+/*
+ * TODO
+ * - close idle connections
+ * - -k kill mode ?
+ */
+
/*
* Newsfeeds file entries should look like this:
* host.name.of.site[/exclude,exclude,...]\
*
*/
+/*============================== PROGRAM ==============================*/
+
#define _GNU_SOURCE
+#include "inn/list.h"
#include "config.h"
#include "storage.h"
-#include "oop.h"
-#include "oop-read.h"
+#include "nntp.h"
+#include "libinn.h"
#include <sys/uio.h>
#include <sys/types.h>
#include <stdio.h>
#include <errno.h>
#include <syslog.h>
+#include <fcntl.h>
+#include <stdarg.h>
+#include <assert.h>
+#include <stdlib.h>
+
+#include <oop.h>
+#include <oop-read.h>
/*----- general definitions, probably best not changed -----*/
#define INNDCOMMCHILD_ESTATUS_FAIL 6
#define INNDCOMMCHILD_ESTATUS_NONESUCH 7
+/*----- 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 NODE(n) (assert((void*)&(n)->node == &(n)), \
+ (struct node*)&(n)->node)
+
+#define LIST_CHECKCANHAVENODE(l,n) \
+ ((void)((n) == ((l).hd))) /* 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_REMSOMEHOW(l,list_remsomehow) \
+ ( (typeof((l).hd)) \
+ ( (l).count \
+ ? ( (l).count--, \
+ list_remsomehow((struct list*)&(l)) ) \
+ : 0 \
+ ) \
+ )
+
+
+#define LIST_ADDHEAD(l,n) LIST_ADDSOMEHOW((l),(n),list_addhead)
+#define LIST_ADDTAIL(l,n) LIST_ADDSOMEHOW((l),(n),list_addtail)
+#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_NEXT(n) ((typeof(n))list_succ(NODE((n))))
+#define LIST_BACK(n) ((typeof(n))list_pred(NODE((n))))
+
+#define LIST_REMOVE(l,n) \
+ ( LIST_CHECKCANHAVENODE(l,n), \
+ list_remove(NODE((n))), \
+ (void)(l).count-- \
+ )
+
+#define LIST_INSERT(l,n,pred) \
+ ( LIST_CHECKCANHAVENODE(l,n), \
+ LIST_CHECKCANHAVENODE(l,pred), \
+ list_insert((struct list*)&(l), NODE((n)), NODE((pred))), \
+ (void)(l).count++ \
+ )
+
+/*----- type predeclarations -----*/
+
typedef struct Conn Conn;
typedef struct Article Article;
+typedef struct InputFile InputFile;
+typedef struct XmitDetails XmitDetails;
+typedef enum StateMachineState StateMachineState;
+
+DEFLIST(Conn);
+DEFLIST(Article);
+
+/*----- function predeclarations -----*/
+
+static void conn_maybe_write(Conn *conn);
+static void conn_make_some_xmits(Conn *conn);
+static void *conn_write_some_xmits(Conn *conn);
+
+static void xmit_free(XmitDetails *d);
+
+static int filemon_init(void);
+static void filemon_setfile(int mainfeed_fd, const char *mainfeed_path);
+static void filemon_callback(void);
+
+static void statemc_setstate(StateMachineState newsms, int periods,
+ const char *forlog, const char *why);
+static void check_master_queue(void);
+static void queue_check_input_done(void);
+
+static void postfork(const char *what);
+static void postfork_inputfile(InputFile *ipf);
/*----- configuration options -----*/
static int nocheck, nocheck_reported;
-/*----- doubly linked lists -----*/
-
-#define ISNODE(T) T *next, *back;
-#define LIST(T) struct { T *head, *tail, *tailpred; int count; }
-
-#define NODE(n) ((struct node*)&(n)->head)
-
-#define LIST_ADDHEAD(l,n) \
