* $Id$
*
* Citadel "system dependent" stuff.
- * See copyright.txt for copyright information.
+ * See COPYING for copyright information.
*
* Here's where we (hopefully) have most parts of the Citadel server that
* would need to be altered to run the server in a non-POSIX environment.
#include <errno.h>
#include <stdarg.h>
#include <grp.h>
-#ifdef HAVE_PTHREAD_H
-#include <pthread.h>
-#endif
#include <libcitadel.h>
#include "citadel.h"
#include "server.h"
#endif
#include "ctdl_module.h"
+#include "threads.h"
+#include "user_ops.h"
+#include "control.h"
+
#ifdef DEBUG_MEMORY_LEAKS
struct igheap {
#endif
-pthread_mutex_t Critters[MAX_SEMAPHORES]; /* Things needing locking */
-pthread_key_t MyConKey; /* TSD key for MyContext() */
+citthread_key_t MyConKey; /* TSD key for MyContext() */
int verbosity = DEFAULT_VERBOSITY; /* Logging level */
struct CitContext masterCC;
time_t last_purge = 0; /* Last dead session purge */
-static int num_threads = 0; /* Current number of threads */
-static int num_workers = 0; /* Current number of worker threads */
int num_sessions = 0; /* Current number of sessions */
int syslog_facility = LOG_DAEMON;
int enable_syslog = 0;
-/*
- * Create an interface to lprintf that follows the coding convention.
- * This is here until such time as we have replaced all calls to lprintf with CtdlLogPrintf
- */
-
-void CtdlLogPrintf(enum LogLevel loglevel, const char *format, ...)
+/* Flag for single user mode */
+static int want_single_user = 0;
+
+/* Try to go single user */
+
+int CtdlTrySingleUser(void)
{
- va_list arg_ptr;
- va_start(arg_ptr, format);
- vlprintf(loglevel, format, arg_ptr);
- va_end(arg_ptr);
+ int can_do = 0;
+
+ begin_critical_section(S_SINGLE_USER);
+ if (want_single_user)
+ can_do = 0;
+ else
+ {
+ can_do = 1;
+ want_single_user = 1;
+ }
+ end_critical_section(S_SINGLE_USER);
+ return can_do;
+}
+
+void CtdlEndSingleUser(void)
+{
+ begin_critical_section(S_SINGLE_USER);
+ want_single_user = 0;
+ end_critical_section(S_SINGLE_USER);
+}
+
+
+int CtdlWantSingleUser(void)
+{
+ return want_single_user;
+}
+
+int CtdlIsSingleUser(void)
+{
+ if (want_single_user)
+ {
+ /* check for only one context here */
+ if (num_sessions == 1)
+ return TRUE;
+ }
+ return FALSE;
}
/*
- * lprintf() ... Write logging information
+ * CtdlLogPrintf() ... Write logging information
*/
-void lprintf(enum LogLevel loglevel, const char *format, ...) {
+void CtdlLogPrintf(enum LogLevel loglevel, const char *format, ...) {
va_list arg_ptr;
va_start(arg_ptr, format);
- vlprintf(loglevel, format, arg_ptr);
+ vCtdlLogPrintf(loglevel, format, arg_ptr);
va_end(arg_ptr);
}
-void vlprintf(enum LogLevel loglevel, const char *format, va_list arg_ptr)
+void vCtdlLogPrintf(enum LogLevel loglevel, const char *format, va_list arg_ptr)
{
char buf[SIZ], buf2[SIZ];
tim.tm_mday, tim.tm_hour, tim.tm_min,
tim.tm_sec, (long)tv.tv_usec);
}
- vsprintf(buf2, format, arg_ptr);
+ vsnprintf(buf2, SIZ, format, arg_ptr);
fprintf(stderr, "%s%s", buf, buf2);
fflush(stderr);
volatile int running_as_daemon = 0;
static RETSIGTYPE signal_cleanup(int signum) {
- CtdlLogPrintf(CTDL_DEBUG, "Caught signal %d; shutting down.\n", signum);
- exit_signal = signum;
-}
-
-
-
-
-void InitialiseSemaphores(void)
-{
- int i;
-
- /* Set up a bunch of semaphores to be used for critical sections */
- for (i=0; i<MAX_SEMAPHORES; ++i) {
- pthread_mutex_init(&Critters[i], NULL);
+#ifdef THREADS_USESIGNALS
+ if (CT)
+ CT->signal = signum;
+ else
+#endif
+ {
+ CtdlLogPrintf(CTDL_DEBUG, "Caught signal %d; shutting down.\n", signum);
+ exit_signal = signum;
}
}
* CitContext structure (in the ContextList linked list) of the
* session to which the calling thread is currently bound.
*/
- if (pthread_key_create(&MyConKey, NULL) != 0) {
+ if (citthread_key_create(&MyConKey, NULL) != 0) {
CtdlLogPrintf(CTDL_CRIT, "Can't create TSD key: %s\n",
strerror(errno));
}
-/*
- * Obtain a semaphore lock to begin a critical section.
- * but only if no one else has one
- */
-int try_critical_section(int which_one)
-{
- /* For all types of critical sections except those listed here,
- * ensure nobody ever tries to do a critical section within a
- * transaction; this could lead to deadlock.
- */
- if ( (which_one != S_FLOORCACHE)
-#ifdef DEBUG_MEMORY_LEAKS
- && (which_one != S_DEBUGMEMLEAKS)
-#endif
- && (which_one != S_RPLIST)
- ) {
- cdb_check_handles();
- }
- return (pthread_mutex_trylock(&Critters[which_one]));
-}
-
-
-/*
- * Obtain a semaphore lock to begin a critical section.
- */
-void begin_critical_section(int which_one)
-{
- /* CtdlLogPrintf(CTDL_DEBUG, "begin_critical_section(%d)\n", which_one); */
-
- /* For all types of critical sections except those listed here,
- * ensure nobody ever tries to do a critical section within a
- * transaction; this could lead to deadlock.
- */
- if ( (which_one != S_FLOORCACHE)
-#ifdef DEBUG_MEMORY_LEAKS
- && (which_one != S_DEBUGMEMLEAKS)
-#endif
- && (which_one != S_RPLIST)
- ) {
- cdb_check_handles();
- }
- pthread_mutex_lock(&Critters[which_one]);
-}
-
-/*
- * Release a semaphore lock to end a critical section.
- */
-void end_critical_section(int which_one)
-{
- pthread_mutex_unlock(&Critters[which_one]);
-}
-
-
/*
* This is a generic function to set up a master socket for listening on
if (actual_queue_len < 5) actual_queue_len = 5;
i = unlink(sockpath);
- if (i != 0) if (errno != ENOENT) {
+ if ((i != 0) && (errno != ENOENT)) {
*errormessage = (char*) malloc(SIZ + 1);
snprintf(*errormessage, SIZ, "citserver: can't unlink %s: %s",
sockpath, strerror(errno));
register struct CitContext *c;
- return ((c = (struct CitContext *) pthread_getspecific(MyConKey),
+ return ((c = (struct CitContext *) citthread_getspecific(MyConKey),
c == NULL) ? &masterCC : c
);
}
CtdlLogPrintf(CTDL_ALERT, "citserver: can't allocate memory!!\n");
return NULL;
}
- memset(me, 0, sizeof(struct CitContext));
+ memset(me, 0, sizeof(struct CitContext));
+
+ /* Give the contaxt a name. Hopefully makes it easier to track */
+ strcpy (me->user.fullname, "SYS_notauth");
+
/* The new context will be created already in the CON_EXECUTING state
* in order to prevent another thread from grabbing it while it's
* being set up.
