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/** @file
File contains the member function defs and thread loop for the process manager.
@section license License
Licensed to the Apache Software Foundation (ASF) under one
or more contributor license agreements. See the NOTICE file
distributed with this work for additional information
regarding copyright ownership. The ASF licenses this file
to you under the Apache License, Version 2.0 (the
"License"); you may not use this file except in compliance
with the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
#include "ts/ink_platform.h"
#undef HTTP_CACHE
#include "InkAPIInternal.h"
#include "MgmtUtils.h"
#include "ProcessManager.h"
#include "ts/ink_apidefs.h"
#include "MgmtSocket.h"
#include "ts/I_Layout.h"
/*
* Global ProcessManager
*/
inkcoreapi ProcessManager *pmgmt = NULL;
/*
* startProcessManager(...)
* The start function and thread loop for the process manager.
*/
void *
startProcessManager(void *arg)
{
void *ret = arg;
while (!pmgmt) { /* Avert race condition, thread spun during constructor */
Debug("pmgmt", "[startProcessManager] Waiting for initialization of object...");
mgmt_sleep_sec(1);
}
if (pmgmt->require_lm) { /* Allow p. process to run w/o a lm */
pmgmt->initLMConnection();
}
for (;;) {
if (unlikely(shutdown_event_system == true)) {
return NULL;
}
if (pmgmt->require_lm) {
pmgmt->pollLMConnection();
}
pmgmt->processEventQueue();
pmgmt->processSignalQueue();
mgmt_sleep_sec(pmgmt->timeout);
}
return ret;
} /* End startProcessManager */
ProcessManager::ProcessManager(bool rlm)
: BaseManager(), require_lm(rlm), local_manager_sockfd(0), cbtable(NULL), max_msgs_in_a_row(1)
{
mgmt_signal_queue = create_queue();
// Set temp. process/manager timeout. Will be reconfigure later.
// Making the process_manager thread a spinning thread to start traffic server
// as quickly as possible. Will reset this timeout when reconfigure()
timeout = 0;
pid = getpid();
} /* End ProcessManager::ProcessManager */
void
ProcessManager::reconfigure()
{
bool found;
max_msgs_in_a_row = MAX_MSGS_IN_A_ROW;
timeout = REC_readInteger("proxy.config.process_manager.timeout", &found);
ink_assert(found);
return;
} /* End ProcessManager::reconfigure */
void
ProcessManager::signalConfigFileChild(const char *parent, const char *child, unsigned int options)
{
static const MgmtMarshallType fields[] = {MGMT_MARSHALL_STRING, MGMT_MARSHALL_STRING, MGMT_MARSHALL_INT};
MgmtMarshallInt mgmtopt = options;
size_t len = mgmt_message_length(fields, countof(fields), &parent, &child, &mgmtopt);
void *buffer = ats_malloc(len);
mgmt_message_marshall(buffer, len, fields, countof(fields), &parent, &child, &mgmtopt);
signalManager(MGMT_SIGNAL_CONFIG_FILE_CHILD, (const char *)buffer, len);
ats_free(buffer);
}
void
ProcessManager::signalManager(int msg_id, const char *data_str)
{
signalManager(msg_id, data_str, strlen(data_str) + 1);
return;
} /* End ProcessManager::signalManager */
void
ProcessManager::signalManager(int msg_id, const char *data_raw, int data_len)
{
MgmtMessageHdr *mh;
mh = (MgmtMessageHdr *)ats_malloc(sizeof(MgmtMessageHdr) + data_len);
mh->msg_id = msg_id;
mh->data_len = data_len;
