Signing and authenticating REST requests (AWS signature version 2)
Topics
- Using temporary security credentials
- The authentication header
- Request canonicalization for signing
- Constructing the CanonicalizedResource element
- Constructing the CanonicalizedAmzHeaders element
- Positional versus named HTTP header StringToSign elements
- Time stamp requirement
- Authentication examples
- REST request signing problems
- Query string request authentication alternative
Note
This topic explains authenticating requests using Signature Version 2. Amazon S3 now supports the latest Signature Version 4. This latest signature version is supported in all regions and any new regions after January 30, 2014 will support only Signature Version 4. For more information, go to Authenticating Requests (AWS Signature Version 4) in the Amazon Simple Storage Service API Reference.
Authentication is the process of proving your identity to the system. Identity is an important factor in Amazon S3 access control decisions. Requests are allowed or denied in part based on the identity of the requester. For example, the right to create buckets is reserved for registered developers and (by default) the right to create objects in a bucket is reserved for the owner of the bucket in question. As a developer, you'll be making requests that invoke these privileges, so you'll need to prove your identity to the system by authenticating your requests. This section shows you how.
Note
The content in this section does not apply to HTTP POST. For more information, see Browser-based uploads using POST (AWS signature version 2).
The Amazon S3 REST API uses a custom HTTP scheme based on a keyed-HMAC (Hash Message Authentication Code) for authentication. To authenticate a request, you first concatenate selected elements of the request to form a string. You then use your AWS secret access key to calculate the HMAC of that string. Informally, we call this process "signing the request," and we call the output of the HMAC algorithm the signature, because it simulates the security properties of a real signature. Finally, you add this signature as a parameter of the request by using the syntax described in this section.
When the system receives an authenticated request, it fetches the AWS secret access key that you claim to have and uses it in the same way to compute a signature for the message it received. It then compares the signature it calculated against the signature presented by the requester. If the two signatures match, the system concludes that the requester must have access to the AWS secret access key and therefore acts with the authority of the principal to whom the key was issued. If the two signatures do not match, the request is dropped and the system responds with an error message.
Example Authenticated Amazon S3 REST request
GET /photos/puppy.jpg HTTP/1.1 Host: awsexamplebucket1.us-west-1.s3.amazonaws.com Date: Tue, 27 Mar 2007 19:36:42 +0000
Authorization: AWS AKIAIOSFODNN7EXAMPLE: qgk2+6Sv9/oM7G3qLEjTH1a1l1g=
Using temporary security credentials
If you are signing your request using temporary security credentials (see Making requests), you must include the
corresponding security token in your request by adding the
x-amz-security-token
header.
When you obtain temporary security credentials using the AWS Security Token Service
API, the response includes temporary security credentials and a session token. You
provide the session token value in the x-amz-security-token
header when you
send requests to Amazon S3. For information about the AWS Security Token Service API
provided by IAM, go to Action in the AWS Security Token Service API Reference Guide .
The authentication header
The Amazon S3 REST API uses the standard HTTP Authorization
header to pass
authentication information. (The name of the standard header is unfortunate because it
carries authentication information, not authorization.) Under the Amazon S3 authentication
scheme, the Authorization header has the following form:
Authorization: AWS
AWSAccessKeyId
:Signature
Developers are issued an AWS access key ID and AWS secret access key when they
register. For request authentication, the AWSAccessKeyId
element
identifies the access key ID that was used to compute the signature and, indirectly, the
developer making the request.
The Signature
element is the RFC 2104 HMAC-SHA1 of selected
elements from the request, and so the Signature
part of the
Authorization header will vary from request to request. If the request signature
calculated by the system matches the Signature
included with the
request, the requester will have demonstrated possession of the AWS secret access key.
The request will then be processed under the identity, and with the authority, of the
developer to whom the key was issued.
Following is pseudogrammar that illustrates the construction of the
Authorization
request header. (In the example, \n
means the
Unicode code point U+000A
, commonly called newline).
Authorization = "AWS" + " " + AWSAccessKeyId + ":" + Signature; Signature = Base64( HMAC-SHA1( UTF-8-Encoding-Of(YourSecretAccessKey), UTF-8-Encoding-Of( StringToSign ) ) ); StringToSign = HTTP-Verb + "\n" + Content-MD5 + "\n" + Content-Type + "\n" + Date + "\n" + CanonicalizedAmzHeaders + CanonicalizedResource; CanonicalizedResource = [ "/" + Bucket ] + <HTTP-Request-URI, from the protocol name up to the query string> + [ subresource, if present. For example "?acl", "?location", or "?logging"]; CanonicalizedAmzHeaders = <described below>
HMAC-SHA1 is an algorithm defined by RFC 2104 -
Keyed-Hashing for Message Authentication YourSecretAccessKey
) as the key, and the UTF-8
encoding of the StringToSign
as the message. The output of
HMAC-SHA1 is also a byte string, called the digest. The Signature
request parameter is constructed by Base64 encoding this digest.
