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https://github.com/samba-team/samba.git
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6386306671
Signed-off-by: Joseph Sutton <josephsutton@catalyst.net.nz> Reviewed-by: Andrew Bartlett <abartlet@samba.org>
920 lines
24 KiB
C
920 lines
24 KiB
C
/*
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Unix SMB/CIFS implementation.
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process model: prefork (n client connections per process)
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Copyright (C) Andrew Tridgell 1992-2005
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Copyright (C) James J Myers 2003 <myersjj@samba.org>
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Copyright (C) Stefan (metze) Metzmacher 2004
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Copyright (C) Andrew Bartlett 2008 <abartlet@samba.org>
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Copyright (C) David Disseldorp 2008 <ddiss@sgi.com>
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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/*
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* The pre-fork process model distributes the server workload amongst several
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* designated worker threads (e.g. 'prefork-worker-ldap-0',
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* 'prefork-worker-ldap-1', etc). The number of worker threads is controlled
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* by the 'prefork children' conf setting. The worker threads are controlled
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* by a prefork master process (e.g. 'prefork-master-ldap'). The prefork master
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* doesn't handle the server workload (i.e. processing messages) itself, but is
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* responsible for restarting workers if they exit unexpectedly. The top-level
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* samba process is responsible for restarting the master process if it exits.
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*/
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#include "includes.h"
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#include <unistd.h>
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#include "lib/events/events.h"
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#include "lib/messaging/messaging.h"
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#include "lib/socket/socket.h"
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#include "samba/process_model.h"
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#include "cluster/cluster.h"
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#include "param/param.h"
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#include "ldb_wrap.h"
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#include "lib/util/tfork.h"
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#include "lib/messaging/irpc.h"
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#include "lib/util/util_process.h"
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#include "server_util.h"
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#define min(a, b) (((a) < (b)) ? (a) : (b))
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NTSTATUS process_model_prefork_init(void);
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static void prefork_new_task(
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struct tevent_context *ev,
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struct loadparm_context *lp_ctx,
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const char *service_name,
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struct task_server *(*new_task_fn)(struct tevent_context *,
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struct loadparm_context *lp_ctx,
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struct server_id,
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void *,
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void *),
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void *private_data,
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const struct service_details *service_details,
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int from_parent_fd);
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static void prefork_fork_worker(struct task_server *task,
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struct tevent_context *ev,
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struct tevent_context *ev2,
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struct loadparm_context *lp_ctx,
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const struct service_details *service_details,
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const char *service_name,
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int control_pipe[2],
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unsigned restart_delay,
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struct process_details *pd);
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static void prefork_child_pipe_handler(struct tevent_context *ev,
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struct tevent_fd *fde,
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uint16_t flags,
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void *private_data);
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static void setup_handlers(struct tevent_context *ev,
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struct loadparm_context *lp_ctx,
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int from_parent_fd);
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/*
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* State needed to restart the master process or a worker process if they
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* terminate early.
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*/
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struct master_restart_context {
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struct task_server *(*new_task_fn)(struct tevent_context *,
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struct loadparm_context *lp_ctx,
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struct server_id,
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void *,
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void *);
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void *private_data;
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};
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struct worker_restart_context {
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unsigned int instance;
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struct task_server *task;
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struct tevent_context *ev2;
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int control_pipe[2];
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};
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struct restart_context {
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struct loadparm_context *lp_ctx;
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struct tfork *t;
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int from_parent_fd;
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const struct service_details *service_details;
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const char *service_name;
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unsigned restart_delay;
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struct master_restart_context *master;
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struct worker_restart_context *worker;
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};
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static void sighup_signal_handler(struct tevent_context *ev,
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struct tevent_signal *se,
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int signum, int count, void *siginfo,
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void *private_data)
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{
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reopen_logs_internal();
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}
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static void sigterm_signal_handler(struct tevent_context *ev,
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struct tevent_signal *se,
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int signum, int count, void *siginfo,
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void *private_data)
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{
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#ifdef HAVE_GETPGRP
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if (getpgrp() == getpid()) {
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/*
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* We're the process group leader, send
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* SIGTERM to our process group.