*/
me->state = CON_EXECUTING;
-
/*
* Generate a unique session number and insert this context into
* the list.
}
++num_sessions;
end_critical_section(S_SESSION_TABLE);
- return(me);
+ return (me);
+}
+
+
+struct CitContext *CtdlGetContextArray(int *count)
+{
+ int nContexts, i;
+ struct CitContext *nptr, *cptr;
+
+ nContexts = num_sessions;
+ nptr = malloc(sizeof(struct CitContext) * nContexts);
+ if (!nptr)
+ return NULL;
+ begin_critical_section(S_SESSION_TABLE);
+ for (cptr = ContextList, i=0; cptr != NULL && i < nContexts; cptr = cptr->next, i++)
+ memcpy(&nptr[i], cptr, sizeof (struct CitContext));
+ end_critical_section (S_SESSION_TABLE);
+
+ *count = i;
+ return nptr;
}
+
+/**
+ * This function fills in a context and its user field correctly
+ * Then creates/loads that user
+ */
+void CtdlFillSystemContext(struct CitContext *context, char *name)
+{
+ char sysname[USERNAME_SIZE];
+
+ memset(context, 0, sizeof(struct CitContext));
+ context->internal_pgm = 1;
+ context->cs_pid = 0;
+ strcpy (sysname, "SYS_");
+ strcat (sysname, name);
+ /* internal_create_user has the side effect of loading the user regardless of wether they
+ * already existed or needed to be created
+ */
+ internal_create_user (sysname, &(context->user), -1) ;
+
+ /* Check to see if the system user needs upgrading */
+ if (context->user.usernum == 0)
+ { /* old system user with number 0, upgrade it */
+ context->user.usernum = get_new_user_number();
+ CtdlLogPrintf(CTDL_DEBUG, "Upgrading system user \"%s\" from user number 0 to user number %d\n", context->user.fullname, context->user.usernum);
+ /* add user to the database */
+ putuser(&(context->user));
+ cdb_store(CDB_USERSBYNUMBER, &(context->user.usernum), sizeof(long), context->user.fullname, strlen(context->user.fullname)+1);
+ }
+}
+
/*
- * The following functions implement output buffering. If the kernel supplies
- * native TCP buffering (Linux & *BSD), use that; otherwise, emulate it with
- * user-space buffering.
+ * The following functions implement output buffering on operating systems which
+ * support it (such as Linux and various BSD flavors).
*/
#ifndef HAVE_DARWIN
#ifdef TCP_CORK
#endif /* TCP_CORK */
#endif /* HAVE_DARWIN */
-#ifdef HAVE_TCP_BUFFERING
static unsigned on = 1, off = 0;
-void buffer_output(void) {
- struct CitContext *ctx = MyContext();
- setsockopt(ctx->client_socket, IPPROTO_TCP, TCP_CORK, &on, 4);
- ctx->buffering = 1;
-}
-void unbuffer_output(void) {
- struct CitContext *ctx = MyContext();
- setsockopt(ctx->client_socket, IPPROTO_TCP, TCP_CORK, &off, 4);
- ctx->buffering = 0;
-}
-
-void flush_output(void) {
- struct CitContext *ctx = MyContext();
- setsockopt(ctx->client_socket, IPPROTO_TCP, TCP_CORK, &off, 4);
- setsockopt(ctx->client_socket, IPPROTO_TCP, TCP_CORK, &on, 4);
-}
-#else
-#ifdef HAVE_DARWIN
-/* Stub functions for Darwin/OS X where TCP buffering isn't liked at all */
-void buffer_output(void) {
- CC->buffering = 0;
-}
-void unbuffer_output(void) {
- CC->buffering = 0;
-}
-void flush_output(void) {
-}
-#else
void buffer_output(void) {
- if (CC->buffering == 0) {
- CC->buffering = 1;
- CC->buffer_len = 0;
- CC->output_buffer = malloc(SIZ);
+#ifdef HAVE_TCP_BUFFERING
+ if (!CC->redirect_ssl) {
+ setsockopt(CC->client_socket, IPPROTO_TCP, TCP_CORK, &on, 4);
}
+#endif
}
-void flush_output(void) {
- if (CC->buffering == 1) {
- client_write(CC->output_buffer, CC->buffer_len);
- CC->buffer_len = 0;
+void unbuffer_output(void) {
+#ifdef HAVE_TCP_BUFFERING
+ if (!CC->redirect_ssl) {
+ setsockopt(CC->client_socket, IPPROTO_TCP, TCP_CORK, &off, 4);
}
+#endif
}
-void unbuffer_output(void) {
- if (CC->buffering == 1) {
- CC->buffering = 0;
- /* We don't call flush_output because we can't. */
- client_write(CC->output_buffer, CC->buffer_len);
- CC->buffer_len = 0;
- free(CC->output_buffer);
- CC->output_buffer = NULL;
- }
+void flush_output(void) {
+#ifdef HAVE_TCP_BUFFERING
+ struct CitContext *CCC = CC;
+ setsockopt(CCC->client_socket, IPPROTO_TCP, TCP_CORK, &off, 4);
+ setsockopt(CCC->client_socket, IPPROTO_TCP, TCP_CORK, &on, 4);
+#endif
}
-#endif /* HAVE_DARWIN */
-#endif /* HAVE_TCP_BUFFERING */
/*
* client_write() ... Send binary data to the client.
*/
-void client_write(char *buf, int nbytes)
+int client_write(char *buf, int nbytes)
{
int bytes_written = 0;
int retval;
#ifndef HAVE_TCP_BUFFERING
int old_buffer_len = 0;
#endif
+ fd_set wset;
t_context *Ctx;
+ int fdflags;
Ctx = CC;
if (Ctx->redirect_buffer != NULL) {
memcpy(&Ctx->redirect_buffer[Ctx->redirect_len], buf, nbytes);
Ctx->redirect_len += nbytes;
Ctx->redirect_buffer[Ctx->redirect_len] = 0;
- return;
+ return 0;
}
-#ifndef HAVE_TCP_BUFFERING
- /* If we're buffering for later, do that now. */
- if (Ctx->buffering) {
- old_buffer_len = Ctx->buffer_len;
- Ctx->buffer_len += nbytes;
- Ctx->output_buffer = realloc(Ctx->output_buffer, Ctx->buffer_len);
- memcpy(&Ctx->output_buffer[old_buffer_len], buf, nbytes);
- return;
- }
-#endif
-
- /* Ok, at this point we're not buffering. Go ahead and write. */
-
#ifdef HAVE_OPENSSL
if (Ctx->redirect_ssl) {
client_write_ssl(buf, nbytes);
- return;
+ return 0;
}
#endif
+ fdflags = fcntl(Ctx->client_socket, F_GETFL);
+
while (bytes_written < nbytes) {
+ if ((fdflags & O_NONBLOCK) == O_NONBLOCK) {
+ FD_ZERO(&wset);
+ FD_SET(Ctx->client_socket, &wset);
+ if (select(1, NULL, &wset, NULL, NULL) == -1) {
+ CtdlLogPrintf(CTDL_ERR,
+ "client_write(%d bytes) select failed: %s (%d)\n",
+ nbytes - bytes_written,
+ strerror(errno), errno);
+ cit_backtrace();
+ Ctx->kill_me = 1;
+ return -1;
+ }
+ }
+
retval = write(Ctx->client_socket, &buf[bytes_written],
nbytes - bytes_written);
if (retval < 1) {
cit_backtrace();
// CtdlLogPrintf(CTDL_DEBUG, "Tried to send: %s", &buf[bytes_written]);
Ctx->kill_me = 1;
- return;
+ return -1;
}
bytes_written = bytes_written + retval;
}
+ return 0;
}
/*
- * cprintf() ... Send formatted printable data to the client. It is
- * implemented in terms of client_write() but remains in
- * sysdep.c in case we port to somewhere without va_args...
