#include #include #include #include #include #include #include #include "includes/connect_code.hpp" #include "includes/numeric_base.hpp" #include "includes/easysock.h" #if defined(_WIN32) #include #include #else #include #include #endif namespace connect_code { /* Tokenizes a string, based on the given delimiter */ std::vector tokenize_str(std::string str, std::string delim) { std::vector result; /* &str[0] is used to convert an std::string to a char*. I tried using string.data(), but that appears to return a const char*. */ char* c_str = &str[0]; char* c_delim = &delim[0]; char* tok = strtok(c_str, c_delim); while (tok != NULL) { result.push_back(std::string(tok)); tok = strtok(NULL, c_delim); } return result; } /* Convert an IPv4 address from decimal to dotted decimal notation */ std::string dec_to_dotted_dec(std::string addr) { uint32_t addr_val = std::stoul(addr); /* 32 bit address */ uint8_t addr_1 = (addr_val & (0xFF << 24)) >> 24; /* First octet (Bitwise AND the address with 255.0.0.0, and shift it to the right to obtain the first octet) */ uint8_t addr_2 = (addr_val & (0xFF << 16)) >> 16; uint8_t addr_3 = (addr_val & (0xFF << 8)) >> 8; uint8_t addr_4 = (addr_val & 0xFF); std::string ret_val = std::string(std::to_string(addr_1) + "." + std::to_string(addr_2) + "." + std::to_string(addr_3) + "." + std::to_string(addr_4)); return ret_val; } /* Convert an IPv4 address from dotted deecimal to decimal */ std::string dotted_dec_to_dec(std::string addr) { std::vector octets = tokenize_str(addr, "."); uint32_t addr_val = (std::stoul(octets[0]) << 24) + (std::stoul(octets[1]) << 16) + (std::stoul(octets[2]) << 8) + (std::stoul(octets[3])); return std::to_string(addr_val); } /* Expand an IPv6 address (expand '::' into ':0000:', for example). This is done by first converting the address into a binary representation, and then printing every character of the binary representation into a string. */ std::string expand_ip6_addr(std::string addr) { char ip6_string[40]; // 32 characters + 7 colons struct in6_addr* ip6_s_ptr = (struct in6_addr *)malloc(sizeof(in6_addr)); // Struct pointer, to store the binary representation of the address inet_pton(AF_INET6, addr.data(), ip6_s_ptr); // Convert the string representation into a binary form /* This abomination, converts the binary representation into a string. It uses sprintf to print every byte in the binary representation into a string. The bytes are formatted as 2-character hexadecimal values. */ sprintf(ip6_string, "%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x", ip6_s_ptr->s6_addr[0], ip6_s_ptr->s6_addr[1], ip6_s_ptr->s6_addr[2], ip6_s_ptr->s6_addr[3], ip6_s_ptr->s6_addr[4], ip6_s_ptr->s6_addr[5], ip6_s_ptr->s6_addr[6], ip6_s_ptr->s6_addr[7], ip6_s_ptr->s6_addr[8], ip6_s_ptr->s6_addr[9], ip6_s_ptr->s6_addr[10], ip6_s_ptr->s6_addr[11], ip6_s_ptr->s6_addr[12], ip6_s_ptr->s6_addr[13], ip6_s_ptr->s6_addr[14], ip6_s_ptr->s6_addr[15]); return std::string(ip6_string); } std::string encode(std::string address, std::string port) { std::string addr_coded = ""; if (check_ip_ver(address.data()) == 4) { /* First, convert the address into a decimal format. Then convert this decimal format into base-32, and also convert the port number into base-32. Join these together with a "_". */ /* I don't really have a reason to use my own function (dotted_dec_to_dec() and dec_to_dotted_dec()), to convert the IP address from text to binary. The inet_pton() and inet_ntop() functions can do this just fine, and also take care of edge cases. Maybe someday, I might change this code. I could probably repurpose the functions for something else, though. */ /* First, convert the address into a 32-bit integer (the integer is stored as a string). Then, convert the address into base-32. */ addr_coded = dotted_dec_to_dec(address); addr_coded = base_convert(addr_coded, 10, 32); } if (check_ip_ver(address.data()) == 6) { /* First, expand the address into the full 39-character format (32 hex values + 7 colons). Then, tokenize the string, using colons as the delimiters. Finally, take each token in the string, and convert it from base-16 to base-32, appending a '-' as a delimiter. */ std::string addr_expanded = expand_ip6_addr(address); std::vector addr_tokenized = tokenize_str(addr_expanded, ":"); for (size_t i = 0; i < addr_tokenized.size()-1; i++ ) { addr_coded += base_convert(addr_tokenized[i], 16, 32); addr_coded += "-"; } addr_coded += base_convert(addr_tokenized[addr_tokenized.size()-1], 16, 32); // I put this outside the loop, because I don't want a hyphen after it /* TODO - Check if the IP address is actually converted properly, and test if the server socket is created correctly. Also do the same for client side, and check client-server connection. */ } /* Convert the port to hex */ std::string port_coded = base_convert(port, 10, 32); std::string ret_val = addr_coded + "_" + port_coded; return ret_val; } std::vector decode(std::string connect_code) { if (connect_code.find("_") == std::string::npos) { throw std::invalid_argument("Invalid code entered."); // There must be an underscore, to separate the address part from the port part } int ip_ver = 0; if (connect_code.find("-") != std::string::npos) { ip_ver = 6; // If the string contains hyphens, it must be an IPv6 address encoding. } else { ip_ver = 4; } std::vector result = tokenize_str(connect_code, "_"); /* Split the string into address and port */ std::string address = result[0]; /* Address (in base 32) */ std::string port = result[1]; /* Port (in base 32) */ std::vector ret_val; /* The IPv6 and IPv4 encodings are slightly different - I use a hyphen as a delimiter for IPv6, while there is no delimiter for IPv4. This is why I need to check if the address is IPv4 or IPv6. */ if (ip_ver == 4) { /* Base 32 to base 10 - These lines convert the string to a base 10 number, and convert the result back into a string */ address = std::to_string(std::stoul(address, 0, 32)); port = std::to_string(std::stoul(port, 0, 32)); /* Convert decimal address to dotted decimal */ address = dec_to_dotted_dec(address); /* Create a vector containing the address and the port, which will be returned */ ret_val.push_back(address); ret_val.push_back(port); } else { /* IPv6 */ /* There are three main steps to decoding for IPv6: 1. Tokenize the address using the delimiter set while encoding ('-', in my case). 2. Convert each token from base-32 to base-16. 3. Join the string vector back together into a string, this time using ':' as a delimiter. This will give us our IP address. */ std::string conv_addr = ""; // Stores the final address std::vector address_tokenized = tokenize_str(address, "-"); // Step 1 for (size_t i = 0; i < address_tokenized.size()-1; i++) { address_tokenized[i] = base_convert(address_tokenized[i], 32, 16); // Step 2 conv_addr += address_tokenized[i] + ":"; // Step 3 } conv_addr += base_convert(address_tokenized[address_tokenized.size()-1], 32, 16); // Add the last token port = std::to_string(std::stoul(port, 0, 32)); std::cout << conv_addr << std::endl; abort(); ret_val.push_back(conv_addr); ret_val.push_back(port); } return ret_val; } }