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363 lines
14 KiB
363 lines
14 KiB
# Abstract |
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This document describes a way to add origin authentication, message integrity, |
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and replay resistance to HTTP REST requests. It is intended to be used over |
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the HTTPS protocol. |
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# Copyright Notice |
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Copyright (c) 2011 Joyent, Inc. and the persons identified as document authors. |
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All rights reserved. |
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Code Components extracted from this document must include MIT License text. |
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# Introduction |
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This protocol is intended to provide a standard way for clients to sign HTTP |
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requests. RFC2617 (HTTP Authentication) defines Basic and Digest authentication |
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mechanisms, and RFC5246 (TLS 1.2) defines client-auth, both of which are widely |
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employed on the Internet today. However, it is common place that the burdens of |
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PKI prevent web service operators from deploying that methodology, and so many |
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fall back to Basic authentication, which has poor security characteristics. |
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Additionally, OAuth provides a fully-specified alternative for authorization |
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of web service requests, but is not (always) ideal for machine to machine |
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communication, as the key acquisition steps (generally) imply a fixed |
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infrastructure that may not make sense to a service provider (e.g., symmetric |
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keys). |
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Several web service providers have invented their own schemes for signing |
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HTTP requests, but to date, none have been placed in the public domain as a |
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standard. This document serves that purpose. There are no techniques in this |
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proposal that are novel beyond previous art, however, this aims to be a simple |
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mechanism for signing these requests. |
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# Signature Authentication Scheme |
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The "signature" authentication scheme is based on the model that the client must |
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authenticate itself with a digital signature produced by either a private |
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asymmetric key (e.g., RSA) or a shared symmetric key (e.g., HMAC). The scheme |
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is parameterized enough such that it is not bound to any particular key type or |
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signing algorithm. However, it does explicitly assume that clients can send an |
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HTTP `Date` header. |
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## Authorization Header |
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The client is expected to send an Authorization header (as defined in RFC 2617) |
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with the following parameterization: |
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credentials := "Signature" params |
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params := 1#(keyId | algorithm | [headers] | [ext] | signature) |
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digitalSignature := plain-string |
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keyId := "keyId" "=" <"> plain-string <"> |
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algorithm := "algorithm" "=" <"> plain-string <"> |
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headers := "headers" "=" <"> 1#headers-value <"> |
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ext := "ext" "=" <"> plain-string <"> |
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signature := "signature" "=" <"> plain-string <"> |
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headers-value := plain-string |
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plain-string = 1*( %x20-21 / %x23-5B / %x5D-7E ) |
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### Signature Parameters |
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#### keyId |
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REQUIRED. The `keyId` field is an opaque string that the server can use to look |
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up the component they need to validate the signature. It could be an SSH key |
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fingerprint, an LDAP DN, etc. Management of keys and assignment of `keyId` is |
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out of scope for this document. |
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#### algorithm |
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REQUIRED. The `algorithm` parameter is used if the client and server agree on a |
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non-standard digital signature algorithm. The full list of supported signature |
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mechanisms is listed below. |
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#### headers |
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OPTIONAL. The `headers` parameter is used to specify the list of HTTP headers |
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used to sign the request. If specified, it should be a quoted list of HTTP |
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header names, separated by a single space character. By default, only one |
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HTTP header is signed, which is the `Date` header. Note that the list MUST be |
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specified in the order the values are concatenated together during signing. To |