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*/
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DBG_NOTICE("SIGTERM: killing children\n");
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kill(-getpgrp(), SIGTERM);
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}
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#endif
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DBG_NOTICE("Exiting pid %d on SIGTERM\n", getpid());
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TALLOC_FREE(ev);
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exit(127);
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}
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/*
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called when the process model is selected
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*/
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static void prefork_model_init(void)
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{
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}
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static void prefork_reload_after_fork(void)
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{
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NTSTATUS status;
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ldb_wrap_fork_hook();
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/* Must be done after a fork() to reset messaging contexts. */
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status = imessaging_reinit_all();
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if (!NT_STATUS_IS_OK(status)) {
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smb_panic("Failed to re-initialise imessaging after fork");
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}
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force_check_log_size();
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}
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/*
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* clean up any messaging associated with the old process.
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*
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*/
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static void irpc_cleanup(
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struct loadparm_context *lp_ctx,
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struct tevent_context *ev,
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pid_t pid)
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{
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TALLOC_CTX *mem_ctx = talloc_new(NULL);
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struct imessaging_context *msg_ctx = NULL;
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NTSTATUS status = NT_STATUS_OK;
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if (mem_ctx == NULL) {
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DBG_ERR("OOM cleaning up irpc\n");
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return;
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}
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msg_ctx = imessaging_client_init(mem_ctx, lp_ctx, ev);
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if (msg_ctx == NULL) {
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DBG_ERR("Unable to create imessaging_context\n");
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TALLOC_FREE(mem_ctx);
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return;
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}
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status = imessaging_process_cleanup(msg_ctx, pid);
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if (!NT_STATUS_IS_OK(status)) {
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DBG_ERR("imessaging_process_cleanup returned (%s)\n",
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nt_errstr(status));
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TALLOC_FREE(mem_ctx);
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return;
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}
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TALLOC_FREE(mem_ctx);
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}
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/*
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* handle EOF on the parent-to-all-children pipe in the child, i.e.
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* the parent has died and its end of the pipe has been closed.
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* The child handles this by exiting as well.
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*/
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static void prefork_pipe_handler(struct tevent_context *event_ctx,
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struct tevent_fd *fde, uint16_t flags,
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void *private_data)
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{
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struct loadparm_context *lp_ctx = NULL;
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pid_t pid;
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/*
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* free the fde which removes the event and stops it firing again
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*/
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TALLOC_FREE(fde);
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/*
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* Clean up any irpc end points this process had.
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*/
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pid = getpid();
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lp_ctx = talloc_get_type_abort(private_data, struct loadparm_context);
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irpc_cleanup(lp_ctx, event_ctx, pid);
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DBG_NOTICE("Child %d exiting\n", getpid());
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TALLOC_FREE(event_ctx);
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exit(0);
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}
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/*
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* Called by the top-level samba process to create a new prefork master process
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*/
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static void prefork_fork_master(
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struct tevent_context *ev,
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struct loadparm_context *lp_ctx,
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const char *service_name,
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struct task_server *(*new_task_fn)(struct tevent_context *,
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struct loadparm_context *lp_ctx,
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struct server_id,
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void *,
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void *),
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void *private_data,
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const struct service_details *service_details,
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unsigned restart_delay,
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int from_parent_fd)
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{
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pid_t pid;
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struct tfork* t = NULL;
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int i, num_children;
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struct tevent_context *ev2;
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struct task_server *task = NULL;
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struct process_details pd = initial_process_details;
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struct samba_tevent_trace_state *samba_tevent_trace_state = NULL;
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int control_pipe[2];
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t = tfork_create();
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if (t == NULL) {
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smb_panic("failure in tfork\n");
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}
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DBG_NOTICE("Forking [%s] pre-fork master process\n", service_name);
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pid = tfork_child_pid(t);
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if (pid != 0) {
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struct tevent_fd *fde = NULL;
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int fd = tfork_event_fd(t);
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struct restart_context *rc = NULL;
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/* Register a pipe handler that gets called when the prefork
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* master process terminates.
