commit
ba234206a2
4 changed files with 65 additions and 32 deletions
26
README.md
26
README.md
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@ -5,32 +5,30 @@ multiaddr for IPFS in C.
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# Usage:
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# Usage:
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#### All you need to include is multiaddr.h
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#### All you need to include is multiaddr.h
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## Maddr struct:
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## Maddr struct:
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* char string[]; // String that contains addresses such as /ip4/192.168.1.1/
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* char * string; // String that contains addresses such as /ip4/192.168.1.1/
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* uint8_t bytes; //String that contains the enecoded address
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* uint8_t * bytes; // uint8_t * that contains the enecoded address
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* int bsize[]; //int[1] that contains the real bytes size (Use it whenever using the bytes so you don't input trash!)
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* size_t bsize; //size_t that contains the real bytes size (Use it whenever using the bytes so you don't input trash!)
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## New Multi Address From String(new_maddr_fs)
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## New Multi Address From String(multiaddress_new_from_string)
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char addrstr[] = "/ip4/192.168.1.1/"
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struct MultiAddress* a = multiaddress_new_from_string("/ip4/127.0.0.1/tcp/8080/");
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struct maddr a;
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a=new_maddr_fs(addrstr);
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## Obtaining the byte buffer(.bytes, .bsize[0]):
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## Obtaining the byte buffer(.bytes, .bsize[0]):
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printf("TEST BYTES: %s\n",Var_To_Hex(a.bsize[0], a.bytes));
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printf("TEST BYTES: %s\n",Var_To_Hex(a->bsize, a->bytes));
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Var_To_Hex = Byte Buffer to Hex String
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Var_To_Hex = Byte Buffer to Hex String
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Hex_To_Var = Hex String to Byte Buffer
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Hex_To_Var = Hex String to Byte Buffer
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## Encapsulation & Decapsulation(m_encapsulate, m_decapsulate)
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## Encapsulation & Decapsulation(m_encapsulate, m_decapsulate)
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#### Remember, Decapsulation happens from right to left, never in reverse, if you have /ip4/udp/ipfs/ if you decapsulate "udp" you will also take out ipfs!
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#### Remember, Decapsulation happens from right to left, never in reverse, if you have /ip4/udp/ipfs/ if you decapsulate "udp" you will also take out ipfs!
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* Now the string is: /ip4/192.168.1.1/
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* Now the string is: /ip4/192.168.1.1/
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* m_encapsulate(&a,"/udp/3333/"); //Adds udp/3333/ to char addrstr
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* multiaddress_encapsulate(a,"/udp/3333/"); //Adds udp/3333/
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* Now the string is: /ip4/192.168.1.1/udp/3333/
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* Now the string is: /ip4/192.168.1.1/udp/3333/
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* m_decapsulate(&a,"udp"); //Removes udp protocol and its address
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* multiaddress_decapsulate(a,"udp"); //Removes udp protocol and its address
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* Now the string is: /ip4/192.168.1.1/
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* Now the string is: /ip4/192.168.1.1/
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* m_encapsulate(&a,"/tcp/8080");
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* multiaddress_encapsulate(a,"/tcp/8080");
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* Now the string is: /ip4/192.168.1.1/tcp/8080/
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* Now the string is: /ip4/192.168.1.1/tcp/8080/
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# Constructing a multiaddress from bytes:
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# Constructing a multiaddress from bytes:
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* struct maddr beta;
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* struct MultiAddress* beta;
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* beta=new_maddr_fb(a.bytes,a.bsize[0]); //This will already construct back to the string too!
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* beta = multiaddress_new_from_bytes(a->bytes,a->bsize); //This will already construct back to the string too!
