Bluetooth hc05 library
hc05.cpp
- Committer:
- rainerraul
- Date:
- 2018-08-16
- Revision:
- 0:15a264bf1590
- Child:
- 1:8d4296aafa55
File content as of revision 0:15a264bf1590:
#include "mbed.h" #include "at.h" #include "hc05.h" void bt_modul_hc05::initUART(UART num, unsigned long baudrate, _IRQ interrupt) { switch(num) { case UART1 : at0.device_init(baudrate, interrupt); t_interrupt = interrupt; break; case UART6 : at1.device_init1(baudrate, interrupt); t_interrupt1 = interrupt; break; } } char *bt_modul_hc05::get_version(UART num) { switch(num) { case UART1 : at0.at_send("AT+VERSION?\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(3); } else { return at0.buffer; } case UART6 : at1.at_send1("AT+VERSION?\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(3); } else { return at1.buffer; } } return 0; } char *bt_modul_hc05::set_reset(UART num) { switch(num) { case UART1 : at0.at_send("AT+RESET\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(3); } else { return at0.buffer; } case UART6 : at1.at_send1("AT+RESET\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(3); } else { return at1.buffer; } } return 0; } char *bt_modul_hc05::set_default_settings(UART num) { switch(num) { case UART1 : at0.at_send("AT+ORGL\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(3); } else { return at0.buffer; } case UART6 : at1.at_send1("AT+ORGL\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(3); } else { return at1.buffer; } } return 0; } char *bt_modul_hc05::get_modul_address(UART num) { switch(num) { case UART1 : at0.at_send("AT+ADDR?\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(4); } else { return at0.buffer; } case UART6 : at1.at_send1("AT+ADDR?\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(4); } else { return at1.buffer; } } return 0; } char *bt_modul_hc05::get_modul_name(UART num) { switch(num) { case UART1 : at0.at_send("AT+NAME?\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(3); } else { return at0.buffer; } case UART6 : at1.at_send1("AT+NAME?\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(3); } else { return at1.buffer; } } return 0; } char *bt_modul_hc05::get_device_name(UART num) { switch(num) { case UART1 : at0.at_send("AT+RNAME?\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(3); } else { return at0.buffer; } case UART6 : at1.at_send1("AT+RNAME?\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(3); } else { return at1.buffer; } } return 0; } char *bt_modul_hc05::get_modul_role(UART num) { switch(num) { case UART1 : at0.at_send("AT+ROLE?\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(3); } else { return at0.buffer; } case UART6 : at1.at_send1("AT+ROLE?\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(3); } else { return at1.buffer; } } return 0; } char *bt_modul_hc05::get_device_class(UART num) { switch(num) { case UART1 : at0.at_send("AT+CLASS?\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(3); } else { return at0.buffer; } case UART6 : at1.at_send1("AT+CLASS?\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(3); } else { return at1.buffer; } } return 0; } char *bt_modul_hc05::get_modul_giac(UART num) { switch(num) { case UART1 : at0.at_send("AT+IAC?\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(3); } else { return at0.buffer; } case UART6 : at1.at_send1("AT+IAC?\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(3); } else { return at1.buffer; } } return 0; } char *bt_modul_hc05::get_modul_inquiry(UART num) { switch(num) { case UART1 : at0.at_send("AT+INQM?\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(3); } else { return at0.buffer; } case UART6 : at1.at_send1("AT+INQM?\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(3); } else { return at1.buffer; } } return 0; } char *bt_modul_hc05::get_modul_pincode(UART num) { switch(num) { case UART1 : at0.at_send("AT+PSWD?\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(4); } else { return at0.buffer; } case UART6 : at1.at_send1("AT+PSWD?\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(4); } else { return at1.buffer; } } return 0; } char *bt_modul_hc05::get_modul_uart(UART num) { switch(num) { case UART1 : at0.at_send("AT+UART?\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(3); } else { return at0.buffer; } case UART6 : at1.at_send1("AT+UART?\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(3); } else { return at1.buffer; } } return 0; } char *bt_modul_hc05::get_modul_inqm(UART num) { switch(num) { case UART1 : at0.at_send("AT+INQ?\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(3); } else { return at0.buffer; } case UART6 : at1.at_send1("AT+INQ?\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(3); } else { return at1.buffer; } } return 0; } char *bt_modul_hc05::get_modul_init(UART num) { switch(num) { case UART1 : at0.at_send("AT+INIT\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(2); } else { return at0.buffer; } case UART6 : at1.at_send("AT+INIT\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(2); } else { return at1.buffer; } } return 0; } char *bt_modul_hc05::get_modul_state(UART num) { switch(num) { case UART1 : at0.at_send("AT+STATE?\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(3); } else { return at0.buffer; } case UART6 : at1.at_send1("AT+STATE?\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(3); } else { return at1.buffer; } } return 0; } char *bt_modul_hc05::get_addr_mode(UART num) { switch(num) { case UART1 : at0.at_send("AT+CMODE?\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(3); } else { return at0.buffer; } case UART6 : at1.at_send1("AT+CMODE?\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(3); } else { return at1.buffer; } } return 0; } char *bt_modul_hc05::get_fixed_addr(UART num) { switch(num) { case UART1 : at0.at_send("AT+BIND?\r\n", ""); if(t_interrupt == OFF) { return at0.getAnswer(3); } else { return at0.buffer; } case UART6 : at1.at_send1("AT+BIND?\r\n", ""); if(t_interrupt1 == OFF) { return at1.getAnswer(3); } else { return at1.buffer; } } return 0; }