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*/
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rc = talloc_zero(ev, struct restart_context);
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if (rc == NULL) {
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smb_panic("OOM allocating restart context\n");
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}
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rc->t = t;
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rc->lp_ctx = lp_ctx;
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rc->service_name = service_name;
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rc->service_details = service_details;
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rc->from_parent_fd = from_parent_fd;
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rc->restart_delay = restart_delay;
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rc->master = talloc_zero(rc, struct master_restart_context);
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if (rc->master == NULL) {
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smb_panic("OOM allocating master restart context\n");
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}
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rc->master->new_task_fn = new_task_fn;
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rc->master->private_data = private_data;
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fde = tevent_add_fd(
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ev, ev, fd, TEVENT_FD_READ, prefork_child_pipe_handler, rc);
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if (fde == NULL) {
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smb_panic("Failed to add child pipe handler, "
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"after fork");
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}
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tevent_fd_set_auto_close(fde);
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return;
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}
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pid = getpid();
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process_set_title("%s[master]", "task[%s] pre-fork master", service_name);
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/*
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* this will free all the listening sockets and all state that
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* is not associated with this new connection
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*/
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if (tevent_re_initialise(ev) != 0) {
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smb_panic("Failed to re-initialise tevent after fork");
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}
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prefork_reload_after_fork();
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setup_handlers(ev, lp_ctx, from_parent_fd);
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if (service_details->inhibit_pre_fork) {
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task = new_task_fn(
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ev, lp_ctx, cluster_id(pid, 0), private_data, NULL);
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/*
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* The task does not support pre-fork
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*/
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if (task != NULL && service_details->post_fork != NULL) {
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service_details->post_fork(task, &pd);
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}
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if (task != NULL && service_details->before_loop != NULL) {
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service_details->before_loop(task);
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}
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tevent_loop_wait(ev);
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TALLOC_FREE(ev);
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exit(0);
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}
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/*
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* This is now the child code. We need a completely new event_context
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* to work with
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*/
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ev2 = s4_event_context_init(NULL);
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samba_tevent_trace_state = create_samba_tevent_trace_state(ev2);
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if (samba_tevent_trace_state == NULL) {
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TALLOC_FREE(ev);
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TALLOC_FREE(ev2);
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exit(127);
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}
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tevent_set_trace_callback(ev2,
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samba_tevent_trace_callback,
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samba_tevent_trace_state);
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/* setup this new connection: process will bind to it's sockets etc
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*
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* While we can use ev for the child, which has been re-initialised
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* above we must run the new task under ev2 otherwise the children would
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* be listening on the sockets. Also we don't want the top level
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* process accepting and handling requests, it's responsible for
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* monitoring and controlling the child work processes.
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*/
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task = new_task_fn(ev2, lp_ctx, cluster_id(pid, 0), private_data, NULL);
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if (task == NULL) {
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TALLOC_FREE(ev);
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TALLOC_FREE(ev2);
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exit(127);
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}
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/*
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* Register an irpc name that can be used by the samba-tool processes
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* command
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*/
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{
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struct talloc_ctx *ctx = talloc_new(NULL);
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char *name = NULL;
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if (ctx == NULL) {
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DBG_ERR("Out of memory\n");
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exit(127);
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}
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name = talloc_asprintf(ctx, "prefork-master-%s", service_name);
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irpc_add_name(task->msg_ctx, name);
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TALLOC_FREE(ctx);
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}
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{
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int default_children;
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default_children = lpcfg_prefork_children(lp_ctx);
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num_children = lpcfg_parm_int(lp_ctx, NULL, "prefork children",
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service_name, default_children);
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}
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if (num_children == 0) {
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DBG_WARNING("Number of pre-fork children for %s is zero, "
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"NO worker processes will be started for %s\n",
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service_name, service_name);
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}
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DBG_NOTICE("Forking %d %s worker processes\n",
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num_children, service_name);
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/*
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* the prefork master creates its own control pipe, so the prefork
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* workers can detect if the master exits (in which case an EOF gets
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* written). (Whereas from_parent_fd is the control pipe from the
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* top-level process that the prefork master listens on)
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*/
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{
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int ret;
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ret = pipe(control_pipe);
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if (ret != 0) {
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smb_panic("Unable to create worker control pipe\n");
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}
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smb_set_close_on_exec(control_pipe[0]);
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smb_set_close_on_exec(control_pipe[1]);
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}
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/*
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* Note, we call this before the first
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* prefork_fork_worker() in order to have
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* a stable order of:
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* task_init(master) -> before_loop(master)
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* -> post_fork(worker) -> before_loop(worker)
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*
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* Otherwise we would have different behaviors
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* between the first prefork_fork_worker() loop
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* and restarting of died workers
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*/
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if (task != NULL && service_details->before_loop != NULL) {
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struct task_server *task_copy = NULL;
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/*
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* We need to use ev as parent in order to
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* keep everything alive during the loop
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*/
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task_copy = talloc(ev, struct task_server);
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if (task_copy == NULL) {
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TALLOC_FREE(ev);
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TALLOC_FREE(ev2);
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exit(127);
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}
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*task_copy = *task;
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/*
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* In order to allow the before_loop() hook
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* to register messages or event handlers,
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* we need to fix up task->event_ctx
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* and create a new task->msg_ctx
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*/
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task_copy->event_ctx = ev;
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task_copy->msg_ctx = imessaging_init(task_copy,
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task_copy->lp_ctx,
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task_copy->server_id,
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task_copy->event_ctx);
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if (task_copy->msg_ctx == NULL) {
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TALLOC_FREE(ev);
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TALLOC_FREE(ev2);
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exit(127);
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}
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service_details->before_loop(task_copy);
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}
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/*
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* We are now free to spawn some worker processes
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*/
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for (i=0; i < num_children; i++) {
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prefork_fork_worker(task,
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ev,
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ev2,
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lp_ctx,
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service_details,
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service_name,
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control_pipe,
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0,
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&pd);
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pd.instances++;
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}
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/*
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* Make sure the messaging context
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* used by the workers is no longer
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* active on ev2, otherwise we
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* would have memory leaks, because
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* we queue incoming messages
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* and never process them via ev2.