memcpy((char *)mh + sizeof(MgmtMessageHdr), data_raw, data_len);
ink_assert(enqueue(mgmt_signal_queue, mh));
return;
} /* End ProcessManager::signalManager */
bool
ProcessManager::processEventQueue()
{
bool ret = false;
while (!queue_is_empty(mgmt_event_queue)) {
MgmtMessageHdr *mh = (MgmtMessageHdr *)dequeue(mgmt_event_queue);
Debug("pmgmt", "[ProcessManager] ==> Processing event id '%d' payload=%d", mh->msg_id, mh->data_len);
if (mh->data_len > 0) {
executeMgmtCallback(mh->msg_id, (char *)mh + sizeof(MgmtMessageHdr), mh->data_len);
} else {
executeMgmtCallback(mh->msg_id, NULL, 0);
}
if (mh->msg_id == MGMT_EVENT_SHUTDOWN) {
mgmt_fatal(0, "[ProcessManager::processEventQueue] Shutdown msg received, exiting\n");
} /* Exit on shutdown */
ats_free(mh);
ret = true;
}
return ret;
} /* End ProcessManager::processEventQueue */
bool
ProcessManager::processSignalQueue()
{
bool ret = false;
while (!queue_is_empty(mgmt_signal_queue)) {
MgmtMessageHdr *mh = (MgmtMessageHdr *)dequeue(mgmt_signal_queue);
Debug("pmgmt", "[ProcessManager] ==> Signalling local manager '%d'", mh->msg_id);
if (require_lm && mgmt_write_pipe(local_manager_sockfd, (char *)mh, sizeof(MgmtMessageHdr) + mh->data_len) <= 0) {
mgmt_fatal(errno, "[ProcessManager::processSignalQueue] Error writing message!");
// ink_assert(enqueue(mgmt_signal_queue, mh));
} else {
ats_free(mh);
ret = true;
}
}
return ret;
} /* End ProcessManager::processSignalQueue */
void
ProcessManager::initLMConnection()
{
ats_scoped_str rundir(RecConfigReadRuntimeDir());
ats_scoped_str sockpath(Layout::relative_to(rundir, LM_CONNECTION_SERVER));
MgmtMessageHdr *mh_full;
int data_len;
int servlen;
struct sockaddr_un serv_addr;
/* Setup Connection to LocalManager */
memset((char *)&serv_addr, 0, sizeof(serv_addr));
serv_addr.sun_family = AF_UNIX;
ink_strlcpy(serv_addr.sun_path, sockpath, sizeof(serv_addr.sun_path));
#if defined(darwin) || defined(freebsd)
servlen = sizeof(sockaddr_un);
#else
servlen = strlen(serv_addr.sun_path) + sizeof(serv_addr.sun_family);
#endif
if ((local_manager_sockfd = socket(AF_UNIX, SOCK_STREAM, 0)) < 0) {
mgmt_fatal(errno, "[ProcessManager::initLMConnection] Unable to create socket\n");
}
if (fcntl(local_manager_sockfd, F_SETFD, FD_CLOEXEC) < 0) {
mgmt_fatal(errno, "[ProcessManager::initLMConnection] Unable to set close-on-exec\n");
}
if ((connect(local_manager_sockfd, (struct sockaddr *)&serv_addr, servlen)) < 0) {
mgmt_fatal(errno, "[ProcessManager::initLMConnection] failed to connect management socket '%s'\n", (const char *)sockpath);
}
data_len = sizeof(pid_t);
mh_full = (MgmtMessageHdr *)alloca(sizeof(MgmtMessageHdr) + data_len);
mh_full->msg_id = MGMT_SIGNAL_PID;
mh_full->data_len = data_len;
memcpy((char *)mh_full + sizeof(MgmtMessageHdr), &(pid), data_len);
if (mgmt_write_pipe(local_manager_sockfd, (char *)mh_full, sizeof(MgmtMessageHdr) + data_len) <= 0) {
mgmt_fatal(errno, "[ProcessManager::initLMConnection] Error writing message!\n");
}
} /* End ProcessManager::initLMConnection */
void
ProcessManager::pollLMConnection()
{
int res;
MgmtMessageHdr mh_hdr;
MgmtMessageHdr *mh_full;
char *data_raw;
// Avoid getting stuck enqueuing too many requests in a row, limit to MAX_MSGS_IN_A_ROW.
