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convert all src_simtrace code to kernel coding style

Browse Source 
Let's use the Osmocom standard, based on the Linux kernel standard:
tab-indent and 8-charracter tab width.
This commit is contained in:
Harald Welte
2016-03-03 12:32:04 +01:00
parent 1605564489
commit 7dd3dfd992
9 changed files with 1025 additions and 986 deletions
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65
firmware/src_simtrace/ccid.c
View File

@@ -46,22 +46,28 @@
/** Maximum ATR ucSize in bytes.*/
#define MAX_ATR_SIZE 55
/*------------------------------------------------------------------------------
* Internal variables
*------------------------------------------------------------------------------*/
/** ISO7816 pins */
static const Pin pinsISO7816[] = {PINS_ISO7816};
static const Pin pinsISO7816[] = { PINS_ISO7816 };
/** Bus switch pins */
static const Pin pinsBus[] = {PINS_BUS_DEFAULT};
static const Pin pinsBus[] = { PINS_BUS_DEFAULT };
/* SIMcard power pin */
static const Pin pinsPower[] = {PWR_PINS};
static const Pin pinsPower[] = { PWR_PINS };
/** ISO7816 RST pin */
static const Pin pinIso7816RstMC = PIN_ISO7816_RSTMC;
static uint8_t sim_inserted = 0;
static struct Usart_info usart_info = {.base = USART_SIM, .id = ID_USART_SIM, .state = USART_RCV};
static struct Usart_info usart_info = {
.base = USART_SIM,
.id = ID_USART_SIM,
.state = USART_RCV
};
/*------------------------------------------------------------------------------
* Optional smartcard detection
@@ -74,7 +80,7 @@ static const Pin pinSmartCard = SMARTCARD_CONNECT_PIN;
* PIO interrupt service routine. Checks if the smartcard has been connected
* or disconnected.
*/
static void ISR_PioSmartCard( const Pin *pPin )
static void ISR_PioSmartCard(const Pin * pPin)
{
/* FIXME: why is pinSmartCard.pio->PIO_ISR the wrong number?
printf("+++++ Trying to check for pending interrupts (PIO ISR: 0x%X)\n\r", pinSmartCard.pio->PIO_ISR);
@@ -91,16 +97,13 @@ Output:
// if ( (pinSmartCard.pio->PIO_ISR & pinSmartCard.mask) != 0 )
{
/* Check current level on pin */
if ( PIO_Get( &pinSmartCard ) == 0 )
{
if (PIO_Get(&pinSmartCard) == 0) {
sim_inserted = 1;
printf( "-I- Smartcard inserted\n\r" ) ;
printf("-I- Smartcard inserted\n\r");
CCID_Insertion();
}
else
{
} else {
sim_inserted = 0;
printf( "-I- Smartcard removed\n\r" ) ;
printf("-I- Smartcard removed\n\r");
CCID_Removal();
}
}
@@ -109,12 +112,12 @@ Output:
/**
* Configures the smartcard detection pin to trigger an interrupt.
*/
static void ConfigureCardDetection( void )
static void ConfigureCardDetection(void)
{
printf("+++++ Configure PIOs\n\r");
PIO_Configure( &pinSmartCard, 1 ) ;
NVIC_EnableIRQ( PIOA_IRQn );
PIO_EnableIt( &pinSmartCard ) ;
PIO_Configure(&pinSmartCard, 1);
NVIC_EnableIRQ(PIOA_IRQn);
PIO_EnableIt(&pinSmartCard);
}
/*-----------------------------------------------------------------------------
@@ -122,28 +125,30 @@ static void ConfigureCardDetection( void )
*-----------------------------------------------------------------------------*/
extern CCIDDriverConfigurationDescriptors configurationDescriptorCCID;
void CCID_configure ( void ) {
void CCID_configure(void)
{
CCIDDriver_Initialize();
// FIXME: Do we need to set priority?: NVIC_SetPriority( PIOA_IRQn, 10);
PIO_ConfigureIt( &pinSmartCard, ISR_PioSmartCard ) ;
PIO_ConfigureIt(&pinSmartCard, ISR_PioSmartCard);
}
void CCID_exit ( void ) {
PIO_DisableIt( &pinSmartCard ) ;
void CCID_exit(void)
{
PIO_DisableIt(&pinSmartCard);
USART_SetTransmitterEnabled(usart_info.base, 0);
USART_SetReceiverEnabled(usart_info.base, 0);
}
void CCID_init( void )
void CCID_init(void)
{
uint8_t pAtr[MAX_ATR_SIZE];
uint8_t ucSize ;
uint8_t ucSize;
// FIXME: do we want to print ATR?
/* Initialize Atr buffer */
memset( pAtr, 0, sizeof( pAtr ) ) ;
memset(pAtr, 0, sizeof(pAtr));
ConfigureCardDetection() ;
ConfigureCardDetection();
// Configure ISO7816 driver
PIO_Configure(pinsISO7816, PIO_LISTSIZE(pinsISO7816));
@@ -159,21 +164,21 @@ void CCID_init( void )
ISO7816_Set_Reset_Pin(&pinIso7816RstMC);
/* Read ATR */
ISO7816_warm_reset() ;
ISO7816_warm_reset();
ISO7816_Datablock_ATR( pAtr, &ucSize ) ;
ISO7816_Datablock_ATR(pAtr, &ucSize);
/* Decode ATR and print it */
ISO7816_Decode_ATR( pAtr ) ;
ISO7816_Decode_ATR(pAtr);
// FIXME. what if smcard is not inserted?
if(PIO_Get(&pinSmartCard) == 0) {
if (PIO_Get(&pinSmartCard) == 0) {
printf("SIM card inserted\n\r");
CCID_Insertion();
}
}
void CCID_run( void )
void CCID_run(void)
{
//if (USBD_Read(INT, pBuffer, dLength, fCallback, pArgument);

