#include #include #include #include #include #include "card_emu.h" #include "cardemu_prot.h" #include "tc_etu.h" #include "req_ctx.h" /* stub functions required by card_emu.c */ int card_emu_uart_update_fidi(uint8_t uart_chan, unsigned int fidi) { printf("uart_update_fidi(uart_chan=%u, fidi=%u)\n", uart_chan, fidi); return 0; } int card_emu_uart_tx(uint8_t uart_chan, uint8_t byte) { printf("TX: 0x%02x\n", byte); return 1; } void card_emu_uart_enable(uint8_t uart_chan, uint8_t rxtx) { printf("uart_enable(uart_chan=%u, rxtx=0x%02x)\n", uart_chan, rxtx); } void tc_etu_set_wtime(uint8_t tc_chan, uint16_t wtime) { printf("tc_etu_set_wtime(tc_chan=%u, wtime=%u)\n", tc_chan, wtime); } void tc_etu_set_etu(uint8_t tc_chan, uint16_t etu) { printf("tc_etu_set_etu(tc_chan=%u, etu=%u)\n", tc_chan, etu); } void tc_etu_init(uint8_t chan_nr, void *handle) { } #if 0 /* process a single byte received from the reader */ void card_emu_process_rx_byte(struct card_handle *ch, uint8_t byte); /* return a single byte to be transmitted to the reader */ int card_emu_get_tx_byte(struct card_handle *ch, uint8_t *byte); /* hardware driver informs us that a card I/O signal has changed */ void card_emu_io_statechg(struct card_handle *ch, enum card_io io, int active); /* User sets a new ATR to be returned during next card reset */ int card_emu_set_atr(struct card_handle *ch, const uint8_t *atr, uint8_t len); #endif static int verify_atr(struct card_handle *ch) { uint8_t atr[4]; uint8_t byte; unsigned int i; printf("receiving + verifying ATR:"); for (i = 0; i < sizeof(atr); i++) { assert(card_emu_get_tx_byte(ch, &atr[i]) == 1); printf(" %02x", atr[i]); } printf("\n"); assert(card_emu_get_tx_byte(ch, &byte) == 0); return 1; } static void io_start_card(struct card_handle *ch) { uint8_t byte; /* bring the card up from the dead */ card_emu_io_statechg(ch, CARD_IO_VCC, 1); assert(card_emu_get_tx_byte(ch, &byte) == 0); card_emu_io_statechg(ch, CARD_IO_CLK, 1); assert(card_emu_get_tx_byte(ch, &byte) == 0); card_emu_io_statechg(ch, CARD_IO_RST, 1); assert(card_emu_get_tx_byte(ch, &byte) == 0); /* release from reset and verify th ATR */ card_emu_io_statechg(ch, CARD_IO_RST, 0); verify_atr(ch); } static void send_bytes(struct card_handle *ch, const uint8_t *bytes, unsigned int len) { unsigned int i; for (i = 0; i < len; i++) card_emu_process_rx_byte(ch, bytes[i]); } static void dump_rctx(struct req_ctx *rctx) { struct cardemu_usb_msg_hdr *mh = (struct cardemu_usb_msg_hdr *) rctx->data; struct cardemu_usb_msg_rx_data *rxd; int i; printf("req_ctx(%p): state=%u, size=%u, tot_len=%u, idx=%u, data=%p\n", rctx, rctx->state, rctx->size, rctx->tot_len, rctx->idx, rctx->data); printf(" msg_type=%u, seq_nr=%u, data_len=%u\n", mh->msg_type, mh->seq_nr, mh->data_len); switch (mh->msg_type) { case CEMU_USB_MSGT_DO_RX_DATA: rxd = (struct cardemu_usb_msg_rx_data *)mh; printf(" flags=%x, data=", rxd->flags); for (i = 0; i < mh->data_len; i++) printf(" %02x", rxd->data[i]); printf("\n"); break; } } static void send_tpdu_hdr(struct card_handle *ch, const uint8_t *tpdu_hdr) { struct req_ctx *rctx; /* we don't want a receive context to become available during * the first four bytes */ send_bytes(ch, tpdu_hdr, 4); assert(!req_ctx_find_get(1, RCTX_S_USB_TX_PENDING, RCTX_S_USB_TX_BUSY)); send_bytes(ch, tpdu_hdr+4, 1); /* but then after the final byte of the TPDU header, we want a * receive context to be available for USB transmission */ rctx = req_ctx_find_get(1, RCTX_S_USB_TX_PENDING, RCTX_S_USB_TX_BUSY); assert(rctx); dump_rctx(rctx); } const uint8_t tpdu_hdr_sel_mf[] = { 0xA0, 0xA4, 0x00, 0x00, 0x02 }; int main(int argc, char **argv) { struct card_handle *ch; req_ctx_init(); ch = card_emu_init(0, 23, 42); assert(ch); io_start_card(ch); send_tpdu_hdr(ch, tpdu_hdr_sel_mf); exit(0); }