input_file) return;
" nonzero (error?) return value %d", globpat_backlog, r);
}
- globfree(&gl);
-
if (!oldest_path) {
debug("backlog scan: none");
exit(0);
}
until_backlog_nextscan= backlog_spontaneous_rescan_periods;
- return;
+ goto xfree;
}
now= xtime();
double age= difftime(now, oldest_mtime);
- long age_deficiency= (backlog_retry_minperiods * PERIOD_SECONDS) - age;
+ long age_deficiency= (backlog_retry_minperiods * period_seconds) - age;
if (age_deficiency <= 0) {
debug("backlog scan: found age=%f deficiency=%ld oldest=%s",
backlog_input_file= open_input_file(oldest_path);
if (!backlog_input_file) {
- warn("backlog file %s vanished as we opened it", backlog_input_file);
+ warn("backlog file %s vanished as we opened it", oldest_path);
+ globfree(&gl);
goto try_again;
}
- inputfile_tailing_start(backlog_input_file);
+ inputfile_reading_start(backlog_input_file);
until_backlog_nextscan= -1;
- return;
+ goto xfree;
}
- until_backlog_nextscan= age_deficiency / PERIOD_SECONDS;
+ until_backlog_nextscan= age_deficiency / period_seconds;
if (backlog_spontaneous_rescan_periods >= 0 &&
until_backlog_nextscan > backlog_spontaneous_rescan_periods)
debug("backlog scan: young age=%f deficiency=%ld nextscan=%d oldest=%s",
age, age_deficiency, until_backlog_nextscan, oldest_path);
+
+ xfree:
+ globfree(&gl);
return;
}
/*========== flushing the feed ==========*/
static pid_t inndcomm_child;
+static int inndcomm_sentinel_fd;
static void *inndcomm_event(oop_source *lp, int fd, oop_event e, void *u) {
assert(inndcomm_child);
+ assert(fd == inndcomm_sentinel_fd);
int status= xwaitpid(&inndcomm_child, "inndcomm");
cancel_fd_read_except(fd);
- close(fd);
+ xclose_perhaps(&fd, "inndcomm sentinel pipe",0);
assert(!flushing_input_file);
warn("feed has been dropped by innd, finishing up");
flushing_input_file= main_input_file;
tailing_queue_readable(flushing_input_file);
- /* we probably previously returned EAGAIN from our fake read method
+ /* we probably previously returned EAGAIN from our fake read method
* when in fact we were at EOF, so signal another readable event
* so we actually see the EOF */
failed:
SMS(FLUSHFAILED, flushfail_retry_periods, "flush failed, will retry");
+ return OOP_CONTINUE;
}
static void inndcommfail(const char *what) {
assert(sms==sm_NORMAL || sms==sm_FLUSHFAILED);
assert(!inndcomm_child);
+ assert(!inndcomm_sentinel_fd);
if (pipe(pipefds)) sysdie("create pipe for inndcomm child sentinel");
char *reply;
int r;
- close(pipefds[0]);
+ xclose(pipefds[0], "(in child) inndcomm sentinel parent's end",0);
+ /* parent spots the autoclose of pipefds[1] when we die or exit */
alarm(inndcomm_flush_timeout);
r= ICCopen(); if (r) inndcommfail("connect");
exit(INNDCOMMCHILD_ESTATUS_FAIL);
}
- close(pipefds[1]);
- int sentinel_fd= pipefds[0];
- on_fd_read_except(sentinel_fd, inndcomm_event);
+ xclose(pipefds[1], "inndcomm sentinel child's end",0);
+ inndcomm_sentinel_fd= pipefds[0];
+ assert(inndcomm_sentinel_fd);
+ on_fd_read_except(inndcomm_sentinel_fd, inndcomm_event);
SMS(FLUSHING, 0, why);
}
static void postfork_inputfile(InputFile *ipf) {
if (!ipf) return;
- assert(ipf->fd >= 0);
- close(ipf->fd);
- ipf->fd= -1;
+ xclose(ipf->fd, "(in child) input file ", ipf->path);
}
-static void postfork_stdio(FILE *f) {
+static void postfork_stdio(FILE *f, const char *what, const char *what2) {
/* we have no stdio streams that are buffered long-term */
- if (f) fclose(f);
+ if (!f) return;
+ if (fclose(f)) sysdie("(in child) close %s%s", what, what2?what2:0);
}
-static void postfork(const char *what) {