37
firmware/src_simtrace/main.c
View File

@@ -15,13 +15,13 @@
*------------------------------------------------------------------------------*/
typedef struct {
/* static initialization, called whether or not the usb config is active */
void (* configure) ( void );
void (*configure) (void);
/* initialization function after the config was selected */
void (* init) ( void );
void (*init) (void);
/* de-initialization before selecting new config */
void (* exit) ( void );
void (*exit) (void);
/* main loop content for given configuration */
void (* run) ( void );
void (*run) (void);
} conf_func;
static const conf_func config_func_ptrs[] = {
@@ -55,12 +55,11 @@ static const conf_func config_func_ptrs[] = {
.configure = MITM_configure,
.init = MITM_init,
.exit = MITM_exit,
.run = MITM_run
.run = MITM_run,
},
#endif
};
/*------------------------------------------------------------------------------
* Internal variables
*------------------------------------------------------------------------------*/
@@ -72,7 +71,6 @@ static volatile enum confNum simtrace_config = CFG_NUM_PHONE;
static volatile enum confNum simtrace_config = CFG_NUM_CCID;
#endif
/*----------------------------------------------------------------------------
* Callbacks
*----------------------------------------------------------------------------*/
@@ -87,7 +85,7 @@ void USBDDriverCallbacks_ConfigurationChanged(uint8_t cfgnum)
* Main
*------------------------------------------------------------------------------*/
#define MAX_USB_ITER BOARD_MCK/72 // This should be around a second
extern int main( void )
extern int main(void)
{
uint8_t isUsbConnected = 0;
enum confNum last_simtrace_config = simtrace_config;
@@ -97,8 +95,8 @@ extern int main( void )
LED_Configure(LED_NUM_GREEN);
LED_Set(LED_NUM_RED);
/* Disable watchdog*/
WDT_Disable( WDT ) ;
/* Disable watchdog */
WDT_Disable(WDT);
req_ctx_init();
@@ -107,17 +105,18 @@ extern int main( void )
SIMtrace_USB_Initialize();
TRACE_INFO("USB init...\n\r");
while(USBD_GetState() < USBD_STATE_CONFIGURED){
if(i >= MAX_USB_ITER*3) {
TRACE_ERROR("Resetting board (USB could not be configured)\n");
while (USBD_GetState() < USBD_STATE_CONFIGURED) {
if (i >= MAX_USB_ITER * 3) {
TRACE_ERROR("Resetting board (USB could "
"not be configured)\n");
NVIC_SystemReset();
}
i++;
}
TRACE_DEBUG("calling configure of all configurations...\n\r");
for (i = 1; i < sizeof(config_func_ptrs)/sizeof(config_func_ptrs[0]); ++i)
{
for (i = 1; i < sizeof(config_func_ptrs) / sizeof(config_func_ptrs[0]);
++i) {
if (config_func_ptrs[i].configure)
config_func_ptrs[i].configure();
}
@@ -127,7 +126,7 @@ extern int main( void )
last_simtrace_config = simtrace_config;
TRACE_DEBUG("entering main loop...\n\r");
while(1) {
while (1) {
const char rotor[] = { '-', '\\', '|', '/' };
putchar('\b');
putchar(rotor[i++ % ARRAY_SIZE(rotor)]);
@@ -137,8 +136,7 @@ extern int main( void )
if (isUsbConnected) {
isUsbConnected = 0;
}
}
else if (isUsbConnected == 0) {
} else if (isUsbConnected == 0) {
TRACE_INFO("USB is now configured\n\r");
LED_Set(LED_NUM_GREEN);
LED_Clear(LED_NUM_RED);
@@ -146,7 +144,8 @@ extern int main( void )
isUsbConnected = 1;
}
if (last_simtrace_config != simtrace_config) {
TRACE_INFO("USB config chg %u -> %u\r\n", last_simtrace_config, simtrace_config);
TRACE_INFO("USB config chg %u -> %u\r\n",
last_simtrace_config, simtrace_config);
config_func_ptrs[last_simtrace_config].exit();
config_func_ptrs[simtrace_config].init();
last_simtrace_config = simtrace_config;

11
firmware/src_simtrace/mitm.c
View File

@@ -37,16 +37,15 @@
#include <string.h>
static const Pin pins_bus[] = { PINS_BUS_DEFAULT };
static const Pin pins_bus[] = {PINS_BUS_DEFAULT};
void MITM_configure( void )
void MITM_configure(void)
{
Phone_configure();
CCID_configure();
}
void MITM_init( void )
void MITM_init(void)
{
CCID_init();
Phone_init();
@@ -54,13 +53,13 @@ void MITM_init( void )
return;
}
void MITM_exit( void )
void MITM_exit(void)
{
Phone_exit();
CCID_exit();
}
void MITM_run( void )
void MITM_run(void)
{
Phone_run();
CCID_run();

62
firmware/src_simtrace/phone.c
View File

@@ -62,15 +62,16 @@ extern volatile uint8_t timeout_occured;
unsigned char USBState = STATE_IDLE;
/** ISO7816 pins */
static const Pin pinsISO7816_PHONE[] = {PINS_ISO7816_PHONE};
static const Pin pinsISO7816_PHONE[] = { PINS_ISO7816_PHONE };
/** Bus switch pins */
#if DEBUG_PHONE_SNIFF
# warning "Debug phone sniff via logic analyzer is enabled"
#warning "Debug phone sniff via logic analyzer is enabled"
// Logic analyzer probes are easier to attach to the SIM card slot
static const Pin pins_bus[] = {PINS_BUS_SNIFF};
static const Pin pins_bus[] = { PINS_BUS_SNIFF };
#else
static const Pin pins_bus[] = {PINS_BUS_DEFAULT};
static const Pin pins_bus[] = { PINS_BUS_DEFAULT };
#endif
/** ISO7816 RST pin */
@@ -86,7 +87,11 @@ static const Pin pPwr[] = {
const Pin pinPhoneRST = PIN_ISO7816_RST_PHONE;
static struct Usart_info usart_info = {.base = USART_PHONE, .id = ID_USART_PHONE, .state = USART_RCV};
static struct Usart_info usart_info = {
.base = USART_PHONE,
.id = ID_USART_PHONE,
.state = USART_RCV,
};
/* ===================================================*/
/* Taken from iso7816_4.c */
@@ -101,15 +106,19 @@ static struct Usart_info usart_info = {.base = USART_PHONE, .id = ID_USART_PHONE
static uint8_t host_to_sim_buf[BUFLEN];
static bool change_fidi = false;
static void receive_from_host( void );
static void sendResponse_to_phone( uint8_t *pArg, uint8_t status, uint32_t transferred, uint32_t remaining)
static void receive_from_host(void);
static void sendResponse_to_phone(uint8_t * pArg, uint8_t status,
uint32_t transferred, uint32_t remaining)
{
if (status != USBD_STATUS_SUCCESS) {
TRACE_ERROR("USB err status: %d (%s)\n", __FUNCTION__, status);
return;
}
TRACE_DEBUG("sendResp, stat: %X, trnsf: %x, rem: %x\n\r", status, transferred, remaining);
TRACE_DEBUG("Resp: %x %x %x .. %x\n", host_to_sim_buf[0], host_to_sim_buf[1], host_to_sim_buf[2], host_to_sim_buf[transferred-1]);
TRACE_DEBUG("sendResp, stat: %X, trnsf: %x, rem: %x\n\r", status,
transferred, remaining);
TRACE_DEBUG("Resp: %x %x %x .. %x\n", host_to_sim_buf[0],
host_to_sim_buf[1], host_to_sim_buf[2],
host_to_sim_buf[transferred - 1]);
USART_SetReceiverEnabled(USART_PHONE, 0);
USART_SetTransmitterEnabled(USART_PHONE, 1);
@@ -120,7 +129,7 @@ static void sendResponse_to_phone( uint8_t *pArg, uint8_t status, uint32_t trans
i = 2;
change_fidi = true;
}
for (; i < transferred; i++ ) {
for (; i < transferred; i++) {
ISO7816_SendChar(host_to_sim_buf[i], &usart_info);
}
USART_SetTransmitterEnabled(USART_PHONE, 0);
@@ -138,33 +147,38 @@ static void sendResponse_to_phone( uint8_t *pArg, uint8_t status, uint32_t trans
static void receive_from_host()
{
int ret;
if ((ret = USBD_Read(PHONE_DATAOUT, &host_to_sim_buf, sizeof(host_to_sim_buf),
(TransferCallback)&sendResponse_to_phone, 0)) == USBD_STATUS_SUCCESS) {
if ((ret = USBD_Read(PHONE_DATAOUT, &host_to_sim_buf,
sizeof(host_to_sim_buf),
(TransferCallback) &sendResponse_to_phone,
0)) == USBD_STATUS_SUCCESS) {
} else {
TRACE_ERROR("USB Err: %X\n", ret);
}
}
void Phone_configure( void ) {
PIO_ConfigureIt( &pinPhoneRST, ISR_PhoneRST ) ;
NVIC_EnableIRQ( PIOA_IRQn );
void Phone_configure(void)
{
PIO_ConfigureIt(&pinPhoneRST, ISR_PhoneRST);
NVIC_EnableIRQ(PIOA_IRQn);
}
void Phone_exit( void ) {
PIO_DisableIt( &pinPhoneRST ) ;
void Phone_exit(void)
{
PIO_DisableIt(&pinPhoneRST);
NVIC_DisableIRQ(USART1_IRQn);
USART_DisableIt( USART_PHONE, US_IER_RXRDY) ;
USART_DisableIt(USART_PHONE, US_IER_RXRDY);
USART_SetTransmitterEnabled(USART_PHONE, 0);
USART_SetReceiverEnabled(USART_PHONE, 0);
}
void Phone_init( void ) {
PIO_Configure( pinsISO7816_PHONE, PIO_LISTSIZE( pinsISO7816_PHONE ) ) ;
PIO_Configure( pins_bus, PIO_LISTSIZE( pins_bus) ) ;
void Phone_init(void)
{
PIO_Configure(pinsISO7816_PHONE, PIO_LISTSIZE(pinsISO7816_PHONE));
PIO_Configure(pins_bus, PIO_LISTSIZE(pins_bus));
PIO_Configure( &pinPhoneRST, 1);
PIO_Configure(&pinPhoneRST, 1);
PIO_EnableIt( &pinPhoneRST ) ;
PIO_EnableIt(&pinPhoneRST);
ISO7816_Init(&usart_info, CLK_SLAVE);
USART_SetTransmitterEnabled(USART_PHONE, 0);
@@ -176,7 +190,7 @@ void Phone_init( void ) {
receive_from_host();
}
void Phone_run( void )
void Phone_run(void)
{
check_data_from_phone();
}

