#include <stdlib.h>
#include "poll-loop.h"
-
-#define THIS_MODULE VLM_reconnect
#include "vlog.h"
+VLOG_DEFINE_THIS_MODULE(reconnect)
+
#define STATES \
STATE(VOID, 1 << 0) \
STATE(BACKOFF, 1 << 1) \
- STATE(START_CONNECT, 1 << 2) \
STATE(CONNECT_IN_PROGRESS, 1 << 3) \
STATE(ACTIVE, 1 << 4) \
STATE(IDLE, 1 << 5) \
- STATE(RECONNECT, 1 << 6)
+ STATE(RECONNECT, 1 << 6) \
+ STATE(LISTENING, 1 << 7)
enum state {
#define STATE(NAME, VALUE) S_##NAME = VALUE,
STATES
int min_backoff;
int max_backoff;
int probe_interval;
+ bool passive;
+ enum vlog_level info; /* Used for informational messages. */
/* State. */
enum state state;
fsm->min_backoff = 1000;
fsm->max_backoff = 8000;
fsm->probe_interval = 5000;
+ fsm->passive = false;
+ fsm->info = VLL_INFO;
fsm->state = S_VOID;
fsm->state_entered = now;
}
}
+/* If 'quiet' is true, 'fsm' will log informational messages at level VLL_DBG,
+ * by default keeping them out of log files. This is appropriate if the
+ * connection is one that is expected to be short-lived, so that the log
+ * messages are merely distracting.
+ *
+ * If 'quiet' is false, 'fsm' logs informational messages at level VLL_INFO.
+ * This is the default.
+ *
+ * This setting has no effect on the log level of debugging, warning, or error
+ * messages. */
+void
+reconnect_set_quiet(struct reconnect *fsm, bool quiet)
+{
+ fsm->info = quiet ? VLL_DBG : VLL_INFO;
+}
+
/* Returns 'fsm''s name. */
const char *
reconnect_get_name(const struct reconnect *fsm)
fsm->probe_interval = probe_interval ? MAX(1000, probe_interval) : 0;
}
+/* Returns true if 'fsm' is in passive mode, false if 'fsm' is in active mode
+ * (the default). */
+bool
+reconnect_is_passive(const struct reconnect *fsm)
+{
+ return fsm->passive;
+}
+
+/* Configures 'fsm' for active or passive mode. In active mode (the default),
+ * the FSM is attempting to connect to a remote host. In passive mode, the FSM
+ * is listening for connections from a remote host. */
+void
+reconnect_set_passive(struct reconnect *fsm, bool passive, long long int now)
+{
+ if (fsm->passive != passive) {
+ fsm->passive = passive;
+
+ if (passive
+ ? fsm->state & (S_CONNECT_IN_PROGRESS | S_RECONNECT)
+ : fsm->state == S_LISTENING && reconnect_may_retry(fsm)) {
+ reconnect_transition__(fsm, now, S_BACKOFF);
+ fsm->backoff = 0;
+ }
+ }
+}
+
/* Returns true if 'fsm' has been enabled with reconnect_enable(). Calling
* another function that indicates a change in connection state, such as
* reconnect_disconnected() or reconnect_force_reconnect(), will also enable
void
reconnect_force_reconnect(struct reconnect *fsm, long long int now)
{
- if (fsm->state & (S_START_CONNECT | S_CONNECT_IN_PROGRESS
- | S_ACTIVE | S_IDLE)) {
+ if (fsm->state & (S_CONNECT_IN_PROGRESS | S_ACTIVE | S_IDLE)) {
reconnect_transition__(fsm, now, S_RECONNECT);
}
}
VLOG_WARN("%s: connection dropped (%s)",
fsm->name, strerror(error));
} else if (error == EOF) {
- VLOG_INFO("%s: connection closed by peer", fsm->name);
+ VLOG(fsm->info, "%s: connection closed by peer", fsm->name);
} else {
- VLOG_INFO("%s: connection dropped", fsm->name);
+ VLOG(fsm->info, "%s: connection dropped", fsm->name);
}
- } else {
+ } else if (fsm->state == S_LISTENING) {
if (error > 0) {
- VLOG_WARN("%s: connection attempt failed (%s)",
+ VLOG_WARN("%s: error listening for connections (%s)",
fsm->name, strerror(error));
} else {
- VLOG_INFO("%s: connection attempt timed out", fsm->name);
+ VLOG(fsm->info, "%s: error listening for connections",
+ fsm->name);
+ }
+ } else {
+ const char *type = fsm->passive ? "listen" : "connection";
+ if (error > 0) {
+ VLOG_WARN("%s: %s attempt failed (%s)",
+ fsm->name, type, strerror(error));
+ } else {
+ VLOG(fsm->info, "%s: %s attempt timed out", fsm->name, type);
}
}
/* Back off. */
if (fsm->state & (S_ACTIVE | S_IDLE)
- && fsm->last_received - fsm->last_connected >= fsm->backoff) {
- fsm->backoff = fsm->min_backoff;
+ && (fsm->last_received - fsm->last_connected >= fsm->backoff
+ || fsm->passive)) {
+ fsm->backoff = fsm->passive ? 0 : fsm->min_backoff;
} else {
if (fsm->backoff < fsm->min_backoff) {
fsm->backoff = fsm->min_backoff;
} else {
fsm->backoff *= 2;
}
- VLOG_INFO("%s: waiting %.3g seconds before reconnect\n",
- fsm->name, fsm->backoff / 1000.0);
+ if (fsm->passive) {
+ VLOG(fsm->info, "%s: waiting %.3g seconds before trying to "
+ "listen again", fsm->name, fsm->backoff / 1000.0);
+ } else {
+ VLOG(fsm->info, "%s: waiting %.3g seconds before reconnect",
+ fsm->name, fsm->backoff / 1000.0);
+ }
}
reconnect_transition__(fsm, now,
}
}
-/* Tell 'fsm' that a connection attempt is in progress.