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* printf("B STRING: %s\n",beta.string); //So after encapsulation and decapsulation atm this string would
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* printf("B STRING: %s\n",beta->string); //So after encapsulation and decapsulation atm this string would
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* contain: /ip4/192.168.1.1/tcp/8080/
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* contain: /ip4/192.168.1.1/tcp/8080/
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35
multiaddr.c
35
multiaddr.c
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@ -141,15 +141,34 @@ int multiaddress_encapsulate(struct MultiAddress* result, char* string)
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free(result->bytes);
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free(result->bytes);
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result->bytes = NULL;
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result->bytes = NULL;
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result->bsize = 0;
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result->bsize = 0;
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char * exstr;
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if(string[0] == '/')
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{
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exstr = (char *) malloc(strlen(result->string)+1);
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}
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else
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{
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exstr = (char *) malloc(strlen(result->string));
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}
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strcpy(exstr, result->string);
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free(result->string);
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free(result->string);
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// insert the new values
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// insert the new values
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result->string = malloc(strlen(string) + 1);
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result->string = malloc(strlen(string) + strlen(exstr) + 1);
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if (result->string == NULL) {
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if (result->string == NULL) {
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multiaddress_free(result);
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multiaddress_free(result);
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return 0;
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return 0;
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}
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}
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strcpy(result->string, string);
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strcpy(result->string, exstr);
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if(string_to_bytes(&result->bytes, &result->bsize, result->string, sizeof(result->string)) == 0)
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free(exstr);
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if(string[0] == '/')
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{
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strcat(result->string, string+1);
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}
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else
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{
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strcat(result->string, string);
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}
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if(string_to_bytes(&result->bytes, &result->bsize, result->string, strlen(result->string)+1) == 0)
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{
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{
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multiaddress_free(result);
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multiaddress_free(result);
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return 0;
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return 0;
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@ -196,6 +215,16 @@ int multiaddress_decapsulate(struct MultiAddress * result, char * srci)
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procstr[i] = '/';
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procstr[i] = '/';
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}
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}
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}
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}
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//Bytes update
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if (result->bytes != NULL)
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free(result->bytes);
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result->bytes = NULL;
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result->bsize = 0;
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if(string_to_bytes(&result->bytes, &result->bsize, result->string, strlen(result->string)+1) == 0)
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{
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multiaddress_free(result);
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return 0;
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}
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return 1;
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return 1;
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}
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}
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else
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else
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20
protoutils.c
20
protoutils.c
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@ -314,15 +314,18 @@ int bytes_to_string(char** buffer, const uint8_t* in_bytes, int in_bytes_size)
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int lastpos = 0;
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int lastpos = 0;
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char pid[3];
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char pid[3];
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//Process Hex String
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//Process Hex String
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//printf("FULL HEX: %s", hex);
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NAX:
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NAX:
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//printf("REDO!!!!!\n");
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//Stage 1 ID:
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//Stage 1 ID:
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if(lastpos!=0)
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if(lastpos!=0)
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{
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{
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lastpos++;
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//lastpos++;
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}
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}
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pid[0] = hex[lastpos];
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pid[0] = hex[lastpos];
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pid[1] = hex[lastpos+1];
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pid[1] = hex[lastpos+1];
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pid[2] = '\0';
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pid[2] = '\0';
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//printf("pid: %s\n",pid);
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if(proto_with_deccode(head, Hex_To_Int(pid)))
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if(proto_with_deccode(head, Hex_To_Int(pid)))
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{
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{
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//////////Stage 2: Address
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//////////Stage 2: Address
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@ -347,7 +350,7 @@ int bytes_to_string(char** buffer, const uint8_t* in_bytes, int in_bytes_size)
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//printf("Protocol: %s\n", PID->name);
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//printf("Protocol: %s\n", PID->name);
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//printf("Address : %s\n", address);
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//printf("Address : %s\n", address);
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lastpos= lastpos+(PID->size/4);
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lastpos= lastpos+(PID->size/4);
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//printf("lastpos: %d",lastpos);
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//printf("lastpos: %d\n",lastpos);
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//////////Address:
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//////////Address:
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//Keeping Valgrind happy
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//Keeping Valgrind happy
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@ -416,7 +419,7 @@ int bytes_to_string(char** buffer, const uint8_t* in_bytes, int in_bytes_size)
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unsigned char * pointyaddr = NULL;
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unsigned char * pointyaddr = NULL;
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pointyaddr = rezultat;
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pointyaddr = rezultat;
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int returnstatus = 0;
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int returnstatus = 0;
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returnstatus = multiaddr_encoding_base58_encode(addrbuf, sizeof(addrbuf), &pointyaddr, &rezbuflen);
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returnstatus = multiaddr_encoding_base58_encode(addrbuf, sizeof(IPFS_ADDR)/2, &pointyaddr, &rezbuflen);
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free(addrbuf);
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free(addrbuf);
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if(returnstatus == 0)
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if(returnstatus == 0)
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{
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{
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@ -566,16 +569,15 @@ char * address_string_to_bytes(struct Protocol * xx, const char * abc,size_t get
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}
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}
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case 42://IPFS - !!!
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case 42://IPFS - !!!