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*/
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imessaging_dgm_unref_ev(ev2);
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/* Don't listen on the sockets we just gave to the children */
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tevent_loop_wait(ev);
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imessaging_dgm_unref_ev(ev);
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TALLOC_FREE(ev);
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/* We need to keep ev2 until we're finished for the messaging to work */
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TALLOC_FREE(ev2);
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exit(0);
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}
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static void prefork_restart_fn(struct tevent_context *ev,
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struct tevent_timer *te,
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struct timeval tv,
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void *private_data);
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/*
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* Restarts a child process if it exits unexpectedly
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*/
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static bool prefork_restart(struct tevent_context *ev,
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struct restart_context *rc)
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{
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struct tevent_timer *te = NULL;
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if (rc->restart_delay > 0) {
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DBG_ERR("Restarting [%s] pre-fork %s in (%d) seconds\n",
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rc->service_name,
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(rc->master == NULL) ? "worker" : "master",
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rc->restart_delay);
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}
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/*
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* Always use an async timer event. If
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* rc->restart_delay is zero this is the
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* same as an immediate event and will be
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* called immediately we go back into the
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* event loop.
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*/
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te = tevent_add_timer(ev,
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ev,
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tevent_timeval_current_ofs(rc->restart_delay, 0),
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prefork_restart_fn,
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rc);
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if (te == NULL) {
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DBG_ERR("tevent_add_timer fail [%s] pre-fork event %s\n",
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rc->service_name,
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(rc->master == NULL) ? "worker" : "master");
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|
/* Caller needs to free rc. */
|
|
return false;
|
|
}
|
|
/* Caller must not free rc - it's in use. */
|
|
return true;
|
|
}
|
|
|
|
static void prefork_restart_fn(struct tevent_context *ev,
|
|
struct tevent_timer *te,
|
|
struct timeval tv,
|
|
void *private_data)
|
|
{
|
|
unsigned max_backoff = 0;
|
|
unsigned backoff = 0;
|
|
unsigned default_value = 0;
|
|
struct restart_context *rc = talloc_get_type(private_data,
|
|
struct restart_context);
|
|
unsigned restart_delay = rc->restart_delay;
|
|
|
|
TALLOC_FREE(te);
|
|
|
|
/*
|
|
* If the child process is constantly exiting, then restarting it can
|
|
* consume a lot of resources. In which case, we want to backoff a bit
|
|
* before respawning it
|
|
*/
|
|
default_value = lpcfg_prefork_backoff_increment(rc->lp_ctx);
|
|
backoff = lpcfg_parm_int(rc->lp_ctx,
|
|
NULL,
|
|
"prefork backoff increment",
|
|
rc->service_name,
|
|
default_value);
|
|
|
|
default_value = lpcfg_prefork_maximum_backoff(rc->lp_ctx);
|
|
max_backoff = lpcfg_parm_int(rc->lp_ctx,
|
|
NULL,
|
|
"prefork maximum backoff",
|
|
rc->service_name,
|
|
default_value);
|
|
|
|
restart_delay += backoff;
|
|
restart_delay = min(restart_delay, max_backoff);
|
|
|
|
if (rc->master != NULL) {
|
|
DBG_ERR("Restarting [%s] pre-fork master\n", rc->service_name);
|
|
prefork_fork_master(ev,
|
|
rc->lp_ctx,
|
|
rc->service_name,
|
|
rc->master->new_task_fn,
|
|
rc->master->private_data,
|
|
rc->service_details,
|
|
restart_delay,
|
|
rc->from_parent_fd);
|
|
} else if (rc->worker != NULL) {
|
|
struct process_details pd = initial_process_details;
|
|
DBG_ERR("Restarting [%s] pre-fork worker(%d)\n",
|
|
rc->service_name,
|
|
rc->worker->instance);
|
|
pd.instances = rc->worker->instance;
|
|
prefork_fork_worker(rc->worker->task,
|
|
ev,
|
|
rc->worker->ev2,
|
|
rc->lp_ctx,
|
|
rc->service_details,
|
|
rc->service_name,
|
|
rc->worker->control_pipe,
|
|
restart_delay,
|
|
&pd);
|
|
}
|
|
/* tfork allocates tfork structures with malloc */
|
|
tfork_destroy(&rc->t);
|
|
free(rc->t);
|
|
TALLOC_FREE(rc);
|
|
}
|
|
|
|
/*
|
|
handle EOF on the child pipe in the parent, so we know when a
|
|
process terminates without using SIGCHLD or waiting on all possible pids.