20
firmware/src_simtrace/ringbuffer.c
View File

@@ -1,40 +1,40 @@
#include "ringbuffer.h"
#include "trace.h"
void rbuf_reset(volatile ringbuf *rb)
void rbuf_reset(volatile ringbuf * rb)
{
rb->ird = 0;
rb->iwr = 0;
}
uint8_t rbuf_read(volatile ringbuf *rb)
uint8_t rbuf_read(volatile ringbuf * rb)
{
uint8_t val = rb->buf[rb->ird];
rb->ird = (rb->ird + 1)%RING_BUFLEN;
rb->ird = (rb->ird + 1) % RING_BUFLEN;
return val;
}
uint8_t rbuf_peek(volatile ringbuf *rb)
uint8_t rbuf_peek(volatile ringbuf * rb)
{
return rb->buf[rb->ird];
}
void rbuf_write(volatile volatile ringbuf *rb, uint8_t item)
void rbuf_write(volatile volatile ringbuf * rb, uint8_t item)
{
if(!rbuf_is_full(rb)) {
if (!rbuf_is_full(rb)) {
rb->buf[rb->iwr] = item;
rb->iwr = (rb->iwr + 1)%RING_BUFLEN;
rb->iwr = (rb->iwr + 1) % RING_BUFLEN;
} else {
TRACE_ERROR("Ringbuffer full, losing bytes!");
}
}
bool rbuf_is_empty(volatile ringbuf *rb)
bool rbuf_is_empty(volatile ringbuf * rb)
{
return rb->ird == rb->iwr;
}
bool rbuf_is_full(volatile ringbuf *rb)
bool rbuf_is_full(volatile ringbuf * rb)
{
return rb->ird == (rb->iwr+1)%RING_BUFLEN;
return rb->ird == (rb->iwr + 1) % RING_BUFLEN;
}

12
firmware/src_simtrace/ringbuffer.h
View File

@@ -13,11 +13,11 @@ typedef struct ringbuf {
size_t iwr;
} ringbuf;
void rbuf_reset(volatile ringbuf *rb);
uint8_t rbuf_read(volatile ringbuf *rb);
uint8_t rbuf_peek(volatile ringbuf *rb);
void rbuf_write(volatile ringbuf *rb, uint8_t item);
bool rbuf_is_empty(volatile ringbuf *rb);
bool rbuf_is_full(volatile ringbuf *rb);
void rbuf_reset(volatile ringbuf * rb);
uint8_t rbuf_read(volatile ringbuf * rb);
uint8_t rbuf_peek(volatile ringbuf * rb);
void rbuf_write(volatile ringbuf * rb, uint8_t item);
bool rbuf_is_empty(volatile ringbuf * rb);
bool rbuf_is_full(volatile ringbuf * rb);
#endif /* end of include guard: SIMTRACE_RINGBUF_H */

