Security News
Weekly Downloads Now Available in npm Package Search Results
Socket's package search now displays weekly downloads for npm packages, helping developers quickly assess popularity and make more informed decisions.
@solana/codecs-strings
Advanced tools
Codecs for strings of different sizes and encodings
This package contains codecs for strings of different sizes and encodings. It can be used standalone, but it is also exported as part of the Solana JavaScript SDK @solana/web3.js@experimental
.
This package is also part of the @solana/codecs
package which acts as an entry point for all codec packages as well as for their documentation.
The getStringCodec
function returns a Codec<string>
that can be used to encode strings using various encodings and size strategies. It contains the following options:
encoding
: A VariableSizeCodec<string>
responsible for encoding and decoding a string in a specific way without worrying about its size. Examples are UTF-8, base58, base64, etc. You can see all available encodings below in this documentation.size
: This option tells the codec how long the string goes on for in the byte array. It can be one of the following three strategies:
Codec<number>
: When a number codec is provided, that codec will be used to encode and decode a size prefix for that string. This prefix allows us to know when to stop reading the string when decoding a given byte array.number
: When a fixed number is provided, a FixedSizeCodec
of that size will be returned such that exactly that amount of bytes will be used to encode and decode the string."variable"
: When the string "variable"
is passed as a size, a VariableSizeCodec
will be returned without any size boundary. That is, when providing a byte array to decode, the entire byte array will be decoded as a string.When using getStringCodec
without any options, the default encoding used is UTF-8 and the default size strategy used is a u32
prefix codec.
const bytes = getStringCodec().encode('hello');
// 0x0500000068656c6c6f
// | └-- The 5 bytes of content.
// └-- 4-byte prefix telling us to read 5 bytes.
const value = getStringCodec().decode(bytes);
// "hello"
We can use the size
option to provide a different integer codec for the prefix.
getStringCodec({ size: getU8Codec() }).encode('hello');
// 0x0568656c6c6f
// | └-- The 5 bytes of content.
// └-- 1-byte prefix telling us to read 5 bytes.
Or to provide a fixed size such that any string longer or smaller than that size will be truncated or padded respectively.
getStringCodec({ size: 5 }).encode('hello');
// 0x68656c6c6f
// └-- The exact 5 bytes of content.
getStringCodec({ size: 5 }).encode('hello world');
// 0x68656c6c6f
// └-- The truncated 5 bytes of content.
getStringCodec({ size: 5 }).encode('hell');
// 0x68656c6c00
// └-- The padded 5 bytes of content.
Or to tell the codec we do not want to create a size boundary for our string.
getStringCodec({ size: 'variable' }).encode('hello');
// 0x68656c6c6f
// └-- Any bytes necessary to encode our content.
On top of customizing the size, we may provide a custom encoding
option like so.
getStringCodec({ encoding: getUtf8Codec() }).encode('hello');
// 0x0500000068656c6c6f (Default encoding).
getStringCodec({ encoding: getBase64Codec() }).encode('hello');
// 0x0300000085e965
getStringCodec({ encoding: getBase58Codec() }).encode('heLLo');
// 0x040000001b6a3070
Finally, separate getStringEncoder
and getStringDecoder
functions are also available.
const bytes = getStringEncoder().encode('hello');
const value = getStringDecoder().decode(bytes);
The getUtf8Codec
function encodes and decodes a UTF-8 string to and from a byte array.
const bytes = getUtf8Codec().encode('hello'); // 0x68656c6c6f
const value = getUtf8Codec().decode(bytes); // "hello"
As usual, separate getUtf8Encoder
and getUtf8Decoder
functions are also available.
const bytes = getUtf8Encoder().encode('hello'); // 0x68656c6c6f
const value = getUtf8Decoder().decode(bytes); // "hello"
The getBase64Codec
function encodes and decodes a base-64 string to and from a byte array.
const bytes = getBase64Codec().encode('hello+world'); // 0x85e965a3ec28ae57
const value = getBase64Codec().decode(bytes); // "hello+world"
As usual, separate getBase64Encoder
and getBase64Decoder
functions are also available.