+static void postfork(void) {
if (signal(SIGPIPE, SIG_DFL) == SIG_ERR)
- sysdie("%s child: failed to reset SIGPIPE");
+ sysdie("(in child) failed to reset SIGPIPE");
postfork_inputfile(main_input_file);
postfork_inputfile(flushing_input_file);
Conn *conn;
for (conn=LIST_HEAD(conns); conn; conn=LIST_NEXT(conn))
- close(conn->fd);
+ conn_closefd(conn,"(in child) ");
- postfork_stdio(defer);
+ postfork_stdio(defer, "defer file ", path_defer);
}
#define EVERY(what, interval_sec, interval_usec, body) \
- static const struct timeval what##_timeout = \
- { interval_sec, interval_usec }; \
+ static struct timeval what##_timeout = { interval_sec, interval_usec }; \
static void what##_schedule(void); \
static void *what##_timedout(oop_source *lp, struct timeval tv, void *u) { \
- { body } \
+ body; \
what##_schedule(); \
+ return OOP_CONTINUE; \
} \
static void what##_schedule(void) { \
loop->on_time(loop, what##_timeout, what##_timedout, 0); \
}
-EVERY(filepoll, 5,0, {
+EVERY(filepoll, 5,0, ({
if (main_input_file && main_input_file->readable_callback)
filemon_callback(main_input_file);
-});
+}));
+
+static char *debug_report_ipf(InputFile *ipf) {
+ if (!ipf) return xasprintf("-");
+
+ const char *slash= strrchr(ipf->path,'/');
+ const char *path= slash ? slash+1 : ipf->path;
-#define DEBUGF_IPF(wh) " " #wh "=%p/%s:ip=%ld,off=%ld,fd=%d%s"
-#define DEBUG_IPF(wh) \
- wh##_input_file, debug_ipf_path(wh##_input_file), \
- wh##_input_file->inprogress, (long)wh##_input_file->offset, \
- wh##_input_file->fd, wh##_input_file->rd ? "+" : ""
-static const char *debug_ipf_path(InputFile *ipf) {
- char *slash= strrchr(ipf->path,'/');
- return slash ? slash+1 : ipf->path;
+ return xasprintf("%p/%s:ip=%ld,off=%ld,fd=%d%s",
+ ipf, path,
+ ipf->inprogress, (long)ipf->offset,
+ ipf->fd, ipf->rd ? "+" : "");
}
-EVERY(period, PERIOD_SECONDS,0, {
+EVERY(period, -1,0, ({
+ char *dipf_main= debug_report_ipf(main_input_file);
+ char *dipf_flushing= debug_report_ipf(flushing_input_file);
+ char *dipf_backlog= debug_report_ipf(backlog_input_file);
+
debug("PERIOD"
" sms=%s[%d] conns=%d queue=%d until_connect=%d"
- " input_files" DEBUGF_IPF(main) DEBUGF_IPF(old) DEBUGF_IPF(flushing)
- " children connecting=%ld inndcomm_child"
+ " input_files main:%s old:%s flushing:%s"
+ " children connecting=%ld inndcomm_child=%ld"
,
sms_names[sms], sm_period_counter,
- queue.count, conns.count, until_connect,
- DEBUG_IPF(main), DEBUG_IPF(flushing), DEBUG_IPF(flushing),
+ conns.count, queue.count, until_connect,
+ dipf_main, dipf_flushing, dipf_backlog,
(long)connecting_child, (long)inndcomm_child
);
+ free(dipf_main);
+ free(dipf_flushing);
+ free(dipf_backlog);
+
if (until_connect) until_connect--;
poll_backlog_file();
if (!backlog_input_file) close_defer(); /* want to start on a new backlog */
statemc_period_poll();
- check_master_queue();
+ check_assign_articles();
check_idle_conns();
-});
+}));
/*========== option parsing ==========*/
-/*---------- generic option parser and logging ----------*/
-
static void vbadusage(const char *fmt, va_list al) NORET_PRINTF(1,0);
static void vbadusage(const char *fmt, va_list al) {
- abort();
+ char *m= xvasprintf(fmt,al);
+ fprintf(stderr, "bad usage: %s\n"
+ "say --help for help, or read the manpage\n",
+ m);
+ if (become_daemon)
+ syslog(LOG_CRIT,"innduct: invoked with bad usage: %s",m);
+ exit(8);
}
+
+/*---------- generic option parser ----------*/
+
static void badusage(const char *fmt, ...) NORET_PRINTF(1,2);
static void badusage(const char *fmt, ...) {
va_list al;
struct Option {