|
|
|
|
We need to ensure we do not ignore SIGCHLD because we need it to
|
|
work to get a valid error code from samba_runcmd_*().
|
|
*/
|
|
static void prefork_child_pipe_handler(struct tevent_context *ev,
|
|
struct tevent_fd *fde,
|
|
uint16_t flags,
|
|
void *private_data)
|
|
{
|
|
struct restart_context *rc = NULL;
|
|
int status = 0;
|
|
pid_t pid = 0;
|
|
bool rc_inuse = false;
|
|
|
|
/* free the fde which removes the event and stops it firing again */
|
|
TALLOC_FREE(fde);
|
|
|
|
/* the child has closed the pipe, assume its dead */
|
|
|
|
rc = talloc_get_type_abort(private_data, struct restart_context);
|
|
pid = tfork_child_pid(rc->t);
|
|
errno = 0;
|
|
|
|
irpc_cleanup(rc->lp_ctx, ev, pid);
|
|
status = tfork_status(&rc->t, false);
|
|
if (status == -1) {
|
|
DBG_ERR("Parent %d, Child %d terminated, "
|
|
"unable to get status code from tfork\n",
|
|
getpid(), pid);
|
|
rc_inuse = prefork_restart(ev, rc);
|
|
} else if (WIFEXITED(status)) {
|
|
status = WEXITSTATUS(status);
|
|
DBG_ERR("Parent %d, Child %d exited with status %d\n",
|
|
getpid(), pid, status);
|
|
if (status != 0) {
|
|
rc_inuse = prefork_restart(ev, rc);
|
|
}
|
|
} else if (WIFSIGNALED(status)) {
|
|
status = WTERMSIG(status);
|
|
DBG_ERR("Parent %d, Child %d terminated with signal %d\n",
|
|
getpid(), pid, status);
|
|
if (status == SIGABRT || status == SIGBUS || status == SIGFPE ||
|
|
status == SIGILL || status == SIGSYS || status == SIGSEGV ||
|
|
status == SIGKILL) {
|
|
|
|
rc_inuse = prefork_restart(ev, rc);
|
|
}
|
|
}
|
|
if (!rc_inuse) {
|
|
/* tfork allocates tfork structures with malloc */
|
|
tfork_destroy(&rc->t);
|
|
free(rc->t);
|
|
TALLOC_FREE(rc);
|
|
}
|
|
return;
|
|
}
|
|
|
|
/*
|
|
called when a listening socket becomes readable.
|
|
*/
|
|
static void prefork_accept_connection(
|
|
struct tevent_context *ev,
|
|
struct loadparm_context *lp_ctx,
|
|
struct socket_context *listen_socket,
|
|
void (*new_conn)(struct tevent_context *,
|
|
struct loadparm_context *,
|
|
struct socket_context *,
|
|
struct server_id,
|
|
void *,
|
|
void *),
|
|
void *private_data,
|
|
void *process_context)
|
|
{
|
|
NTSTATUS status;
|
|
struct socket_context *connected_socket;
|
|
pid_t pid = getpid();
|
|
|
|
/* accept an incoming connection. */
|
|
status = socket_accept(listen_socket, &connected_socket);
|
|
if (!NT_STATUS_IS_OK(status)) {
|
|
/*
|
|
* For prefork we can ignore STATUS_MORE_ENTRIES, as once a
|
|
* connection becomes available all waiting processes are
|
|
* woken, but only one gets work to process.
