shubham c
I2C code testing
Dependencies: FreescaleIAP SimpleDMA mbed-rtos mbed
Fork of
COM_MNG_TMTC_SIMPLE_pl123
by 
Siva ram
adf.h
- Committer:
- ee12b079
- Date:
- 2016-02-26
- Revision:
- 128:a232a4352664
- Parent:
- 126:b7c024b5632d
- Child:
- 132:d4a4461214ad
File content as of revision 128:a232a4352664:
//without reset feature , with state checks.
InterruptIn IRQ(ADF_IRQ);
//Ticker ticker;
bool loop_on;
bool ADF_off;
bool buffer_state;
bool finish_write_data;
uint8_t signal = 0x00;
unsigned char bbram_buffer[66]={0x19,0x00,0x60,0x00,0x00,0x00,0x00,0x00,0x00,0x33,0x00,0xF4,0xC2,0x10,0xC0,0x00,0x30,0x31,0x07,0x00,0x01,0x00,0x7F,0x00,0x0B,0x37,0x00,0x00,0x40,0x0C,0x00,0x05,0x00,0x00,0x18,0x12,0x34,0x56,0x10,0x10,0xC4,0x14,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x04,0x00,0x00,0x00,0x00,0x00};
//int initialise_card();
//int disk_initialize();
#define bbram_write {\
SPI_mutex.lock();\
gCS_ADF=0;\
spi.write(0xB0);\
wait_us(300);\
gCS_ADF=1;\
gCS_ADF=0;\
for(int i=0;i<66;i++){\
spi.write(bbram_buffer[i]);\
}\
gCS_ADF=1;\
SPI_mutex.unlock();\
}
//------------------------------------------------------------------------
// state checking functions
//bool assrt_phy_off( int, int, int);
//bool assrt_phy_on( int,int,int);
//bool assrt_phy_tx(int,int,int);
#define START_ADDRESS 0x020;
#define MISO_PIN PTE3
/**************Defining Counter Limits**************/
#define THRS 20
#define STATE_ERR_THRS 20
#define PHY_OFF_EXEC_TIME 300
#define PHY_ON_EXEC_TIME 300
#define PHY_TX_EXEC_TIME 600
/******DEFINING COMMANDS*********/
#define CMD_HW_RESET 0xC8
#define CMD_PHY_ON 0xB1
#define CMD_PHY_OFF 0xB0
#define CMD_PHY_TX 0xB5
#define CMD_CONFIG_DEV 0xBB
#define check_status {\
unsigned char stat=0;\
gCS_ADF=0;\
spi.write(0xFF);\
stat = spi.write(0xFF);\
gCS_ADF=1;\
status = stat;\
}
// all three arguments are int
#define assrt_phy_off(return_this) {\
int cmd_err_cnt = 0;\
int spi_err_cnt = 0;\
int state_err_cnt = 0;\
for(int i = 0 ; i < 40 ;i++){\
check_status;\
if(status == 0xB1){\
return_this = 0;\
break;\
}\
else if(cmd_err_cnt>THRS||spi_err_cnt>THRS){\
return_this = 1;\
break;\
}\
else if(state_err_cnt>STATE_ERR_THRS){\
return_this = 1;\
break;\
}\
else if( (status & 0xA0) == 0xA0 ){\
gCS_ADF=0;\
spi.write(CMD_PHY_OFF);\
gCS_ADF=1;\
wait_us(PHY_OFF_EXEC_TIME);\
state_err_cnt++;\
}\
else if(status&0x80==0x00){\
wait_ms(5);\
spi_err_cnt++;\
}\
else {\
wait_ms(1);\
cmd_err_cnt++;\
}\
}\
}
#define initial_adf_check {\
spi.write(CMD_PHY_OFF);\
int tempReturn = 0;\
bool flag = false;\
while( hw_reset_err_cnt < 2 ){\
assrt_phy_off( tempReturn);\
if( !tempReturn ){\
bbram_write;\
bbram_flag=1;\
flag = true;\
break;\
}\
else{\
hardware_reset(0);\
hw_reset_err_cnt++;\
/*gPC.puts("Resetting hardware\r\n");*/\
}\
}\
if( flag == false ){\
/*gPC.puts("Seems to be SPI problem\r\n");*/\
}\
assrt_phy_off(tempReturn);\
if(!bbram_flag){\
bcn_flag=1;\
}\
}
unsigned char status =0;
unsigned int cmd_err_cnt=0;
unsigned int state_err_cnt=0;
unsigned int miso_err_cnt=0;
unsigned int hw_reset_err_cnt=0;
bool bcn_flag=0;
bool bbram_flag=0;
bool hardware_reset(int bcn_call){
for(int i= 0; i < 20 ; i++){
gCS_ADF=0;
spi.write(CMD_HW_RESET);
gCS_ADF=1;
wait_ms(2);// Typically 1 ms
int count=0;
int temp_return = 0;
while(count<10 && miso_err_cnt<10){
if(MISO_PIN){
assrt_phy_off(temp_return);
if(!temp_return){
return 0;
}
count++;
}
else{
wait_us(50);
miso_err_cnt++;
}
}
}
return 1;
}
//for reseting the transmission call assert function after b5 and b1. after b1 assert_phi_on and after b5 assert_phi_tx.