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include the HTTP request line in the signature calculation, use the special |
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`request-line` value. While this is overloading the definition of `headers` in |
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HTTP linguism, the request-line is defined in RFC 2616, and as the outlier from |
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headers in useful signature calculation, it is deemed simpler to simply use |
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`request-line` than to add a separate parameter for it. |
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#### extensions |
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OPTIONAL. The `extensions` parameter is used to include additional information |
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which is covered by the request. The content and format of the string is out of |
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scope for this document, and expected to be specified by implementors. |
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#### signature |
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REQUIRED. The `signature` parameter is a `Base64` encoded digital signature |
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generated by the client. The client uses the `algorithm` and `headers` request |
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parameters to form a canonicalized `signing string`. This `signing string` is |
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then signed with the key associated with `keyId` and the algorithm |
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corresponding to `algorithm`. The `signature` parameter is then set to the |
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`Base64` encoding of the signature. |
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### Signing String Composition |
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In order to generate the string that is signed with a key, the client MUST take |
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the values of each HTTP header specified by `headers` in the order they appear. |
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1. If the header name is not `request-line` then append the lowercased header |
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name followed with an ASCII colon `:` and an ASCII space ` `. |
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2. If the header name is `request-line` then append the HTTP request line, |
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otherwise append the header value. |
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3. If value is not the last value then append an ASCII newline `\n`. The string |
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MUST NOT include a trailing ASCII newline. |
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# Example Requests |
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All requests refer to the following request (body omitted): |
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POST /foo HTTP/1.1 |
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Host: example.org |
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Date: Tue, 07 Jun 2014 20:51:35 GMT |
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Content-Type: application/json |
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Digest: SHA-256=X48E9qOokqqrvdts8nOJRJN3OWDUoyWxBf7kbu9DBPE= |
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Content-Length: 18 |
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The "rsa-key-1" keyId refers to a private key known to the client and a public |
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key known to the server. The "hmac-key-1" keyId refers to key known to the |
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client and server. |
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## Default parameterization |
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The authorization header and signature would be generated as: |
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Authorization: Signature keyId="rsa-key-1",algorithm="rsa-sha256",signature="Base64(RSA-SHA256(signing string))" |
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The client would compose the signing string as: |
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date: Tue, 07 Jun 2014 20:51:35 GMT |
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## Header List |
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The authorization header and signature would be generated as: |
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Authorization: Signature keyId="rsa-key-1",algorithm="rsa-sha256",headers="(request-target) date content-type digest",signature="Base64(RSA-SHA256(signing string))" |
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The client would compose the signing string as (`+ "\n"` inserted for |
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readability): |
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(request-target) post /foo + "\n" |
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date: Tue, 07 Jun 2011 20:51:35 GMT + "\n" |
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content-type: application/json + "\n" |
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digest: SHA-256=Base64(SHA256(Body)) |
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## Algorithm |
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The authorization header and signature would be generated as: |
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Authorization: Signature keyId="hmac-key-1",algorithm="hmac-sha1",signature="Base64(HMAC-SHA1(signing string))" |
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The client would compose the signing string as: |
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date: Tue, 07 Jun 2011 20:51:35 GMT |
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# Signing Algorithms |
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Currently supported algorithm names are: |
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* rsa-sha1 |
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* rsa-sha256 |
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* rsa-sha512 |
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* dsa-sha1 |
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* hmac-sha1 |
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* hmac-sha256 |
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* hmac-sha512 |
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# Security Considerations |
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## Default Parameters |
