With WebCrypto API evolving and being supported by Chrome and Firefox, I would like to use it for digitally signing a PDF document. There is not much of literature around, but I found some examples [1] and a library called PKI.js [2]. In the examples, the signing process is described, but in the end, a signature is returned. I would expect my Base64 PDF file returned again in a signed Base64 string, but sadly, this is not what happens. PKI.js too, to my knowledge, does not provide a way to sign my Base64 PDF.

Is there a way to sign a PDF with JavaScript and the WebCrypto API only? The private key can be entered in a <textarea> or, even better, stored in the certificate settings of the browser.

Base64 PDF (from REST API) → Sign with JS & certificate → Signed Base64 PDF (send to REST)


It is technically possible to do this, in-fact it is one of the scenarios we had in mind when we made PKIjs (which is why there is this sample) - https://pkijs.org/examples/PDFexample.html

That said to do signing requires working with the PDF structure itself, which either requires a custom parser or modifications to an existing one (pdfjs for example).

Long story short, signing a PDF in browser will take a lot of work, it is something we are working on though.


There is PDFSign.js, a library that can sign a PDF file in the browser. It uses forge though for the signature. If PKI.js supports detached pkcs7 signatures, then it should be easy to replace forge.


As of now, WebCrypto API does not provide access to (Windows) or any other Key stores or local crypto USB/Smartcard device.

Also in most of the signing scenarios, for requirement to protect pdf file within the server boundaries, its not recommended to send complete pdf file to browser or to signing API server.

Thus, its good practice, to create hash of PDF for signing, send hash to browser and use javascript through browser extension to access some application running on local system to access local keystore (or USB/Smartcard) and produce the signature and send back (PKCS7 or CMS container in case of PDF signing) to server where the signature may be injected back to PDF from which hash was created for signing and was sent to browser or to signing api server.

For browser based signing scenarios, one such free Chrome extension available is Signer.Digital chrome extension. Local system (host running behind the chrome browser on windows) may be downloaded from https://signer.digital/downloads/Signer.Digital.Chrome.Host.Setup.zip or cNET Download site Installing this host and restarting Chrome will automatically add Signer.Digital Chrome Extension

The actual working of this extension is illustrated here

Javascript to call method from extension:

 //Calculate Sign for the Hash by Calling function from Extension SignerDigital
 SignerDigital.signPdfHash(hash, $("#CertThumbPrint").val(), "SHA-256")      //or "SHA256"
         function (signDataResp) {
           //Send signDataResp to Server
         function (errmsg) {
             //Send errmsg to server or display the result in browser.

If success, returns Base64 encoded pkcs7 signature - use suitable library or one provided by Signer.Digital to inject sign to pdf

If Failed, returns error msg starting with "SDHost Error:"

  • "its good practice..." - well, what good practice is, depends on which application you trust more. Your answer assumes that the server application is trustworthy, that it can be trusted to supply the hash for the pdf the user does want to sign. This assumption might not be true for a user dealing with some server application for the first time who happens to have a signing app he trusts on his computer.. – mkl Apr 23 at 15:13
  • @mki, I am talking about pdf being generated on server. If user has PDF on his own computer, then there are plenty of tools available including most used Acrobat Reader to sign the PDF document... But question is about signing using JavaScript which means document is on Server and Signature is on Browser. – Bharat Vasant Apr 23 at 17:36
  • "I am talking about pdf being generated on server." - even then, if I don't trust that server to send me the correct hash, I (as a user) want to be able to instead apply a signature by downloading the pdf, signing it locally using trusted software, and then uploading the signed pdf again. I have to admit, though, that arbitrary browser extensions don't really count as trusted software here, so here it indeed hardly matters whether the use case transfers only a hash or a whole document to me... – mkl Apr 23 at 20:59
  • Some examples being signing Invoice or PO just prepared by me on my Companies' Web application (say CRM or web based accounting software) and I want to finally put sign. Other example is eReturn I have just previewed on my Companies web application or eReturn service providers' web UI, then I don't prefer to view XML or Json of return before signing.. Just trying to help trusted cases... you want me to replace "good practice" with "common practice" ?! :) – Bharat Vasant Apr 24 at 0:05
  • 1
    No need to change anything. If the user has reason to trust the server in question (e.g. supported by an appropriate CC certification), that solution does have its charm. – mkl Apr 24 at 5:46

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