- (list_addhead((struct list*)&(l), NODE((n))), (void)(l).count++)
-#define LIST_ADDTAIL(l,n) \
- (list_addtail((struct list*)&(l), NODE((n))), (void)(l).count++)
-
-#define LIST_REMHEAD(l) \
- ((l).count ? ((l).count--, (void*)list_remhead((struct list*)&(l))) : 0)
-#define LIST_REMTAIL(l) \
- ((l).count ? ((l).count--, (void*)list_remtail((struct list*)&(l))) : 0)
-#define LIST_REMOVE(l,n) \
- (list_remove(NODE((n))), (void)(l).count--)
-#define LIST_INSERT(l,n,pred) \
- (list_insert((struct list*)&(l), NODE((n)), NODE((pred))), (void)(l).count++)
-
-
/*----- statistics -----*/
typedef enum { /* in queue in conn->sent */
#define RCI_TRIPLE_FMT_BASE "%d(id%d+bd%d+nc%d)"
#define RCI_TRIPLE_VALS_BASE(counts,x) \
- , counts[art_Unchecked] x \
+ counts[art_Unchecked] x \
+ counts[art_Wanted] x \
+ counts[art_Unsolicited] x, \
counts[art_Unchecked] x \
, counts[art_Unsolicited] x
typedef enum {
-#define RC_INDEX(x) RCI_##x,
+#define RC_INDEX(x) RC_##x,
RESULT_COUNTS(RC_INDEX, RC_INDEX)
RCI_max
} ResultCountIndex;
xk_Malloc, xk_Const, xk_Artdata
} XmitKind;
-typedef struct {
+struct XmitDetails {
XmitKind kind;
union {
char *malloc_tofree;
ARTHANDLE *sm_art;
} info;
-} XmitDetails;
+};
/*----- core operational data structure types -----*/
-typedef struct InputFile {
- /* This is an instance of struct oop_readable */
+struct InputFile {
+ /* This is also an instance of struct oop_readable */
struct oop_readable readable; /* first */
oop_readable_call *readable_callback;
void *readable_callback_user;
int counts[art_MaxState][RCI_max];
char path[];
-} InputFile;
+};
struct Article {
+ ISNODE(Article);
ArtState state;
int midlen;
InputFile *ipf;
X(DROPPING) \
X(DROPPED)
-typedef enum {
+enum StateMachineState {
#define SMS_DEF_ENUM(s) sm_##s,
SMS_LIST(SMS_DEF_ENUM)
-} StateMachineState;
+};
static const char *sms_names[]= {
#define SMS_DEF_NAME(s) #s ,
struct Conn {
ISNODE(Conn);
- int fd, max_queue, stream;
- LIST(Article) queue; /* not yet told peer, or CHECK said send it */
- LIST(Article) sent; /* offered/transmitted - in xmit or waiting reply */
+ int fd, max_queue, stream, quitting;
+ ArticleList waiting; /* not yet told peer */
+ ArticleList priority; /* peer says send it now */
+ ArticleList sent; /* offered/transmitted - in xmit or waiting reply */
struct iovec xmit[CONNIOVS];
XmitDetails xmitd[CONNIOVS];
int xmitu;
static oop_source *loop;
-static int nconns;
-static LIST(Conn) idle, working, full;
-static LIST(Article) *queue;
+static int until_connect;
+static ConnList conns;
+static ArticleList queue;
static char *path_lock, *path_flushing, *path_defer;
static int sm_period_counter;
-/*----- function predeclarations -----*/
-
-static void conn_check_work(Conn *conn);
-
-static int filemon_init(void);
-static void filemon_setfile(int mainfeed_fd, const char *mainfeed_path);
-static void filemon_callback(void);
-
-static void statemc_setstate(StateMachineState newsms, int periods,
- const char *forlog, const char *why);
-
/*========== logging ==========*/
static void logcore(int sysloglevel, const char *fmt, ...)