32
firmware/src_simtrace/simtrace_iso7816.c
View File

@@ -46,32 +46,36 @@ volatile ringbuf sim_rcv_buf = { {0}, 0, 0 };
/*-----------------------------------------------------------------------------
* Interrupt routines
*-----------------------------------------------------------------------------*/
static void Callback_PhoneRST_ISR( uint8_t *pArg, uint8_t status, uint32_t transferred, uint32_t remaining)
static void Callback_PhoneRST_ISR(uint8_t * pArg, uint8_t status,
uint32_t transferred, uint32_t remaining)
{
printf("rstCB\n\r");
PIO_EnableIt( &pinPhoneRST ) ;
PIO_EnableIt(&pinPhoneRST);
}
void ISR_PhoneRST( const Pin *pPin)
void ISR_PhoneRST(const Pin * pPin)
{
int ret;
// FIXME: no printfs in ISRs?
printf("+++ Int!! %x\n\r", pinPhoneRST.pio->PIO_ISR);
if ( ((pinPhoneRST.pio->PIO_ISR & pinPhoneRST.mask) != 0) )
{
if(PIO_Get( &pinPhoneRST ) == 0) {
if (((pinPhoneRST.pio->PIO_ISR & pinPhoneRST.mask) != 0)) {
if (PIO_Get(&pinPhoneRST) == 0) {
printf(" 0 ");
} else {
printf(" 1 ");
}
}
if ((ret = USBD_Write( PHONE_INT, "R", 1, (TransferCallback)&Callback_PhoneRST_ISR, 0 )) != USBD_STATUS_SUCCESS) {
if ((ret =
USBD_Write(PHONE_INT, "R", 1,
(TransferCallback) & Callback_PhoneRST_ISR,
0)) != USBD_STATUS_SUCCESS) {
TRACE_ERROR("USB err status: %d (%s)\n", ret, __FUNCTION__);
return;
}
/* Interrupt enabled after ATR is sent to phone */
PIO_DisableIt( &pinPhoneRST ) ;
PIO_DisableIt(&pinPhoneRST);
}
extern void usart_irq_rx(uint8_t num);
@@ -79,7 +83,7 @@ extern void usart_irq_rx(uint8_t num);
* char_stat is zero if no error occured.
* Otherwise it is filled with the content of the status register.
*/
void USART1_IrqHandler( void )
void USART1_IrqHandler(void)
{
#if 0
uint32_t stat;
@@ -96,13 +100,13 @@ void USART1_IrqHandler( void )
/* transmit buffer empty, nothing to transmit */
}
if (csr & US_CSR_RXRDY) {
stat = (csr&(US_CSR_OVRE|US_CSR_FRAME|
US_CSR_PARE|US_CSR_TIMEOUT|US_CSR_NACK|
(1<<10)));
stat = (csr & (US_CSR_OVRE | US_CSR_FRAME |
US_CSR_PARE | US_CSR_TIMEOUT | US_CSR_NACK |
(1 << 10)));
uint8_t c = (USART_PHONE->US_RHR) & 0xFF;
// printf(" %x", c);
if (stat == 0 ) {
if (stat == 0) {
/* Fill char into buffer */
rbuf_write(&sim_rcv_buf, c);
} else {
@@ -127,7 +131,7 @@ void update_fidi(uint8_t fidi)
rc = compute_fidi_ratio(fi, di);
if (rc > 0 && rc < 0x400) {
TRACE_INFO("computed Fi(%u) Di(%u) ratio: %d", fi, di, rc);
/* make sure UART uses new F/D ratio */
/* make sure UART uses new F/D ratio */
USART_PHONE->US_CR |= US_CR_RXDIS | US_CR_RSTRX;
USART_PHONE->US_FIDI = rc & 0x3ff;
USART_PHONE->US_CR |= US_CR_RXEN | US_CR_STTTO;

28
firmware/src_simtrace/sniffer.c
View File

@@ -50,8 +50,9 @@
* Internal variables
*------------------------------------------------------------------------------*/
/** ISO7816 pins */
static const Pin pinsISO7816_sniff[] = {PINS_SIM_SNIFF_SIM};
static const Pin pins_bus[] = {PINS_BUS_SNIFF};
static const Pin pinsISO7816_sniff[] = { PINS_SIM_SNIFF_SIM };
static const Pin pins_bus[] = { PINS_BUS_SNIFF };
static const Pin pPwr[] = {
/* Enable power converter 4.5-6V to 3.3V; low: off */
{SIM_PWEN, PIOA, ID_PIOA, PIO_OUTPUT_0, PIO_DEFAULT},
@@ -60,30 +61,37 @@ static const Pin pPwr[] = {
{VCC_FWD, PIOA, ID_PIOA, PIO_OUTPUT_1, PIO_DEFAULT}
};
static struct Usart_info usart_info = {.base = USART_PHONE, .id = ID_USART_PHONE, .state = USART_RCV};
static struct Usart_info usart_info = {
.base = USART_PHONE,
.id = ID_USART_PHONE,
.state = USART_RCV,
};
/*-----------------------------------------------------------------------------
* Initialization routine
*-----------------------------------------------------------------------------*/
void Sniffer_configure( void ){
void Sniffer_configure(void)
{
TRACE_INFO("Sniffer config\n");
}
void Sniffer_exit( void ){
void Sniffer_exit(void)
{
TRACE_INFO("Sniffer exit\n");
USART_DisableIt(USART_PHONE, US_IER_RXRDY);
NVIC_DisableIRQ(USART1_IRQn);
USART_SetReceiverEnabled(USART_PHONE, 0);
}
void Sniffer_init( void )
void Sniffer_init(void)
{
TRACE_INFO("Sniffer Init\n");
/* Configure ISO7816 driver */
PIO_Configure( pinsISO7816_sniff, PIO_LISTSIZE( pinsISO7816_sniff ) ) ;
PIO_Configure( pins_bus, PIO_LISTSIZE( pins_bus) ) ;
PIO_Configure(pinsISO7816_sniff, PIO_LISTSIZE(pinsISO7816_sniff));
PIO_Configure(pins_bus, PIO_LISTSIZE(pins_bus));
PIO_Configure(pPwr, PIO_LISTSIZE( pPwr ));
PIO_Configure(pPwr, PIO_LISTSIZE(pPwr));
ISO7816_Init(&usart_info, CLK_SLAVE);
@@ -92,7 +100,7 @@ void Sniffer_init( void )
NVIC_EnableIRQ(USART1_IRQn);
}
void Sniffer_run( void )
void Sniffer_run(void)
{
check_data_from_phone();
}

