retval_t commhub_sync(){
retval_t rv;
frame_t cmd = DECLARE_FRAME_BYTES(CMD_F_SYNC_H, CMD_F_SYNC_L);
frame_t answer = DECLARE_FRAME_SPACE(2);
uint16_t response;
uint8_t i;
for (i=0; i < F_RESYNC_TIMES; ++i){
frame_reset(&cmd);
frame_reset(&answer);
rv = channel_transact(ch_fpga_ctrl, &cmd, 0, &answer);
SUCCESS_OR_RETURN(rv);
frame_reset_for_reading(&answer);
frame_get_u16(&answer, &response);
if (response == F_SYNC_RESPONSE) {
return RV_SUCCESS;
}
}
return RV_TIMEOUT;
}
void binary_save_frame (BinaryData *binary, unsigned long int start_offset, unsigned long int cur_offset)
{
char bmp_filename[1024];
static unsigned int frame_id = 0;
sprintf (bmp_filename, "%s/%s/%d_%s_FFT_0x%lx-0x%lx.bmp",
binary->output_folder, binary->path, frame_id++, binary->name, start_offset, cur_offset);
// Convert frame to complex matrix and compute FFT
COMPLEX **c = frame_to_complex (binary->frame);
FFT2D (c, binary->frame->size, binary->frame->size, 1);
// Output to bmp
bmpfile_t *bmp = complex_to_bmp (c, binary->frame->size);
bmp_save (bmp, bmp_filename);
// Cleaning
bmp_destroy (bmp);
frame_reset (binary->frame);
}
// process() is called to process the button, which amounts to:
// If mouse is over button, hilight it
// If highlighted and mouse button down, flag button as down
// If hotkey pressed, flag button as down
// If hotkey_if_focus pressed, and button has focus, flag button as down
// Set various BF_JUST_* flags if events changed from last frame
//
void UI_BUTTON::process(int focus)
{
int mouse_on_me, old_flags;
old_flags = m_flags;
frame_reset();
// check mouse over control and handle hilighting state
mouse_on_me = is_mouse_on();
// if gadget is disabled, force button up and return
if (disabled_flag) {
if (old_flags & BF_DOWN){
m_flags |= BF_JUST_RELEASED;
}
if (!hidden && !my_wnd->use_hack_to_get_around_stupid_problem_flag) {
if (mouse_on_me && B1_JUST_PRESSED){
gamesnd_play_iface(SND_GENERAL_FAIL);
}
if ( (hotkey >= 0) && (my_wnd->keypress == hotkey) ){
gamesnd_play_iface(SND_GENERAL_FAIL);
}
}
// do callback if the button is disabled
if (mouse_on_me && B1_JUST_PRESSED){
if (m_disabled_function != NULL) {
m_disabled_function();
}
}
return;
}
// check focus and derived focus with one variable
if (my_wnd->selected_gadget == this) {
focus = 1;
}
// show alternate cursor, perhaps?
