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#include "socket-common.h"
#include "response.h"
#include "lcd.h"
#include "flash.h"
#include "globals.h"
#include "bus.h"
#include "device-functions.h"
#include "nicutils.h"
#include "monitor.h"
#include "menus.h"
#include "gpib.h"
#include "parser.h"
#include <stdlib.h>
#include <ctype.h>
#include <glib.h>
#include <fcntl.h>
#define STDIN_BUF_SIZE 1024
static gboolean periodic_poll (void);
static gboolean finish_boot (void);
int port=3333; //port to listen
int maxConn=8; //max connections - 8
guint signalMyCb; //signal to register which is used in cbClientInput(), step 10 from requirements
GAsyncQueue** stdinQueue=NULL;
GThread **peers; //actual connected peers
void send_message(gchar* message)
{
if(NULL == message) {
return;
}
int count=0;
gssize size = strlen(message);
if(!size) {
return;
}
//send the final buffer to the queue
for(count=0; count<maxConn; count++) {
//allocate on the heap and deallocate in response.c, cbClientOutput()
char *toSend = realloc(NULL, size+1);
memcpy(toSend, message, size+1);
//make sure we send to only valid peers
if(peers[count] != 0) {
g_async_queue_push(stdinQueue[count], toSend);
}
}
}
/** pulls an integer position from the vector which contains the
position to use for the stdinQueue vector
@param id - the thread id
*/
static int pullIndex(GThread* id)
{
int i=0,ret=-1;
static GStaticMutex mutex = G_STATIC_MUTEX_INIT;
g_static_mutex_lock (&mutex);
for(i=0; i<maxConn; i++)
if(peers[i] == id) {
peers[i] = (GThread*)0;
ret=i;
break;
}
g_static_mutex_unlock (&mutex);
return ret;
}
/**
* pushed in the peers vector the thread id for future reference
* @param id
*/
static int pushIndex(GThread* id)
{
int i=0,ret=-1;
static GStaticMutex mutex = G_STATIC_MUTEX_INIT;
g_static_mutex_lock (&mutex);
for(i=0; i<maxConn; i++)
if(peers[i] == 0) {
peers[i] = id;
ret=i;
break;
}
g_static_mutex_unlock (&mutex);
return ret;
}
//handler for incoming connection, closes the connection if maxCon connections are already handled
static gboolean
incomingConnection (GSocketService *service,
GSocketConnection *connection,
GSocketListener *listener,
gpointer user_data)
{
if(globals.Remote.connections +1 > maxConn) {
g_print_debug("Connection closed. Max reached\n");
return TRUE;
}
globals.Remote.connections++;
g_print_debug("Incoming connection\n");
return FALSE;
}
//thread connection handler
static gboolean
handler (GThreadedSocketService *service,
GSocketConnection *connection,
GSocketListener *listener,
gpointer user_data)
{
GOutputStream *out;
GInputStream *in;
out = g_io_stream_get_output_stream (G_IO_STREAM (connection));
in = g_io_stream_get_input_stream (G_IO_STREAM (connection));
g_print_debug("Handling %d connections\n", globals.Remote.connections);
//register ourselves in the peers vector, use the index obtained in the stdinQueue
//should not get -1
GThread* self = g_thread_self();
int index=pushIndex(self);
GSource *outSource = NULL;
GSource *inSource = g_pollable_input_stream_create_source((struct GPollableInputStream*)in, NULL);
//get a reference to the async queue
GAsyncQueue *queue = g_async_queue_ref(stdinQueue[index]);
//input from client
g_source_set_callback(inSource, cbClientInput, (GPollableOutputStream*)out, NULL);
g_source_attach(inSource, NULL);
//keep thread alive, every 1000 microseconds
while(g_source_is_destroyed(inSource)==FALSE) {
g_usleep(1000);
gint elems;
//verify our queue length and activate/deactivate the "out" Source for this connection
//if we don't do this, the out Source will be scheduled frequently and will busy loop
if((elems=g_async_queue_length(queue))>0) {
if(outSource == NULL) {
outSource = g_pollable_output_stream_create_source((struct GPollableOutputStream*)out, NULL);
g_source_set_callback(outSource, cbClientOutput, queue, NULL);
g_source_attach(outSource, NULL);
} else {
g_source_destroy(outSource);
g_source_unref(outSource);
outSource = NULL;
}
} else {
if(outSource!= NULL && !g_source_is_destroyed(outSource)) {
g_print_debug("Destroy source\n");
g_source_destroy(outSource);
g_source_unref(outSource);
outSource = NULL; //added
}
}
//end of activate/deactivate
}
//reached the end of the thread
if (g_output_stream_close(out, NULL, NULL) == FALSE) {
g_print_debug("out not closed\n");
}
if (g_input_stream_close(in, NULL, NULL) == FALSE) {
g_print_debug("in not closed\n");
}
g_print_debug("Thread end\n");
globals.Remote.connections--; //keep track of connections
g_async_queue_unref(queue); //unreference the queue
pullIndex(g_thread_self()); //unregister from the peers vector
return TRUE;
}
int main(int argc, char **argv)
{
GSocketService *service = NULL;
GError *error = NULL;
GIOChannel* stdinChannel = NULL;
g_type_init ();