446
firmware/src_simtrace/usb.c
View File

@@ -41,7 +41,6 @@
* USB String descriptors
*------------------------------------------------------------------------------*/
static const unsigned char langDesc[] = {
USBStringDescriptor_LENGTH(1),
@@ -156,7 +155,6 @@ const unsigned char phoneConfigStringDescriptor[] = {
USBStringDescriptor_UNICODE('e'),
};
const unsigned char MITMConfigStringDescriptor[] = {
USBStringDescriptor_LENGTH(13),
@@ -225,8 +223,15 @@ const unsigned char cardem_usim2_intf_str[] = {
};
enum strDescNum {
PRODUCT_STRING = 1, MANUF_STR, SNIFFER_CONF_STR, CCID_CONF_STR, PHONE_CONF_STR, MITM_CONF_STR,
CARDEM_USIM1_INTF_STR, CARDEM_USIM2_INTF_STR, STRING_DESC_CNT
PRODUCT_STRING = 1,
MANUF_STR,
SNIFFER_CONF_STR,
CCID_CONF_STR,
PHONE_CONF_STR,
MITM_CONF_STR,
CARDEM_USIM1_INTF_STR,
CARDEM_USIM2_INTF_STR,
STRING_DESC_CNT
};
/** List of string descriptors used by the device */
@@ -258,180 +263,174 @@ typedef struct _SIMTraceDriverConfigurationDescriptorSniffer {
} __attribute__ ((packed)) SIMTraceDriverConfigurationDescriptorSniffer;
static const SIMTraceDriverConfigurationDescriptorSniffer configurationDescriptorSniffer = {
static const SIMTraceDriverConfigurationDescriptorSniffer
configurationDescriptorSniffer = {
/* Standard configuration descriptor */
{
sizeof(USBConfigurationDescriptor),
USBGenericDescriptor_CONFIGURATION,
sizeof(SIMTraceDriverConfigurationDescriptorSniffer),
1, /* There is one interface in this configuration */
CFG_NUM_SNIFF, /* configuration number */
SNIFFER_CONF_STR, /* string descriptor for this configuration */
USBD_BMATTRIBUTES,
USBConfigurationDescriptor_POWER(100)
.bLength = sizeof(USBConfigurationDescriptor),
.bDescriptorType = USBGenericDescriptor_CONFIGURATION,
.wTotalLength = sizeof(SIMTraceDriverConfigurationDescriptorSniffer),
.bNumInterfaces = 1,
.bConfigurationValue = CFG_NUM_SNIFF,
.iConfiguration = SNIFFER_CONF_STR,
.bmAttributes = USBD_BMATTRIBUTES,
.bMaxPower = USBConfigurationDescriptor_POWER(100),
},
/* Communication class interface standard descriptor */
{
sizeof(USBInterfaceDescriptor),
USBGenericDescriptor_INTERFACE,
0, /* This is interface #0 */
0, /* This is alternate setting #0 for this interface */
3, /* Number of endpoints */
0xff, /* Descriptor Class: Vendor specific */
0, /* No subclass */
0, /* No l */
SNIFFER_CONF_STR /* Third in string descriptor for this interface */
.bLength = sizeof(USBInterfaceDescriptor),
.bDescriptorType = USBGenericDescriptor_INTERFACE,
.bInterfaceNumber = 0,
.bAlternateSetting = 0,
.bNumEndpoints = 3,
.bInterfaceClass = 0xff,
.bInterfaceSubClass = 0,
.bInterfaceProtocol = 0,
.iInterface = SNIFFER_CONF_STR,
},
/* Bulk-OUT endpoint standard descriptor */
{
sizeof(USBEndpointDescriptor),
USBGenericDescriptor_ENDPOINT,
USBEndpointDescriptor_ADDRESS(USBEndpointDescriptor_OUT,
.bLength = sizeof(USBEndpointDescriptor),
.bDescriptorType = USBGenericDescriptor_ENDPOINT,
.bEndpointAddress = USBEndpointDescriptor_ADDRESS(
USBEndpointDescriptor_OUT,
PHONE_DATAOUT),
.bmAttributes = USBEndpointDescriptor_BULK,
.wMaxPacketSize = MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(
PHONE_DATAOUT),
USBEndpointDescriptor_BULK,
MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(PHONE_DATAOUT),
USBEndpointDescriptor_MAXBULKSIZE_FS),
0 /* Must be 0 for full-speed bulk endpoints */
.bInterval = 0,
},
/* Bulk-IN endpoint descriptor */
{
sizeof(USBEndpointDescriptor),
USBGenericDescriptor_ENDPOINT,
USBEndpointDescriptor_ADDRESS(USBEndpointDescriptor_IN,
.bLength = sizeof(USBEndpointDescriptor),
.bDescriptorType = USBGenericDescriptor_ENDPOINT,
.bEndpointAddress = USBEndpointDescriptor_ADDRESS(
USBEndpointDescriptor_IN,
PHONE_DATAIN),
.bmAttributes = USBEndpointDescriptor_BULK,
.wMaxPacketSize = MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(
PHONE_DATAIN),
USBEndpointDescriptor_BULK,
MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(PHONE_DATAIN),
USBEndpointDescriptor_MAXBULKSIZE_FS),
0 /* Must be 0 for full-speed bulk endpoints */
.bInterval = 0,
},
// Notification endpoint descriptor
{
sizeof(USBEndpointDescriptor),
USBGenericDescriptor_ENDPOINT,
USBEndpointDescriptor_ADDRESS( USBEndpointDescriptor_IN, PHONE_INT ),
USBEndpointDescriptor_INTERRUPT,
MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(PHONE_INT),
.bLength = sizeof(USBEndpointDescriptor),
.bDescriptorType = USBGenericDescriptor_ENDPOINT,
.bEndpointAddress = USBEndpointDescriptor_ADDRESS(
USBEndpointDescriptor_IN,
PHONE_INT),
.bmAttributes = USBEndpointDescriptor_INTERRUPT,
.wMaxPacketSize = MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(
PHONE_INT),
USBEndpointDescriptor_MAXINTERRUPTSIZE_FS),
0x10
.bInterval = 0x10,
}
};
#endif /* HAVE_SNIFFER */
#ifdef HAVE_CCID
/*
/// CCIDDriverConfiguration Descriptors
/// List of descriptors that make up the configuration descriptors of a
/// device using the CCID driver.
typedef struct {
/// Configuration descriptor
USBConfigurationDescriptor configuration;
/// Interface descriptor
USBInterfaceDescriptor interface;
/// CCID descriptor
CCIDDescriptor ccid;
/// Bulk OUT endpoint descriptor
USBEndpointDescriptor bulkOut;
/// Bulk IN endpoint descriptor
USBEndpointDescriptor bulkIn;
/// Interrupt OUT endpoint descriptor
USBEndpointDescriptor interruptIn;
} __attribute__ ((packed)) CCIDDriverConfigurationDescriptors;
*/
static const CCIDDriverConfigurationDescriptors configurationDescriptorCCID = {
// Standard USB configuration descriptor
{
sizeof(USBConfigurationDescriptor),
USBGenericDescriptor_CONFIGURATION,
sizeof(CCIDDriverConfigurationDescriptors),
1, // One interface in this configuration
CFG_NUM_CCID, // This is configuration #1