+/* Tell 'fsm' that a connection or listening attempt is in progress.
*
- * The FSM will start a timer, after which the connection attempt will be
- * aborted (by returning RECONNECT_DISCONNECT from reconect_run()). */
+ * The FSM will start a timer, after which the connection or listening attempt
+ * will be aborted (by returning RECONNECT_DISCONNECT from
+ * reconnect_run()). */
void
reconnect_connecting(struct reconnect *fsm, long long int now)
{
if (fsm->state != S_CONNECT_IN_PROGRESS) {
- VLOG_INFO("%s: connecting...", fsm->name);
+ if (fsm->passive) {
+ VLOG(fsm->info, "%s: listening...", fsm->name);
+ } else {
+ VLOG(fsm->info, "%s: connecting...", fsm->name);
+ }
reconnect_transition__(fsm, now, S_CONNECT_IN_PROGRESS);
}
}
+/* Tell 'fsm' that the client is listening for connection attempts. This state
+ * last indefinitely until the client reports some change.
+ *
+ * The natural progression from this state is for the client to report that a
+ * connection has been accepted or is in progress of being accepted, by calling
+ * reconnect_connecting() or reconnect_connected().
+ *
+ * The client may also report that listening failed (e.g. accept() returned an
+ * unexpected error such as ENOMEM) by calling reconnect_listen_error(), in
+ * which case the FSM will back off and eventually return RECONNECT_CONNECT
+ * from reconnect_run() to tell the client to try listening again. */
+void
+reconnect_listening(struct reconnect *fsm, long long int now)
+{
+ if (fsm->state != S_LISTENING) {
+ VLOG(fsm->info, "%s: listening...", fsm->name);
+ reconnect_transition__(fsm, now, S_LISTENING);
+ }
+}
+
+/* Tell 'fsm' that the client's attempt to accept a connection failed
+ * (e.g. accept() returned an unexpected error such as ENOMEM).
+ *
+ * If the FSM is currently listening (reconnect_listening() was called), it
+ * will back off and eventually return RECONNECT_CONNECT from reconnect_run()
+ * to tell the client to try listening again. If there is an active
+ * connection, this will be delayed until that connection drops. */
+void
+reconnect_listen_error(struct reconnect *fsm, long long int now, int error)
+{
+ if (fsm->state == S_LISTENING) {
+ reconnect_disconnected(fsm, now, error);
+ }
+}
+
/* Tell 'fsm' that the connection was successful.
*
* The FSM will start the probe interval timer, which is reset by
if (!is_connected_state(fsm->state)) {
reconnect_connecting(fsm, now);
- VLOG_INFO("%s: connected", fsm->name);
+ VLOG(fsm->info, "%s: connected", fsm->name);
reconnect_transition__(fsm, now, S_ACTIVE);
fsm->last_connected = now;
}
assert(fsm->state_entered != LLONG_MIN);
switch (fsm->state) {
case S_VOID:
+ case S_LISTENING:
return LLONG_MAX;
case S_BACKOFF:
return fsm->state_entered + fsm->backoff;
- case S_START_CONNECT:
case S_CONNECT_IN_PROGRESS:
return fsm->state_entered + MAX(1000, fsm->backoff);
*
* - 0: The client need not take any action.
*
- * - RECONNECT_CONNECT: The client should start a connection attempt and
- * indicate this by calling reconnect_connecting(). If the connection
- * attempt has definitely succeeded, it should call
+ * - Active client, RECONNECT_CONNECT: The client should start a connection
+ * attempt and indicate this by calling reconnect_connecting(). If the
+ * connection attempt has definitely succeeded, it should call
* reconnect_connected(). If the connection attempt has definitely
* failed, it should call reconnect_connect_failed().
*
* (e.g. connect()) even if the connection might soon abort due to a
* failure at a high-level (e.g. SSL negotiation failure).
*
+ * - Passive client, RECONNECT_CONNECT: The client should try to listen for
+ * a connection, if it is not already listening. It should call
+ * reconnect_listening() if successful, otherwise reconnect_connecting()
+ * or reconnected_connect_failed() if the attempt is in progress or
+ * definitely failed, respectively.
+ *
+ * A listening passive client should constantly attempt to accept a new
+ * connection and report an accepted connection with
+ * reconnect_connected().
+ *
* - RECONNECT_DISCONNECT: The client should abort the current connection
- * or connection attempt and call reconnect_disconnected() or
- * reconnect_connect_failed() to indicate it.
+ * or connection attempt or listen attempt and call
+ * reconnect_disconnected() or reconnect_connect_failed() to indicate it.
*
* - RECONNECT_PROBE: The client should send some kind of request to the
* peer that will elicit a response, to ensure that the connection is
case S_BACKOFF:
return RECONNECT_CONNECT;
- case S_START_CONNECT:
case S_CONNECT_IN_PROGRESS:
return RECONNECT_DISCONNECT;
case S_RECONNECT:
return RECONNECT_DISCONNECT;
+
+ case S_LISTENING:
+ return 0;
}
NOT_REACHED();
} else {
- return fsm->state == S_START_CONNECT ? RECONNECT_CONNECT : 0;
+ return 0;
}
}