__attribute__((__format__(printf,5,0)));
static void logv(int sysloglevel, const char *pfx, int errnoval,
int exitstatus, const char *fmt, va_list al) {
- char msgbuf[256];
+ char msgbuf[256]; /* NB do not call xvasprintf here or you'll recurse */
vsnprintf(msgbuf,sizeof(msgbuf), fmt,al);
msgbuf[sizeof(msgbuf)-1]= 0;
/*========== utility functions etc. ==========*/
-static void perhaps_close(int *fd) { if (*fd) { close(*fd); fd=0; } }
-
-static void *xmalloc(size_t sz) {
- if (!sz) return 0;
- void *r= malloc(sz);
- if (r) return r;
- sysdie("malloc (%ld bytes) failed", (unsigned long)sz);
+static char *xvasprintf(const char *fmt, va_list al)
+ __attribute__((__format__(printf,1,0)));
+static char *xvasprintf(const char *fmt, va_list al) {
+ char *str;
+ int rc= vasprintf(&str,fmt,al);
+ if (rc<0) sysdie("vasprintf(\"%s\",...) failed", fmt);
+ return str;
+}
+static char *xasprintf(const char *fmt, ...)
+ __attribute__((__format__(printf,1,2)));
+static char *xasprintf(const char *fmt, ...) {
+ va_list al;
+ va_start(al,fmt);
+ char *str= xvasprintf(fmt,al);
+ va_end(al);
+ return str;
}
+static void perhaps_close(int *fd) { if (*fd) { close(*fd); fd=0; } }
+
static pid_t xfork(const char *what) {
pid_t child;
}
static void xfstat(int fd, struct stat *stab_r, const char *what) {
- int r= fstab(fd, stab_r);
+ int r= fstat(fd, stab_r);
if (r) sysdie("could not fstat %s", what);
}
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));
a->st_dev == b->st_dev);
}
+static char *sanitise(const char *input) {
+ static char sanibuf[100]; /* returns pointer to this buffer! */
+
+ const char *p= input;
+ char *q= sanibuf;
+ *q++= '`';
+ for (;;) {
+ if (q > sanibuf+sizeof(sanibuf)-8) { strcpy(q,"'.."); break; }
+ int c= *p++;
+ if (!c) { *q++= '\''; *q=0; break; }
+ if (c>=' ' && c<=126 && c!='\\') { *q++= c; continue; }
+ sprintf(q,"\\x%02x",c);
+ q += 4;
+ }
+ return sanibuf;
+}
+
/*========== making new connections ==========*/
+static void conn_dispose(Conn *conn) {
+ if (!conn) return;
+ perhaps_close(&conn->fd);
+ free(conn);
+ until_connect= reconnect_delay_periods;
+}
+
static int connecting_sockets[2]= {-1,-1};
static pid_t connecting_child;
static void connect_attempt_discard(void) {
if (connecting_sockets[0])
- cancel_fd(connecting_sockets[0]);
+ cancel_fd_read_except(connecting_sockets[0]);
perhaps_close(&connecting_sockets[0]);
perhaps_close(&connecting_sockets[1]);
assert(got==connecting_child);
connecting_child= 0;
if (WIFEXITED(status) &&
- (WEXITSTATUS(status) != 0
+ (WEXITSTATUS(status) != 0 &&
WEXITSTATUS(status) != CONNCHILD_ESTATUS_STREAM &&
WEXITSTATUS(status) != CONNCHILD_ESTATUS_NOSTREAM)) {
/* child already reported the problem */
- } else if (WIFSIGNALED(status) && WTERMSIG(status) == SIGALARM) {
+ } else if (WIFSIGNALED(status) && WTERMSIG(status) == SIGALRM) {
warn("connect: connection attempt timed out");
} else if (!WIFEXITED(status)) {
report_child_status("connect", status);
/* child is still running apparently, report the socket problem */
if (rs < 0)
syswarn("connect: read from child socket failed");
- else if (e == OOP_EXCEPTIONN)
+ else if (e == OOP_EXCEPTION)
warn("connect: unexpected exception on child socket");
else
warn("connect: unexpected EOF on child socket");
}
CHK(level, SOL_SOCKET);
CHK(type, SCM_RIGHTS);
- CHK(len, CMSG_LEN(sizeof(conn-b>fd)));
+ 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"); goto x; }
memcpy(&conn->fd, CMSG_DATA(h), sizeof(conn->fd));
+ int status;
pid_t got= waitpid(connecting_child, &status, 0);
if (got==-1) sysdie("connect: real wait for child");
assert(got == connecting_child);
