e8211226f3
* ApiHal: set frequency and path in one go. Drivers: proper frequency registers calculation for CC1101. Update subghz cli to match new api. * SubGhz: preparation for parsers porting, tim2 sharing * ApiHal: add interrupts API, move all TIM2 related things there. * SubGhz: refactor protocol lib and add keeloq. * SubGhz: proper init_set for keeloq manafacture key * SubGhz: port more protocols to lib * SubGhz: load keeloq manufacture keys from sd card (if any). * SubGhz: format output from protocols. * SubGhz: use default frequency in subghz_rx cli command. * SubGhz: keeloq key types * Fix compillation error when internal storage disabled * SubGhz: minor cleanup * SubGhz: properly handle timeout and reset signal in subghz_rx * SubGhz: Worker, Capture View. Furi: emulate thread join. * SubGhz: free strings on keeloq key load end * SubGhz: update protocols reporting API, app refactoring and capture view, update API HAL usage. * SubGhz: update dump formatting * ApiHal: backport subghz preset to F5 * ApiHal: backport subghz frequency range to F5
378 lines
15 KiB
C
378 lines
15 KiB
C
#include "subghz_protocol_keeloq.h"
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#include <furi.h>
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#include <m-string.h>
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#include <m-array.h>
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/*
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* Keeloq
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* https://ru.wikipedia.org/wiki/KeeLoq
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* https://phreakerclub.com/forum/showthread.php?t=1094
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*
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*/
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#define KEELOQ_NLF 0x3A5C742E
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#define bit(x,n) (((x)>>(n))&1)
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#define g5(x,a,b,c,d,e) (bit(x,a)+bit(x,b)*2+bit(x,c)*4+bit(x,d)*8+bit(x,e)*16)
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/*
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* KeeLoq learning types
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* https://phreakerclub.com/forum/showthread.php?t=67
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*/
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#define KEELOQ_LEARNING_UNKNOWN 0u
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#define KEELOQ_LEARNING_SIMPLE 1u
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#define KEELOQ_LEARNING_NORMAL 2u
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#define KEELOQ_LEARNING_SECURE 3u
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typedef struct {
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string_t name;
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uint64_t key;
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uint16_t type;
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} KeeLoqManufactureCode;
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ARRAY_DEF(KeeLoqManufactureCodeArray, KeeLoqManufactureCode, M_POD_OPLIST)
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#define M_OPL_KeeLoqManufactureCodeArray_t() ARRAY_OPLIST(KeeLoqManufactureCodeArray, M_POD_OPLIST)
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struct SubGhzProtocolKeeloq {
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SubGhzProtocolCommon common;
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KeeLoqManufactureCodeArray_t manufacture_codes;
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const char* manufacture_name;
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};
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/** Simple Learning Encrypt
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* @param data - serial number (28bit)
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* @param key - manufacture (64bit)
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* @return ?
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*/
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inline uint32_t subghz_protocol_keeloq_encrypt(const uint32_t data, const uint64_t key) {
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uint32_t x = data, r;
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for (r = 0; r < 528; r++)
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x = (x>>1)^((bit(x,0)^bit(x,16)^(uint32_t)bit(key,r&63)^bit(KEELOQ_NLF,g5(x,1,9,20,26,31)))<<31);
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return x;
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}
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/** Simple Learning Decrypt
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* @param data - serial number (28bit)
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* @param key - manufacture (64bit)
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* @return ?
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*/
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inline uint32_t subghz_protocol_keeloq_decrypt(const uint32_t data, const uint64_t key) {
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uint32_t x = data, r;
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for (r = 0; r < 528; r++)
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x = (x<<1)^bit(x,31)^bit(x,15)^(uint32_t)bit(key,(15-r)&63)^bit(KEELOQ_NLF,g5(x,0,8,19,25,30));
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return x;
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}
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/** Normal Learning
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* @param data - serial number (28bit)
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* @param key - manufacture (64bit)
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* @return ?
