#include "io.h" #include "bt.h" #include "fb.h" #define MAX_MSG_LEN 50 #define MAX_READ_RUN 100 unsigned char data_buf[MAX_MSG_LEN]; unsigned int data_len; unsigned int messages_received = 0; unsigned int poll_state = 0; enum { LE_EVENT_CODE = 0x3e, LE_CONNECT_CODE = 0x01, LE_ADREPORT_CODE = 0x02, HCI_ACL_PKT = 0x02, HCI_EVENT_PKT = 0x04 }; unsigned int got_echo_sid = 0; unsigned int got_echo_name = 0; unsigned char echo_addr[6]; unsigned int connected = 0; unsigned int connection_handle = 0; int memcmp(const char *str1, const char *str2, int count) { const char *s1 = (const char*)str1; const char *s2 = (const char*)str2; while (count-- > 0) { if (*s1++ != *s2++) return s1[-1] < s2[-1] ? -1 : 1; } return 0; } void hci_poll2(unsigned char byte) { switch (poll_state) { case 0: if (byte != HCI_EVENT_PKT) poll_state = 0; else poll_state = 1; break; case 1: if (byte != LE_EVENT_CODE) poll_state = 0; else poll_state = 2; break; case 2: if (byte > MAX_MSG_LEN) poll_state = 0; else { poll_state = 3; data_len = byte; } break; default: data_buf[poll_state - 3] = byte; if (poll_state == data_len + 3 - 1) { messages_received++; poll_state = 0; } else poll_state++; } } unsigned char *hci_poll() { unsigned int goal = messages_received + 1; if (bt_isReadByteReady()) { unsigned int run = 0; while (run < MAX_READ_RUN && messages_received < goal && bt_isReadByteReady()) { unsigned char byte = bt_readByte(); hci_poll2(byte); run++; } if (run == MAX_READ_RUN) return 0; else return data_buf; } return 0; } void bt_search(void) { unsigned char *buf; while ( (buf = hci_poll()) ) { if (data_len >= 2) { if (buf[0] == LE_ADREPORT_CODE) { if (buf[1] == 1) { // num_reports if (buf[2] == 0) { // event_type int bufindex = 0; unsigned char ad_len = buf[11]; for (int c=9;c>=4;c--) echo_addr[9-c] = buf[bufindex + c]; // save the mac address bufindex += 11; got_echo_sid = 0; got_echo_name = 0; // Reset the search state machine do { ad_len = buf[bufindex]; unsigned char ad_type = buf[bufindex + 1]; bufindex += 2; if (ad_len >= 2) { if (ad_type == 0x03) { unsigned int sid = buf[bufindex] | (buf[bufindex + 1] << 8); if (sid == 0xEC00) { got_echo_sid = 1; debugstr("got sid... "); } } else if (ad_type == 0x09) { char remote_name[ad_len - 1]; unsigned int d=0; while (d= 2) { if (buf[0] == LE_CONNECT_CODE && !connected) { connected = !buf[1]; debughex(connected); debugstr(" "); connection_handle = buf[2] | (buf[3] << 8); debughex(connection_handle); debugstr(" "); } } } } void acl_poll() { while (bt_isReadByteReady()) { unsigned char byte = bt_readByte(); if (byte == HCI_EVENT_PKT) { bt_waitReadByte(); // opcode unsigned char length = bt_waitReadByte(); for (int i=0;i 7) { for (int i=0;i> reset: "); bt_reset(); debugstr(">> firmware load: "); bt_loadfirmware(); debugstr(">> set baud: "); bt_setbaud(); debugstr(">> set bdaddr: "); bt_setbdaddr(); // Print the BD_ADDR unsigned char local_addr[6]; bt_getbdaddr(local_addr); for (int c=5;c>=0;c--) debugch(local_addr[c]); debugcrlf(); // Test out the scanning run_search(); }