maybe_show_custom_cursor();
if ( !mouse_on_me ) {
next_repeat = 0;
} else {
m_flags |= BF_HIGHLIGHTED;
if ( !(old_flags & BF_HIGHLIGHTED) ) {
int do_callback = 1;
m_flags |= BF_JUST_HIGHLIGHTED;
// if a callback exists, call it
if (m_just_highlighted_function) {
if ( m_flags & BF_SKIP_FIRST_HIGHLIGHT_CALLBACK ) {
if ( first_callback ) {
do_callback = 0;
}
}
first_callback = 0;
if ( do_callback ) {
m_just_highlighted_function();
}
}
}
}
// check if mouse is pressed
if ( B1_PRESSED && mouse_on_me ) {
m_flags |= BF_DOWN;
capture_mouse();
}
// check if hotkey is down or not
if ( (hotkey >= 0) && (my_wnd->keypress == hotkey) ) {
m_flags |= BF_DOWN | BF_CLICKED;
}
// only check for space/enter keystrokes if we are not ignoring the focus (this is the
// default behavior)
if ( !(m_flags & BF_IGNORE_FOCUS) ) {
if ( focus && (hotkey_if_focus >= 0) ) {
if (my_wnd->keypress == hotkey_if_focus)
m_flags |= BF_DOWN | BF_CLICKED;
if ( (hotkey_if_focus == KEY_SPACEBAR) && (my_wnd->keypress == KEY_ENTER) )
m_flags |= BF_DOWN | BF_CLICKED;
}
}
// handler for button not down
if ( !(m_flags & BF_DOWN) ) {
next_repeat = 0;
if ( (old_flags & BF_DOWN) && !(old_flags & BF_CLICKED) ) // check for release of mouse, not hotkey
m_flags |= BF_JUST_RELEASED;
// non-repeating buttons behave sort of uniquely.. They activate when released over button
if (!(m_flags & BF_REPEATS)) {
if ( (m_flags & BF_JUST_RELEASED) && (m_flags & BF_HIGHLIGHTED) )
m_flags |= BF_CLICKED;
}
return;
}
// check if button just went down this frame
if ( !(old_flags & BF_DOWN) ) {
m_flags |= BF_JUST_PRESSED;
m_press_linger = timestamp(100);
if (user_function)
user_function();
if (m_flags & BF_REPEATS) {
next_repeat = timestamp(B_REPEAT_TIME * 3);
m_flags |= BF_CLICKED;
}
}
// check if a repeat event should occur
if ( timestamp_elapsed(next_repeat) && (m_flags & BF_REPEATS) ) {
next_repeat = timestamp(B_REPEAT_TIME);
m_flags |= BF_CLICKED;
m_press_linger = timestamp(100);
}
// check for double click occurance
if (B1_DOUBLE_CLICKED && mouse_on_me) {
m_flags |= BF_DOUBLE_CLICKED;
m_press_linger = timestamp(100);
}
}
int
frame_skip()
{
static int frame_rate_cnt = FRAME_RATE;
#ifdef VITA
if (u_base == 0) {
u_base = sceKernelGetProcessTimeWide();
return 0;
}
u_base+=u_frm;
if (num_skips>=10)
{
num_skips=0;
frame_reset();
return 1;
}
if (num_skips) {
num_skips--;
return 1;
}
u_ref = sceKernelGetProcessTimeWide();
/* If not there yet */
if (u_ref<u_base)
{
sceKernelDelayThread((u_base-u_ref));
if ((frame_rate_cnt-=frames_per_second)<=0)
{
frame_rate_cnt+=FRAME_RATE;
return 0;
}
else
return 1;
}
else {
num_skips=(u_ref-u_base)/u_frm;
return 0;
}
#else
if (base.tv_sec==0)
{
gettimeofday(&base, NULL);
u_base=(base.tv_sec*USC)+base.tv_usec;
return 0;
}
u_base+=u_frm;
if (num_skips>=10)
{
num_skips=0;
frame_reset();
return 1;
}
if (num_skips) {
num_skips--;
return 1;
}
gettimeofday(&ref, NULL);
u_ref=(ref.tv_sec*USC)+ref.tv_usec;
/* If not there yet */
if (u_ref<u_base)
{
usleep((u_base-u_ref));
if ((frame_rate_cnt-=frames_per_second)<=0)
{
frame_rate_cnt+=FRAME_RATE;
return 0;
}
else
return 1;
}
else {
num_skips=(u_ref-u_base)/u_frm;
return 0;
}
#endif
}
void tinymac_recvnode(void)
{
TiCc2420Adapter * cc;
TiFrameRxTxInterface * rxtx;;
TiTinyMAC * mac;
TiTimerAdapter *timer;
TiFrame * rxbuf;
char * msg = "welcome to tinymac recv test...";
int len=0;
target_init();
// flash the led to indicate the software is successfully running now.