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*/
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inline uint64_t subghz_protocol_keeloq_normal_learning(uint32_t data, const uint64_t key){
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uint32_t k1,k2;
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data&=0x0FFFFFFF;
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data|=0x20000000;
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k1=subghz_protocol_keeloq_decrypt(data, key);
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data&=0x0FFFFFFF;
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data|=0x60000000;
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k2=subghz_protocol_keeloq_decrypt(data, key);
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return ((uint64_t)k2<<32)| k1; // key - shifrovanoya
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}
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SubGhzProtocolKeeloq* subghz_protocol_keeloq_alloc() {
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SubGhzProtocolKeeloq* instance = furi_alloc(sizeof(SubGhzProtocolKeeloq));
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instance->common.name = "KeeLoq";
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instance->common.code_min_count_bit_for_found = 64;
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instance->common.te_shot = 400;
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instance->common.te_long = 800;
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instance->common.te_delta = 140;
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instance->common.to_string = (SubGhzProtocolCommonToStr)subghz_protocol_keeloq_to_str;
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KeeLoqManufactureCodeArray_init(instance->manufacture_codes);
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return instance;
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}
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void subghz_protocol_keeloq_free(SubGhzProtocolKeeloq* instance) {
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furi_assert(instance);
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for
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M_EACH(manufacture_code, instance->manufacture_codes, KeeLoqManufactureCodeArray_t) {
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string_clear(manufacture_code->name);
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manufacture_code->key = 0;
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}
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KeeLoqManufactureCodeArray_clear(instance->manufacture_codes);
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free(instance);
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}
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void subghz_protocol_keeloq_add_manafacture_key(SubGhzProtocolKeeloq* instance, const char* name, uint64_t key, uint16_t type) {
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KeeLoqManufactureCode* manufacture_code = KeeLoqManufactureCodeArray_push_raw(instance->manufacture_codes);
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string_init_set_str(manufacture_code->name, name);
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manufacture_code->key = key;
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manufacture_code->type = type;
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}
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uint8_t subghz_protocol_keeloq_check_remote_controller_selector(SubGhzProtocolKeeloq* instance, uint32_t fix , uint32_t hop) {
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uint16_t end_serial = (uint16_t)(fix&0x3FF);
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uint8_t btn = (uint8_t)(fix>>28);
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uint32_t decrypt = 0;
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uint64_t man_normal_learning;
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for
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M_EACH(manufacture_code, instance->manufacture_codes, KeeLoqManufactureCodeArray_t) {
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switch (manufacture_code->type){
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case KEELOQ_LEARNING_SIMPLE:
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//Simple Learning
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decrypt = subghz_protocol_keeloq_decrypt(hop, manufacture_code->key);
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if((decrypt>>28 == btn) && ((((uint16_t)(decrypt>>16)) & 0x3FF) == end_serial)){
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instance->manufacture_name = string_get_cstr(manufacture_code->name);
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instance->common.cnt = decrypt & 0x0000FFFF;
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return 1;
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}
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break;
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case KEELOQ_LEARNING_NORMAL:
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// Normal_Learning
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// https://phreakerclub.com/forum/showpost.php?p=43557&postcount=37
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man_normal_learning = subghz_protocol_keeloq_normal_learning(fix, manufacture_code->key);
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decrypt=subghz_protocol_keeloq_decrypt(hop, man_normal_learning);
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if( (decrypt>>28 ==btn)&& ((((uint16_t)(decrypt>>16))&0x3FF)==end_serial)){
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instance->manufacture_name = string_get_cstr(manufacture_code->name);
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instance->common.cnt = decrypt & 0x0000FFFF;
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return 1;
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}
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break;
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case KEELOQ_LEARNING_UNKNOWN:
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// Simple Learning
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decrypt=subghz_protocol_keeloq_decrypt(hop, manufacture_code->key);
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if( (decrypt>>28 ==btn) && ((((uint16_t)(decrypt>>16))&0x3FF)==end_serial)){
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instance->manufacture_name = string_get_cstr(manufacture_code->name);
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instance->common.cnt = decrypt & 0x0000FFFF;
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return 1;
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}
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// Check for mirrored man
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uint64_t man_rev=0;
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uint64_t man_rev_byte=0;
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for(uint8_t i=0; i<64; i+=8){
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man_rev_byte=(uint8_t)(manufacture_code->key >> i);
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man_rev = man_rev | man_rev_byte << (56-i);
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}
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decrypt=subghz_protocol_keeloq_decrypt(hop, man_rev);
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if( (decrypt>>28 ==btn) && ((((uint16_t)(decrypt>>16))&0x3FF)==end_serial)){
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instance->manufacture_name = string_get_cstr(manufacture_code->name);
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instance->common.cnt= decrypt&0x0000FFFF;
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return 1;
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}
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//###########################
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// Normal_Learning
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// https://phreakerclub.com/forum/showpost.php?p=43557&postcount=37
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man_normal_learning = subghz_protocol_keeloq_normal_learning(fix, manufacture_code->key);