CCID_CONF_STR, // associated string descriptor
BOARD_USB_BMATTRIBUTES,
USBConfigurationDescriptor_POWER(100)
.bLength = sizeof(USBConfigurationDescriptor),
.bDescriptorType = USBGenericDescriptor_CONFIGURATION,
.wTotalLength = sizeof(CCIDDriverConfigurationDescriptors),
.bNumInterfaces = 1,
.bConfigurationValue = CFG_NUM_CCID,
.iConfiguration = CCID_CONF_STR,
.bmAttributes = BOARD_USB_BMATTRIBUTES,
.bMaxPower = USBConfigurationDescriptor_POWER(100),
},
// CCID interface descriptor
// Table 4.3-1 Interface Descriptor
// Interface descriptor
{
sizeof(USBInterfaceDescriptor),
USBGenericDescriptor_INTERFACE,
0, // Interface 0
0, // No alternate settings
3, // uses bulk-IN, bulk-OUT and interrupt IN
SMART_CARD_DEVICE_CLASS,
0, // Subclass code
0, // bulk transfers optional interrupt-IN
CCID_CONF_STR // associated string descriptor
.bLength = sizeof(USBInterfaceDescriptor),
.bDescriptorType = USBGenericDescriptor_INTERFACE,
.bInterfaceNumber = 0,
.bAlternateSetting = 0,
.bNumEndpoints = 3,
.bInterfaceClass = SMART_CARD_DEVICE_CLASS,
.bInterfaceSubClass = 0,
.bInterfaceProtocol = 0,
.iInterface = CCID_CONF_STR,
},
{
sizeof(CCIDDescriptor), // bLength: Size of this descriptor in bytes
CCID_DECRIPTOR_TYPE, // bDescriptorType:Functional descriptor type
CCID1_10, // bcdCCID: CCID version
0, // bMaxSlotIndex: Value 0 indicates that one slot is supported
VOLTS_3_0, // bVoltageSupport
(1 << PROTOCOL_TO), // dwProtocols
3580, // dwDefaultClock
3580, // dwMaxClock
0, // bNumClockSupported
9600, // dwDataRate : 9600 bauds
9600, // dwMaxDataRate : 9600 bauds
0, // bNumDataRatesSupported
0xfe, // dwMaxIFSD
0, // dwSynchProtocols
0, // dwMechanical
//0x00010042, // dwFeatures: Short APDU level exchanges
CCID_FEATURES_AUTO_CLOCK | CCID_FEATURES_AUTO_BAUD |
CCID_FEATURES_AUTO_PCONF | CCID_FEATURES_AUTO_PNEGO | CCID_FEATURES_EXC_TPDU,
0x0000010F, // dwMaxCCIDMessageLength: For extended APDU level the value shall be between 261 + 10
0xFF, // bClassGetResponse: Echoes the class of the APDU
0xFF, // bClassEnvelope: Echoes the class of the APDU
0, // wLcdLayout: no LCD
0, // bPINSupport: No PIN
1 // bMaxCCIDBusySlot
.bLength = sizeof(CCIDDescriptor),
.bDescriptorType = CCID_DECRIPTOR_TYPE,
.bcdCCID = CCID1_10, // CCID version
.bMaxSlotIndex = 0, // 1 slot
.bVoltageSupport = VOLTS_3_0,
.dwProtocols = (1 << PROTOCOL_TO),
.dwDefaultClock = 3580,
.dwMaximumClock = 3580,
.bNumClockSupported = 0,
.dwDataRate = 9600,
.dwMaxDataRate = 9600,
.bNumDataRatesSupported = 0,
.dwMaxIFSD = 0xfe,
.dwSynchProtocols = 0,
.dwMechanical = 0,
.dwFeatures = CCID_FEATURES_AUTO_CLOCK | CCID_FEATURES_AUTO_BAUD |
CCID_FEATURES_AUTO_PCONF | CCID_FEATURES_AUTO_PNEGO |
CCID_FEATURES_EXC_TPDU,
.dwMaxCCIDMessageLength = 271, /* For extended APDU
level the value shall
be between 261 + 10 */
.bClassGetResponse = 0xFF, // Echoes the class of the APDU
.bClassEnvelope = 0xFF, // Echoes the class of the APDU
.wLcdLayout = 0, // wLcdLayout: no LCD
.bPINSupport = 0, // bPINSupport: No PIN
.bMaxCCIDBusySlots = 1,
},
// Bulk-OUT endpoint descriptor
{
sizeof(USBEndpointDescriptor),
USBGenericDescriptor_ENDPOINT,
USBEndpointDescriptor_ADDRESS( USBEndpointDescriptor_OUT, CCID_EPT_DATA_OUT ),
USBEndpointDescriptor_BULK,
MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(CCID_EPT_DATA_OUT),
.bLength = sizeof(USBEndpointDescriptor),
.bDescriptorType = USBGenericDescriptor_ENDPOINT,
.bEndpointAddress =
USBEndpointDescriptor_ADDRESS(USBEndpointDescriptor_OUT,
CCID_EPT_DATA_OUT),
.bmAttributes = USBEndpointDescriptor_BULK,
.wMaxPacketSize = MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(
CCID_EPT_DATA_OUT),
USBEndpointDescriptor_MAXBULKSIZE_FS),
0x00 // Does not apply to Bulk endpoints
.bInterval = 0x00,
},
// Bulk-IN endpoint descriptor
{
sizeof(USBEndpointDescriptor),
USBGenericDescriptor_ENDPOINT,
USBEndpointDescriptor_ADDRESS( USBEndpointDescriptor_IN, CCID_EPT_DATA_IN ),
USBEndpointDescriptor_BULK,
MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(CCID_EPT_DATA_IN),
.bLength = sizeof(USBEndpointDescriptor),
.bDescriptorType = USBGenericDescriptor_ENDPOINT,
.bEndpointAddress =
USBEndpointDescriptor_ADDRESS(USBEndpointDescriptor_IN,
CCID_EPT_DATA_IN),
.bmAttributes = USBEndpointDescriptor_BULK,
.wMaxPacketSize = MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(
CCID_EPT_DATA_IN),
USBEndpointDescriptor_MAXBULKSIZE_FS),
0x00 // Does not apply to Bulk endpoints
.bInterval = 0x00,
},
// Notification endpoint descriptor
{
sizeof(USBEndpointDescriptor),
USBGenericDescriptor_ENDPOINT,
USBEndpointDescriptor_ADDRESS( USBEndpointDescriptor_IN, CCID_EPT_NOTIFICATION ),
USBEndpointDescriptor_INTERRUPT,
MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(CCID_EPT_NOTIFICATION),
.bLength = sizeof(USBEndpointDescriptor),
.bDescriptorType = USBGenericDescriptor_ENDPOINT,
.bEndpointAddress =
USBEndpointDescriptor_ADDRESS(USBEndpointDescriptor_IN,
CCID_EPT_NOTIFICATION),
.bmAttributes = USBEndpointDescriptor_INTERRUPT,
.wMaxPacketSize = MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(
CCID_EPT_NOTIFICATION),
USBEndpointDescriptor_MAXINTERRUPTSIZE_FS),
0x10
.bInterval = 0x10,
},
};
#endif /* HAVE_CCID */
#ifdef HAVE_CARDEM
/* SIM card emulator */
typedef struct _SIMTraceDriverConfigurationDescriptorPhone {
/** Standard configuration descriptor. */
/* Standard configuration descriptor. */
USBConfigurationDescriptor configuration;
USBInterfaceDescriptor phone;
USBEndpointDescriptor phone_dataOut;
@@ -445,7 +444,8 @@ typedef struct _SIMTraceDriverConfigurationDescriptorPhone {
#endif
} __attribute__ ((packed)) SIMTraceDriverConfigurationDescriptorPhone;
