The JSON format natively doesn't support binary data. The binary data has to be escaped so that it can be placed into a string element (i.e. zero or more Unicode chars in double quotes using backslash escapes) in JSON.

An obvious method to escape binary data is to use Base64. However, Base64 has a high processing overhead. Also it expands 3 bytes into 4 characters which leads to an increased data size by around 33%.

One use case for this is the v0.8 draft of the CDMI cloud storage API specification. You create data objects via a REST-Webservice using JSON, e.g.

PUT /MyContainer/BinaryObject HTTP/1.1
Host: cloud.example.com
Accept: application/vnd.org.snia.cdmi.dataobject+json
Content-Type: application/vnd.org.snia.cdmi.dataobject+json
X-CDMI-Specification-Version: 1.0
    "mimetype" : "application/octet-stream",
    "metadata" : [ ],
    "value" :   "TWFuIGlzIGRpc3Rpbmd1aXNoZWQsIG5vdCBvbmx5IGJ5IGhpcyByZWFzb24sIGJ1dCBieSB0aGlz

Are there better ways and standard methods to encode binary data into JSON strings?

  • 50
    For upload: you're only doing it once, so it's not as big a deal. For download, you might be surprised how well base64 compresses under gzip, so if you have gzip enabled on your server you're also probably OK.
    – cloudfeet
    Commented Jan 29, 2014 at 17:32
  • 6
    Another worthy solution msgpack.org for the hardcore nerds: github.com/msgpack/msgpack/blob/master/spec.md Commented Oct 16, 2014 at 9:51
  • 5
    @cloudfeet, Once per user per action. Very big a deal.
    – Pacerier
    Commented Mar 20, 2017 at 8:33
  • 7
    Note that characters are typically 2 bytes of memory each. Thus, base64 might give +33% (4/3) overhead on the wire, but putting that data on the wire, retrieving it, and utilizing it, would require a +166% (8/3) overhead. Case in point: if a Javascript string has a maximum length of 100k chars, you can only represent 37.5k bytes of data using base64, not 75k bytes of data. These numbers may be a bottleneck in many parts of the application, e.g. JSON.parse etc. ......
    – Pacerier
    Commented Mar 20, 2017 at 11:59
  • 10
    @Pacerier "typically 2 bytes of memory [per character]" is not accurate. v8 for example has OneByte and TwoByte strings. Two-byte strings are only used where necessary to avoid grotesque memory consumption. Base64 is encodable with one-byte strings.
    – ZachB
    Commented Feb 16, 2018 at 0:24

19 Answers 19


There are 94 Unicode characters which can be represented as one byte according to the JSON spec (if your JSON is transmitted as UTF-8). With that in mind, I think the best you can do space-wise is base85 which represents four bytes as five characters. However, this is only a 7% improvement over base64, it's more expensive to compute, and implementations are less common than for base64 so it's probably not a win.

You could also simply map every input byte to the corresponding character in U+0000-U+00FF, then do the minimum encoding required by the JSON standard to pass those characters; the advantage here is that the required decoding is nil beyond builtin functions, but the space efficiency is bad -- a 105% expansion (if all input bytes are equally likely) vs. 25% for base85 or 33% for base64.

Final verdict: base64 wins, in my opinion, on the grounds that it's common, easy, and not bad enough to warrant replacement.

See also: Base91 and Base122

  • 7
    Wait how is just using the actual byte while encoding the quote characters a 105% expansion and base64 only 33%? Isn't base64 133%?
    – jjxtra
    Commented Feb 22, 2013 at 20:56
  • 20
    Base91 is bad idea for JSON, because it contains quote in alphabet. In worst case (all quotes output) after the JSON encoding, it is 245% of the original payload.
    – jarnoh
    Commented Sep 3, 2013 at 6:05
  • 49
    Python 3.4 includes base64.b85encode() and b85decode() now. A simple encode+decode timing measurement shows that b85 is more than 13 times slower than b64. So we have a 7% size win, but 1300% performance loss. Commented Sep 11, 2014 at 12:03
  • 3
    @hobbs JSON states that control-characters must be escaped. RFC20 section 5.2 defines DEL to be a control character.
    – Tino
    Commented Jun 25, 2015 at 6:19
  • 2
    @Tino ECMA-404 specifically lists the characters that need to be escaped: the double quote U+0022, the backslash U+005C, and "the control characters U+0000 to U+001F".
    – hobbs
    Commented Jun 25, 2015 at 7:53