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decrypt=subghz_protocol_keeloq_decrypt(hop, man_normal_learning);
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if( (decrypt>>28 ==btn)&& ((((uint16_t)(decrypt>>16))&0x3FF)==end_serial)){
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instance->manufacture_name = string_get_cstr(manufacture_code->name);
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instance->common.cnt= decrypt&0x0000FFFF;
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return 1;
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}
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// Check for mirrored man
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man_rev=0;
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man_rev_byte=0;
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for(uint8_t i=0; i<64; i+=8){
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man_rev_byte = (uint8_t)(manufacture_code->key >> i);
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man_rev = man_rev | man_rev_byte << (56-i);
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}
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man_normal_learning = subghz_protocol_keeloq_normal_learning(fix, man_rev);
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decrypt=subghz_protocol_keeloq_decrypt(hop, man_normal_learning);
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if( (decrypt>>28 ==btn) && ((((uint16_t)(decrypt>>16))&0x3FF)==end_serial)){
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instance->manufacture_name = string_get_cstr(manufacture_code->name);
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instance->common.cnt= decrypt&0x0000FFFF;
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return 1;
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}
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break;
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}
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}
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instance->manufacture_name = "Unknown";
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instance->common.cnt=0;
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return 0;
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}
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void subghz_protocol_keeloq_check_remote_controller(SubGhzProtocolKeeloq* instance) {
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uint64_t key = subghz_protocol_common_reverse_key(instance->common.code_found, instance->common.code_count_bit);
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uint32_t key_fix = key >> 32;
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uint32_t key_hop = key & 0x00000000ffffffff;
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// Check key AN-Motors
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if((key_hop >> 24) == ((key_hop>>16)&0x00ff) && (key_fix>>28) ==((key_hop>>12)&0x0f) ){
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instance->manufacture_name = "AN-Motors";
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instance->common.cnt = key_hop>>16;
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} else {
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subghz_protocol_keeloq_check_remote_controller_selector(instance, key_fix, key_hop);
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}
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if (instance->common.callback) instance->common.callback((SubGhzProtocolCommon*)instance, instance->common.context);
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}
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void subghz_protocol_keeloq_send_bit(SubGhzProtocolKeeloq* instance, uint8_t bit) {
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if (bit) {
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// send bit 1
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SUBGHZ_TX_PIN_HIGTH();
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delay_us(instance->common.te_shot);
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SUBGHZ_TX_PIN_LOW();
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delay_us(instance->common.te_long);
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} else {
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// send bit 0
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SUBGHZ_TX_PIN_HIGTH();
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delay_us(instance->common.te_long);
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SUBGHZ_TX_PIN_LOW();
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delay_us(instance->common.te_shot);
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}
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}
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void subghz_protocol_keeloq_send_key(SubGhzProtocolKeeloq* instance, uint64_t key, uint8_t bit, uint8_t repeat) {
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while (repeat--) {
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// Send header
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for (uint8_t i = 11; i > 0; i--) {
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SUBGHZ_TX_PIN_HIGTH();
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delay_us(instance->common.te_shot);
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SUBGHZ_TX_PIN_LOW();
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delay_us(instance->common.te_shot);
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}
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delay_us(instance->common.te_shot * 9); //+1 up Send header
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for (uint8_t i = bit; i > 0; i--) {
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subghz_protocol_keeloq_send_bit(instance, bit_read(key, i - 1));
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}
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// +send 2 status bit
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subghz_protocol_keeloq_send_bit(instance, 0);
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subghz_protocol_keeloq_send_bit(instance, 0);
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// send end
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subghz_protocol_keeloq_send_bit(instance, 0);
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delay_us(instance->common.te_shot * 2); //+2 interval END SEND
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}
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}
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void subghz_protocol_keeloq_parse(SubGhzProtocolKeeloq* instance, LevelPair data) {
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switch (instance->common.parser_step) {
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case 0:
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if ((data.level == ApiHalSubGhzCaptureLevelHigh) && DURATION_DIFF(data.duration, instance->common.te_shot)< instance->common.te_delta) {
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instance->common.parser_step = 1;
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instance->common.header_count++;
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} else {
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instance->common.parser_step = 0;
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}
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break;
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case 1:
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if ((data.level == ApiHalSubGhzCaptureLevelLow) && (DURATION_DIFF(data.duration, instance->common.te_shot ) < instance->common.te_delta)) {
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instance->common.parser_step = 0;
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break;
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}
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if ((instance->common.header_count > 2) && ( DURATION_DIFF(data.duration, instance->common.te_shot * 10)< instance->common.te_delta * 10)) {
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// Found header
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instance->common.parser_step = 2;