static const SIMTraceDriverConfigurationDescriptorPhone configurationDescriptorPhone = {
static const SIMTraceDriverConfigurationDescriptorPhone
configurationDescriptorPhone = {
/* Standard configuration descriptor */
{
sizeof(USBConfigurationDescriptor),
@@ -499,7 +499,8 @@ static const SIMTraceDriverConfigurationDescriptorPhone configurationDescriptorP
{
sizeof(USBEndpointDescriptor),
USBGenericDescriptor_ENDPOINT,
USBEndpointDescriptor_ADDRESS( USBEndpointDescriptor_IN, PHONE_INT ),
USBEndpointDescriptor_ADDRESS(USBEndpointDescriptor_IN,
PHONE_INT),
USBEndpointDescriptor_INTERRUPT,
MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(PHONE_INT),
USBEndpointDescriptor_MAXINTERRUPTSIZE_FS),
@@ -528,7 +529,8 @@ static const SIMTraceDriverConfigurationDescriptorPhone configurationDescriptorP
MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(CARDEM_USIM2_DATAOUT),
USBEndpointDescriptor_MAXBULKSIZE_FS),
0 /* Must be 0 for full-speed bulk endpoints */
},
}
,
/* Bulk-IN endpoint descriptor */
{
sizeof(USBEndpointDescriptor),
@@ -544,20 +546,20 @@ static const SIMTraceDriverConfigurationDescriptorPhone configurationDescriptorP
{
sizeof(USBEndpointDescriptor),
USBGenericDescriptor_ENDPOINT,
USBEndpointDescriptor_ADDRESS( USBEndpointDescriptor_IN, CARDEM_USIM2_INT ),
USBEndpointDescriptor_ADDRESS(USBEndpointDescriptor_IN,
CARDEM_USIM2_INT),
USBEndpointDescriptor_INTERRUPT,
MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(CARDEM_USIM2_INT),
USBEndpointDescriptor_MAXINTERRUPTSIZE_FS),
0x10
}
},
#endif
};
#endif /* HAVE_CARDEM */
#ifdef HAVE_MITM
typedef struct _SIMTraceDriverConfigurationDescriptorMITM {
/** Standard configuration descriptor. */
/* Standard configuration descriptor. */
USBConfigurationDescriptor configuration;
USBInterfaceDescriptor simcard;
/// CCID descriptor
@@ -576,7 +578,8 @@ typedef struct _SIMTraceDriverConfigurationDescriptorMITM {
} __attribute__ ((packed)) SIMTraceDriverConfigurationDescriptorMITM;
static const SIMTraceDriverConfigurationDescriptorMITM configurationDescriptorMITM = {
static const SIMTraceDriverConfigurationDescriptorMITM
configurationDescriptorMITM = {
/* Standard configuration descriptor */
{
sizeof(USBConfigurationDescriptor),
@@ -592,72 +595,84 @@ static const SIMTraceDriverConfigurationDescriptorMITM configurationDescriptorMI
// Table 4.3-1 Interface Descriptor
// Interface descriptor
{
sizeof(USBInterfaceDescriptor),
USBGenericDescriptor_INTERFACE,
0, // Interface 0
0, // No alternate settings
3, // uses bulk-IN, bulk-OUT and interrupt IN
SMART_CARD_DEVICE_CLASS,
0, // Subclass code
0, // bulk transfers optional interrupt-IN
CCID_CONF_STR // associated string descriptor
.bLength = sizeof(USBInterfaceDescriptor),
.bDescriptorType = USBGenericDescriptor_INTERFACE,
.bInterfaceNumber = 0,
.bAlternateSetting = 0,
.bNumEndpoints = 3,
.bInterfaceClass = SMART_CARD_DEVICE_CLASS,
.bInterfaceSubClass = 0,
.bInterfaceProtocol = 0,
.iInterface = CCID_CONF_STR,
},
{
sizeof(CCIDDescriptor), // bLength: Size of this descriptor in bytes
CCID_DECRIPTOR_TYPE, // bDescriptorType:Functional descriptor type
CCID1_10, // bcdCCID: CCID version
0, // bMaxSlotIndex: Value 0 indicates that one slot is supported
VOLTS_3_0, // bVoltageSupport
(1 << PROTOCOL_TO), // dwProtocols
3580, // dwDefaultClock
3580, // dwMaxClock
0, // bNumClockSupported
9600, // dwDataRate : 9600 bauds
9600, // dwMaxDataRate : 9600 bauds
0, // bNumDataRatesSupported
0xfe, // dwMaxIFSD
0, // dwSynchProtocols
0, // dwMechanical
//0x00010042, // dwFeatures: Short APDU level exchanges
CCID_FEATURES_AUTO_CLOCK | CCID_FEATURES_AUTO_BAUD |
CCID_FEATURES_AUTO_PCONF | CCID_FEATURES_AUTO_PNEGO | CCID_FEATURES_EXC_TPDU,
0x0000010F, // dwMaxCCIDMessageLength: For extended APDU level the value shall be between 261 + 10
0xFF, // bClassGetResponse: Echoes the class of the APDU
0xFF, // bClassEnvelope: Echoes the class of the APDU
0, // wLcdLayout: no LCD
0, // bPINSupport: No PIN
1 // bMaxCCIDBusySlot
.bLength = sizeof(CCIDDescriptor),
.bDescriptorType = CCID_DECRIPTOR_TYPE,
.bcdCCID = CCID1_10, // CCID version
.bMaxSlotIndex = 0, // 1 slot
.bVoltageSupport = VOLTS_3_0,
.dwProtocols = (1 << PROTOCOL_TO),
.dwDefaultClock = 3580,
.dwMaximumClock = 3580,
.bNumClockSupported = 0,
.dwDataRate = 9600,
.dwMaxDataRate = 9600,
.bNumDataRatesSupported = 0,
.dwMaxIFSD = 0xfe,
.dwSynchProtocols = 0,
.dwMechanical = 0,
.dwFeatures = CCID_FEATURES_AUTO_CLOCK | CCID_FEATURES_AUTO_BAUD |
CCID_FEATURES_AUTO_PCONF | CCID_FEATURES_AUTO_PNEGO |
CCID_FEATURES_EXC_TPDU,
.dwMaxCCIDMessageLength = 271, /* For extended APDU
level the value shall
be between 261 + 10 */
.bClassGetResponse = 0xFF, // Echoes the class of the APDU
.bClassEnvelope = 0xFF, // Echoes the class of the APDU
.wLcdLayout = 0, // wLcdLayout: no LCD
.bPINSupport = 0, // bPINSupport: No PIN
.bMaxCCIDBusySlots = 1,
},
// Bulk-OUT endpoint descriptor
{
sizeof(USBEndpointDescriptor),
USBGenericDescriptor_ENDPOINT,
USBEndpointDescriptor_ADDRESS( USBEndpointDescriptor_OUT, CCID_EPT_DATA_OUT ),
USBEndpointDescriptor_BULK,
MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(CCID_EPT_DATA_OUT),
.bLength = sizeof(USBEndpointDescriptor),
.bDescriptorType = USBGenericDescriptor_ENDPOINT,
.bEndpointAddress =
USBEndpointDescriptor_ADDRESS(USBEndpointDescriptor_OUT,
CCID_EPT_DATA_OUT),
.bmAttributes = USBEndpointDescriptor_BULK,
.wMaxPacketSize = MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(
CCID_EPT_DATA_OUT),
USBEndpointDescriptor_MAXBULKSIZE_FS),
0x00 // Does not apply to Bulk endpoints
.bInterval = 0x00,
},
// Bulk-IN endpoint descriptor
{
sizeof(USBEndpointDescriptor),
USBGenericDescriptor_ENDPOINT,