//----------------------------------------------------------------------------
# define initiate {\
SPI_mutex.lock();\
gCS_ADF=0;\
spi.write(0xFF);\
spi.write(0xFF);\
gCS_ADF=1;\
gCS_ADF=0;\
spi.write(0x08);\
spi.write(0x14);\
spi.write(0xFF);\
gCS_ADF=1;\
gCS_ADF=0;\
spi.write(0x08);\
spi.write(0x15);\
spi.write(0xFF);\
gCS_ADF=1;\
gCS_ADF=0;\
spi.write(0x09);\
spi.write(0x24);\
spi.write(0x20);\
gCS_ADF=1;\
gCS_ADF=0;\
spi.write(0x09);\
spi.write(0x37);\
spi.write(0xE0);\
gCS_ADF=1;\
gCS_ADF=0;\
spi.write(0x09);\
spi.write(0x36);\
spi.write(0x70);\
gCS_ADF=1;\
gCS_ADF=0;\
spi.write(0x09);\
spi.write(0x39);\
spi.write(0x10);\
gCS_ADF=1;\
gCS_ADF=0;\
spi.write(0xBB);\
gCS_ADF=1;\
gCS_ADF=0;\
spi.write(0xFF);\
spi.write(0xFF);\
gCS_ADF=1;\
SPI_mutex.unlock();\
}
#define write_data {\
SPI_mutex.lock();\
gCS_ADF=0;\
spi.write(0x0B);\
spi.write(0x36);\
spi.write(0xFF);\
gCS_ADF=1;\
gCS_ADF=0;\
if(buffer_state){\
spi.write(0x18);\
spi.write(0x20);\
for(unsigned char i=0; i<112;i++){\
spi.write(buffer_112[i]);\
if(bypass_adf == 1)\
gPC.putc(buffer_112[i]);\
}\
}\
else{\
spi.write(0x18);\
spi.write(0x90);\
for(unsigned char i=0; i<112;i++){\
spi.write(buffer_112[i]);\
if(bypass_adf == 1)\
gPC.putc(buffer_112[i]);\
}\
}\
gCS_ADF=1;\
SPI_mutex.unlock();\
buffer_state = !buffer_state;\
if(last_buffer){\
finish_write_data = true;\
/*gPC.puts("adf_off\r\n");*/\
}\
}
/*
void check(){
if(IRQ){
gCOM_MNG_TMTC_THREAD->signal_set(signal);
}
}*/
#define send_data {\
if(sent_tmfrom_SDcard){\
send_tm_from_SD_card_fun();\
}else{\
snd_tm.transmit_data(buffer_112,&last_buffer);\
}\
write_data;\
if(sent_tmfrom_SDcard){\
send_tm_from_SD_card_fun();\
}else{\
snd_tm.transmit_data(buffer_112,&last_buffer);\
}\
write_data;\
if(sent_tmfrom_SDcard){\
send_tm_from_SD_card_fun();\
}else{\
snd_tm.transmit_data(buffer_112,&last_buffer);\
}\
SPI_mutex.lock();\
gCS_ADF=0;\
spi.write(0xB1);\
gCS_ADF=1;\
wait_us(300);\
gCS_ADF=0;\
spi.write(0xFF);\
spi.write(0xFF);\
gCS_ADF=1;\
gCS_ADF=0;\
spi.write(0xB5);\
gCS_ADF=1;\
wait_us(300);\
gCS_ADF=0;\
spi.write(0xFF);\
spi.write(0xFF);\
gCS_ADF=1;\
SPI_mutex.unlock();\
/*ticker.attach_us(&check,32000);*/\
}
#define configure_adf {\
finish_write_data = false;\
buffer_state = true;\
last_buffer = false;\
loop_on = true;\
ADF_off = false;\
initial_adf_check;\
/*gPC.puts("initial adf check\r\n");*/\
initiate;\
/*gPC.puts("adf configured\r\n");*/\
/*gLEDR = !gLEDR;*/\
}
#define transmit_adf {\
configure_adf;\
if(sent_tmfrom_SDcard)\
signal = COM_MNG_TMTC_SIGNAL_ADF_SD;\
else signal = COM_MNG_TMTC_SIGNAL_ADF_NSD;\
send_data;\
while(loop_on){\
wait_ms(COM_TX_TICKER_LIMIT);\
if(IRQ || bypass_adf){\
if(finish_write_data){\
if(ADF_off){\
SPI_mutex.lock();\
gCS_ADF=0;\
spi.write(0xB1);\
gCS_ADF=1;\
SPI_mutex.unlock();\
loop_on = false;\
gLEDR = 1;\
}\
else{\
ADF_off = true;\
}\
}else{\
gLEDR = !gLEDR;\
write_data;\
if(sent_tmfrom_SDcard)\
send_tm_from_SD_card_fun();\
else snd_tm.transmit_data(buffer_112,&last_buffer);\
}\
}\
}\
/*gPC.puts("after while loop\r\n");*/\
}