const bytes = getBase64Encoder().encode('hello+world'); // 0x85e965a3ec28ae57
const value = getBase64Decoder().decode(bytes); // "hello+world"
The getBase58Codec
function encodes and decodes a base-58 string to and from a byte array.
const bytes = getBase58Codec().encode('heLLo'); // 0x1b6a3070
const value = getBase58Codec().decode(bytes); // "heLLo"
As usual, separate getBase58Encoder
and getBase58Decoder
functions are also available.
const bytes = getBase58Encoder().encode('heLLo'); // 0x1b6a3070
const value = getBase58Decoder().decode(bytes); // "heLLo"
The getBase16Codec
function encodes and decodes a base-16 string to and from a byte array.
const bytes = getBase16Codec().encode('deadface'); // 0xdeadface
const value = getBase16Codec().decode(bytes); // "deadface"
As usual, separate getBase16Encoder
and getBase16Decoder
functions are also available.
const bytes = getBase16Encoder().encode('deadface'); // 0xdeadface
const value = getBase16Decoder().decode(bytes); // "deadface"
The getBase10Codec
function encodes and decodes a base-10 string to and from a byte array.
const bytes = getBase10Codec().encode('1024'); // 0x0400
const value = getBase10Codec().decode(bytes); // "1024"
As usual, separate getBase10Encoder
and getBase10Decoder
functions are also available.
const bytes = getBase10Encoder().encode('1024'); // 0x0400
const value = getBase10Decoder().decode(bytes); // "1024"
The getBaseXCodec
accepts a custom alphabet
of X
characters and creates a base-X codec using that alphabet. It does so by iteratively dividing by X
and handling leading zeros.
The base-10 and base-58 codecs use this base-x codec under the hood.
const alphabet = '0ehlo';
const bytes = getBaseXCodec(alphabet).encode('hello'); // 0x05bd
const value = getBaseXCodec(alphabet).decode(bytes); // "hello"
As usual, separate getBaseXEncoder
and getBaseXDecoder
functions are also available.
const bytes = getBaseXEncoder(alphabet).encode('hello'); // 0x05bd
const value = getBaseXDecoder(alphabet).decode(bytes); // "hello"
The getBaseXResliceCodec
also creates a base-x codec but uses a different strategy. It re-slices bytes into custom chunks of bits that are then mapped to a provided alphabet
. The number of bits per chunk is also provided and should typically be set to log2(alphabet.length)
.
This is typically used to create codecs whose alphabet’s length is a power of 2 such as base-16 or base-64.
const bytes = getBaseXResliceCodec('elho', 2).encode('hellolol'); // 0x4aee
const value = getBaseXResliceCodec('elho', 2).decode(bytes); // "hellolol"
As usual, separate getBaseXResliceEncoder
and getBaseXResliceDecoder
functions are also available.
const bytes = getBaseXResliceEncoder('elho', 2).encode('hellolol'); // 0x4aee
const value = getBaseXResliceDecoder('elho', 2).decode(bytes); // "hellolol"
To read more about the available codecs and how to use them, check out the documentation of the main @solana/codecs
package.
FAQs
Codecs for strings of different sizes and encodings
The npm package @solana/codecs-strings receives a total of 190,253 weekly downloads. As such, @solana/codecs-strings popularity was classified as popular.
We found that @solana/codecs-strings demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 14 open source maintainers collaborating on the project.
Did you know?
Socket for GitHub automatically highlights issues in each pull request and monitors the health of all your open source dependencies. Discover the contents of your packages and block harmful activity before you install or update your dependencies.
Security News
Socket's package search now displays weekly downloads for npm packages, helping developers quickly assess popularity and make more informed decisions.
Security News
A Stanford study reveals 9.5% of engineers contribute almost nothing, costing tech $90B annually, with remote work fueling the rise of "ghost engineers."
Research
Security News
Socket’s threat research team has detected six malicious npm packages typosquatting popular libraries to insert SSH backdoors.