I ran into the same problem, and thought I'd share a solution: multipart/form-data.

By sending a multipart form you send first as string your JSON meta-data, and then separately send as raw binary (image(s), wavs, etc) indexed by the Content-Disposition name.

Here's a nice tutorial on how to do this in obj-c, and here is a blog article that explains how to partition the string data with the form boundary, and separate it from the binary data.

The only change you really need to do is on the server side; you will have to capture your meta-data which should reference the POST'ed binary data appropriately (by using a Content-Disposition boundary).

Granted it requires additional work on the server side, but if you are sending many images or large images, this is worth it. Combine this with gzip compression if you want.

IMHO sending base64 encoded data is a hack; the RFC multipart/form-data was created for issues such as this: sending binary data in combination with text or meta-data.

  • 5
    By the way, the Google Drive API is doing it in this way: developers.google.com/drive/v2/reference/files/update#examples Commented Jul 30, 2015 at 13:51
  • 11
    Why is this answer so low down when it uses native features instead of trying to squeeze a round (binary) peg into a square (ASCII) hole?... Commented Apr 12, 2017 at 20:56
  • 9
    sending base64 encoded data is a hack so is multipart/form-data. Even the blog article you've linked reads that By using the Content-Type multipart/form-data you state, that what you send is actually a form. But it is not. so I think the base64 hack is not only much easier to implement but also more reliable I have seen some libraries (for Python for example), which had multipart/form-data content type hardcoded.
    – t3chb0t
    Commented Feb 16, 2018 at 8:07
  • 9
    @t3chb0t The multipart/form-data media type was born to transport form data but today it is widely used outside the HTTP/HTML world, notably to encode email content. Today it is proposed as a generic encoding syntax. tools.ietf.org/html/rfc7578
    – lorenzo
    Commented Mar 28, 2018 at 13:53
  • 6
    @MarkKCowan Likely because while this is helpful to the purpose of the question, it doesn't answer the question as asked, which is effectively "Low overhead binary to text encoding for use in JSON", this answer completely ditches JSON. Commented Nov 2, 2018 at 15:29

The problem with UTF-8 is that it is not the most space efficient encoding. Also, some random binary byte sequences are invalid UTF-8 encoding. So you can't just interpret a random binary byte sequence as some UTF-8 data because it will be invalid UTF-8 encoding. The benefit of this constrain on the UTF-8 encoding is that it makes it robust and possible to locate multi byte chars start and end whatever byte we start looking at.

As a consequence, if encoding a byte value in the range [0..127] would need only one byte in UTF-8 encoding, encoding a byte value in the range [128..255] would require 2 bytes ! Worse than that. In JSON, control chars, " and \ are not allowed to appear in a string. So the binary data would require some transformation to be properly encoded.

Let see. If we assume uniformly distributed random byte values in our binary data then, on average, half of the bytes would be encoded in one bytes and the other half in two bytes. The UTF-8 encoded binary data would have 150% of the initial size.

Base64 encoding grows only to 133% of the initial size. So Base64 encoding is more efficient.

What about using another Base encoding ? In UTF-8, encoding the 128 ASCII values is the most space efficient. In 8 bits you can store 7 bits. So if we cut the binary data in 7 bit chunks to store them in each byte of an UTF-8 encoded string, the encoded data would grow only to 114% of the initial size. Better than Base64. Unfortunately we can't use this easy trick because JSON doesn't allow some ASCII chars. The 33 control characters of ASCII ( [0..31] and 127) and the " and \ must be excluded. This leaves us only 128-35 = 93 chars.