Request canonicalization for signing
Recall that when the system receives an authenticated request, it compares the
computed request signature with the signature provided in the request in StringToSign
. For that reason, you must compute the signature by using the
same method used by Amazon S3. We call the process of putting a request in an
agreed-upon form for signing canonicalization.
Constructing the CanonicalizedResource element
CanonicalizedResource
represents the Amazon S3 resource targeted by
the request. Construct it for a REST request as follows:
-
Start with an empty string (
""
). -
If the request specifies a bucket using the HTTP Host header (virtual hosted-style), append the bucket name preceded by a
"/"
(e.g., "/bucketname"). For path-style requests and requests that don't address a bucket, do nothing. For more information about virtual hosted-style requests, see Virtual hosting of buckets .For a virtual hosted-style request "https://awsexamplebucket1.s3.us-west-1.amazonaws.com/photos/puppy.jpg", the
CanonicalizedResource
is "/awsexamplebucket1".For the path-style request, "https://s3.us-west-1.amazonaws.com/awsexamplebucket1/photos/puppy.jpg", the
CanonicalizedResource
is "". -
Append the path part of the un-decoded HTTP Request-URI, up-to but not including the query string.
For a virtual hosted-style request "https://awsexamplebucket1.s3.us-west-1.amazonaws.com/photos/puppy.jpg", the
CanonicalizedResource
is "/awsexamplebucket1/photos/puppy.jpg".For a path-style request, "https://s3.us-west-1.amazonaws.com/awsexamplebucket1/photos/puppy.jpg", the
CanonicalizedResource
is "/awsexamplebucket1/photos/puppy.jpg". At this point, theCanonicalizedResource
is the same for both the virtual hosted-style and path-style request.For a request that does not address a bucket, such as GET Service, append "/".
-
If the request addresses a subresource, such as
?versioning
,?location
,?acl
,?lifecycle
, or?versionid
, append the subresource, its value if it has one, and the question mark. Note that in case of multiple subresources, subresources must be lexicographically sorted by subresource name and separated by '&', e.g., ?acl&versionId=value
.The subresources that must be included when constructing the CanonicalizedResource Element are acl, lifecycle, location, logging, notification, partNumber, policy, requestPayment, uploadId, uploads, versionId, versioning, versions, and website.
If the request specifies query string parameters overriding the response header values (see Get Object), append the query string parameters and their values. When signing, you do not encode these values; however, when making the request, you must encode these parameter values. The query string parameters in a GET request include
response-content-type
,response-content-language
,response-expires
,response-cache-control
,response-content-disposition
, andresponse-content-encoding
.The
delete
query string parameter must be included when you create the CanonicalizedResource for a multi-object Delete request.
Elements of the CanonicalizedResource that come from the HTTP Request-URI should be signed literally as they appear in the HTTP request, including URL-Encoding meta characters.
The CanonicalizedResource
might be different than the HTTP
Request-URI. In particular, if your request uses the HTTP Host
header to
specify a bucket, the bucket does not appear in the HTTP Request-URI. However, the
CanonicalizedResource
continues to include the bucket. Query
string parameters might also appear in the Request-URI but are not included in
CanonicalizedResource
. For more information, see Virtual hosting of buckets
.
Constructing the CanonicalizedAmzHeaders element
To construct the CanonicalizedAmzHeaders part of StringToSign
,
select all HTTP request headers that start with 'x-amz-' (using a case-insensitive
comparison), and use the following process.
-
Convert each HTTP header name to lowercase. For example, '
X-Amz-Date
' becomes 'x-amz-date
'. -
Sort the collection of headers lexicographically by header name.
-
Combine header fields with the same name into one "header-name:comma-separated-value-list" pair as prescribed by RFC 2616, section 4.2, without any spaces between values. For example, the two metadata headers '
x-amz-meta-username: fred
' and 'x-amz-meta-username: barney
' would be combined into the single header 'x-amz-meta-username: fred,barney
'. -
"Unfold" long headers that span multiple lines (as allowed by RFC 2616, section 4.2) by replacing the folding spaces (including new-line) by a single space.
-
Trim any spaces around the colon in the header. For example, the header '
x-amz-meta-username: fred,barney
' would become 'x-amz-meta-username:fred,barney
'. -
Finally, append a newline character (
U+000A
) to each canonicalized header in the resulting list. Construct the CanonicalizedResource element by concatenating all headers in this list into a single string.