+ * cprintf() Send formatted printable data to the client.
+ * Implemented in terms of client_write() so it's technically not sysdep...
*/
void cprintf(const char *format, ...) {
va_list arg_ptr;
- char buf[1024];
+ char buf[1024];
va_start(arg_ptr, format);
if (vsnprintf(buf, sizeof buf, format, arg_ptr) == -1)
retval = select( (fd)+1,
&rfds, NULL, NULL, &tv);
+ if (retval < 0)
+ {
+ if (errno == EINTR)
+ {
+ CtdlLogPrintf(CTDL_DEBUG, "Interrupted select().\n");
+ CC->kill_me = 1;
+ return (-1);
+ }
+ }
if (FD_ISSET(fd, &rfds) == 0) {
return(0);
* There are no threads so no critical_section stuff is needed.
*/
ptr = ContextList;
+
+ /* We need to update the ContextList because some modules may want to itterate it
+ * Question is should we NULL it before iterating here or should we just keep updating it
+ * as we remove items?
+ *
+ * Answer is to NULL it first to prevent modules from doing any actions on the list at all
+ */
+ ContextList=NULL;
while (ptr != NULL){
/* Remove the session from the active list */
rem = ptr->next;
--num_sessions;
- lprintf(CTDL_DEBUG, "Purging session %d\n", ptr->cs_pid);
+ CtdlLogPrintf(CTDL_DEBUG, "Purging session %d\n", ptr->cs_pid);
RemoveContext(ptr);
free (ptr);
ptr = rem;
}
-
}
-/*
- * The system-dependent part of master_cleanup() - close the master socket.
- */
-void sysdep_master_cleanup(void) {
+
+void close_masters (void)
+{
struct ServiceFunctionHook *serviceptr;
/*
serviceptr = serviceptr->next ) {
if (serviceptr->tcp_port > 0)
+ {
CtdlLogPrintf(CTDL_INFO, "Closing listener on port %d\n",
serviceptr->tcp_port);
-
+ serviceptr->tcp_port = 0;
+ }
+
if (serviceptr->sockpath != NULL)
CtdlLogPrintf(CTDL_INFO, "Closing listener on '%s'\n",
serviceptr->sockpath);
close(serviceptr->msock);
-
/* If it's a Unix domain socket, remove the file. */
if (serviceptr->sockpath != NULL) {
unlink(serviceptr->sockpath);
+ serviceptr->sockpath = NULL;
}
}
+}
+
+
+/*
+ * The system-dependent part of master_cleanup() - close the master socket.
+ */
+void sysdep_master_cleanup(void) {
+
+ close_masters();
context_cleanup();
CtdlDestroyFixedOutputHooks();
CtdlDestroySessionHooks();
CtdlDestroyServiceHook();
+ CtdlDestroyRoomHooks();
+ CtdlDestroyDirectoryServiceFuncs();
#ifdef HAVE_BACKTRACE
eCrash_Uninit();
#endif
exit(0);
}
+int nFireUps = 0;
+int nFireUpsNonRestart = 0;
+pid_t ForkedPid = 1;
/*
* Start running as a daemon.
else {
fp = fopen(file_pid_file, "w");
if (fp != NULL) {
- /*
- * NB.. The pid file contains the pid of the actual server.
- * This is not the pid of the watcher process
- */
- fprintf(fp, ""F_PID_T"\n", current_child);
+ fprintf(fp, ""F_PID_T"\n", getpid());
fclose(fp);
}
waitpid(current_child, &status, 0);
}
-
do_restart = 0;
-
+ nFireUpsNonRestart = nFireUps;
/* Did the main process exit with an actual exit code? */
if (WIFEXITED(status)) {
+
+ CtdlLogPrintf(CTDL_DEBUG, "\e[31m WIFEXITED! \e[0m\n");
/* Exit code 0 means the watcher should exit */
- if (WEXITSTATUS(status) == 0) {
+ if (WEXITSTATUS(status) == CTDLEXIT_SHUTDOWN) {
+ CtdlLogPrintf(CTDL_DEBUG, "\e[31m CTDLEXIT_SHUTDOWN \e[0m\n");
do_restart = 0;
}
/* Exit code 101-109 means the watcher should exit */
else if ( (WEXITSTATUS(status) >= 101) && (WEXITSTATUS(status) <= 109) ) {
+ CtdlLogPrintf(CTDL_DEBUG, "\e[31m CTDLEXIT NO RESTART \e[0m\n");
do_restart = 0;
}
/* Any other exit code means we should restart. */
else {
+ CtdlLogPrintf(CTDL_DEBUG, "\e[31m ANY OTHER EXIT CODE \e[0m\n");
do_restart = 1;
+ nFireUps++;
+ ForkedPid = current_child;
}
}
/* Any other type of termination (signals, etc.) should also restart. */
else {
+ CtdlLogPrintf(CTDL_DEBUG, "\e[31m NON-EXIT TERMINATION \e[0m\n");
do_restart = 1;
+ nFireUps++;
+ ForkedPid = current_child;
}
} while (do_restart);
+void checkcrash(void)
+{
+ if (nFireUpsNonRestart != nFireUps)
+ {
+ StrBuf *CrashMail;
+
+ CrashMail = NewStrBuf();
+ CtdlLogPrintf (CTDL_ALERT, "----------------sending crash mail\n");
+ StrBufPrintf(CrashMail,
+ "Your CitServer is just recovering from an unexpected termination.\n"
+ " this maybe the result of an error in citserver or an external influence.\n"
+ " You can get more information on this by enabling coredumping; for more information see\n"
+ " http://citadel.org/doku.php/faq:mastering_your_os:gdb#how.do.i.make.my.system.produce.core-files\n"
+ " If you already did, the file you're looking for most probably is %score.%d\n"
+ " Yours faithfully...",
+ ctdl_run_dir, ForkedPid);
+ aide_message(ChrPtr(CrashMail), "Citadel server crashed.");
+ FreeStrBuf(&CrashMail);
+ }
+}
+
+
/*
* Generic routine to convert a login name to a full name (gecos)
* Returns nonzero if a conversion took place
}
}
-
-
-/*
- * New thread interface.
- * To create a thread you must call one of the create thread functions.
- * You must pass it the address of (a pointer to a CtdlThreadNode initialised to NULL) like this
- * struct CtdlThreadNode *node = NULL;
- * pass in &node
- * If the thread is created *node will point to the thread control structure for the created thread.
- * If the thread creation fails *node remains NULL
- * Do not free the memory pointed to by *node, it doesn't belong to you.
- * If your thread function returns it will be started again without creating a new thread.