int shrt;
- const char *lng;
+ const char *lng, *formarg;
void *store;
OptionParser *fn;
- int noarg, intval;
+ int intval;
};
+static void parse_options(const Option *options, char ***argvp) {
+ /* on return *argvp is first non-option arg; argc is not updated */
+
+ for (;;) {
+ const char *arg= *++(*argvp);
+ if (!arg) break;
+ if (*arg != '-') break;
+ if (!strcmp(arg,"--")) { arg= *++(*argvp); break; }
+ int a;
+ while ((a= *++arg)) {
+ const Option *o;
+ if (a=='-') {
+ arg++;
+ char *equals= strchr(arg,'=');
+ int len= equals ? (equals - arg) : strlen(arg);
+ for (o=options; o->shrt || o->lng; o++)
+ if (strlen(o->lng) == len && !memcmp(o->lng,arg,len))
+ goto found_long;
+ badusage("unknown long option --%s",arg);
+ found_long:
+ if (!o->formarg) {
+ if (equals) badusage("option --%s does not take a value",o->lng);
+ arg= 0;
+ } else if (equals) {
+ arg= equals+1;
+ } else {
+ arg= *++(*argvp);
+ if (!arg) badusage("option --%s needs a value for %s",
+ o->lng, o->formarg);
+ }
+ o->fn(o, arg);
+ break; /* eaten the whole argument now */
+ }
+ for (o=options; o->shrt || o->lng; o++)
+ if (a == o->shrt)
+ goto found_short;
+ badusage("unknown short option -%c",a);
+ found_short:
+ if (!o->formarg) {
+ o->fn(o,0);
+ } else {
+ if (!*++arg) {
+ arg= *++(*argvp);
+ if (!arg) badusage("option -%c needs a value for %s",
+ o->shrt, o->formarg);
+ }
+ o->fn(o,arg);
+ break; /* eaten the whole argument now */
+ }
+ }
+ }
+}
+
+#define DELIMPERHAPS(delim,str) (str) ? (delim) : "", (str) ? (str) : ""
+
+static void print_options(const Option *options, FILE *f) {
+ const Option *o;
+ for (o=options; o->shrt || o->lng; o++) {
+ char shrt[2] = { o->shrt, 0 };
+ char *optspec= xasprintf("%s%s%s%s%s",
+ o->shrt ? "-" : "", shrt,
+ o->shrt && o->lng ? "|" : "",
+ DELIMPERHAPS("--", o->lng));
+ fprintf(f, " %s%s%s\n", optspec, DELIMPERHAPS(" ", o->formarg));
+ free(optspec);
+ }
+}
+
/*---------- specific option types ----------*/
static void op_integer(const Option *o, const char *val) {
static void op_periods_rndup(const Option *o, const char *val) {
int *store= o->store;
op_seconds(o,val);
- *store += PERIOD_SECONDS-1;
- *store /= PERIOD_SECONDS;
+ *store += period_seconds-1;
+ *store /= period_seconds;
}
static void op_setint(const Option *o, const char *val) {
/*---------- specific options ----------*/
-static const Option options[]= {
-{'f',"feedfile", &feedfile, op_string },
-{'q',"quiet-multiple", &quiet_multiple, op_setint, 1,1 },
+static void help(const Option *o, const char *val);
-{ 0, "max-connections", &max_connections, op_integer },
-{ 0, "max-queue-per-conn", &max_queue_per_conn, op_integer },
+static const Option innduct_options[]= {
+{'f',"feedfile", "F", &feedfile, op_string },
+{'q',"quiet-multiple", 0, &quiet_multiple, op_setint, 1 },
+{0,"help", 0, help },
+{0,"max-connections", "N", &max_connections, op_integer },
+{0,"max-queue-per-conn", "N", &max_queue_per_conn, op_integer },
-{ 0, "streaming", &try_stream, op_setint, 1,1 },
-{ 0, "no-streaming", &try_stream, op_setint, 1,0 },
-{'P',"port", &port, op_integer },
-{ 0, "inndconf", &inndconffile, op_string },
-{'d',"daemon", &become_daemon, op_setint, 1,1 },
-{ 0, "no-daemon", &become_daemon, op_setint, 1,0 },
-{ 0, "no-check-proportion", &nocheck_thresh_pct, op_double },
-{ 0, "no-check-filter", &nocheck_decay_articles, op_double },
+{0,"streaming", 0, &try_stream, op_setint, 1 },
+{0,"no-streaming", 0, &try_stream, op_setint, 0 },
+{'P',"port", "PORT",&port, op_integer },
+{0,"inndconf", "F", &inndconffile, op_string },