Positional versus named HTTP header StringToSign elements
The first few header elements of StringToSign
(Content-Type,
Date, and Content-MD5) are positional in nature. StringToSign
does not include the names of these headers, only their values from the request. In
contrast, the 'x-amz-
' elements are named. Both the header names and the
header values appear in StringToSign
.
If a positional header called for in the definition of StringToSign
is not present in your request (for example, Content-Type
or Content-MD5
are optional for PUT requests and meaningless
for GET requests), substitute the empty string ("") for that position.
Time stamp requirement
A valid time stamp (using either the HTTP Date
header or an
x-amz-date
alternative) is mandatory for authenticated requests.
Furthermore, the client timestamp included with an authenticated request must be within
15 minutes of the Amazon S3 system time when the request is received. If not, the request
will fail with the RequestTimeTooSkewed
error code. The
intention of these restrictions is to limit the possibility that intercepted requests
could be replayed by an adversary. For stronger protection against eavesdropping, use
the HTTPS transport for authenticated requests.
Note
The validation constraint on request date applies only to authenticated requests that do not use query string authentication. For more information, see Query string request authentication alternative.
Some HTTP client libraries do not expose the ability to set the Date
header for a request. If you have trouble including the value of the 'Date' header in
the canonicalized headers, you can set the timestamp for the request by using an
'x-amz-date
' header instead. The value of the x-amz-date
header must be in one of the RFC 2616 formats (http://www.ietf.org/rfc/rfc2616.txtx-amz-date
header is present in a request, the system will ignore any
Date
header when computing the request signature. Therefore, if you
include the x-amz-date
header, use the empty string for the
Date
when constructing the StringToSign
. See the
next section for an example.
Authentication examples
The examples in this section use the (non-working) credentials in the following table.
Parameter | Value |
---|---|
AWSAccessKeyId | AKIAIOSFODNN7EXAMPLE |
AWSSecretAccessKey | wJalrXUtnFEMI/K7MDENG/bPxRfiCYEXAMPLEKEY |
In the example StringToSign
s, formatting is not significant, and
\n
means the Unicode code point U+000A
, commonly called
newline. Also, the examples use "+0000" to designate the time zone. You can use "GMT" to
designate timezone instead, but the signatures shown in the examples will be
different.
Object GET
This example gets an object from the awsexamplebucket1 bucket.
Request | StringToSign |
---|---|
|
|
Note that the CanonicalizedResource includes the bucket name, but the HTTP Request-URI does not. (The bucket is specified by the Host header.)
Note
The following Python script calculates the preceding signature, using the provided parameters. You can use this script to construct your own signatures, replacing the keys and StringToSign as appropriate.
import base64 import hmac from hashlib import sha1 access_key = '
AKIAIOSFODNN7EXAMPLE
'.encode("UTF-8") secret_key = 'wJalrXUtnFEMI/K7MDENG/bPxRfiCYEXAMPLEKEY
'.encode("UTF-8") string_to_sign = 'GET\n\n\nTue, 27 Mar 2007 19:36:42 +0000\n/awsexamplebucket1/photos/puppy.jpg
'.encode("UTF-8") signature = base64.b64encode( hmac.new( secret_key, string_to_sign, sha1 ).digest() ).strip() print(f"AWS {access_key.decode()}:{signature.decode()}")
Object PUT
This example puts an object into the awsexamplebucket1 bucket.
Request | StringToSign |
---|---|
|
|
Note the Content-Type header in the request and in the StringToSign. Also note that the Content-MD5 is left blank in the StringToSign, because it is not present in the request.
List
This example lists the content of the awsexamplebucket1 bucket.
Request | StringToSign |
---|---|
|
|
Note the trailing slash on the CanonicalizedResource and the absence of query string parameters.
Fetch
This example fetches the access control policy subresource for the 'awsexamplebucket1' bucket.
Request | StringToSign |
---|---|
|
|
Notice how the subresource query string parameter is included in the CanonicalizedResource.
Delete
This example deletes an object from the 'awsexamplebucket1' bucket using the path-style and Date alternative.
Request | StringToSign |
---|---|
|
|
Note how we used the alternate 'x-amz-date' method of specifying the date
(because our client library prevented us from setting the date, say). In this case,
the x-amz-date
takes precedence over the Date
header.
Therefore, date entry in the signature must contain the value of the
x-amz-date
header.
Upload
This example uploads an object to a CNAME style virtual hosted bucket with metadata.
Request | StringToSign |
---|---|
|
|
Notice how the 'x-amz-' headers are sorted, trimmed of extra spaces, and converted to lowercase. Note also that multiple headers with the same name have been joined using commas to separate values.