So in theory we could define a Base93 encoding which would grow the encoded size to 8/log2(93) = 8*log10(2)/log10(93) = 122%. But a Base93 encoding would not be as convenient as a Base64 encoding. Base64 requires to cut the input byte sequence in 6bit chunks for which simple bitwise operation works well. Beside 133% is not much more than 122%.

This is why I came independently to the common conclusion that Base64 is indeed the best choice to encode binary data in JSON. My answer presents a justification for it. I agree it isn't very attractive from the performance point of view, but consider also the benefit of using JSON with it's human readable string representation easy to manipulate in all programming languages.

If performance is critical than a pure binary encoding should be considered as replacement of JSON. But with JSON my conclusion is that Base64 is the best.

  • What about Base128 but then letting the JSON serializer escape the " and \ ? I think it is reasonable to expect the user to use a json parser implementation.
    – jcalfee314
    Commented Nov 11, 2015 at 23:11
  • 1
    @jcalfee314 unfortunately this is not possible because chars with ASCII code below 32 are not allowed in JSON strings. Encodings with a base between 64 and 128 have already been defined, but the required computation is higher than base64. The gain in encoded text size is not worth it.
    – chmike
    Commented Nov 13, 2015 at 6:54
  • If loading a large amount of images in base64 (let's say 1000), or loading over a really slow connection, would base85 or base93 ever pay for the reduced network traffic (w/ or w/o gzip)? I'm curious if there comes a point where the more compact data would make a case for one of the alternative methods.
    – vol7ron
    Commented Apr 6, 2016 at 19:07
  • 1
    @Pacerier My statement is correct when using UTF8 encoding. So it's not "completely wrong". When 2 bytes are used to store each char, then yes the storage size becomes 260% of the binary size. As you know JSON is used for data storage or transmission, in which case UTF8 encoding is used. In this case, which is the one concerned by the question, my comment is correct and pertinent.
    – chmike
    Commented Mar 20, 2017 at 12:26
  • 1
    However, I just did base64 imgfile | gzip | wc -l and that grew the original imagefile by only a few %, so since base64 is so easy and gzip transfers are almost a given, using base64 is indeed a good idea for compressed JSON transfer of compressed data. However, converting uncompressed data to base64 then gzip yields much higher bytecount than gzip+base64+gzip.
    – w00t
    Commented Jun 18, 2017 at 7:38

BSON (Binary JSON) may work for you. http://en.wikipedia.org/wiki/BSON

Edit: FYI the .NET library json.net supports reading and writing bson if you are looking for some C# server side love.

  • 2
    "In some cases, BSON will use more space than JSON due to the length prefixes and explicit array indices." en.wikipedia.org/wiki/BSON Commented Mar 29, 2017 at 20:18
  • 1
    Good news: BSON natively supports types like Binary, Datetime, and a few others (particularly useful if you are using MongoDB). Bad news: it's encoding is binary bytes... so it is a non-answer to the OP. However it would be useful over a channel that supports binary natively such as RabbitMQ message, ZeroMQ message, or a custom TCP or UDP socket.
    – Dan H
    Commented Aug 1, 2019 at 21:20

If you deal with bandwidth problems, try to compress data at the client side first, then base64-it.