+{0,"no-daemon", 0, &become_daemon, op_setint, 0 },
-{ 0, "reconnect-interval", &reconnect_delay_periods, op_periods_rndup },
-{ 0, "flush-retry-interval", &flushfail_retry_periods, op_periods_rndup },
-{ 0, "inndcomm-timeout", &inndcomm_flush_timeout, op_seconds },
+{0,"no-check-proportion","PERCENT", &nocheck_thresh_pct, op_double },
+{0,"no-check-filter", "ARTICLES", &nocheck_decay_articles, op_double },
+
+{0,"reconnect-interval", "TIME", &reconnect_delay_periods, op_periods_rndup },
+{0,"flush-retry-interval","TIME", &flushfail_retry_periods, op_periods_rndup },
+{0,"inndcomm-timeout", "TIME", &inndcomm_flush_timeout, op_seconds },
+{0,0}
};
-int main(int argc, char **argv) {
- const char *arg;
+static void printusage(FILE *f) {
+ fputs("usage: innduct [options] site [fqdn]\n"
+ "available options are:\n", f);
+ print_options(innduct_options, f);
+}
- for (;;) {
- arg= *++argv;
- if (!arg) break;
- if (*arg != '-') break;
- if (!strcmp(arg,"--")) { arg= *++argv; break; }
- int a;
- while ((a= *++arg)) {
- const Option *o;
- if (a=='-') {
- arg++;
- char *equals= strchr(arg,'=');
- int len= equals ? (equals - arg) : strlen(arg);
- for (o=options; o->lng; o++)
- if (strlen(o->lng) == len && !memcmp(o->lng,arg,len))
- goto found_long;
- badusage("unknown long option --%s",arg);
- found_long:
- if (o->noarg) {
- if (equals) badusage("option --%s does not take a value",o->lng);
- arg= 0;
- } else if (equals) {
- arg= equals+1;
- } else {
- arg= *++argv;
- if (!arg) badusage("option --%s needs a value",o->lng);
- }
- o->fn(o, arg);
- break; /* eaten the whole argument now */
- }
- for (o=options; o->lng; o++)
- if (a == o->shrt)
- goto found_short;
- badusage("unknown short option -%c",a);
- found_short:
- if (o->noarg) {
- o->fn(o,0);
- } else {
- if (!*++arg) {
- arg= *++argv;
- if (!arg) badusage("option -%c needs a value",o->shrt);
- }
- o->fn(o,arg);
- break; /* eaten the whole argument now */
- }
- }
+static void help(const Option *o, const char *val) {
+ printusage(stdout);
+ if (ferror(stdout) || fflush(stdout)) {
+ perror("innduct: writing help");
+ exit(12);
+ }
+ exit(0);
+}
+
+int main(int argc, char **argv) {
+ if (!argv[1]) {
+ printusage(stderr);
+ exit(12);
}
- if (!arg) badusage("need site name argument");
- sitename= arg;
+ parse_options(innduct_options, &argv);
- if ((arg= *++argv))
- remote_host= arg;
+ /* arguments */
- if (*++argv) badusage("too many non-option arguments");
+ sitename= *argv++;
+ if (!sitename) badusage("need site name argument");
+ remote_host= *argv++;
+ if (*argv) badusage("too many non-option arguments");
+
+ /* defaults */
+
+ if (!remote_host) remote_host= sitename;
if (nocheck_thresh_pct < 0 || nocheck_thresh_pct > 100)
badusage("nocheck threshold percentage must be between 0..100");
if (strchr(feedfile, c))
badusage("feed filename may not contain metacharacter %c",c);
+ /* set things up */
+
oop_source_sys *sysloop= oop_sys_new();
if (!sysloop) sysdie("could not create liboop event loop");
loop= (oop_source*)sysloop;
if (signal(SIGPIPE, SIG_IGN) == SIG_ERR)
sysdie("could not ignore SIGPIPE");
+ LIST_INIT(conns);
+ LIST_INIT(queue);
+
if (become_daemon) {
int i;
for (i=3; i<255; i++)
dup2(null,0);
dup2(null,1);
dup2(null,2);
- close(null);
+ xclose(null, "/dev/null original fd",0);
pid_t child1= xfork("daemonise first fork");
if (child1) _exit(0);
filepoll_schedule();
}
+ period_timeout.tv_sec= period_seconds;
period_schedule();
statemc_init();
+ /* let's go */
+
void *r= oop_sys_run(sysloop);
assert(r == OOP_ERROR);
sysdie("event loop failed");