fatal("connect: child gave unexpected exit status %d", es);
}
- set nonblocking;
-
/* Phew! */
- LIST_ADDHEAD(idle, conn);
+ setnonblock(conn->fd, 1);
+ conn->max_queue= conn->stream ? max_queue_per_conn : 1;
+ LIST_ADDHEAD(conns, conn);
notice("#%d connected %s", conn->fd, conn->stream ? "streaming" : "plain");
connect_attempt_discard();
check_master_queue();
return 0;
x:
- if (conn) {
- perhaps_close(&conn->fd);
- free(conn);
- }
+ conn_dispose(conn);
connect_attempt_discard();
}
+static int allow_connect_start(void) {
+ return conns.count < max_connections
+ && !connecting_child
+ && !until_connect;
+}
+
static void connect_start(void) {
assert(!connecting_sockets[0]);
assert(!connecting_sockets[1]);
notice("starting connection attempt");
- r= socketpair(AF_UNIX, SOCK_STREAM, 0, connecting_sockets);
+ int r= socketpair(AF_UNIX, SOCK_STREAM, 0, connecting_sockets);
if (r) { syswarn("connect: cannot create socketpair for child"); goto x; }
connecting_child= xfork("connection");
if (r) sysdie("connect: close parent socket in child");
alarm(connection_setup_timeout);
- if (NNTPconnect(remote_host, port, &cn_from, &cn_to, buf) < 0) {
- if (buf[0]) {
- sanitise_inplace(buf);
- fatal("connect: rejected: %s", buf);
- } else {
- sysfatal("connect: connection attempt failed");
- }
+ if (NNTPconnect((char*)remote_host, port, &cn_from, &cn_to, buf) < 0) {
+ if (buf[0]) fatal("connect: rejected: %s", sanitise(buf));
+ else sysfatal("connect: connection attempt failed");
}
- if (NNTPsendpassword(remote_host, cn_from, cn_to) < 0)
+ if (NNTPsendpassword((char*)remote_host, cn_from, cn_to) < 0)
sysfatal("connect: authentication failed");
if (try_stream) {
if (fputs("MODE STREAM\r\n", cn_to) ||
}
int l= strlen(buf);
assert(l>=1);
- if (buf[-1]!='\n') {
- sanitise_inplace(buf);
+ if (buf[-1]!='\n')
fatal("connect: response to MODE STREAM is too long: %.100s...",
- remote_host, buf);
- }
- l--; if (l>0 && buf[1-]=='\r') l--;
+ remote_host, sanitise(buf));
+ l--; if (l>0 && buf[l-1]=='\r') l--;
buf[l]= 0;
char *ep;
int rcode= strtoul(buf,&ep,10);
- if (ep != buf[3]) {
- sanitise_inplace(buf);
- fatal("connect: bad response to MODE STREAM: %.50s", buf);
- }
+ if (ep != &buf[3])
+ fatal("connect: bad response to MODE STREAM: %.50s", sanitise(buf));
+
switch (rcode) {
case 203:
exitstatus= CONNCHILD_ESTATUS_STREAM;
case 500:
break;
default:
- sanitise_inplace(buf);
- warn("connect: unexpected response to MODE STREAM: %.50s", buf);
+ warn("connect: unexpected response to MODE STREAM: %.50s",
+ sanitise(buf));
exitstatus= 2;
break;
}
if (r) sysdie("connect: close child socket in parent");
on_fd_read_except(connecting_sockets[0], connchild_event);
- return OOP_CONTINUE;
+ return;
x:
connect_attempt_discard();
/*========== overall control of article flow ==========*/
static void check_master_queue(void) {
- if (!queue.count)
- return;
-
- Conn *last_assigned=0;
for (;;) {
- if (working.head) {
- conn_assign_one_article(&working, &last_assigned);
- } else if (idle.head) {
- conn_assign_one_article(&idle, &last_assigned);
- } else if (nconns < maxconns && queue.count >= max_queue_per_conn &&
- !connecting_child && !connect_delay) {
- connect_delay= reconnect_delay_periods;
+ if (!queue.count)
+ break;
+
+ Conn *walk, *use=0;
+ int spare;
+
+ /* Find a connection to offer this article. We prefer a busy
+ * connection to an idle one, provided it's not full. We take the
+ * first (oldest) and since that's stable, it will mean we fill up
+ * connections in order. That way if we have too many
+ * connections, the spare ones will go away eventually.