//
led_open();
led_on( LED_ALL );
hal_delay( 500 );
led_off( LED_ALL );
led_on( LED_RED );
// initialize the runtime library for debugging input/output and assertion
// hal_assert_report is defined in module "hal_assert"
//
//dbo_open( 38400 );
rtl_init( (void *)dbio_open(38400), (TiFunDebugIoPutChar)dbio_putchar, (TiFunDebugIoGetChar)dbio_getchar, hal_assert_report );
dbc_putchar( 0xF0 );
dbc_mem( msg, strlen(msg) );
cc = cc2420_construct( (void *)(&m_cc), sizeof(TiCc2420Adapter) );
mac = tinymac_construct((char *)(&m_tiny), sizeof(TiTinyMAC));
timer= timer_construct((char *)(&m_timer),sizeof(TiTimerAdapter));
#ifdef CONFIG_TSET_LISTENER
// cc = cc2420_open( cc, 0, _aloha_listener, NULL, 0x00 );
cc = cc2420_open( cc, 0, tinymac_evolve, mac, 0x00 );
rxtx = cc2420_interface( cc, &m_rxtx );
mac = tinymac_open( mac, rxtx, CONFIG_CHANNEL, CONFIG_PANID, CONFIG_LOCAL_ADDRESS,
timer, _tinymac_listener, NULL,0x00 );
#endif
#ifndef CONFIG_TSET_LISTENER
cc = cc2420_open( cc, 0, NULL, NULL, 0x00 );
rxtx = cc2420_interface( cc, &m_rxtx );
mac = tinymac_open( mac, rxtx, CONFIG_CHANNEL, CONFIG_PANID, CONFIG_LOCAL_ADDRESS, NULL, NULL,0x00 );
#endif
cc2420_setchannel( cc, CONFIG_CHANNEL );
cc2420_setrxmode( cc ); // enable RX mode
cc2420_setpanid( cc, CONFIG_PANID ); // network identifier, seems no use in sniffer mode
cc2420_setshortaddress( cc, CONFIG_LOCAL_ADDRESS ); // in network address, seems no use in sniffer mode
cc2420_enable_autoack( cc );
#ifdef CONFIG_TEST_ADDRESSRECOGNITION
cc2420_enable_addrdecode( cc );
#else
cc2420_disable_addrdecode( cc );
#endif
#ifdef CONFIG_TEST_ACK
cc2420_enable_autoack( cc );
#endif
rxbuf = frame_open( (char*)(&m_rxbufmem), FRAME_HOPESIZE(MAX_IEEE802FRAME154_SIZE), 3, 20, 0 );
#ifdef CONFIG_TEST_ACK
//fcf = OPF_DEF_FRAMECONTROL_DATA_ACK;
#else
//fcf = OPF_DEF_FRAMECONTROL_DATA_NOACK;
#endif
hal_enable_interrupts();
/* Wait for listener action. The listener function will be called by the TiCc2420Adapter
* object when a frame arrives */
#ifdef CONFIG_TEST_LISTENER
while (1) {}
#endif
/* Query the TiCc2420Adapter object if there's no listener */
#ifndef CONFIG_TEST_LISTENER
while(1)
{
frame_reset( rxbuf, 3, 20, 0 );
len = tinymac_recv( mac, rxbuf, 0x00 );
if (len > 0)
{
dbc_putchar( 0xF3 );
dbc_mem( frame_startptr(rxbuf), frame_length(rxbuf) );
//frame_moveouter( rxbuf );
//_output_frame( rxbuf, NULL );
//frame_moveinner( rxbuf );
led_off( LED_RED );
/* warning: You shouldn't wait too long in the while loop, or else
* you may encounter frame loss. However, the program should still
* work properly even the delay time is an arbitrary value. No error
* are allowed in this case.
*/
//hal_delay( 500 );
led_toggle( LED_RED );
//hal_delay( 500 );
}
tinymac_evolve(mac, NULL );
}
#endif
frame_close( rxbuf );
tinymac_close( mac );
cc2420_close( cc );
}
void recvnode(void)
{
TiCc2420Adapter * cc;
TiFrameRxTxInterface * rxtx;
TiNioAcceptor * nac;
TiAloha * mac;
TiTimerAdapter *timer;
TiTimerManager * vtm;
TiTimer * mac_timer;
TiFrame * rxbuf;
char * msg = "welcome to aloha recv test...";
int len=0;
target_init();
// flash the led to indicate the software is successfully running now.