|
|
* AKA the thundering herd.
|
|
* In the short term this should not be an issue as the number
|
|
* of workers should be a small multiple of the number of cpus
|
|
* In the longer term socket_accept needs to implement a
|
|
* mutex/semaphore (like apache does) to serialise the accepts
|
|
*/
|
|
if (!NT_STATUS_EQUAL(status, STATUS_MORE_ENTRIES)) {
|
|
DBG_ERR("Worker process (%d), error in accept [%s]\n",
|
|
getpid(), nt_errstr(status));
|
|
}
|
|
return;
|
|
}
|
|
|
|
talloc_steal(private_data, connected_socket);
|
|
|
|
new_conn(ev, lp_ctx, connected_socket,
|
|
cluster_id(pid, socket_get_fd(connected_socket)),
|
|
private_data, process_context);
|
|
}
|
|
|
|
static void setup_handlers(
|
|
struct tevent_context *ev,
|
|
struct loadparm_context *lp_ctx,
|
|
int from_parent_fd)
|
|
{
|
|
struct tevent_fd *fde = NULL;
|
|
struct tevent_signal *se = NULL;
|
|
|
|
fde = tevent_add_fd(ev, ev, from_parent_fd, TEVENT_FD_READ,
|
|
prefork_pipe_handler, lp_ctx);
|
|
if (fde == NULL) {
|
|
smb_panic("Failed to add fd handler after fork");
|
|
}
|
|
|
|
se = tevent_add_signal(ev,
|
|
ev,
|
|
SIGHUP,
|
|
0,
|
|
sighup_signal_handler,
|
|
NULL);
|
|
if (se == NULL) {
|
|
smb_panic("Failed to add SIGHUP handler after fork");
|
|
}
|
|
|
|
se = tevent_add_signal(ev,
|
|
ev,
|
|
SIGTERM,
|
|
0,
|
|
sigterm_signal_handler,
|
|
NULL);
|
|
if (se == NULL) {
|
|
smb_panic("Failed to add SIGTERM handler after fork");
|
|
}
|
|
}
|
|
|
|
/*
|
|
* Called by the prefork master to create a new prefork worker process
|
|
*/
|
|
static void prefork_fork_worker(struct task_server *task,
|
|
struct tevent_context *ev,
|
|
struct tevent_context *ev2,
|
|
struct loadparm_context *lp_ctx,
|
|
const struct service_details *service_details,
|
|
const char *service_name,
|
|
int control_pipe[2],
|
|
unsigned restart_delay,
|
|
struct process_details *pd)
|
|
{
|
|
struct tfork *w = NULL;
|
|
pid_t pid;
|
|
|
|
w = tfork_create();
|
|
if (w == NULL) {
|
|
smb_panic("failure in tfork\n");
|
|
}
|
|
|
|
pid = tfork_child_pid(w);
|
|
if (pid != 0) {
|
|
struct tevent_fd *fde = NULL;
|
|
int fd = tfork_event_fd(w);
|
|
struct restart_context *rc = NULL;
|
|
|
|
/*
|
|
* we're the parent (prefork master), so store enough info to
|
|
* restart the worker/child if it exits unexpectedly
|
|
*/
|
|
rc = talloc_zero(ev, struct restart_context);
|
|
if (rc == NULL) {
|
|
smb_panic("OOM allocating restart context\n");
|
|
}
|
|
rc->t = w;
|
|
rc->lp_ctx = lp_ctx;
|
|
rc->service_name = service_name;
|
|
rc->service_details = service_details;
|
|
rc->restart_delay = restart_delay;
|
|
rc->master = NULL;
|
|
rc->worker = talloc_zero(rc, struct worker_restart_context);
|
|
if (rc->worker == NULL) {
|
|
smb_panic("OOM allocating master restart context\n");
|
|
}
|
|
rc->worker->ev2 = ev2;
|
|
rc->worker->instance = pd->instances;
|
|
rc->worker->task = task;
|
|
rc->worker->control_pipe[0] = control_pipe[0];
|
|
rc->worker->control_pipe[1] = control_pipe[1];
|
|
|
|
fde = tevent_add_fd(
|
|
ev, ev, fd, TEVENT_FD_READ, prefork_child_pipe_handler, rc);
|
|
if (fde == NULL) {
|
|
smb_panic("Failed to add child pipe handler, "