+ */
+ for (walk=LIST_HEAD(conns); walk; walk=LIST_NEXT(walk)) {
+ int inqueue= walk->sent.count + walk->priority.count
+ + walk->waiting.count;
+ spare= walk->max_queue - inqueue;
+ assert(inqueue <= max_queue_per_conn);
+ assert(spare >= 0);
+ if (inqueue==0) /*idle*/ { if (!use) use= walk; }
+ else if (spare>0) /*working*/ { use= walk; break; }
+ }
+ if (use) {
+ while (spare>0) {
+ Article *art= LIST_REMHEAD(queue);
+ LIST_ADDTAIL(use->waiting, art);
+ spare--;
+ }
+ conn_maybe_write(use);
+ } else if (allow_connect_start()) {
+ until_connect= reconnect_delay_periods;
connect_start();
+ break;
} else {
break;
}
}
- conn_check_work(last_assigned);
-}
-
-static void conn_assign_one_article(LIST(Conn) *connlist,
- Conn **last_assigned) {
- Conn *conn= connlist->head;
-
- LIST_REMOVE(*connlist, conn);
- Article *art= LIST_REMHEAD(queue);
- LIST_ADDTAIL(conn->queue, art);
- LIST_ADD(*conn_determine_right_list(conn), conn);
-
- /* This slightly odd arrangement is so that we call conn_check_work
- * once after filling the queue for a new connection in
- * check_master_queue, rather than for each article. */
- if (conn != *last_assigned && *last_assigned)
- conn_check_work(*last_assigned);
- *last_assigned= conn;
-}
-
-static int conn_total_queued_articles(Conn *conn) {
- return conn->sent.count + conn->queue.count;
}
-static LIST(Conn) *conn_determine_right_list(Conn *conn) {
- int inqueue= conn_total_queued_articles(conn);
- assert(inqueue <= max_queue);
- if (inqueue == 0) return &idle;
- if (inqueue == conn->max_queue) return &full;
- return &working;
-}
-
-static void *conn_writeable(oop_source *l, int fd, int ev, void *u) {
- check_conn_work(u);
+static void *conn_writeable(oop_source *l, int fd, oop_event ev, void *u) {
+ conn_maybe_write(u);
return OOP_CONTINUE;
}
-static void conn_check_work(Conn *conn) {
+static void conn_maybe_write(Conn *conn) {
void *rp= 0;
for (;;) {
conn_make_some_xmits(conn);
}
static void vconnfail(Conn *conn, const char *fmt, va_list al)
- __attribute__((printf,2,0));
+ __attribute__((__format__(printf,2,0)));
static void vconnfail(Conn *conn, const char *fmt, va_list al) {
int requeue[art_MaxState];
Article *art;
- while ((art= LIST_REMHEAD(conn->queue))) LIST_ADDTAIL(queue);
+ 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))) {
- counts[art->state]++;
+ requeue[art->state]++;
if (art->state==art_Unsolicited) art->state= art_Unchecked;
- LIST_ADDTAIL(queue);
+ LIST_ADDTAIL(queue,art);
}
int i;
- XmitDetails *xd;
- for (i=0, dp=&conn->xmitd; i<conn->xmitu; i++, dp++)
- xmit_free(dp);
+ XmitDetails *d;
+ for (i=0, d=conn->xmitd; i<conn->xmitu; i++, d++)
+ xmit_free(d);
char *m= xvasprintf(fmt,al);
warn("#%d connection failed, requeueing " RCI_TRIPLE_FMT_BASE ": %s",
- conn->fd, RCI_TRIPLE_FMT_VALS(requeue, /*nothing*/), m);
+ conn->fd, RCI_TRIPLE_VALS_BASE(requeue, /*nothing*/), m);
free(m);
- close(conn->fd);
- free(conn);
-
- connect_delay= reconnect_delay_periods;
+ LIST_REMOVE(conns,conn);
+ conn_dispose(conn);
check_master_queue();
}
-static void connfail(Connection *conn, const char *fmt, ...)