//
led_open();
led_on( LED_ALL );
hal_delay( 500 );
led_off( LED_ALL );
//led_on( LED_RED );
// initialize the runtime library for debugging input/output and assertion
// hal_assert_report is defined in module "hal_assert"
//
//dbo_open( 38400 );
rtl_init( (void *)dbio_open(38400), (TiFunDebugIoPutChar)dbio_putchar, (TiFunDebugIoGetChar)dbio_getchar, hal_assert_report );
dbc_putchar( 0xF0 );
dbc_mem( msg, strlen(msg) );
cc = cc2420_construct( (void *)(&m_cc), sizeof(TiCc2420Adapter) );
nac = nac_construct( &m_nacmem[0], NAC_SIZE );
mac = aloha_construct( (char *)(&m_aloha), sizeof(TiAloha) );
timer= timer_construct(( char *)(&m_timer),sizeof(TiTimerAdapter));
vtm = vtm_construct( (void*)&m_vtm, sizeof(m_vtm) );
timer = timer_open( timer, 2, NULL, NULL, 0x00 );
vtm = vtm_open( vtm, timer, VTM_RESOLUTION );
mac_timer = vtm_apply( vtm );
vti_open( mac_timer, NULL, NULL );
#ifdef CONFIG_TSET_LISTENER
// cc = cc2420_open( cc, 0, _aloha_listener, NULL, 0x00 );
cc = cc2420_open( cc, 0, aloha_evolve, mac, 0x00 );
rxtx = cc2420_interface( cc, &m_rxtx );
mac = aloha_open( mac, rxtx, CONFIG_ALOHA_CHANNEL, CONFIG_ALOHA_PANID, CONFIG_ALOHA_LOCAL_ADDRESS,
mac_timer, _aloha_listener, NULL,0x00 );
#endif
#ifndef CONFIG_TSET_LISTENER
cc = cc2420_open( cc, 0, NULL, NULL, 0x00 );
rxtx = cc2420_interface( cc, &m_rxtx );
nac_open( nac, rxtx, CONFIG_NIOACCEPTOR_RXQUE_CAPACITY, CONFIG_NIOACCEPTOR_TXQUE_CAPACITY);
mac = aloha_open( mac, rxtx, nac,CONFIG_ALOHA_CHANNEL, CONFIG_ALOHA_PANID, CONFIG_ALOHA_LOCAL_ADDRESS,
mac_timer, NULL, NULL,0x00 );
#endif
cc2420_setchannel( cc, CONFIG_ALOHA_CHANNEL );
cc2420_setrxmode( cc ); // enable RX mode
cc2420_setpanid( cc, CONFIG_ALOHA_PANID ); // network identifier, seems no use in sniffer mode
cc2420_setshortaddress( cc, CONFIG_ALOHA_LOCAL_ADDRESS ); // in network address, seems no use in sniffer mode
cc2420_enable_autoack( cc );
cc2420_settxpower( cc, CC2420_POWER_1);//cc2420_settxpower( cc, CC2420_POWER_2);CC2420_POWER_1
#ifdef CONFIG_TEST_ADDRESSRECOGNITION
cc2420_enable_addrdecode( cc );
#else
cc2420_disable_addrdecode( cc );
#endif
#ifdef CONFIG_TEST_ACK
cc2420_enable_autoack( cc );
#endif
rxbuf = frame_open( (char*)(&m_rxbufmem), FRAME_HOPESIZE(MAX_IEEE802FRAME154_SIZE), 3, 20, 0 );
dbc_putchar(0x11);
#ifdef CONFIG_TEST_ACK
//fcf = OPF_DEF_FRAMECONTROL_DATA_ACK;
#else
//fcf = OPF_DEF_FRAMECONTROL_DATA_NOACK;
#endif
hal_enable_interrupts();
/* Wait for listener action. The listener function will be called by the TiCc2420Adapter
* object when a frame arrives */
#ifdef CONFIG_TEST_LISTENER
while (1) {}
#endif
/* Query the TiCc2420Adapter object if there's no listener */
#ifndef CONFIG_TEST_LISTENER
while(1)
{
char * ptr;//todo for testing
frame_reset( rxbuf, 3, 20, 0 );