Note how only the Content-Type
and Content-MD5
HTTP
entity headers appear in the StringToSign
. The other
Content-*
entity headers do not.
Again, note that the CanonicalizedResource
includes the
bucket name, but the HTTP Request-URI does not. (The bucket is specified by the Host
header.)
List all my buckets
Request | StringToSign |
---|---|
|
|
Unicode keys
Request | StringToSign |
---|---|
|
|
Note
The elements in StringToSign
that were derived from the
Request-URI are taken literally, including URL-Encoding and capitalization.
REST request signing problems
When REST request authentication fails, the system responds to the request with an
XML error document. The information contained in this error document is meant to help
developers diagnose the problem. In particular, the StringToSign
element of the SignatureDoesNotMatch
error document tells you
exactly what request canonicalization the system is using.
Some toolkits silently insert headers that you do not know about beforehand, such as
adding the header Content-Type
during a PUT. In most of these cases, the
value of the inserted header remains constant, allowing you to discover the missing
headers by using tools such as Ethereal or tcpmon.
Query string request authentication alternative
You can authenticate certain types of requests by passing the required information as
query-string parameters instead of using the Authorization
HTTP header.
This is useful for enabling direct third-party browser access to your private Amazon S3 data
without proxying the request. The idea is to construct a "presigned" request and encode
it as a URL that an end-user's browser can retrieve. Additionally, you can limit a
presigned request by specifying an expiration time.
For more information on using query parameters to authenticate requests , see Authenticating Requests: Using Query Parameters (AWS Signature Version 4) in the Amazon Simple Storage Service API Reference. For examples of using the AWS SDKs to generating presigned URLs, see Sharing objects with presigned URLs .
Creating a signature
Following is an example query string authenticated Amazon S3 REST request.
GET /photos/puppy.jpg ?AWSAccessKeyId=AKIAIOSFODNN7EXAMPLE&Expires=1141889120&Signature=vjbyPxybdZaNmGa%2ByT272YEAiv4%3D HTTP/1.1 Host: awsexamplebucket1.s3.us-west-1.amazonaws.com Date: Mon, 26 Mar 2007 19:37:58 +0000
The query string request authentication method doesn't require any special HTTP headers. Instead, the required authentication elements are specified as query string parameters:
Query string parameter name | Example value | Description |
---|---|---|
AWSAccessKeyId |
AKIAIOSFODNN7EXAMPLE |
Your AWS access key ID. Specifies the AWS secret access key used to sign the request and, indirectly, the identity of the developer making the request. |
Expires |
1141889120 |
The time when the signature expires, specified as the number of seconds since the epoch (00:00:00 UTC on January 1, 1970). A request received after this time (according to the server) will be rejected. |
Signature |
vjbyPxybdZaNmGa%2ByT272YEAiv4%3D |
The URL encoding of the Base64 encoding of the HMAC-SHA1 of StringToSign. |
The query string request authentication method differs slightly from the ordinary
method but only in the format of the Signature
request
parameter and the StringToSign
element. Following is
pseudo-grammar that illustrates the query string request authentication method.
Signature = URL-Encode( Base64( HMAC-SHA1( YourSecretAccessKey, UTF-8-Encoding-Of( StringToSign ) ) ) ); StringToSign = HTTP-VERB + "\n" + Content-MD5 + "\n" + Content-Type + "\n" + Expires + "\n" + CanonicalizedAmzHeaders + CanonicalizedResource;
YourSecretAccessKey
is the AWS secret access key ID that
Amazon assigns to you when you sign up to be an Amazon Web Service developer. Notice
how the Signature
is URL-Encoded to make it suitable for
placement in the query string. Note also that in
StringToSign
, the HTTP Date
positional element
has been replaced with Expires
. The
CanonicalizedAmzHeaders
and
CanonicalizedResource
are the same.
Note
In the query string authentication method, you do not use the
Date
or the x-amz-date request
header when
calculating the string to sign.
Query string request authentication
Request | StringToSign |
---|---|
|
|
We assume that when a browser makes the GET request, it won't provide a
Content-MD5 or a Content-Type header, nor will it set any x-amz- headers, so
those parts of the StringToSign
are left blank.
Using Base64 encoding
HMAC request signatures must be Base64 encoded. Base64 encoding converts the signature into a simple ASCII string that can be attached to the request. Characters that could appear in the signature string like plus (+), forward slash (/), and equals (=) must be encoded if used in a URI. For example, if the authentication code includes a plus (+) sign, encode it as %2B in the request. Encode a forward slash as %2F and equals as %3D.
For examples of Base64 encoding, refer to the Amazon S3 Authentication examples.