g_thread_init (NULL);
bus_init();
LCD_initialize();
LCD_write(0,0,"Starting...");
initFlash (&globals.Flash, FALSE, 0);
gchar *message = g_strdup_printf ("%s, S/N %s", globals.Flash.model_num, globals.Flash.serial_num);
LCD_display_extended_message (message, FALSE, FALSE);
g_free (message);
int i;
for (i=0; i<8; i++) {
set_dac(i,globals.Flash.initial_dac_settings[i]);
}
fixFlash(&globals.Flash);
// count startups
if (globals.Flash.self_cal) {
++globals.Flash.self_cal_startups;
int eprom_loc = (char *) &(globals.Flash.self_cal_startups) - (char *) &(globals.Flash.flash_start);
writeUserBlock(&globals.Flash, eprom_loc, sizeof(globals.Flash.self_cal_startups));
}
nicinfo info;
strcpy(info.ip,"-");
nicutils_infofordefaultroute(&info);
message = g_strdup_printf ("GPIB addr %d, Eth addr %s", globals.Flash.gpib_address,info.ip);
LCD_write(2,0,message);
g_free (message);
GPIB_initialize();
IO_Setup_RS232( globals.Flash.baud,
globals.Flash.hardhand,
FALSE);
/* start-up delay */
LCD_write(3,0,"Warming up, please wait... ");
globals.Timers.startup_timer_value = sec_timer ();
Main_Rst();
//register stdin channel
stdinChannel = g_io_channel_unix_new(0);
if(stdinChannel == NULL) {
g_printerr("No io channel\n");
exit(-1);
}
int idx=0;
//allocate a maxConn queue on the heap
stdinQueue = malloc(sizeof(struct GAsyncQueue*) * maxConn);
//allocate peers vector on the heap
peers = malloc(sizeof(GThread*) * maxConn);
for(idx=0; idx<maxConn; idx++) {
peers[idx] = 0;
stdinQueue[idx] = g_async_queue_new();
}
//create a threaded service
service = g_threaded_socket_service_new (maxConn+1);
if (!g_socket_listener_add_inet_port (G_SOCKET_LISTENER (service),
port,
NULL,
&error)) {
g_printerr ("%s: %s\n", argv[0], error->message);
free(stdinQueue);
free(peers);
return 1;
}
//init the signal signalMyCb
initSignals(&signalMyCb);
g_print_debug("Server listening on port %d\n", port);
g_signal_connect (service, "run", G_CALLBACK (handler), NULL);
g_signal_connect (service, "incoming", G_CALLBACK(incomingConnection), NULL);
GMainLoop *loop = g_main_loop_new (NULL, FALSE);
g_timeout_add (20, (GSourceFunc) periodic_poll, NULL);
g_timeout_add (100, (GSourceFunc) finish_boot, NULL);
g_main_loop_run (loop);
bus_shutdown();
free(stdinQueue);
free(peers);
return 0;
}
static gboolean finish_boot (void) {
#define MIN_STARTUP_DELAY 2
#define MAX_STARTUP_DELAY 120
long on_delay = (long)globals.Flash.turn_on_dly;
if (on_delay < MIN_STARTUP_DELAY) {
on_delay = MIN_STARTUP_DELAY;
}
if (on_delay > MAX_STARTUP_DELAY) {
on_delay = MAX_STARTUP_DELAY;
}
long timer_count;
if ((timer_count=sec_timer()-globals.Timers.startup_timer_value) < on_delay) {
gchar *message = g_strdup_printf ("%ld ", on_delay - timer_count);
LCD_write(3,27,message);
g_free (message);
return TRUE; // exit and call by timeout again
}
LCD_write(3,27,"OK");
I2C_Setup_Monitor();
Show_Main_Menu();
// FIXME - self-cal here - or in thread beside user sessions?
globals.Flags.startup_complete = 1;
return FALSE; // no more calls to this function are needed
}
static gboolean periodic_poll (void)
{
if (globals.HWDetect.beaglebone && bus_getpin (POWER_FAIL)) {
globals.Flags.shutdown_started = TRUE;
while (globals.Flags.flash_write_in_progress) {
g_usleep(1000);
}
LCD_clear();
LCD_write(0,0,"PWR: If frozen >10sec, turn off 1min &");
LCD_write(1,0,"try again.");
// use plain old open to avoid any buffering etc
int enablefd = open("/proc/sys/kernel/sysrq", O_SYNC | O_RDWR);
int trgfd = open("/proc/sysrq-trigger", O_SYNC | O_RDWR);
// enable sysrq
write(enablefd, "1\n", 2);
close(enablefd);
// sync disks
write(trgfd, "s\n", 2);
// remount ro
write(trgfd, "u\n", 2);
close(trgfd);
// poweroff
system ("/usr/bin/systemctl poweroff -f");
exit(0);
}
if (globals.Flags.startup_complete) {
int i, output_on_time_so_far;
for (i=0; i<(globals.Flash.ChanKey_output_state?globals.Flash.channels:1); ++i) {
output_on_time_so_far = (int) (sec_timer()-globals.Timers.last_activity_at[i]);
if ( (globals.Flash.output_timer[i]>0) &&
(globals.Timers.last_activity_at[i]>0) &&
(output_on_time_so_far > globals.Flash.output_timer[i])) {
Set_Output_State(i,output_off);
Show_Main_Menu();
}
}
Update_Main_Menu_If_Visible();
Menu_Check_Buttons ();
for (i=0; i<max_channels; i++) {
if (globals.Flash.monitor_enabled[i]) {
I2C_Check_Monitors();
}
}
Update_Main_Menu_If_Visible();
GPIB_check_for_device_clear_signal();
if (GPIB_check_for_messages(globals.Registers.gpib_buffer)) {
if (GPIB_handle_new_input(globals.Registers.gpib_buffer)) {
Parser_main(globals.Registers.gpib_buffer, 0, GPIB_send_query_response, NULL);
}
}
GPIB_check_for_device_clear_signal();
Update_Main_Menu_If_Visible();
}
return TRUE;
}
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