USBEndpointDescriptor_ADDRESS( USBEndpointDescriptor_IN, CCID_EPT_DATA_IN ),
USBEndpointDescriptor_BULK,
MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(CCID_EPT_DATA_IN),
.bLength = sizeof(USBEndpointDescriptor),
.bDescriptorType = USBGenericDescriptor_ENDPOINT,
.bEndpointAddress =
USBEndpointDescriptor_ADDRESS(USBEndpointDescriptor_IN,
CCID_EPT_DATA_IN),
.bmAttributes = USBEndpointDescriptor_BULK,
.wMaxPacketSize = MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(
CCID_EPT_DATA_IN),
USBEndpointDescriptor_MAXBULKSIZE_FS),
0x00 // Does not apply to Bulk endpoints
.bInterval = 0x00,
},
// Notification endpoint descriptor
{
sizeof(USBEndpointDescriptor),
USBGenericDescriptor_ENDPOINT,
USBEndpointDescriptor_ADDRESS( USBEndpointDescriptor_IN, CCID_EPT_NOTIFICATION ),
USBEndpointDescriptor_INTERRUPT,
MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(CCID_EPT_NOTIFICATION),
.bLength = sizeof(USBEndpointDescriptor),
.bDescriptorType = USBGenericDescriptor_ENDPOINT,
.bEndpointAddress =
USBEndpointDescriptor_ADDRESS(USBEndpointDescriptor_IN,
CCID_EPT_NOTIFICATION),
.bmAttributes = USBEndpointDescriptor_INTERRUPT,
.wMaxPacketSize = MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(
CCID_EPT_NOTIFICATION),
USBEndpointDescriptor_MAXINTERRUPTSIZE_FS),
0x10
.bInterval = 0x10,
},
/* Communication class interface standard descriptor */
{
sizeof(USBInterfaceDescriptor),
@@ -669,7 +684,8 @@ static const SIMTraceDriverConfigurationDescriptorMITM configurationDescriptorMI
0,
0,
PHONE_CONF_STR, /* string descriptor for this interface */
},
}
,
/* Bulk-OUT endpoint standard descriptor */
{
sizeof(USBEndpointDescriptor),
@@ -680,7 +696,8 @@ static const SIMTraceDriverConfigurationDescriptorMITM configurationDescriptorMI
MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(PHONE_DATAOUT),
USBEndpointDescriptor_MAXBULKSIZE_FS),
0 /* Must be 0 for full-speed bulk endpoints */
},
}
,
/* Bulk-IN endpoint descriptor */
{
sizeof(USBEndpointDescriptor),
@@ -691,17 +708,17 @@ static const SIMTraceDriverConfigurationDescriptorMITM configurationDescriptorMI
MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(PHONE_DATAIN),
USBEndpointDescriptor_MAXBULKSIZE_FS),
0 /* Must be 0 for full-speed bulk endpoints */
},
}
,
/* Notification endpoint descriptor */
{
sizeof(USBEndpointDescriptor),
USBGenericDescriptor_ENDPOINT,
USBEndpointDescriptor_ADDRESS( USBEndpointDescriptor_IN, PHONE_INT ),
USBEndpointDescriptor_ADDRESS(USBEndpointDescriptor_IN, PHONE_INT),
USBEndpointDescriptor_INTERRUPT,
MIN(BOARD_USB_ENDPOINTS_MAXPACKETSIZE(PHONE_INT),
USBEndpointDescriptor_MAXINTERRUPTSIZE_FS),
0x10
}
0x10}
};
#endif /* HAVE_CARDEM */
@@ -722,30 +739,26 @@ const USBConfigurationDescriptor *configurationDescriptorsArr[] = {
/** Standard USB device descriptor for the CDC serial driver */
const USBDeviceDescriptor deviceDescriptor = {
sizeof(USBDeviceDescriptor),
USBGenericDescriptor_DEVICE,
USBDeviceDescriptor_USB2_00,
0xff,
// CDCDeviceDescriptor_CLASS,
0xff,
// CDCDeviceDescriptor_SUBCLASS,
0xff,
// CDCDeviceDescriptor_PROTOCOL,
BOARD_USB_ENDPOINTS_MAXPACKETSIZE(0),
SIMTRACE_VENDOR_ID,
SIMTRACE_PRODUCT_ID,
1, /* Release number */
MANUF_STR, /* Indesx of manufacturer string descriptor */
PRODUCT_STRING, /* Index of product string descriptor */
0, /* No string descriptor for serial number */
ARRAY_SIZE(configurationDescriptorsArr) /* Device has N possible configs */
.bLength = sizeof(USBDeviceDescriptor),
.bDescriptorType = USBGenericDescriptor_DEVICE,
.bcdUSB = USBDeviceDescriptor_USB2_00,
.bDeviceClass = 0xff,
.bDeviceSubClass = 0xff,
.bDeviceProtocol = 0xff,
.bMaxPacketSize0 = BOARD_USB_ENDPOINTS_MAXPACKETSIZE(0),
.idVendor = SIMTRACE_VENDOR_ID,
.idProduct = SIMTRACE_PRODUCT_ID,
.bcdDevice = 2, /* Release number */
.iManufacturer = MANUF_STR,
.iProduct = PRODUCT_STRING,
.iSerialNumber = 0,
.bNumConfigurations = ARRAY_SIZE(configurationDescriptorsArr),
};
/* AT91SAM3S only supports full speed, but not high speed USB */
static const USBDDriverDescriptors driverDescriptors = {
&deviceDescriptor,
(const USBConfigurationDescriptor **) &(configurationDescriptorsArr), /* first full-speed configuration descriptor */
(const USBConfigurationDescriptor **)&(configurationDescriptorsArr), /* first full-speed configuration descriptor */
0, /* No full-speed device qualifier descriptor */
0, /* No full-speed other speed configuration */
0, /* No high-speed device descriptor */
@@ -756,7 +769,6 @@ static const USBDDriverDescriptors driverDescriptors = {
STRING_DESC_CNT /* cnt string descriptors in list */
};
/*----------------------------------------------------------------------------
* Functions
*----------------------------------------------------------------------------*/
@@ -768,16 +780,16 @@ static void _ConfigureUsbClock(void)
{
/* Enable PLLB for USB */
PMC->CKGR_PLLBR = CKGR_PLLBR_DIVB(5)
| CKGR_PLLBR_MULB(0xc) /* MULT+1=0xd*/
| CKGR_PLLBR_MULB(0xc) /* MULT+1=0xd */
| CKGR_PLLBR_PLLBCOUNT_Msk;
while((PMC->PMC_SR & PMC_SR_LOCKB) == 0);
while ((PMC->PMC_SR & PMC_SR_LOCKB) == 0) ;
/* USB Clock uses PLLB */
PMC->PMC_USB = PMC_USB_USBDIV(0) /* /1 (no divider) */
| PMC_USB_USBS; /* PLLB */
}
void SIMtrace_USB_Initialize( void )
void SIMtrace_USB_Initialize(void)
{
_ConfigureUsbClock();
// Get std USB driver
@@ -786,11 +798,9 @@ void SIMtrace_USB_Initialize( void )
TRACE_DEBUG(".");
// Initialize standard USB driver
USBDDriver_Initialize(pUsbd,
&driverDescriptors,
0); // Multiple interface settings not supported
USBDDriver_Initialize(pUsbd, &driverDescriptors, 0); // Multiple interface settings not supported
USBD_Init();
USBD_Connect();
NVIC_EnableIRQ( UDP_IRQn );
NVIC_EnableIRQ(UDP_IRQn);
}