Nice example of such magic is at http://jszip.stuartk.co.uk/ and more discussion to this topic is at JavaScript implementation of Gzip

  • 2
    here's a JavaScript zip implementation that claims better performance: zip.js Commented Oct 12, 2012 at 11:57
  • Note that you can (and should) still compress after as well (typically via Content-Encoding), as base64 compresses pretty well. Commented Jun 30, 2019 at 19:42
  • @MahmoudAl-Qudsi you meant that you base64(zip(base64(zip(data))))? I am not sure that adding another zip and then base64 it (to be able to send it as data) is good idea.
    – andrej
    Commented Jul 3, 2019 at 19:52
  • @andrej He means enable compression in the web server, which obviously supports binary, so your code does base64(zip(data)) but the client or server does compression on the ASCII before sending it on the (binary) wire, and the other end decompresses before handing it to the receiver code which receives ASCII and just does unzip(decode64(received)) Commented Sep 16, 2020 at 5:46
  • @android.weasel AFAIK the server-side compression compress the server output only
    – andrej
    Commented Sep 17, 2020 at 15:28

yEnc might work for you:


"yEnc is a binary-to-text encoding scheme for transferring binary files in [text]. It reduces the overhead over previous US-ASCII-based encoding methods by using an 8-bit Extended ASCII encoding method. yEnc's overhead is often (if each byte value appears approximately with the same frequency on average) as little as 1–2%, compared to 33%–40% overhead for 6-bit encoding methods like uuencode and Base64. ... By 2003 yEnc became the de facto standard encoding system for binary files on Usenet."

However, yEnc is an 8-bit encoding, so storing it in a JSON string has the same problems as storing the original binary data — doing it the naïve way means about a 100% expansion, which is worse than base64.

  • 52
    Since a lot of people seem to still be viewing this question, I'd like to mention that I don't think yEnc really helps here. yEnc is an 8-bit encoding, so storing it in a JSON string has the same problems as storing the original binary data — doing it the naïve way means about a 100% expansion, which is worse than base64.
    – hobbs
    Commented Jun 17, 2011 at 16:44
  • In cases when using encodings like yEnc with large alphabets with JSON data is considered acceptable, escapeless may work as a good alternative providing fixed known-in-advance overhead. Commented Jun 3, 2019 at 18:04
  • @hobbs How does storing 8 bit bytes into an 8 bit encoding result in 100% overhead?
    – user988346
    Commented Jan 3, 2023 at 1:49
  • @user988346 because you can't legally embed that "8 bit encoding" directly into JSON; you have to encode it as UTF-8 characters somehow first.
    – hobbs
    Commented Jan 3, 2023 at 5:22
  • @hobbs the point of yenc is to explicitly not do that. It's in the name. also json doesn't mandate utf8. there is an rfc that does but json.org doesn't and the spec it links to ecma404 doesn't either. All it says it has to be some kind of unicode. I think you could have valid json with strings that are "utf-21" direct binary blobs except for escaping the end quote. You would just need to find or make parsers to work with it but that's what you get when you use something like yenc. It would be on the same level as having multiple keys with the same name. technically right but mostly unsupported
    – user988346
    Commented Nov 9, 2023 at 19:10

While it is true that base64 has ~33% expansion rate, it is not necessarily true that processing overhead is significantly more than this: it really depends on JSON library/toolkit you are using. Encoding and decoding are simple straight-forward operations, and they can even be optimized wrt character encoding (as JSON only supports UTF-8/16/32) -- base64 characters are always single-byte for JSON String entries. For example on Java platform there are libraries that can do the job rather efficiently, so that overhead is mostly due to expanded size.

I agree with two earlier answers:

  • base64 is simple, commonly used standard, so it is unlikely to find something better specifically to use with JSON (base-85 is used by postscript etc; but benefits are at best marginal when you think about it)
  • compression before encoding (and after decoding) may make lots of sense, depending on data you use

Smile format

It's very fast to encode, decode and compact

Speed comparison (java based but meaningful nevertheless): https://github.com/eishay/jvm-serializers/wiki/

Also it's an extension to JSON that allow you to skip base64 encoding for byte arrays

Smile encoded strings can be gzipped when space is critical


Just to add another option that we low level dinosaur programmers use...

An old school method that's been around since three years after the dawn of time would be the Intel HEX format. It was established in 1973 and the UNIX epoch started on January 1, 1970.