- __attribute__((printf,2,3));
-static void connfail(Connection *conn, const char *fmt, ...) {
+static void connfail(Conn *conn, const char *fmt, ...)
+ __attribute__((__format__(printf,2,3)));
+static void connfail(Conn *conn, const char *fmt, ...) {
va_list al;
va_start(al,fmt);
- vconnfail(fmt,al);
+ vconnfail(conn,fmt,al);
va_end(al);
}
XmitKind kind) { /* caller must then fill in details */
struct iovec *v= &conn->xmit[conn->xmitu];
XmitDetails *d= &conn->xmitd[conn->xmitu++];
- v->iov_base= data;
+ v->iov_base= (char*)data;
v->iov_len= len;
d->kind= kind;
return d;
#define XMIT_LITERAL(lit) (xmit_noalloc(conn, (lit), sizeof(lit)-1))
static void xmit_artbody(Conn *conn, ARTHANDLE *ah /* consumed */) {
- XmitDetails *d= xmit_core(conn, ah->data, ah->len, sk_Artdata);
+ XmitDetails *d= xmit_core(conn, ah->data, ah->len, xk_Artdata);
d->info.sm_art= ah;
}
}
assert(rs > 0);
- for (done=0; rs && done<xmitu; done++) {
+ int done;
+ for (done=0; rs && done<conn->xmitu; done++) {
struct iovec *vp= &conn->xmit[done];
XmitDetails *dp= &conn->xmitd[done];
if (rs > vp->iov_len) {
if (conn->xmitu+5 > CONNIOVS)
break;
- Article *art= LIST_REMHEAD(queue);
+ Article *art= LIST_REMHEAD(priority);
+ if (!art) art= LIST_REMHEAD(waiting);
if (!art) break;
if (art->state >= art_Wanted || (conn->stream && nocheck)) {
/* actually send it */
- ARTHANDLE *artdata= SMretrieve();
+ ARTHANDLE *artdata= SMretrieve(art->token, RETR_ALL);
if (conn->stream) {
if (artdata) {
XMIT_LITERAL("TAKETHIS ");
- xmit_noalloc(conn, art->mid, art->midlen);
+ xmit_noalloc(conn, art->messageid, art->midlen);
XMIT_LITERAL("\r\n");
xmit_artbody(conn, artdata);
}
art->state=
art->state == art_Unchecked ? art_Unsolicited :
art->state == art_Wanted ? art_Wanted :
- abort();
- art->ipf->counts[art->state].sent++;
+ (abort(),-1);
+ art->ipf->counts[art->state][RC_sent]++;
LIST_ADDTAIL(conn->sent, art);
} else {
XMIT_LITERAL("IHAVE ");
else
XMIT_LITERAL("CHECK ");
- xmit_noalloc(art->mid, art->midlen);
+ xmit_noalloc(conn, art->messageid, art->midlen);
XMIT_LITERAL("\r\n");
assert(art->state == art_Unchecked);
- art->ipf->counts[art->state].sent++;
+ art->ipf->counts[art->state][RCI_sent]++;
LIST_ADDTAIL(conn->sent, art);
}
}
return OOP_CONTINUE;
}
-static Article *article_reply_check(Connection *conn, const char *response,
+static Article *article_reply_check(Conn *conn, const char *response,
int code_indicates_streaming,
int must_have_sent
/* 1:yes, -1:no, 0:dontcare */,
const char *sanitised_response) {
- Article *art= conn->sent.head;
+ Article *art= LIST_HEAD(conn->sent);
if (!art) {
connfail(conn,
if (code_indicates_streaming) {
assert(!memchr(response, 0, 4)); /* ensured by peer_rd_ok */
if (!conn->stream) {
- connfail("peer gave streaming response code "
+ connfail(conn, "peer gave streaming response code "