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Note the default parameterization of the `Signature` scheme is only safe if all |
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requests are carried over a secure transport (i.e., TLS). Sending the default |
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scheme over a non-secure transport will leave the request vulnerable to |
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spoofing, tampering, replay/repudiation, and integrity violations (if using the |
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STRIDE threat-modeling methodology). |
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## Insecure Transports |
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If sending the request over plain HTTP, service providers SHOULD require clients |
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to sign ALL HTTP headers, and the `request-line`. Additionally, service |
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providers SHOULD require `Content-MD5` calculations to be performed to ensure |
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against any tampering from clients. |
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## Nonces |
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Nonces are out of scope for this document simply because many service providers |
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fail to implement them correctly, or do not adopt security specifications |
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because of the infrastructure complexity. Given the `header` parameterization, |
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a service provider is fully enabled to add nonce semantics into this scheme by |
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using something like an `x-request-nonce` header, and ensuring it is signed |
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with the `Date` header. |
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## Clock Skew |
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As the default scheme is to sign the `Date` header, service providers SHOULD |
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protect against logged replay attacks by enforcing a clock skew. The server |
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SHOULD be synchronized with NTP, and the recommendation in this specification |
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is to allow 300s of clock skew (in either direction). |
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## Required Headers to Sign |
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It is out of scope for this document to dictate what headers a service provider |
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will want to enforce, but service providers SHOULD at minimum include the |
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`Date` header. |
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# References |
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## Normative References |
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* [RFC2616] Hypertext Transfer Protocol -- HTTP/1.1 |
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* [RFC2617] HTTP Authentication: Basic and Digest Access Authentication |
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* [RFC5246] The Transport Layer Security (TLS) Protocol Version 1.2 |
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## Informative References |
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Name: Mark Cavage (editor) |
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Company: Joyent, Inc. |
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Email: mark.cavage@joyent.com |
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URI: http://www.joyent.com |
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# Appendix A - Test Values |
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The following test data uses the RSA (1024b) keys, which we will refer |
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to as `keyId=Test` in the following samples: |
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-----BEGIN PUBLIC KEY----- |
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MIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQDCFENGw33yGihy92pDjZQhl0C3 |
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6rPJj+CvfSC8+q28hxA161QFNUd13wuCTUcq0Qd2qsBe/2hFyc2DCJJg0h1L78+6 |
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Z4UMR7EOcpfdUE9Hf3m/hs+FUR45uBJeDK1HSFHD8bHKD6kv8FPGfJTotc+2xjJw |
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oYi+1hqp1fIekaxsyQIDAQAB |
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-----END PUBLIC KEY----- |
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-----BEGIN RSA PRIVATE KEY----- |
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MIICXgIBAAKBgQDCFENGw33yGihy92pDjZQhl0C36rPJj+CvfSC8+q28hxA161QF |
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NUd13wuCTUcq0Qd2qsBe/2hFyc2DCJJg0h1L78+6Z4UMR7EOcpfdUE9Hf3m/hs+F |
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UR45uBJeDK1HSFHD8bHKD6kv8FPGfJTotc+2xjJwoYi+1hqp1fIekaxsyQIDAQAB |
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AoGBAJR8ZkCUvx5kzv+utdl7T5MnordT1TvoXXJGXK7ZZ+UuvMNUCdN2QPc4sBiA |
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QWvLw1cSKt5DsKZ8UETpYPy8pPYnnDEz2dDYiaew9+xEpubyeW2oH4Zx71wqBtOK |
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kqwrXa/pzdpiucRRjk6vE6YY7EBBs/g7uanVpGibOVAEsqH1AkEA7DkjVH28WDUg |
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f1nqvfn2Kj6CT7nIcE3jGJsZZ7zlZmBmHFDONMLUrXR/Zm3pR5m0tCmBqa5RK95u |
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412jt1dPIwJBANJT3v8pnkth48bQo/fKel6uEYyboRtA5/uHuHkZ6FQF7OUkGogc |
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mSJluOdc5t6hI1VsLn0QZEjQZMEOWr+wKSMCQQCC4kXJEsHAve77oP6HtG/IiEn7 |
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kpyUXRNvFsDE0czpJJBvL/aRFUJxuRK91jhjC68sA7NsKMGg5OXb5I5Jj36xAkEA |
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gIT7aFOYBFwGgQAQkWNKLvySgKbAZRTeLBacpHMuQdl1DfdntvAyqpAZ0lY0RKmW |
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G6aFKaqQfOXKCyWoUiVknQJAXrlgySFci/2ueKlIE1QqIiLSZ8V8OlpFLRnb1pzI |
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7U1yQXnTAEFYM560yJlzUpOb1V4cScGd365tiSMvxLOvTA== |
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-----END RSA PRIVATE KEY----- |
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And all examples use this request: |
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<!-- httpreq --> |
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POST /foo?param=value&pet=dog HTTP/1.1 |