- * If your thread function wants to exit it should call CtdlThreadExit(ret_code);
- * This new interface duplicates much of the eCrash stuff. We should go for closer integration since that would
- * remove the need for the calls to eCrashRegisterThread and friends
- */
-
-
-struct CtdlThreadNode *CtdlThreadList = NULL;
-
-/*
- * Condition variable and Mutex for thread garbage collection
- */
-/*static pthread_mutex_t thread_gc_mutex = PTHREAD_MUTEX_INITIALIZER;
-static pthread_cond_t thread_gc_cond = PTHREAD_COND_INITIALIZER;
-*/
-static pthread_t GC_thread;
-static char *CtdlThreadStates[CTDL_THREAD_LAST_STATE];
-double CtdlThreadLoadAvg = 0;
-double CtdlThreadWorkerAvg = 0;
-/*
- * Pinched the following bits regarding signals from Kannel.org
- */
-
-/*
- * Change this thread's signal mask to block user-visible signals
- * (HUP, TERM, QUIT, INT), and store the old signal mask in
- * *old_set_storage.
- * Return 0 for success, or -1 if an error occurred.
- */
-
- /*
- * This does not work in Darwin alias MacOS X alias Mach kernel,
- * however. So we define a dummy function doing nothing.
- */
-#if defined(DARWIN_OLD)
- static int pthread_sigmask();
-#endif
-
-static int ctdl_thread_internal_block_signals(sigset_t *old_set_storage)
-{
- int ret;
- sigset_t block_signals;
-
- ret = sigemptyset(&block_signals);
- if (ret != 0) {
- CtdlLogPrintf(CTDL_EMERG, "Thread system PANIC. Couldn't initialize signal set\n");
- return -1;
- }
- ret = sigaddset(&block_signals, SIGHUP);
- ret |= sigaddset(&block_signals, SIGTERM);
- ret |= sigaddset(&block_signals, SIGQUIT);
- ret |= sigaddset(&block_signals, SIGINT);
- if (ret != 0) {
- CtdlLogPrintf(CTDL_EMERG, "Thread system PANIC. Couldn't add signal to signal set.\n");
- return -1;
- }
- ret = pthread_sigmask(SIG_BLOCK, &block_signals, old_set_storage);
- if (ret != 0) {
- CtdlLogPrintf(CTDL_EMERG, "Thread system PANIC. Couldn't disable signals for thread creation\n");
- return -1;
- }
- return 0;
-}
-
-static void ctdl_thread_internal_restore_signals(sigset_t *old_set)
-{
- int ret;
-
- ret = pthread_sigmask(SIG_SETMASK, old_set, NULL);
- if (ret != 0) {
- CtdlLogPrintf(CTDL_EMERG, "Thread system PANIC. Couldn't restore signal set.\n");
- }
-}
-
-
-void ctdl_thread_internal_cleanup(void)
-{
- int i;
-
- for (i=0; i<CTDL_THREAD_LAST_STATE; i++)
- {
- free (CtdlThreadStates[i]);
- }
-}
-
-void ctdl_thread_internal_init(void)
-{
- struct CtdlThreadNode *this_thread;
- int ret = 0;
-
- GC_thread = pthread_self();
- CtdlThreadStates[CTDL_THREAD_INVALID] = strdup ("Invalid Thread");
- CtdlThreadStates[CTDL_THREAD_VALID] = strdup("Valid Thread");
- CtdlThreadStates[CTDL_THREAD_CREATE] = strdup("Thread being Created");
- CtdlThreadStates[CTDL_THREAD_CANCELLED] = strdup("Thread Cancelled");
- CtdlThreadStates[CTDL_THREAD_EXITED] = strdup("Thread Exited");
- CtdlThreadStates[CTDL_THREAD_STOPPING] = strdup("Thread Stopping");
- CtdlThreadStates[CTDL_THREAD_STOP_REQ] = strdup("Thread Stop Requested");
- CtdlThreadStates[CTDL_THREAD_SLEEPING] = strdup("Thread Sleeping");
- CtdlThreadStates[CTDL_THREAD_RUNNING] = strdup("Thread Running");
- CtdlThreadStates[CTDL_THREAD_BLOCKED] = strdup("Thread Blocked");
-
- /* Get ourself a thread entry */
- this_thread = malloc(sizeof(struct CtdlThreadNode));
- if (this_thread == NULL) {
- CtdlLogPrintf(CTDL_EMERG, "Thread system, can't allocate CtdlThreadNode, exiting\n");
- return;
- }
- // Ensuring this is zero'd means we make sure the thread doesn't start doing its thing until we are ready.
- memset (this_thread, 0, sizeof(struct CtdlThreadNode));
-
- pthread_mutex_init (&(this_thread->ThreadMutex), NULL);
- pthread_cond_init (&(this_thread->ThreadCond), NULL);
- pthread_mutex_init (&(this_thread->SleepMutex), NULL);
- pthread_cond_init (&(this_thread->SleepCond), NULL);
-
- /* We are garbage collector so create us as running */
- this_thread->state = CTDL_THREAD_RUNNING;
-
- if ((ret = pthread_attr_init(&this_thread->attr))) {
- CtdlLogPrintf(CTDL_EMERG, "Thread system, pthread_attr_init: %s\n", strerror(ret));
- free(this_thread);
- return;
- }
-
- this_thread->name = strdup("Garbage Collection Thread");
-
- this_thread->tid = GC_thread;
-
- num_threads++; // Increase the count of threads in the system.