len = aloha_recv( mac, rxbuf, 0x00 );
if (len > 0)
{
frame_moveouter( rxbuf );
_output_frame( rxbuf, NULL );
frame_moveinner( rxbuf );
/*
dbc_write( frame_startptr( rxbuf),frame_length( rxbuf));//todo for testing
ptr = frame_startptr( rxbuf);//todo for testing
dbc_putchar( 0xff);//todo for testing
dbc_uint8( ptr[ (frame_length( rxbuf)-2)]);//todo for testing
dbc_putchar( 0xff);//todo for testing
frame_moveinner( rxbuf );//todo for testing*/
//led_off( LED_RED );
/* warning: You shouldn't wait too long in the while loop, or else
* you may encounter frame loss. However, the program should still
* work properly even the delay time is an arbitrary value. No error
* are allowed in this case.
*/
//hal_delay( 500 );
led_toggle( LED_RED );
}
aloha_evolve(mac, NULL );
}
#endif
frame_close( rxbuf );
aloha_close( mac );
cc2420_close( cc );
}
//#if (TEST_CHOICE == 1)
void recvnode1(void)
{
TiCc2420Adapter * cc;
char * msg = "welcome to recvnode...";
TiFrame * rxbuf;
uint8 len;
target_init();
HAL_SET_PIN_DIRECTIONS();
wdt_disable();
led_open();
led_on( LED_RED );
hal_delay( 500 );
led_off( LED_ALL );
rtl_init( (void *)dbio_open(38400), (TiFunDebugIoPutChar)dbio_putchar, (TiFunDebugIoGetChar)dbio_getchar, hal_assert_report );
dbc_mem( msg, strlen(msg) );
cc = cc2420_construct( (void *)(&g_cc), sizeof(TiCc2420Adapter) );
cc2420_open( cc, 0, NULL, NULL, 0x00 );
cc2420_setchannel( cc, DEFAULT_CHANNEL );
cc2420_setrxmode( cc ); //Enable RX
cc2420_enable_addrdecode( cc ); //使能地址译码
//cc2420_disable_addrdecode(cc);
#ifdef TEST_ACK
cc2420_enable_autoack(cc);
#endif
cc2420_setpanid( cc, PANID ); //网络标识
cc2420_setshortaddress( cc, LOCAL_ADDRESS ); //网内标识
rxbuf = frame_open( (char*)(&m_rxbuf), FRAME_HOPESIZE(MAX_IEEE802FRAME154_SIZE), 0, 0, 0 );
hal_enable_interrupts();
// when use this scan mode to receive data, interrupt should be disable; otherwise the data will be
// read twice and in the second time there are no data actually which leads to a assert.
// Attention: in this scan mode, MCU always try to read and in my test it is faster than the transmission of data.
// Thus, after 4 times, there no data at all, and the MCU still want to read, which lead to an assert. So we'd better
// not use this scan mode.
while(1)
{
frame_reset( rxbuf,0,0,0);
cc2420_evolve( cc );
//len = cc2420_read( cc, frame_startptr( rxbuf), frame_capacity( rxbuf), 0x00 );
len = cc2420_read( cc, frame_startptr(rxbuf), frame_capacity(rxbuf), 0x00 );
if ( len)
{
frame_setlength( rxbuf,len);
dbc_write( frame_startptr( rxbuf), len );
led_toggle( LED_GREEN);
}
//len = cc2420_read( cc, (char*)(&buf[0]), BUF_SIZE, 0x00 );
/* if (len >= 5)
{
// output this frame to the computer through uart
dbo_write( (char*)(&buf[0]), len );
}*/
}
}
