/* Klient sluzby NBNS */ #include "ESP8266NetBIOS.h" #include extern "C" { #include "osapi.h" #include "ets_sys.h" #include "user_interface.h" } #include "lwip/opt.h" #include "lwip/inet.h" #include "lwip/udp.h" #define NBNSQ_TYPE_NB (0x0020) #define NBNSQ_CLASS_IN (0x0001) #ifndef LWIP_PLATFORM_HTONS #define LWIP_PLATFORM_HTONS(_n) ((u16_t)((((_n) & 0xff) << 8) | (((_n) >> 8) & 0xff))) #endif #ifndef LWIP_PLATFORM_HTONL #define LWIP_PLATFORM_HTONL(_n) ((u32_t)( (((_n) & 0xff) << 24) | (((_n) & 0xff00) << 8) | (((_n) >> 8) & 0xff00) | (((_n) >> 24) & 0xff) )) #endif // Definice struktury NBNS dotazu (alespon veci, ktere jsem vypozoroval): struct NBNSQUESTION { uint16_t NBNSQ_ID; // ID dotazu uint8_t NBNSQ_FLAGS1; uint8_t NBNSQ_FLAGS2; uint16_t NBNSQ_QUESTIONCOUNT; uint16_t NBNSQ_ANSWERCOUNT; uint16_t NBNSQ_AUTHORITYCOUNT; uint16_t NBNSQ_ADDITIONALRECORDCOUNT; uint8_t NBNSQ_NAMESIZE; // delka nasledujiciho retezce char NBNSQ_NAME[32+1]; // POZOR!!! mozna tato polozka muze byt ruzne dlouha uint16_t NBNSQ_TYPE; uint16_t NBNSQ_CLASS; } __attribute__((packed)); // Definice struktury NBNS odpovedi (stejne jako u dotazu) struct NBNSANSWER { uint16_t NBNSA_ID; // ID dotazu uint8_t NBNSA_FLAGS1; uint8_t NBNSA_FLAGS2; uint16_t NBNSA_QUESTIONCOUNT; uint16_t NBNSA_ANSWERCOUNT; uint16_t NBNSA_AUTHORITYCOUNT; uint16_t NBNSA_ADDITIONALRECORDCOUNT; uint8_t NBNSA_NAMESIZE; // delka nasledujiciho retezce char NBNSA_NAME[32 + 1]; // POZOR!!! mozna tato polozka muze byt ruzne dlouha uint16_t NBNSA_TYPE; uint16_t NBNSA_CLASS; uint32_t NBNSA_TIMETOLIVE; uint16_t NBNSA_LENGTH; uint16_t NBNSA_NODEFLAGS; // POZOR!!! tady si nejsem moc jisty uint32_t NBNSA_NODEADDRESS; } __attribute__((packed)); // Definice struktury NBNS odpovedi na dotaz na jmeno struct NBNSANSWERN { uint16_t NBNSAN_ID; // ID dotazu uint8_t NBNSAN_FLAGS1; uint8_t NBNSAN_FLAGS2; uint16_t NBNSAN_QUESTIONCOUNT; uint16_t NBNSAN_ANSWERCOUNT; uint16_t NBNSAN_AUTHORITYCOUNT; uint16_t NBNSAN_ADDITIONALRECORDCOUNT; uint8_t NBNSAN_NAMESIZE; // delka nasledujiciho retezce char NBNSAN_NAME[32 + 1]; // POZOR!!! mozna tato polozka muze byt ruzne dlouha uint16_t NBNSAN_TYPE; uint16_t NBNSAN_CLASS; uint32_t NBNSAN_TIMETOLIVE; uint16_t NBNSAN_LENGTH; uint8_t NBNSAN_NUMBER; // number of names char NBNSAN_NNAME[15]; // jmeno nodu uint8_t NBNSAN_NTYPE; // typ jmena uint16_t NBNSAN_NFLAGS; // node flags } __attribute__((packed)); /** Metoda pro ziskani jmena z kodovani NETBIOS. * \param nbname Ukazatel na jmeno v NETBIOS kodovani. * \param name Ukazatel na misto, kam prevadime jmeno. * \param maxlen Maximalni pocet znaku v nbname. */ void ESP8266NetBIOS::_getnbname(char *nbname, char *name, uint8_t maxlen) { uint8_t b; uint8_t c = 0; while ((*nbname != 0x0) && (c < maxlen)) { b = (*nbname++ - 'A') << 4; // opravime nibble a prevedeme ho do vyssich bitu c++; // pocitame pocet odebranych bytu if (*nbname != 0x0) { b |= *nbname++ - 