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instance->common.code_found = 0;
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instance->common.code_count_bit = 0;
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} else {
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instance->common.parser_step = 0;
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instance->common.header_count = 0;
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}
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break;
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case 2:
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if (data.level == ApiHalSubGhzCaptureLevelHigh) {
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instance->common.te_last = data.duration;
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instance->common.parser_step = 3;
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}
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break;
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case 3:
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if (data.level == ApiHalSubGhzCaptureLevelLow) {
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if (data.duration >= (instance->common.te_shot * 2 + instance->common.te_delta)) {
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// Found end TX
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instance->common.parser_step = 0;
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if (instance->common.code_count_bit >= instance->common.code_min_count_bit_for_found) {
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//&& (instance->common.code_last_found != instance->common.code_found )) {
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instance->common.code_last_found = instance->common.code_found;
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//ToDo out data display
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subghz_protocol_keeloq_check_remote_controller(instance);
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//Print_Code(&KEELOQ);
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//Reverse_Code(KEELOQ.Code);
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instance->common.code_found = 0;
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instance->common.code_count_bit = 0;
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instance->common.header_count = 0;
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}
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break;
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} else if ((DURATION_DIFF(instance->common.te_last, instance->common.te_shot) < instance->common.te_delta)
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&& (DURATION_DIFF(data.duration, instance->common.te_long) < instance->common.te_delta)) {
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if (instance->common.code_count_bit < instance->common.code_min_count_bit_for_found) {
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subghz_protocol_common_add_bit(&instance->common, 1);
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}
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instance->common.parser_step = 2;
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} else if ((DURATION_DIFF(instance->common.te_last, instance->common.te_long) < instance->common.te_delta)
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&& (DURATION_DIFF(data.duration, instance->common.te_shot) < instance->common.te_delta)) {
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if (instance->common.code_count_bit < instance->common.code_min_count_bit_for_found) {
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subghz_protocol_common_add_bit(&instance->common, 0);
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}
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instance->common.parser_step = 2;
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} else {
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instance->common.parser_step = 0;
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instance->common.header_count = 0;
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}
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} else {
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instance->common.parser_step = 0;
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instance->common.header_count = 0;
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}
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break;
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}
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}
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void subghz_protocol_keeloq_to_str(SubGhzProtocolKeeloq* instance, string_t output) {
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//snprintf(BufTX, sizeof(BufTX),"Protocol %s: %d Bit | KEY:0x%llX HEX \n\r", common->Name_Protocol, common->Count_BIT, common->Code);
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uint32_t code_found_hi = instance->common.code_found >> 32;
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uint32_t code_found_lo = instance->common.code_found & 0x00000000ffffffff;
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uint64_t code_found_reverse = subghz_protocol_common_reverse_key(instance->common.code_found, instance->common.code_count_bit);
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uint32_t code_found_reverse_hi = code_found_reverse>>32;
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uint32_t code_found_reverse_lo = code_found_reverse&0x00000000ffffffff;
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if (code_found_hi>0) {
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string_cat_printf(
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output,
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"Protocol %s, %d Bit\r\n"
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" KEY:0x%lX%08lX\r\n"
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" YEK:0x%lX%08lX\r\n",
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instance->common.name,
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instance->common.code_count_bit,
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code_found_hi,
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code_found_lo,
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code_found_reverse_hi,
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code_found_reverse_lo
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);
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} else {
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string_cat_printf(
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output,
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"Protocol %s, %d Bit\r\n"
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" KEY:0x%lX%lX\r\n"
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" YEK:0x%lX%lX\r\n",
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instance->common.name,
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instance->common.code_count_bit,
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code_found_hi,
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code_found_lo,
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code_found_reverse_hi,
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code_found_reverse_lo
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);
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}
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string_cat_printf(
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output,
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" MF:%s FIX:%lX\r\n"
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" HOP:%lX CNT:%04X BTN:%02lX\r\n",
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instance->manufacture_name,
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code_found_reverse_hi,
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code_found_reverse_lo,
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instance->common.cnt, //need manufacture code
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code_found_reverse_hi >> 28
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);
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} |