" to IHAVE or subsequent body: %s", sanitised_response);
return 0;
}
const char *got_mid= response+4;
int got_midlen= strcspn(got_mid, " \n\r");
if (got_midlen<3 || got_mid[0]!='<' || got_mid[got_midlen-1]!='>') {
- connfail("peer gave streaming response with syntactically invalid"
+ connfail(conn, "peer gave streaming response with syntactically invalid"
" messageid: %s", sanitised_response);
return 0;
}
if (got_midlen != art->midlen ||
memcmp(got_mid, art->messageid, got_midlen)) {
- connfail("peer gave streaming response code to wrong article -"
+ connfail(conn, "peer gave streaming response code to wrong article -"
" probable synchronisation problem; we offered: %s;"
" peer said: %s",
art->messageid, sanitised_response);
}
} else {
if (conn->stream) {
- connfail("peer gave non-streaming response code to CHECK/TAKETHIS: %s",
- sanitised_response);
+ connfail(conn, "peer gave non-streaming response code to"
+ " CHECK/TAKETHIS: %s", sanitised_response);
return 0;
}
}
if (must_have_sent>0 && art->state < art_Wanted) {
- connfail("peer says article accepted but we had not sent the body: %s",
- sanitised_response);
+ connfail(conn, "peer says article accepted but"
+ " we had not sent the body: %s", sanitised_response);
return 0;
}
if (must_have_sent<0 && art->state >= art_Wanted) {
- connfail("peer says please sent the article but we just did: %s",
+ connfail(conn, "peer says please sent the article but we just did: %s",
sanitised_response);
return 0;
}
}
static void update_nocheck(int accepted) {
- accept_proportion *= accept_decay;
- accept_proportion += accepted;
+ accept_proportion *= nocheck_decay;
+ accept_proportion += accepted * (1.0 - nocheck_decay);
int new_nocheck= accept_proportion >= nocheck_thresh;
if (new_nocheck && !nocheck_reported) {
notice("entering nocheck mode for the first time");
nocheck= new_nocheck;
}
-static void article_done(Connection *conn, Article *art, int whichcount) {
+static void article_done(Conn *conn, Article *art, int whichcount) {
art->ipf->counts[art->state][whichcount]++;
if (whichcount == RC_accepted) update_nocheck(1);
else if (whichcount == RC_unwanted) update_nocheck(0);
}
assert(ev == OOP_RD_OK);
+ char *sani= sanitise(data);
+
char *ep;
unsigned long code= strtoul(data, &ep, 10);
if (ep != data+3 || *ep != ' ' || data[0]=='0') {
- char sanibuf[100];
- const char *p= data;
- char *q= sanibuf;
- *q++= '`';
- for (;;) {
- if (q > sanibuf+sizeof(sanibuf)-8) { strcpy(q,"..."); break; }
- int c= *p++;
- if (!c) { *q++= '\''; break; }
- if (c>=' ' && c<=126 && c!='\\') { *q++= c; continue; }
- sprintf(q,"\\x%02x",c);
- q += 4;
- }
- connfail(conn, "badly formatted response from peer: %s", sanibuf);
+ connfail(conn, "badly formatted response from peer: %s", sani);
return OOP_CONTINUE;
}
if (conn->quitting) {
- if (code!=205) {