'A'; // pridame nizsi nibble c++; // opet spocitame pocet odebranych znaku } *name++ = b; // ulozime znak do vysledku a posuneme ukazatel } *name = 0x0; // ulozime ukoncovaci 0 } /** Prevod zadaneho textu do NETBIOS kodovani * \param name Ukazatel na prevadene jmeno. * \param nbname Ukazatel na misto, kam vytvarime jmeno. * \param outlen Pocet vystupnich znaku (mimo ukoncovaci 0) musi byt delitelne 2 */ void ESP8266NetBIOS::_makenbname(char *name, char *nbname, uint8_t outlen) { uint8_t b; uint8_t c = 0; while (c < (outlen - 2)) { b = *name; // prevadeny znak if (b) { name++; // zatim se posunujeme } else { b = 0x20; // konec retezce je nahrazeny mezerou } *nbname++ = (b >> 4) + 'A'; // jeden nibble ze znaku *nbname++ = (b & 0xf) + 'A'; // druhy nibble ze znaku c += 2; // pocet prevedenych znaku } *nbname++ = 'A'; *nbname++ = 'A'; // ulozime ukoncovaci 0 v NBNS kodovani *nbname = 0; // ulozime ukoncovaci 0 retezce } ESP8266NetBIOS::ESP8266NetBIOS():_pcb(NULL) { } ESP8266NetBIOS::~ESP8266NetBIOS() { end(); } // Vytvoreni a otevreni UDP soketu, pokud jeste neni... bool ESP8266NetBIOS::begin(const char *name) { size_t n = strlen(name); if (n > sizeof(_name)) { // prilis dlouhe jmeno return false; } // presuneme jmeno zarizeni se soucasnou upravou na UPPER case for (size_t i = 0; i < n; ++i) { _name[i] = toupper(name[i]); } _name[n] = '\0'; if(_pcb != NULL) { return true; } _pcb = udp_new(); udp_recv(_pcb, &_s_recv, (void *) this); err_t err = udp_bind(_pcb, INADDR_ANY, NBNS_PORT); if(err != ERR_OK) { end(); return false; } return true; } void ESP8266NetBIOS::end() { if(_pcb != NULL) { udp_remove(_pcb); _pcb = NULL; } } void ESP8266NetBIOS::_recv(udp_pcb *upcb, pbuf *pb, CONST ip_addr_t *addr, uint16_t port) { (void)upcb; (void)addr; (void)port; while(pb != NULL) { uint8_t * data = (uint8_t*)((pb)->payload); size_t len = pb->len; #if LWIP_VERSION_MAJOR == 1 // check UdpContext.h ip_addr_t* saddr = ¤t_iphdr_src; #else // check UdpContext.h const ip_addr_t* saddr = &ip_data.current_iphdr_src; #endif if (len >= sizeof(struct NBNSQUESTION)) { struct NBNSQUESTION * question = (struct NBNSQUESTION *)data; if (0 == (question->NBNSQ_FLAGS1 & 0x80)) { char name[ NBNS_MAX_HOSTNAME_LEN + 1 ]; // dekodovane dotazovane jmeno char *str; // pomocna promenna, pouze pro praci s retezcem _getnbname(&question->NBNSQ_NAME[0], (char *)&name, question->NBNSQ_NAMESIZE); // prevedeme dotazovane jmeno if ((str = strchr(name, ' ')) != NULL) { // jmeno hledaneho zarizeni v tomto pripade ukoncuje i mezera *str = '\0'; // ukoncime retezec na vyskytu prvni mezery } if (0 == strcmp(name, _name)) { // dotaz primo na nas struct NBNSANSWER nbnsa; // buffer, do ktereho je sestavena odpoved na dotaz nbnsa.NBNSA_ID = question->NBNSQ_ID;// ID dotazu kopirujeme do ID odpovedi nbnsa.NBNSA_FLAGS1 = 0x85; // priznak odpovedi nbnsa.NBNSA_FLAGS2 = 0; // vlajky 2 a response code nbnsa.NBNSA_QUESTIONCOUNT = LWIP_PLATFORM_HTONS(0); nbnsa.NBNSA_ANSWERCOUNT = LWIP_PLATFORM_HTONS(1);// poradove cislo odpovedi nbnsa.NBNSA_AUTHORITYCOUNT = LWIP_PLATFORM_HTONS(0); nbnsa.NBNSA_ADDITIONALRECORDCOUNT = LWIP_PLATFORM_HTONS(0); nbnsa.NBNSA_NAMESIZE = sizeof(nbnsa.NBNSA_NAME) - 1; // prekopirujeme delku jmena stanice _makenbname(_name, &nbnsa.NBNSA_NAME[0], sizeof(nbnsa.NBNSA_NAME) - 1); // prevedeme jmeno nbnsa.NBNSA_TYPE = LWIP_PLATFORM_HTONS(0x20); // NetBIOS name nbnsa.NBNSA_CLASS = LWIP_PLATFORM_HTONS(1); // Internet name nbnsa.NBNSA_TIMETOLIVE = LWIP_PLATFORM_HTONL(300000UL);// Time to live (30000 sekund) nbnsa.NBNSA_LENGTH = LWIP_PLATFORM_HTONS(6); nbnsa.NBNSA_NODEFLAGS = LWIP_PLATFORM_HTONS(0); nbnsa.NBNSA_NODEADDRESS = WiFi.localIP(); // ulozime nasi IP adresu pbuf* pbt = pbuf_alloc(PBUF_TRANSPORT, sizeof(nbnsa), PBUF_RAM); if(pbt != NULL) { uint8_t* dst = reinterpret_cast(pbt->payload); memcpy(dst, (uint8_t *)&nbnsa, sizeof(nbnsa)); udp_sendto(_pcb, pbt, saddr, NBNS_PORT); pbuf_free(pbt); } } else if (0 == strcmp(name, "*")) { // obecny dotaz - mireny nejspis na nasi IP adresu struct NBNSANSWERN nbnsan; // buffer, do ktereho je sestavena odpoved na dotaz nbnsan.NBNSAN_ID = question->NBNSQ_ID;// ID dotazu kopirujeme do ID odpovedi nbnsan.NBNSAN_FLAGS1 = 0x84; // priznak odpovedi nbnsan.NBNSAN_FLAGS2 = 0; // vlajky 2 a response code nbnsan.NBNSAN_QUESTIONCOUNT = LWIP_PLATFORM_HTONS(0); nbnsan.NBNSAN_ANSWERCOUNT = LWIP_PLATFORM_HTONS(1);// poradove cislo odpovedi nbnsan.NBNSAN_AUTHORITYCOUNT = LWIP_PLATFORM_HTONS(0); nbnsan.NBNSAN_ADDITIONALRECORDCOUNT = LWIP_PLATFORM_HTONS(0); nbnsan.NBNSAN_NAMESIZE = question->NBNSQ_NAMESIZE; // prekopirujeme delku jmena stanice memcpy(nbnsan.NBNSAN_NAME, question->NBNSQ_NAME, sizeof(nbnsan.NBNSAN_NAME)); // prekopirujeme dotazovane jmeno nbnsan.NBNSAN_TYPE = LWIP_PLATFORM_HTONS(0x21); // NBSTAT nbnsan.NBNSAN_CLASS = LWIP_PLATFORM_HTONS(1); // Internet name nbnsan.NBNSAN_TIMETOLIVE = LWIP_PLATFORM_HTONL(0); nbnsan.NBNSAN_LENGTH = LWIP_PLATFORM_HTONS(4 + sizeof(nbnsan.NBNSAN_NNAME)); nbnsan.NBNSAN_NUMBER = 1; // Number of names memset(nbnsan.NBNSAN_NNAME, 0x20, sizeof(nbnsan.NBNSAN_NNAME)); memcpy(nbnsan.NBNSAN_NNAME, _name, strlen(_name)); nbnsan.NBNSAN_NTYPE = 0; // Workstation/Redirector nbnsan.NBNSAN_NFLAGS = LWIP_PLATFORM_HTONS(0x400); // b-node, unique, active pbuf* pbt = pbuf_alloc(PBUF_TRANSPORT, sizeof(nbnsan), PBUF_RAM); if(pbt != NULL) { uint8_t* dst = reinterpret_cast(pbt->payload); memcpy(dst, (uint8_t *)&nbnsan, sizeof(nbnsan)); udp_sendto(_pcb, pbt, saddr, NBNS_PORT); pbuf_free(pbt); } } } } pbuf * this_pb = pb; pb = pb->next; this_pb->next = NULL; pbuf_free(this_pb); } } void ESP8266NetBIOS::_s_recv(void *arg, udp_pcb *upcb, pbuf *p, CONST ip_addr_t *addr, uint16_t port) { reinterpret_cast(arg)->_recv(upcb, p, addr, port); } #if !defined(NO_GLOBAL_INSTANCES) && !defined(NO_GLOBAL_NETBIOS) ESP8266NetBIOS NBNS; #endif // EOF