-
- this_thread->next = CtdlThreadList;
- CtdlThreadList = this_thread;
- if (this_thread->next)
- this_thread->next->prev = this_thread;
- /* Set up start times */
- gettimeofday(&this_thread->start_time, NULL); /* Time this thread started */
- memcpy(&this_thread->last_state_change, &this_thread->start_time, sizeof (struct timeval)); /* Changed state so mark it. */
-}
-
-
-/*
- * A function to update a threads load averages
- */
- void ctdl_thread_internal_update_avgs(struct CtdlThreadNode *this_thread)
- {
- struct timeval now, result;
- double last_duration;
-
- gettimeofday(&now, NULL);
- timersub(&now, &(this_thread->last_state_change), &result);
- pthread_mutex_lock(&this_thread->ThreadMutex);
- // result now has a timeval for the time we spent in the last state since we last updated
- last_duration = (double)result.tv_sec + ((double)result.tv_usec / (double) 1000000);
- if (this_thread->state == CTDL_THREAD_SLEEPING)
- this_thread->avg_sleeping += last_duration;
- if (this_thread->state == CTDL_THREAD_RUNNING)
- this_thread->avg_running += last_duration;
- if (this_thread->state == CTDL_THREAD_BLOCKED)
- this_thread->avg_blocked += last_duration;
- memcpy (&this_thread->last_state_change, &now, sizeof (struct timeval));
- pthread_mutex_unlock(&this_thread->ThreadMutex);
-}
-
-/*
- * A function to chenge the state of a thread
- */
-void ctdl_thread_internal_change_state (struct CtdlThreadNode *this_thread, enum CtdlThreadState new_state)
-{
- /*
- * Wether we change state or not we need update the load values
- */
- ctdl_thread_internal_update_avgs(this_thread);
- pthread_mutex_lock(&this_thread->ThreadMutex); /* To prevent race condition of a sleeping thread */
- if ((new_state == CTDL_THREAD_STOP_REQ) && (this_thread->state > CTDL_THREAD_STOP_REQ))
- this_thread->state = new_state;
- if (((new_state == CTDL_THREAD_SLEEPING) || (new_state == CTDL_THREAD_BLOCKED)) && (this_thread->state == CTDL_THREAD_RUNNING))
- this_thread->state = new_state;
- if ((new_state == CTDL_THREAD_RUNNING) && ((this_thread->state == CTDL_THREAD_SLEEPING) || (this_thread->state == CTDL_THREAD_BLOCKED)))
- this_thread->state = new_state;
- pthread_mutex_unlock(&this_thread->ThreadMutex);
-}
-
-
-/*
- * A function to tell all threads to exit
- */
-void CtdlThreadStopAll(void)
-{
- //FIXME: The signalling of the condition should not be in the critical_section
- // We need to build a list of threads we are going to signal and then signal them afterwards
-
- struct CtdlThreadNode *this_thread;
-
- begin_critical_section(S_THREAD_LIST);
- this_thread = CtdlThreadList;
- while(this_thread)
- {
- if (this_thread->thread_func) // Don't tell garbage collector to stop
- {
- ctdl_thread_internal_change_state (this_thread, CTDL_THREAD_STOP_REQ);
-// pthread_mutex_lock(&this_thread->ThreadMutex);
- pthread_cond_signal(&this_thread->ThreadCond);
- pthread_cond_signal(&this_thread->SleepCond);
-// pthread_mutex_unlock(&this_thread->ThreadMutex);
- CtdlLogPrintf(CTDL_DEBUG, "Thread system stopping thread \"%s\" (%ld).\n", this_thread->name, this_thread->tid);
- }
- this_thread = this_thread->next;
- }
- end_critical_section(S_THREAD_LIST);
-}
-
-
-/*
- * A function to wake up all sleeping threads
- */
-void CtdlThreadWakeAll(void)
-{
- struct CtdlThreadNode *this_thread;
-
- CtdlLogPrintf(CTDL_DEBUG, "Thread system waking all threads.\n");
-
- begin_critical_section(S_THREAD_LIST);
- this_thread = CtdlThreadList;
- while(this_thread)
- {
- if (!this_thread->thread_func)
- {
-// pthread_mutex_lock(&this_thread->ThreadMutex);
- pthread_cond_signal(&this_thread->ThreadCond);
- pthread_cond_signal(&this_thread->SleepCond);
-// pthread_mutex_unlock(&this_thread->ThreadMutex);
- }
- this_thread = this_thread->next;
- }
- end_critical_section(S_THREAD_LIST);
-}
-
-
-/*
- * A function to return the number of threads running in the system
- */
-int CtdlThreadGetCount(void)
-{
- int ret;
-
- begin_critical_section(S_THREAD_LIST);
- ret = num_threads;
- end_critical_section(S_THREAD_LIST);
- return ret;
-}
-
-int CtdlThreadGetWorkers(void)
-{
- int ret;
-
- begin_critical_section(S_THREAD_LIST);
- ret = num_workers;
- end_critical_section(S_THREAD_LIST);
- return ret;
-}
-
-double CtdlThreadGetWorkerAvg(void)
-{
- double ret;
-
- begin_critical_section(S_THREAD_LIST);
- ret = CtdlThreadWorkerAvg;
- end_critical_section(S_THREAD_LIST);
- return ret;
-}
-
-double CtdlThreadGetLoadAvg(void)
-{
- double ret;
-
- begin_critical_section(S_THREAD_LIST);
- ret = CtdlThreadLoadAvg;
- end_critical_section(S_THREAD_LIST);
- return ret;
-}
-
-/*
- * A function to find the thread structure for this thread
- */
-struct CtdlThreadNode *CtdlThreadSelf(void)
-{
- pthread_t self_tid;
- struct CtdlThreadNode *this_thread;
-
- self_tid = pthread_self();
-
- begin_critical_section(S_THREAD_LIST);
- this_thread = CtdlThreadList;
- while(this_thread)
- {
- pthread_mutex_lock(&this_thread->ThreadMutex);
- if (pthread_equal(self_tid, this_thread->tid))
- {
- pthread_mutex_unlock(&this_thread->ThreadMutex);
- end_critical_section(S_THREAD_LIST);
- return this_thread;
- }
- pthread_mutex_unlock(&this_thread->ThreadMutex);
- this_thread = this_thread->next;
- }
- end_critical_section(S_THREAD_LIST);
- return NULL;
-}
-
-
-
-
-/*
- * A function to rename a thread
- * Returns a char * and the caller owns the memory and should free it
- */
-char *CtdlThreadName(struct CtdlThreadNode *thread, char *name)
-{
- struct CtdlThreadNode *this_thread;
- char *old_name;
-
- if (!thread)
- this_thread = CtdlThreadSelf();
- else
- this_thread = thread;
- if (!this_thread)
- {
- CtdlLogPrintf(CTDL_WARNING, "Thread system WARNING. Attempt to CtdlThreadRename() a non thread. %s\n", name);
- return NULL;
- }
-// begin_critical_section(S_THREAD_LIST);
- pthread_mutex_lock(&this_thread->ThreadMutex);
- old_name = this_thread->name;
- if (name)
- this_thread->name = strdup (name);
- else
- old_name = strdup(old_name);
- pthread_mutex_unlock(&this_thread->ThreadMutex);
-// end_critical_section (S_THREAD_LIST);
- return (old_name);
-}
-
-
-/*
- * A function to force a thread to exit
- */
-void CtdlThreadCancel(struct CtdlThreadNode *thread)
-{
- struct CtdlThreadNode *this_thread;
-
- if (!thread)
- this_thread = CtdlThreadSelf();
- else
- this_thread = thread;
- if (!this_thread)
- {
- CtdlLogPrintf(CTDL_EMERG, "Thread system PANIC. Attempt to CtdlThreadCancel() a non thread.\n");
- CtdlThreadStopAll();
- return;
- }
-
- if (!this_thread->thread_func)
- {
- CtdlLogPrintf(CTDL_EMERG, "Thread system PANIC. Attempt to CtdlThreadCancel() the garbage collector.\n");
- CtdlThreadStopAll();
- return;
- }
-
-// begin_critical_section(S_THREAD_LIST);
- ctdl_thread_internal_change_state (this_thread, CTDL_THREAD_CANCELLED);
- pthread_cancel(this_thread->tid);
-// end_critical_section (S_THREAD_LIST);
-}
-
-
-
-/*
- * A function for a thread to check if it has been asked to stop
- */
-int CtdlThreadCheckStop(struct CtdlThreadNode *this_thread)
-{
- if (!this_thread)
- {
- CtdlLogPrintf(CTDL_EMERG, "Thread system PANIC, CtdlThreadCheckStop() called by a non thread.\n");
- CtdlThreadStopAll();
- return -1;
- }
- pthread_mutex_lock(&this_thread->ThreadMutex);
- if(this_thread->state == CTDL_THREAD_STOP_REQ)
- {
- this_thread->state = CTDL_THREAD_STOPPING;
- pthread_mutex_unlock(&this_thread->ThreadMutex);
- return -1;
- }
- else if((this_thread->state < CTDL_THREAD_STOP_REQ) && (this_thread->state > CTDL_THREAD_CREATE))
- {
- pthread_mutex_unlock(&this_thread->ThreadMutex);
- return -1;
- }
- pthread_mutex_unlock(&this_thread->ThreadMutex);
- return 0;
-}
-
-
-/*
- * A function to ask a thread to exit
- * The thread must call CtdlThreadCheckStop() periodically to determine if it should exit
- */
