This is a C++ implementation of "Bech32:" a checksummed base32 data encoding format. It is primarily used as a new bitcoin address format specified by BIP 0173.
To build libbech32, you will need:
- cmake
- g++, clang or Visual Studio (community edition)
libbech32 uses a pretty standard cmake build system:
mkdir build
cd build
cmake ..
make
You can also run all the tests:
make test
If the above doesn't work, you probably need to install some prerequisites. For example, on a fresh Debian 12 ("bookworm") system:
sudo apt-get update
sudo apt-get install make cmake git g++
Now you can again try to build libbech32.
#include "libbech32.h"
#include <iostream>
int main() {
// simple human readable part with some data
std::string hrp = "hello";
std::vector<unsigned char> data = {14, 15, 3, 31, 13};
// encode
std::string bstr = bech32::encode(hrp, data);
std::cout << bstr << std::endl;
// prints "hello1w0rldjn365x"
// ... "hello" + Bech32.separator ("1") + encoded data ("w0rld") + 6 char checksum ("jn365x")
}#include "libbech32.h"
int main() {
bech32::DecodedResult decodedResult = bech32::decode("hello1w0rldjn365x");
// decodedResult.hrp == "hello"
// decodedResult.dp[0] == 14
// decodedResult.encoding == bech32::Encoding::Bech32m
}For more C++ examples, see examples/cpp_other_examples.cpp
#include "libbech32.h"
#include <string.h>
#include <stdio.h>
int main() {
// simple human readable part with some data
char hrp[] = "hello";
unsigned char dp[] = {14, 15, 3, 31, 13};
// create storage for bech32 string
bech32_bstring *bstring = bech32_create_bstring(strlen(hrp), sizeof(dp));
if(!bstring) {
printf("bech32 string can not be created");
return E_BECH32_NO_MEMORY;
}
// encode
bech32_error err = bech32_encode(bstring, hrp, dp, sizeof(dp));
if(err != E_BECH32_SUCCESS) {
printf("%s\n", bech32_strerror(err));
bech32_free_bstring(bstring);
return err;
}
printf("bech32 encoding of human-readable part \'hello\' and data part \'[14, 15, 3, 31, 13]\' is:\n");
printf("%s\n", bstring->string);
// prints "hello1w0rldjn365x"
// ... "hello" + Bech32.separator ("1") + encoded data ("w0rld") + 6 char checksum ("jn365x")
// free memory
bech32_free_bstring(bstring);
return E_BECH32_SUCCESS;
}#include "libbech32.h"
#include <string.h>
#include <stdio.h>
int main() {
char str[] = "hello1w0rldjn365x";
// create storage for decoded bech32 data
bech32_DecodedResult * decodedResult = bech32_create_DecodedResult(str);
if(!decodedResult) {
printf("bech32 DecodedResult can not be created");
return E_BECH32_NO_MEMORY;
}
// decode
bech32_error err = bech32_decode(decodedResult, str);
if(err != E_BECH32_SUCCESS) {
printf("%s\n", bech32_strerror(err));
bech32_free_DecodedResult(decodedResult);
return err;
}
// decodedResult->hrp == "hello"
// decodedResult->dp[0] == 14
// decodedResult->encoding == ENCODING_BECH32M
// free memory
bech32_free_DecodedResult(decodedResult);
}For more C examples, see examples/c_other_examples.c
The Bech32 data encoding format was first proposed by Pieter Wuille in early 2017 in BIP 0173. Later, in November 2019, Pieter published some research that a constant used in the bech32 checksum algorithm (value = 1) may not be optimal for the error detecting properties of bech32. In February 2021, Pieter published BIP 0350 reporting that "exhaustive analysis" showed the best possible constant value is 0x2bc830a3. This improved variant of Bech32 is called "Bech32m".
When decoding a possible bech32 encoded string, libbech32 returns an enum value showing whether bech32m or bech32 was used to encode. This can be seen in the examples above.
When encoding data, libbech32 defaults to using the new constant value of 0x2bc830a3. If the original constant value of 1 is desired, then the following functions may be used:
/// ... as above ...
// encode
std::string bstr = bech32::encodeUsingOriginalConstant(hrp, data);
/// ... as above ... /// ... as above ...
// encode
bech32_error err = bech32_encode_using_original_constant(bstring, hrp, dp, sizeof(dp));
/// ... as above ...