  • Is it more efficient? No.
  • Is it a well established standard? Yes.
  • Is it human readable like JSON? Yes-ish and a lot more readable than most any binary solution.

The json would look like:

    "data": [
  • 14
    Is it less efficient? Yes.
    – spinkus
    Commented Apr 29, 2021 at 12:25
  • 3
    We know it is less space efficient. Is it less time efficient? It is definitively more human readable efficient. Commented Dec 16, 2021 at 16:42
  • 1
    In Intel HEX, each row is placed at an explicit 16-bit address in the target file. If we interpret these as addresses of 128-byte blocks, the format can represent files up to 8 MB. If those files contain large holes (long stretches of zero bytes), these can be left out of the encoding and the encoding can in fact be very efficient. A rather special case, though; not likely useful in practice. Commented Aug 10, 2023 at 7:52

Since you're looking for the ability to shoehorn binary data into a strictly text-based and very limited format, I think Base64's overhead is minimal compared to the convenience you're expecting to maintain with JSON. If processing power and throughput is a concern, then you'd probably need to reconsider your file formats.


(Edit 7 years later: Google Gears is gone. Ignore this answer.)

The Google Gears team ran into the lack-of-binary-data-types problem and has attempted to address it:

Blob API

JavaScript has a built-in data type for text strings, but nothing for binary data. The Blob object attempts to address this limitation.

Maybe you can weave that in somehow.

  • So what is the status of blobs in Javascript and json? Has it been dropped?
    – chmike
    Commented Oct 5, 2015 at 18:15
  • 1
    w3.org/TR/FileAPI/#blob-section Not as performant as base64 for space, if you scroll down you find that it encodes using utf8 map (as the one of the option shown by hobbs' answer). And no json support, as far I know Commented Apr 8, 2020 at 6:33

In depth

I dig a little bit more (during implementation of base128), and expose that when we send characters which ascii codes are bigger than 128 then browser (chrome) in fact send TWO characters (bytes) instead one :(. The reason is that JSON by defaul use utf8 characters for which characters with ascii codes above 127 are coded by two bytes what was mention by chmike answer. I made test in this way: type in chrome url bar chrome://net-export/ , select "Include raw bytes", start capturing, send POST requests (using snippet at the bottom), stop capturing and save json file with raw requests data. Then we look inside that json file:

  • We can find our base64 request by finding string 4142434445464748494a4b4c4d4e this is hex coding of ABCDEFGHIJKLMN and we will see that "byte_count": 639 for it.
  • We can find our above127 request by finding string C2BCC2BDC380C381C382C383C384C385C386C387C388C389C38AC38B this are request-hex utf8 codes of characters ¼½ÀÁÂÃÄÅÆÇÈÉÊË (however the ascii hex codes of this characters are c1c2c3c4c5c6c7c8c9cacbcccdce). The "byte_count": 703 so it is 64bytes longer than base64 request because characters with ascii codes above 127 are code by 2 bytes in request :(

So in fact we don't have profit with sending characters with codes >127 :( . For base64 strings we not observe such negative behaviour (probably for base85 too - I don check it) - however may be some solution for this problem will be sending data in binary part of POST multipart/form-data described in Ælex answer (however usually in this case we don't need to use any base coding at all...).

The alternative approach may rely on mapping two bytes data portion into one valid utf8 character by code it using something like base65280 / base65k but probably it would be less effective than base64 due to utf8 specification ...

function postBase64() {
  let formData = new FormData();
  let req = new XMLHttpRequest();

  formData.append("base64ch", "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/");
  req.open("POST", '/testBase64ch');

function postAbove127() {
  let formData = new FormData();
  let req = new XMLHttpRequest();

  formData.append("above127", "¼½ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôõö÷øùúûüý");
  req.open("POST", '/testAbove127');
<button onclick=postBase64()>POST base64 chars</button>
<button onclick=postAbove127()>POST chars with codes>127</button>


Just to add the resource and complexity standpoint to the discussion. Since doing PUT/POST and PATCH for storing new resources and altering them, one should remember that the content transfer is an exact representation of the content that is stored and that is received by issuing a GET operation.