-void CtdlThreadStop(struct CtdlThreadNode *thread)
-{
- struct CtdlThreadNode *this_thread;
-
- if (!thread)
- this_thread = CtdlThreadSelf();
- else
- this_thread = thread;
- if (!this_thread)
- return;
- if (!(this_thread->thread_func))
- return; // Don't stop garbage collector
-
-// begin_critical_section (S_THREAD_LIST);
- ctdl_thread_internal_change_state (this_thread, CTDL_THREAD_STOP_REQ);
-// pthread_mutex_lock(&this_thread->ThreadMutex);
- pthread_cond_signal(&this_thread->ThreadCond);
- pthread_cond_signal(&this_thread->SleepCond);
-// pthread_mutex_unlock(&this_thread->ThreadMutex);
-// end_critical_section(S_THREAD_LIST);
-}
-
-/*
- * So we now have a sleep command that works with threads but it is in seconds
- */
-void CtdlThreadSleep(int secs)
-{
- struct timespec wake_time;
- struct timeval time_now;
- struct CtdlThreadNode *self;
-
-
- self = CtdlThreadSelf();
- if (!self)
- {
- CtdlLogPrintf(CTDL_WARNING, "CtdlThreadSleep() called by something that is not a thread. Should we die?\n");
- return;
- }
-
- memset (&wake_time, 0, sizeof(struct timespec));
- gettimeofday(&time_now, NULL);
- wake_time.tv_sec = time_now.tv_sec + secs;
- wake_time.tv_nsec = time_now.tv_usec * 10;
-
-// begin_critical_section(S_THREAD_LIST);
- ctdl_thread_internal_change_state (self, CTDL_THREAD_SLEEPING);
-// end_critical_section(S_THREAD_LIST);
-
-// pthread_mutex_lock(&self->SleepMutex); /* Prevent something asking us to awaken before we've gone to sleep */
- pthread_mutex_lock(&self->ThreadMutex); /* Prevent something asking us to awaken before we've gone to sleep */
- pthread_cond_timedwait(&self->SleepCond, &self->ThreadMutex, &wake_time);
- pthread_mutex_unlock(&self->ThreadMutex);
-// pthread_mutex_unlock(&self->SleepMutex);
-
-// begin_critical_section(S_THREAD_LIST);
- ctdl_thread_internal_change_state (self, CTDL_THREAD_RUNNING);
-// end_critical_section(S_THREAD_LIST);
-}
-
-
-/*
- * Routine to clean up our thread function on exit
- */
-static void ctdl_internal_thread_cleanup(void *arg)
-{
- struct CtdlThreadNode *this_thread;
- this_thread = CtdlThreadSelf();
- /*
- * In here we were called by the current thread because it is exiting
- * NB. WE ARE THE CURRENT THREAD
- */
- CtdlLogPrintf(CTDL_NOTICE, "Thread \"%s\" (%ld) exited.\n", this_thread->name, this_thread->tid);
-// begin_critical_section(S_THREAD_LIST);
- #ifdef HAVE_BACKTRACE
- eCrash_UnregisterThread();
- #endif
- pthread_mutex_lock(&this_thread->ThreadMutex);
- this_thread->state = CTDL_THREAD_EXITED; // needs to be last thing else house keeping will unlink us too early
- pthread_mutex_unlock(&this_thread->ThreadMutex);
-// end_critical_section(S_THREAD_LIST);
-// CtdlThreadGC();
-}
-
-/*
- * A quick function to show the load averages
- */
-void ctdl_thread_internal_calc_loadavg(void)
-{
- struct CtdlThreadNode *that_thread;
- double load_avg, worker_avg;
- int workers = 0;
-
- that_thread = CtdlThreadList;
- load_avg = 0;
- worker_avg = 0;
- while(that_thread)
- {
- /* Update load averages */
- ctdl_thread_internal_update_avgs(that_thread);
- pthread_mutex_lock(&that_thread->ThreadMutex);
- that_thread->load_avg = that_thread->avg_sleeping + that_thread->avg_running + that_thread->avg_blocked;
- that_thread->load_avg = that_thread->avg_running / that_thread->load_avg * 100;
- that_thread->avg_sleeping /= 2;
- that_thread->avg_running /= 2;
- that_thread->avg_blocked /= 2;
- load_avg += that_thread->load_avg;
- if (that_thread->flags & CTDLTHREAD_WORKER)
- {
- worker_avg += that_thread->load_avg;
- workers++;
- }
-#ifdef WITH_THREADLOG
- CtdlLogPrintf(CTDL_DEBUG, "CtdlThread, \"%s\" (%ld) \"%s\" %f %f %f %f.\n",
- that_thread->name,
- that_thread->tid,
- CtdlThreadStates[that_thread->state],
- that_thread->avg_sleeping,
- that_thread->avg_running,
- that_thread->avg_blocked,
- that_thread->load_avg);
-#endif
- pthread_mutex_unlock(&that_thread->ThreadMutex);
- that_thread = that_thread->next;
- }
- CtdlThreadLoadAvg = load_avg/num_threads;
- CtdlThreadWorkerAvg = worker_avg/workers;
-#ifdef WITH_THREADLOG
- CtdlLogPrintf(CTDL_INFO, "System load average %f, workers averag %f, threads %d, workers %d, sessions %d\n", CtdlThreadLoadAvg, CtdlThreadWorkerAvg, num_threads, num_workers, num_sessions);
-#endif
-}
-
-
-/*
- * Garbage collection routine.
- * Gets called by main() in a loop to clean up the thread list periodically.
- */
-void CtdlThreadGC (void)
-{
- struct CtdlThreadNode *this_thread, *that_thread;
- int workers = 0;
-
- begin_critical_section(S_THREAD_LIST);
-
- /* Handle exiting of garbage collector thread */
- if(num_threads == 1)
- CtdlThreadList->state = CTDL_THREAD_EXITED;
-
-#ifdef WITH_THREADLOG
- CtdlLogPrintf(CTDL_DEBUG, "Thread system running garbage collection.\n");
-#endif
- /*
- * Woke up to do garbage collection
- */
- this_thread = CtdlThreadList;
- while(this_thread)
- {
- that_thread = this_thread;
- this_thread = this_thread->next;
-
- /* Do we need to clean up this thread? */
- pthread_mutex_lock(&that_thread->ThreadMutex);
- if (that_thread->state != CTDL_THREAD_EXITED)
- {
- if(that_thread->flags & CTDLTHREAD_WORKER)
- workers++; /* Sanity check on number of worker threads */
- pthread_mutex_unlock(&that_thread->ThreadMutex);
- continue;
- }
-
- if (pthread_equal(that_thread->tid, pthread_self()) && that_thread->thread_func)
- { /* Sanity check */
- pthread_mutex_unlock(&that_thread->ThreadMutex);
- end_critical_section(S_THREAD_LIST);
- CtdlLogPrintf(CTDL_EMERG, "Thread system PANIC, a thread is trying to clean up after itself.\n");
- abort();
- return;
- }
-
- if (num_threads <= 0)
- { /* Sanity check */
- pthread_mutex_unlock(&that_thread->ThreadMutex);
- end_critical_section(S_THREAD_LIST);
- CtdlLogPrintf(CTDL_EMERG, "Thread system PANIC, num_threads <= 0 and trying to do Garbage Collection.\n");
- abort();
- return;
- }
-
- if(that_thread->flags & CTDLTHREAD_WORKER)
- num_workers--; /* This is a wroker thread so reduce the count. */
- num_threads--;
- /* If we are unlinking the list head then the next becomes the list head */
- if (that_thread == CtdlThreadList)
- CtdlThreadList = that_thread->next;
- if(that_thread->prev)
- that_thread->prev->next = that_thread->next;
- if(that_thread->next)
- that_thread->next->prev = that_thread->next;
-
- pthread_mutex_unlock(&that_thread->ThreadMutex);
- pthread_cond_signal(&that_thread->ThreadCond);
- pthread_cond_signal(&that_thread->SleepCond); // Make sure this thread is awake
- pthread_mutex_lock(&that_thread->ThreadMutex); // Make sure it has done what its doing
- pthread_mutex_unlock(&that_thread->ThreadMutex);
- /*
- * Join on the thread to do clean up and prevent memory leaks
- * Also makes sure the thread has cleaned up after itself before we remove it from the list
- * If that thread has no function it must be the garbage collector
- */
- if (that_thread->thread_func)
- pthread_join (that_thread->tid, NULL);
-
- /*
- * Now we own that thread entry
- */
- CtdlLogPrintf(CTDL_INFO, "Garbage Collection for thread \"%s\" (%ld).\n", that_thread->name, that_thread->tid);
- if(that_thread->name)
- free(that_thread->name);
- pthread_mutex_destroy(&that_thread->ThreadMutex);
- pthread_cond_destroy(&that_thread->ThreadCond);
- pthread_mutex_destroy(&that_thread->SleepMutex);
- pthread_cond_destroy(&that_thread->SleepCond);
- pthread_attr_destroy(&that_thread->attr);
- free(that_thread);
- }
-
- /* Sanity check number of worker threads */
- if (workers != num_workers)
- {
- end_critical_section(S_THREAD_LIST);
- CtdlLogPrintf(CTDL_EMERG,
- "Thread system PANIC, discrepancy in number of worker threads. Counted %d, should be %d.\n",
- workers, num_workers
- );
- abort();
- }
- end_critical_section(S_THREAD_LIST);
-}
-
-
-
-
-/*
- * Runtime function for a Citadel Thread.