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Host: example.com |
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Date: Thu, 05 Jan 2014 21:31:40 GMT |
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Content-Type: application/json |
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Digest: SHA-256=X48E9qOokqqrvdts8nOJRJN3OWDUoyWxBf7kbu9DBPE= |
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Content-Length: 18 |
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{"hello": "world"} |
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<!-- /httpreq --> |
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### Default |
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The string to sign would be: |
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<!-- sign {"name": "Default", "options": {"keyId":"Test", "algorithm": "rsa-sha256"}} --> |
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<!-- signstring --> |
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date: Thu, 05 Jan 2014 21:31:40 GMT |
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<!-- /signstring --> |
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The Authorization header would be: |
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<!-- authz --> |
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Authorization: Signature keyId="Test",algorithm="rsa-sha256",headers="date",signature="jKyvPcxB4JbmYY4mByyBY7cZfNl4OW9HpFQlG7N4YcJPteKTu4MWCLyk+gIr0wDgqtLWf9NLpMAMimdfsH7FSWGfbMFSrsVTHNTk0rK3usrfFnti1dxsM4jl0kYJCKTGI/UWkqiaxwNiKqGcdlEDrTcUhhsFsOIo8VhddmZTZ8w=" |
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<!-- /authz --> |
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### All Headers |
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Parameterized to include all headers, the string to sign would be (`+ "\n"` |
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inserted for readability): |
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<!-- sign {"name": "All Headers", "options": {"keyId":"Test", "algorithm": "rsa-sha256", "headers": ["(request-target)", "host", "date", "content-type", "digest", "content-length"]}} --> |
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<!-- signstring --> |
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(request-target): post /foo?param=value&pet=dog |
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host: example.com |
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date: Thu, 05 Jan 2014 21:31:40 GMT |
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content-type: application/json |
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digest: SHA-256=X48E9qOokqqrvdts8nOJRJN3OWDUoyWxBf7kbu9DBPE= |
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content-length: 18 |
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<!-- /signstring --> |
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The Authorization header would be: |
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<!-- authz --> |
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Authorization: Signature keyId="Test",algorithm="rsa-sha256",headers="(request-target) host date content-type digest content-length",signature="Ef7MlxLXoBovhil3AlyjtBwAL9g4TN3tibLj7uuNB3CROat/9KaeQ4hW2NiJ+pZ6HQEOx9vYZAyi+7cmIkmJszJCut5kQLAwuX+Ms/mUFvpKlSo9StS2bMXDBNjOh4Auj774GFj4gwjS+3NhFeoqyr/MuN6HsEnkvn6zdgfE2i0=" |
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<!-- /authz --> |
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## Generating and verifying signatures using `openssl` |
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The `openssl` commandline tool can be used to generate or verify the signatures listed above. |
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Compose the signing string as usual, and pipe it into the the `openssl dgst` command, then into `openssl enc -base64`, as follows: |
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$ printf 'date: Thu, 05 Jan 2014 21:31:40 GMT' | \ |
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openssl dgst -binary -sign /path/to/private.pem -sha256 | \ |
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openssl enc -base64 |
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jKyvPcxB4JbmYY4mByyBY7cZfNl4OW9Hp... |
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$ |
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The `-sha256` option is necessary to produce an `rsa-sha256` signature. You can select other hash algorithms such as `sha1` by changing this argument. |
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To verify a signature, first save the signature data, Base64-decoded, into a file, then use `openssl dgst` again with the `-verify` option: |
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$ echo 'jKyvPcxB4JbmYY4mByy...' | openssl enc -A -d -base64 > signature |
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$ printf 'date: Thu, 05 Jan 2014 21:31:40 GMT' | \ |
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openssl dgst -sha256 -verify /path/to/public.pem -signature ./signature |
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Verified OK |
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$ |
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## Generating and verifying signatures using `sshpk-sign` |
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You can also generate and check signatures using the `sshpk-sign` tool which is |
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included with the `sshpk` package in `npm`. |
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Compose the signing string as above, and pipe it into `sshpk-sign` as follows: |
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$ printf 'date: Thu, 05 Jan 2014 21:31:40 GMT' | \ |
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sshpk-sign -i /path/to/private.pem |
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jKyvPcxB4JbmYY4mByyBY7cZfNl4OW9Hp... |
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$ |
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This will produce an `rsa-sha256` signature by default, as you can see using |
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the `-v` option: |
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sshpk-sign: using rsa-sha256 with a 1024 bit key |
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You can also use `sshpk-verify` in a similar manner: |
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$ printf 'date: Thu, 05 Jan 2014 21:31:40 GMT' | \ |
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sshpk-verify -i ./public.pem -s 'jKyvPcxB4JbmYY...' |
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OK |
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$
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