- connfail(conn, "peer gave failure response to QUIT: %s", sani);
- return OOP_CONTINUE;
+ if (code!=205 && code!=503) {
+ connfail(conn, "peer gave unexpected response to QUIT: %s", sani);
+ } else {
+ notice("#%d idle connection closed\n");
+ assert(!conn->waiting.count);
+ assert(!conn->priority.count);
+ assert(!conn->sent.count);
+ assert(!conn->xmitu);
+ LIST_REMOVE(conns,conn);
+ conn_dispose(conn);
}
- conn close ok;
- return;
+ return OOP_CONTINUE;
}
Article *art;
if (art) ; else return OOP_CONTINUE /* reply_check has failed the conn */
#define ARTICLE_DEALTWITH(streaming,musthavesent,how) \
- code_streaming= (streaming) \
+ code_streaming= (streaming); \
GET_ARTICLE(musthavesent); \
article_done(conn, art, RC_##how); break;
case 335: /* IHAVE says send it */
GET_ARTICLE(-1);
assert(art->state == art_Unchecked);
- art->ipf->counts[art->state].accepted++;
+ art->ipf->counts[art->state][RC_accepted]++;
art->state= art_Wanted;
- LIST_ADDTAIL(conn->queue);
+ LIST_ADDTAIL(conn->priority, art);
break;
case 431: /* CHECK or TAKETHIS says try later */
}
- check_check_work(conn);
+ conn_maybe_write(sendon);
+ check_master_queue();
return OOP_CONTINUE;
}
const char *spec) {
#define RCI_NOTHING(x) /* nothing */
#define RCI_TRIPLE_FMT(x) " " #x "=" RCI_TRIPLE_FMT_BASE
-#define RCI_TRIPLE_VALS(x) RCI_TRIPLE_VALS_BASE(ipf->counts, .x)
+#define RCI_TRIPLE_VALS(x) , RCI_TRIPLE_VALS_BASE(ipf->counts, .x)
info("processed %s%s offered=%d(ch%d,nc%d) accepted=%d(ch%d+nc%d)"
RESULT_COUNTS(RCI_NOTHING, RCI_TRIPLE_FMT)
ipf->fd= -1;
}
-static void postfork_conns(Connection *conn) {
- while (conn) {
- close(conn->fd);
- conn= conn->next;
- }
-}
-
static void postfork_stdio(FILE *f) {
/* we have no stdio streams that are buffered long-term */
if (f) fclose(f);
postfork_inputfile(main_input_file);
postfork_inputfile(flushing_input_file);
- postfork_conns(idle.head);
- postfork_conns(working.head);
- postfork_conns(full.head);
+
+ Conn *conn;
+ for (conn=LIST_HEAD(conns); conn; conn=LIST_NEXT(conn))
+ close(conn->fd);
+
postfork_stdio(defer);
}
EVERY(period, {PERIOD_SECONDS,0}, {
debug("PERIOD"
- " sms=%s[%d] queue=%d connect_delay=%d"
+ " sms=%s[%d] conns=%d queue=%d until_connect=%d"
" input_files" DEBUGF_IPF(main) DEBUGF_IPF(old) DEBUGF_FMT(flushing)
- " conns idle=%d working=%d full=%d"
" children connecting=%ld inndcomm_child"
,
- sms_names[sms], sm_period_counter, queue.count, connect_delay,
+ sms_names[sms], sm_period_counter,
+ queue.count, conns.count, until_connect,
DEBUG_IPF(main), DEBUG_IPF(flushing), DEBUG_IPF(flushing),
- idle.count, working.count, full.count,
(long)connecting_child, (long)inndcomm_child
);
- if (connect_delay) connect_delay--;
+ if (until_connect) until_connect--;
poll_backlog_file();
if (!backlog_input_file) close_defer(); /* want to start on a new backlog */