- * This initialises the threads environment and then calls the user supplied thread function
- * Note that this is the REAL thread function and wraps the users thread function.
- */
-static void *ctdl_internal_thread_func (void *arg)
-{
- struct CtdlThreadNode *this_thread;
- void *ret = NULL;
-
- /* lock and unlock the thread list.
- * This causes this thread to wait until all its creation stuff has finished before it
- * can continue its execution.
- */
- begin_critical_section(S_THREAD_LIST);
- this_thread = (struct CtdlThreadNode *) arg;
- gettimeofday(&this_thread->start_time, NULL); /* Time this thread started */
- pthread_mutex_lock(&this_thread->ThreadMutex);
-
- // Register the cleanup function to take care of when we exit.
- pthread_cleanup_push(ctdl_internal_thread_cleanup, NULL);
- // Get our thread data structure
- this_thread->pid = getpid();
- memcpy(&this_thread->last_state_change, &this_thread->start_time, sizeof (struct timeval)); /* Changed state so mark it. */
- /* Only change to running state if we weren't asked to stop during the create cycle
- * Other wise there is a window to allow this threads creation to continue to full grown and
- * therby prevent a shutdown of the server.
- */
- pthread_mutex_unlock(&this_thread->ThreadMutex);
-
- if (!CtdlThreadCheckStop(this_thread))
- {
- pthread_mutex_lock(&this_thread->ThreadMutex);
- this_thread->state = CTDL_THREAD_RUNNING;
- pthread_mutex_unlock(&this_thread->ThreadMutex);
- }
- end_critical_section(S_THREAD_LIST);
-
- // Register for tracing
- #ifdef HAVE_BACKTRACE
- eCrash_RegisterThread(this_thread->name, 0);
- #endif
-
- // Tell the world we are here
- CtdlLogPrintf(CTDL_NOTICE, "Created a new thread \"%s\" (%ld). \n", this_thread->name, this_thread->tid);
-
-
-
- /*
- * run the thread to do the work but only if we haven't been asked to stop
- */
- if (!CtdlThreadCheckStop(this_thread))
- ret = (this_thread->thread_func)(this_thread->user_args);
-
- /*
- * Our thread is exiting either because it wanted to end or because the server is stopping
- * We need to clean up
- */
- pthread_cleanup_pop(1); // Execute our cleanup routine and remove it
-
- return(ret);
-}
-
-
-
-/*
- * Internal function to create a thread.
- * Must be called from within a S_THREAD_LIST critical section
- */
-struct CtdlThreadNode *ctdl_internal_create_thread(char *name, long flags, void *(*thread_func) (void *arg), void *args)
-{
- int ret = 0;
- struct CtdlThreadNode *this_thread;
- int sigtrick = 0;
- sigset_t old_signal_set;
-
- if (num_threads >= 32767)
- {
- CtdlLogPrintf(CTDL_EMERG, "Thread system. Thread list full.\n");
- return NULL;
- }
-
- this_thread = malloc(sizeof(struct CtdlThreadNode));
- if (this_thread == NULL) {
- CtdlLogPrintf(CTDL_EMERG, "Thread system, can't allocate CtdlThreadNode, exiting\n");
- return NULL;
- }
- // Ensuring this is zero'd means we make sure the thread doesn't start doing its thing until we are ready.
- memset (this_thread, 0, sizeof(struct CtdlThreadNode));
-
- /* Create the mutex's early so we can use them */
- pthread_mutex_init (&(this_thread->ThreadMutex), NULL);
- pthread_cond_init (&(this_thread->ThreadCond), NULL);
- pthread_mutex_init (&(this_thread->SleepMutex), NULL);
- pthread_cond_init (&(this_thread->SleepCond), NULL);
-
- pthread_mutex_lock(&this_thread->ThreadMutex);
-
- this_thread->state = CTDL_THREAD_CREATE;
-
- if ((ret = pthread_attr_init(&this_thread->attr))) {
- pthread_mutex_unlock(&this_thread->ThreadMutex);
- pthread_mutex_destroy(&(this_thread->ThreadMutex));
- pthread_cond_destroy(&(this_thread->ThreadCond));
- pthread_mutex_destroy(&(this_thread->SleepMutex));
- pthread_cond_destroy(&(this_thread->SleepCond));
- CtdlLogPrintf(CTDL_EMERG, "Thread system, pthread_attr_init: %s\n", strerror(ret));
- free(this_thread);
- return NULL;
- }
-
- /* Our per-thread stacks need to be bigger than the default size,
- * otherwise the MIME parser crashes on FreeBSD, and the IMAP service
- * crashes on 64-bit Linux.
- */
- if (flags & CTDLTHREAD_BIGSTACK)
- {
- CtdlLogPrintf(CTDL_INFO, "Thread system. Creating BIG STACK thread.\n");
- if ((ret = pthread_attr_setstacksize(&this_thread->attr, THREADSTACKSIZE))) {
- pthread_mutex_unlock(&this_thread->ThreadMutex);
- pthread_mutex_destroy(&(this_thread->ThreadMutex));
- pthread_cond_destroy(&(this_thread->ThreadCond));
- pthread_mutex_destroy(&(this_thread->SleepMutex));
- pthread_cond_destroy(&(this_thread->SleepCond));
- pthread_attr_destroy(&this_thread->attr);
- CtdlLogPrintf(CTDL_EMERG, "Thread system, pthread_attr_setstacksize: %s\n",
- strerror(ret));
- free(this_thread);
- return NULL;
- }
- }
-
- /*
- * If we got here we are going to create the thread so we must initilise the structure
- * first because most implimentations of threading can't create it in a stopped state
- * and it might want to do things with its structure that aren't initialised otherwise.