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{
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{
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char * x_data = NULL;
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char * x_data = NULL;
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x_data = (char*)abc;
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x_data = (char*) abc;
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size_t x_data_length = strlen(x_data);
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size_t x_data_length = strlen(x_data);
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size_t result_buffer_length = multiaddr_encoding_base58_decode_size((unsigned char*)x_data);
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size_t result_buffer_length = multiaddr_encoding_base58_decode_max_size((unsigned char*)x_data);
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unsigned char result_buffer[result_buffer_length];
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unsigned char result_buffer[result_buffer_length];
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unsigned char* ptr_to_result = result_buffer;
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unsigned char* ptr_to_result = result_buffer;
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memset(result_buffer, 0, result_buffer_length);
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memset(result_buffer, 0, result_buffer_length);
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// now get the decoded address
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// now get the decoded address
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int return_value = multiaddr_encoding_base58_decode(x_data, x_data_length, &ptr_to_result, &result_buffer_length);
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int return_value = multiaddr_encoding_base58_decode(x_data, x_data_length, &ptr_to_result, &result_buffer_length);
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if (return_value == 0)
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if (return_value == 0)
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{
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{
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@ -594,7 +596,7 @@ char * address_string_to_bytes(struct Protocol * xx, const char * abc,size_t get
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unsigned char c = ptr_to_result[i];
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unsigned char c = ptr_to_result[i];
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char miu[3];
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char miu[3];
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bzero(miu, 3);
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bzero(miu, 3);
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miu[3] = '\0';
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miu[2] = '\0';
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sprintf(miu,"%02x", c);
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sprintf(miu,"%02x", c);
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strcat(ADDR_ENCODED, miu);
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strcat(ADDR_ENCODED, miu);
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@ -602,7 +604,7 @@ char * address_string_to_bytes(struct Protocol * xx, const char * abc,size_t get
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ilen = strlen(ADDR_ENCODED);
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ilen = strlen(ADDR_ENCODED);
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char prefixed[3];
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char prefixed[3];
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strcpy(prefixed,Num_To_HexVar_32(ilen));
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strcpy(prefixed,Num_To_HexVar_32(ilen));
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prefixed[3] = '\0';
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prefixed[2] = '\0';
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strcat(returning_result, prefixed);
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strcat(returning_result, prefixed);
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strcat(returning_result, ADDR_ENCODED);
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strcat(returning_result, ADDR_ENCODED);
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//printf("ADDRESS: %s\nSIZEADDR: %d\n",ADDR_ENCODED,ilen);
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//printf("ADDRESS: %s\nSIZEADDR: %d\n",ADDR_ENCODED,ilen);
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@ -15,7 +15,7 @@ int test_new_from_string() {
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int test_full() {
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int test_full() {
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char addrstr[100];
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char addrstr[100];
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strcpy(addrstr,"/ip4/192.168.1.1/tcp/8080/");
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strcpy(addrstr,"/ip4/192.168.1.1/");
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printf("INITIAL: %s\n",addrstr);
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printf("INITIAL: %s\n",addrstr);
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struct MultiAddress* a;
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struct MultiAddress* a;
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a= multiaddress_new_from_string(addrstr);
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a= multiaddress_new_from_string(addrstr);
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@ -24,14 +24,18 @@ int test_full() {
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//Remember, Decapsulation happens from right to left, never in reverse!
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//Remember, Decapsulation happens from right to left, never in reverse!
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printf("A STRING:%s\n",a->string);
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printf("A STRING:%s\n",a->string);
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multiaddress_encapsulate(a,"/ip4/192.131.200.111/udp/3333/");
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multiaddress_encapsulate(a,"/udp/3333/");
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printf("A STRING ENCAPSULATED:%s\n",a->string);
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printf("A STRING ENCAPSULATED:%s\n",a->string);
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printf("TEST BYTES: %s\n",Var_To_Hex(a->bsize, a->bytes));
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multiaddress_decapsulate(a,"udp");
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multiaddress_decapsulate(a,"udp");
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printf("A STRING DECAPSULATED UDP:%s\n",a->string);
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printf("A STRING DECAPSULATED UDP:%s\n",a->string);
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printf("TEST BYTES: %s\n",Var_To_Hex(a->bsize, a->bytes));
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multiaddress_encapsulate(a,"/tcp/8080");
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multiaddress_encapsulate(a,"/udp/3333/");
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printf("A STRING ENCAPSULATED TCP:%s\n",a->string);
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printf("A STRING ENCAPSULATED UDP: %s\n",a->string);
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multiaddress_encapsulate(a,"/ipfs/QmYwAPJzv5CZsnA625s3Xf2nemtYgPpHdWEz79ojWnPbdG");
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printf("A STRING ENCAPSULATED IPFS:%s\n",a->string);
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printf("TEST BYTES: %s\n",Var_To_Hex(a->bsize, a->bytes));
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printf("TEST BYTE SIZE: %u\n",a->bsize);
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struct MultiAddress* beta;
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struct MultiAddress* beta;
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beta = multiaddress_new_from_bytes(a->bytes,a->bsize);
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beta = multiaddress_new_from_bytes(a->bytes,a->bsize);
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