A multi-part message is often used as a savior but for simplicity reason and for more complex tasks, I prefer the idea of giving the content as a whole. It is self-explaining and it is simple.

And yes JSON is something crippling but in the end JSON itself is verbose. And the overhead of mapping to BASE64 is a way to small.

Using Multi-Part messages correctly one has to either dismantle the object to send, use a property path as the parameter name for automatic combination or will need to create another protocol/format to just express the payload.

Also liking the BSON approach, this is not that widely and easily supported as one would like it to be.

Basically, we just miss something here but embedding binary data as base64 is well established and way to go unless you really have identified the need to do the real binary transfer (which is hardly often the case).

  • Sending and Receiving multipart messages in .NET is not fun, overly complex and abstracted. It's easier to just send raw strings so you can actually debug and see what is sent and received and convert the string to a JSON object or class object at the server. Base64 right in the JSON or XML string is easy and nice to debug
    – Neal Davis
    Commented Oct 4, 2021 at 20:31

In Node.js, you can convert a Buffer to a string and back without any change:

const serialized = buffer.toString("binary")
const deserialized = Buffer.from(serialized, "binary")

If you want more reliability by sacrificing size, replace "binary" with "base64"

  • tested and aproved? Commented Mar 4, 2021 at 15:21
  • If you want 100% reliability, replace "binary" with "base64" Commented Mar 4, 2021 at 21:37
  • This does not work.
    – Jonathan
    Commented Jul 24, 2022 at 16:00

I suggest to use a non-standard JSON to save binary data. As we don't really see JSON, I don't care how it represent, thus all binary in a string is acceptable, the only character need to be escaped is just double-quote(") and backslash(\) itself, all other characters are acceptable, even \n do not necessarily need to be escaped, just keep binary 0d and 0a there is ok, it won't break JSON string as it is not " so it won't finish a string.

Your code can deal with all these binary data without problem, just care about " and \ is ok.


Data type really concerns. I have tested different scenarios on sending the payload from a RESTful resource. For encoding I have used Base64(Apache) and for compression GZIP(java.utils.zip.*).The payload contains information about film,an image and an audio file. I have compressed and encoded the image and audio files which drastically degraded the performance. Encoding before compression turned out well. Image and audio content were sent as encoded and compressed bytes [] .


Refer: http://snia.org/sites/default/files/Multi-part%20MIME%20Extension%20v1.0g.pdf

It describes a way to transfer binary data between a CDMI client and server using 'CDMI content type' operations without requiring base64 conversion of the binary data.

If you can use 'Non-CDMI content type' operation, it is ideal to transfer 'data' to/from a object. Metadata can then later be added/retrieved to/from the object as a subsequent 'CDMI content type' operation.


One other, more novel idea, is to encode the data via uuencode. It's a mostly deprecated, but it could still be an alternative. (Although perhaps not a serious one.)

  • 1
    uuencode is a less efficient form of base64 Commented Aug 3, 2022 at 19:37

My solution now, XHR2 is using ArrayBuffer. The ArrayBuffer as binary sequence contains multipart-content, video, audio, graphic, text and so on with multiple content-types. All in One Response.

In modern browser, having DataView, StringView and Blob for different Components. See also: http://rolfrost.de/video.html for more details.

  • You will make your data grow +100% by serializing an array of bytes
    – Sharcoux
    Commented Jun 25, 2018 at 11:23
  • @Sharcoux wot?? Commented Nov 19, 2018 at 0:17
  • 2
    The serialization of a byte array in JSON is something like: [16, 2, 38, 89] which is very inefficient.
    – Sharcoux
    Commented Nov 19, 2018 at 15:17

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