int count;
for (count = 0; count < max_msgs_in_a_row; ++count) {
int num;
num = mgmt_read_timeout(local_manager_sockfd, 1 /* sec */, 0 /* usec */);
if (num == 0) { /* Have nothing */
break;
} else if (num > 0) { /* We have a message */
if ((res = mgmt_read_pipe(local_manager_sockfd, (char *)&mh_hdr, sizeof(MgmtMessageHdr))) > 0) {
size_t mh_full_size = sizeof(MgmtMessageHdr) + mh_hdr.data_len;
mh_full = (MgmtMessageHdr *)ats_malloc(mh_full_size);
memcpy(mh_full, &mh_hdr, sizeof(MgmtMessageHdr));
data_raw = (char *)mh_full + sizeof(MgmtMessageHdr);
if ((res = mgmt_read_pipe(local_manager_sockfd, data_raw, mh_hdr.data_len)) > 0) {
Debug("pmgmt", "[ProcessManager::pollLMConnection] Message: '%d'", mh_full->msg_id);
handleMgmtMsgFromLM(mh_full);
} else if (res < 0) {
mgmt_fatal(errno, "[ProcessManager::pollLMConnection] Error in read!");
}
ats_free(mh_full);
} else if (res < 0) {
mgmt_fatal(errno, "[ProcessManager::pollLMConnection] Error in read!");
}
// handle EOF
if (res == 0) {
close_socket(local_manager_sockfd);
mgmt_fatal(0, "[ProcessManager::pollLMConnection] Lost Manager EOF!");
}
} else if (num < 0) { /* Error */
mgmt_log("[ProcessManager::pollLMConnection] select failed or was interrupted (%d)\n", errno);
}
}
Debug("pmgmt", "[ProcessManager::pollLMConnection] enqueued %d of max %d messages in a row", count, max_msgs_in_a_row);
} /* End ProcessManager::pollLMConnection */
void
ProcessManager::handleMgmtMsgFromLM(MgmtMessageHdr *mh)
{
char *data_raw = (char *)mh + sizeof(MgmtMessageHdr);
switch (mh->msg_id) {
case MGMT_EVENT_SHUTDOWN:
signalMgmtEntity(MGMT_EVENT_SHUTDOWN);
break;
case MGMT_EVENT_RESTART:
signalMgmtEntity(MGMT_EVENT_RESTART);
break;
case MGMT_EVENT_CLEAR_STATS:
signalMgmtEntity(MGMT_EVENT_CLEAR_STATS);
break;
case MGMT_EVENT_ROLL_LOG_FILES:
signalMgmtEntity(MGMT_EVENT_ROLL_LOG_FILES);
break;
case MGMT_EVENT_PLUGIN_CONFIG_UPDATE:
if (data_raw != NULL && data_raw[0] != '\0' && this->cbtable) {
this->cbtable->invoke(data_raw);
}
break;
case MGMT_EVENT_HTTP_CLUSTER_DELTA:
signalMgmtEntity(MGMT_EVENT_HTTP_CLUSTER_DELTA, data_raw);
break;
case MGMT_EVENT_CONFIG_FILE_UPDATE:
case MGMT_EVENT_CONFIG_FILE_UPDATE_NO_INC_VERSION:
/*
librecords -- we don't do anything in here because we are traffic_server
and we are not the owner of proxy.config.* variables.
Even if we trigger the sync_required bit, by
RecSetSynRequired, the sync. message will send back to
traffic_manager. And traffic_manager founds out that, the
actual value of the config variable didn't changed.
At the end, the sync_required bit is not set and we will
never get notified and callbacks are never invoked.
The solution is to set the sync_required bit on the
manager side. See LocalManager::sendMgmtMsgToProcesses()
for details.
*/
break;
case MGMT_EVENT_LIBRECORDS:
signalMgmtEntity(MGMT_EVENT_LIBRECORDS, data_raw, mh->data_len);
break;
case MGMT_EVENT_STORAGE_DEVICE_CMD_OFFLINE:
signalMgmtEntity(MGMT_EVENT_STORAGE_DEVICE_CMD_OFFLINE, data_raw, mh->data_len);
break;
case MGMT_EVENT_LIFECYCLE_MESSAGE:
signalMgmtEntity(MGMT_EVENT_LIFECYCLE_MESSAGE, data_raw, mh->data_len);
break;
default:
mgmt_log("[ProcessManager::pollLMConnection] unknown type %d\n", mh->msg_id);
break;
}
}