- */
- if(name)
- {
- this_thread->name = strdup(name);
- }
- else
- {
- this_thread->name = strdup("Un-named Thread");
- }
-
- this_thread->flags = flags;
- this_thread->thread_func = thread_func;
- this_thread->user_args = args;
- /* Set this new thread with an avg_blocked of 2. We do this so that its creation affects the
- * load average for the system. If we don't do this then we create a mass of threads at the same time
- * because the creation didn't affect the load average.
- */
- this_thread->avg_blocked = 2;
-
- /*
- * We want to make sure that only the main thread handles signals,
- * so that each signal is handled exactly once. To do this, we
- * make sure that each new thread has all the signals that we
- * handle blocked. To avoid race conditions, we block them in
- * the spawning thread first, then create the new thread (which
- * inherits the settings), and then restore the old settings in
- * the spawning thread. This means that there is a brief period
- * when no signals will be processed, but during that time they
- * should be queued by the operating system.
- */
- if (pthread_equal(GC_thread, pthread_self()))
- sigtrick = ctdl_thread_internal_block_signals(&old_signal_set) == 0;
-
- /*
- * We pass this_thread into the thread as its args so that it can find out information
- * about itself and it has a bit of storage space for itself, not to mention that the REAL
- * thread function needs to finish off the setup of the structure
- */
- if ((ret = pthread_create(&this_thread->tid, &this_thread->attr, ctdl_internal_thread_func, this_thread) != 0))
- {
-
- CtdlLogPrintf(CTDL_ALERT, "Thread system, Can't create thread: %s\n",
- strerror(ret));
- if (this_thread->name)
- free (this_thread->name);
- pthread_mutex_destroy(&(this_thread->ThreadMutex));
- pthread_cond_destroy(&(this_thread->ThreadCond));
- pthread_mutex_destroy(&(this_thread->SleepMutex));
- pthread_cond_destroy(&(this_thread->SleepCond));
- pthread_attr_destroy(&this_thread->attr);
- free(this_thread);
- if (sigtrick)
- ctdl_thread_internal_restore_signals(&old_signal_set);
- return NULL;
- }
-
- if (sigtrick)
- ctdl_thread_internal_restore_signals(&old_signal_set);
-
- num_threads++; // Increase the count of threads in the system.
- if(this_thread->flags & CTDLTHREAD_WORKER)
- num_workers++;
-
- this_thread->next = CtdlThreadList;
- CtdlThreadList = this_thread;
- if (this_thread->next)
- this_thread->next->prev = this_thread;
-
- pthread_mutex_unlock(&this_thread->ThreadMutex);
-
- ctdl_thread_internal_calc_loadavg();
- return this_thread;
-}
-
-/*
- * Wrapper function to create a thread
- * ensures the critical section and other protections are in place.
- * char *name = name to give to thread, if NULL, use generic name
- * int flags = flags to determine type of thread and standard facilities
- */
-struct CtdlThreadNode *CtdlThreadCreate(char *name, long flags, void *(*thread_func) (void *arg), void *args)
-{
- struct CtdlThreadNode *ret = NULL;
-
- begin_critical_section(S_THREAD_LIST);
- ret = ctdl_internal_create_thread(name, flags, thread_func, args);
- end_critical_section(S_THREAD_LIST);
- return ret;
-}
-
-
-
-/*
- * A warapper function for select so we can show a thread as blocked
- */
-int CtdlThreadSelect(int n, fd_set *readfds, fd_set *writefds, fd_set *exceptfds, const struct timeval *timeout, struct CtdlThreadNode *self)
-{
- int ret;
-
- ctdl_thread_internal_change_state(self, CTDL_THREAD_BLOCKED);
- ret = select(n, readfds, writefds, exceptfds, timeout);
- ctdl_thread_internal_change_state(self, CTDL_THREAD_RUNNING);
- return ret;
-}
-
/*
* Purge all sessions which have the 'kill_me' flag set.
* This function has code to prevent it from running more than once every
-
-
/*
* Bind a thread to a context. (It's inline merely to speed things up.)
*/
INLINE void become_session(struct CitContext *which_con) {
- pthread_setspecific(MyConKey, (void *)which_con );
+ citthread_setspecific(MyConKey, (void *)which_con );
}
/*
* This loop just keeps going and going and going...
- */
+ */
+/*
+ * FIXME:
+ * This current implimentation of worker_thread creates a bottle neck in several situations
+ * The first thing to remember is that a single thread can handle more than one connection at a time.
+ * More threads mean less memory for the system to run in.
+ * So for efficiency we want every thread to be doing something useful or waiting in the main loop for
+ * something to happen anywhere.
+ * This current implimentation requires worker threads to wait in other locations, after it has
+ * been committed to a single connection which is very wasteful.
+ * As an extreme case consider this:
+ * A slow client connects and this slow client sends only one character each second.
+ * With this current implimentation a single worker thread is dispatched to handle that connection
+ * until such times as the client timeout expires, an error occurs on the socket or the client
+ * completes its transmission.
+ * THIS IS VERY BAD since that thread could have handled a read from many more clients in each one
+ * second interval between chars.
+ *
+ * It is my intention to re-write this code and the associated client_getln, client_read functions
+ * to allow any thread to read data on behalf of any connection (context).
+ * To do this I intend to have this main loop read chars into a buffer stored in the context.
+ * Once the correct criteria for a full buffer is met then we will dispatch a thread to
+ * process it.
+ * This worker thread loop also needs to be able to handle binary data.
+ */
+
void *worker_thread(void *arg) {
int i;
int highest;
int force_purge = 0;
int m;
- CT_PUSH();
-
- cdb_allocate_tsd();
- while (!CtdlThreadCheckStop(CT)) {
+ while (!CtdlThreadCheckStop()) {
/* make doubly sure we're not holding any stale db handles
* which might cause a deadlock.
}
}
- if (!CtdlThreadCheckStop(CT)) {
+ if (!CtdlThreadCheckStop()) {
tv.tv_sec = 1; /* wake up every second if no input */
tv.tv_usec = 0;
- retval = CtdlThreadSelect(highest + 1, &readfds, NULL, NULL, &tv, CT);
+ retval = CtdlThreadSelect(highest + 1, &readfds, NULL, NULL, &tv);
}
-
- if (CtdlThreadCheckStop(CT)) return(NULL);
+ else
+ return NULL;
/* Now figure out who made this select() unblock.
* First, check for an error or exit condition.
if (errno != EINTR) {
CtdlLogPrintf(CTDL_EMERG, "Exiting (%s)\n", strerror(errno));
CtdlThreadStopAll();
- } else if (!CtdlThreadCheckStop(CT)) {
- CtdlLogPrintf(CTDL_DEBUG, "Un handled select failure.\n");
+ } else {
+ CtdlLogPrintf(CTDL_DEBUG, "Interrupted CtdlThreadSelect.\n");
+ if (CtdlThreadCheckStop()) return(NULL);
goto do_select;
}
}
-// else if(retval == 0) {
-// goto SKIP_SELECT;
-// }
+ else if(retval == 0) {
+ if (CtdlThreadCheckStop()) return(NULL);
+ goto SKIP_SELECT;
+ }
/* Next, check to see if it's a new client connecting
* on a master socket.
*/