|
|
"after fork");
|
|
}
|
|
tevent_fd_set_auto_close(fde);
|
|
} else {
|
|
|
|
/*
|
|
* we're the child (prefork-worker). We never write to the
|
|
* control pipe, but listen on the read end in case our parent
|
|
* (the pre-fork master) exits
|
|
*/
|
|
close(control_pipe[1]);
|
|
setup_handlers(ev2, lp_ctx, control_pipe[0]);
|
|
|
|
/*
|
|
* tfork uses malloc
|
|
*/
|
|
free(w);
|
|
|
|
imessaging_dgm_unref_ev(ev);
|
|
TALLOC_FREE(ev);
|
|
|
|
process_set_title("%s(%d)",
|
|
"task[%s] pre-forked worker(%d)",
|
|
service_name,
|
|
pd->instances);
|
|
|
|
prefork_reload_after_fork();
|
|
if (service_details->post_fork != NULL) {
|
|
service_details->post_fork(task, pd);
|
|
}
|
|
{
|
|
struct talloc_ctx *ctx = talloc_new(NULL);
|
|
char *name = NULL;
|
|
if (ctx == NULL) {
|
|
smb_panic("OOM allocating talloc context\n");
|
|
}
|
|
name = talloc_asprintf(ctx,
|
|
"prefork-worker-%s-%d",
|
|
service_name,
|
|
pd->instances);
|
|
irpc_add_name(task->msg_ctx, name);
|
|
TALLOC_FREE(ctx);
|
|
}
|
|
if (service_details->before_loop != NULL) {
|
|
service_details->before_loop(task);
|
|
}
|
|
tevent_loop_wait(ev2);
|
|
imessaging_dgm_unref_ev(ev2);
|
|
talloc_free(ev2);
|
|
exit(0);
|
|
}
|
|
}
|
|
/*
|
|
* called to create a new server task
|
|
*/
|
|
static void prefork_new_task(
|
|
struct tevent_context *ev,
|
|
struct loadparm_context *lp_ctx,
|
|
const char *service_name,
|
|
struct task_server *(*new_task_fn)(struct tevent_context *,
|
|
struct loadparm_context *lp_ctx,
|
|
struct server_id , void *, void *),
|
|
void *private_data,
|
|
const struct service_details *service_details,
|
|
int from_parent_fd)
|
|
{
|
|
prefork_fork_master(ev,
|
|
lp_ctx,
|
|
service_name,
|
|
new_task_fn,
|
|
private_data,
|
|
service_details,
|
|
0,
|
|
from_parent_fd);
|
|
|
|
}
|
|
|
|
/*
|
|
* called when a task terminates
|
|
*/
|
|
static void prefork_terminate_task(struct tevent_context *ev,
|
|
struct loadparm_context *lp_ctx,
|
|
const char *reason,
|
|
bool fatal,
|
|
void *process_context)
|
|
{
|
|
DBG_DEBUG("called with reason[%s]\n", reason);
|
|
TALLOC_FREE(ev);
|
|
if (fatal == true) {
|
|
exit(127);
|
|
} else {
|
|
exit(0);
|
|
}
|
|
}
|
|
|
|
/*
|
|
* called when a connection completes
|
|
*/
|
|
static void prefork_terminate_connection(struct tevent_context *ev,
|
|
struct loadparm_context *lp_ctx,
|
|
const char *reason,
|
|
void *process_context)
|
|
{
|
|
}
|
|
|
|
/* called to set a title of a task or connection */
|
|
static void prefork_set_title(struct tevent_context *ev, const char *title)
|
|
{
|
|
}
|
|
|
|
static const struct model_ops prefork_ops = {
|
|
.name = "prefork",
|
|
.model_init = prefork_model_init,
|
|
.accept_connection = prefork_accept_connection,
|
|
.new_task = prefork_new_task,
|
|
.terminate_task = prefork_terminate_task,
|
|
.terminate_connection = prefork_terminate_connection,
|
|
.set_title = prefork_set_title,
|
|
};
|
|
|
|
/*
|
|
* initialise the prefork process model, registering ourselves with the
|
|
* process model subsystem
|
|
*/
|
|
NTSTATUS process_model_prefork_init(void)
|
|
{
|
|
return register_process_model(&prefork_ops);
|
|
}
|