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com.amazonaws.auth.AbstractAWSSigner Maven / Gradle / Ivy

/*
 * Copyright 2010-2013 Amazon.com, Inc. or its affiliates. All Rights Reserved.
 *
 * Licensed under the Apache License, Version 2.0 (the "License").
 * You may not use this file except in compliance with the License.
 * A copy of the License is located at
 *
 *  http://aws.amazon.com/apache2.0
 *
 * or in the "license" file accompanying this file. This file is distributed
 * on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either
 * express or implied. See the License for the specific language governing
 * permissions and limitations under the License.
 */
package com.amazonaws.auth;

import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.InputStream;
import java.io.UnsupportedEncodingException;
import java.net.URI;
import java.security.DigestInputStream;
import java.security.MessageDigest;
import java.util.Date;
import java.util.Iterator;
import java.util.Map;
import java.util.SortedMap;
import java.util.TreeMap;

import javax.crypto.Mac;
import javax.crypto.spec.SecretKeySpec;

import org.apache.commons.codec.binary.Base64;

import com.amazonaws.AmazonClientException;
import com.amazonaws.Request;
import com.amazonaws.util.HttpUtils;
import com.amazonaws.util.StringInputStream;

/**
 * Abstract base class for AWS signing protocol implementations. Provides
 * utilities commonly needed by signing protocols such as computing
 * canonicalized host names, query string parameters, etc.
 * 

* Not intended to be sub-classed by developers. */ public abstract class AbstractAWSSigner implements Signer { /** The default encoding to use when URL encoding */ protected static final String DEFAULT_ENCODING = "UTF-8"; /** * Computes an RFC 2104-compliant HMAC signature and returns the result as a * Base64 encoded string. */ protected String signAndBase64Encode(String data, String key, SigningAlgorithm algorithm) throws AmazonClientException { try { return signAndBase64Encode(data.getBytes(DEFAULT_ENCODING), key, algorithm); } catch (UnsupportedEncodingException e) { throw new AmazonClientException("Unable to calculate a request signature: " + e.getMessage(), e); } } /** * Computes an RFC 2104-compliant HMAC signature for an array of bytes and * returns the result as a Base64 encoded string. */ protected String signAndBase64Encode(byte[] data, String key, SigningAlgorithm algorithm) throws AmazonClientException { try { byte[] signature = sign(data, key.getBytes(DEFAULT_ENCODING), algorithm); return new String(Base64.encodeBase64(signature)); } catch (Exception e) { throw new AmazonClientException("Unable to calculate a request signature: " + e.getMessage(), e); } } protected byte[] sign(String stringData, byte[] key, SigningAlgorithm algorithm) throws AmazonClientException { try { byte[] data = stringData.getBytes(DEFAULT_ENCODING); return sign(data, key, algorithm); } catch (Exception e) { throw new AmazonClientException("Unable to calculate a request signature: " + e.getMessage(), e); } } protected byte[] sign(byte[] data, byte[] key, SigningAlgorithm algorithm) throws AmazonClientException { try { Mac mac = Mac.getInstance(algorithm.toString()); mac.init(new SecretKeySpec(key, algorithm.toString())); return mac.doFinal(data); } catch (Exception e) { throw new AmazonClientException("Unable to calculate a request signature: " + e.getMessage(), e); } } /** * Hashes the string contents (assumed to be UTF-8) using the SHA-256 * algorithm. * * @param text * The string to hash. * * @return The hashed bytes from the specified string. * * @throws AmazonClientException * If the hash cannot be computed. */ protected byte[] hash(String text) throws AmazonClientException { try { MessageDigest md = MessageDigest.getInstance("SHA-256"); md.update(text.getBytes(DEFAULT_ENCODING)); return md.digest(); } catch (Exception e) { throw new AmazonClientException("Unable to compute hash while signing request: " + e.getMessage(), e); } } protected byte[] hash(InputStream input) throws AmazonClientException { try { MessageDigest md = MessageDigest.getInstance("SHA-256"); DigestInputStream digestInputStream = new DigestInputStream(input, md); byte[] buffer = new byte[1024]; while (digestInputStream.read(buffer) > -1); return digestInputStream.getMessageDigest().digest(); } catch (Exception e) { throw new AmazonClientException("Unable to compute hash while signing request: " + e.getMessage(), e); } } /** * Hashes the binary data using the SHA-256 algorithm. * * @param data * The binary data to hash. * * @return The hashed bytes from the specified data. * * @throws AmazonClientException * If the hash cannot be computed. */ protected byte[] hash(byte[] data) throws AmazonClientException { try { MessageDigest md = MessageDigest.getInstance("SHA-256"); md.update(data); return md.digest(); } catch (Exception e) { throw new AmazonClientException("Unable to compute hash while signing request: " + e.getMessage(), e); } } /** * Examines the specified query string parameters and returns a * canonicalized form. *

* The canonicalized query string is formed by first sorting all the query * string parameters, then URI encoding both the key and value and then * joining them, in order, separating key value pairs with an '&'. * * @param parameters * The query string parameters to be canonicalized. * * @return A canonicalized form for the specified query string parameters. */ protected String getCanonicalizedQueryString(Map parameters) { SortedMap sorted = new TreeMap(); Iterator> pairs = parameters.entrySet().iterator(); while (pairs.hasNext()) { Map.Entry pair = pairs.next(); String key = pair.getKey(); String value = pair.getValue(); sorted.put(HttpUtils.urlEncode(key, false), HttpUtils.urlEncode(value, false)); } StringBuilder builder = new StringBuilder(); pairs = sorted.entrySet().iterator(); while (pairs.hasNext()) { Map.Entry pair = pairs.next(); builder.append(pair.getKey()); builder.append("="); builder.append(pair.getValue()); if (pairs.hasNext()) { builder.append("&"); } } return builder.toString(); } protected String getCanonicalizedQueryString(Request request) { /* * If we're using POST and we don't have any request payload content, * then any request query parameters will be sent as the payload, and * not in the actual query string. */ if (HttpUtils.usePayloadForQueryParameters(request)) return ""; else return this.getCanonicalizedQueryString(request.getParameters()); } /** * Returns the request's payload as binary data. * * @param request * The request * @return The data from the request's payload, as binary data. */ protected byte[] getBinaryRequestPayload(Request request) { if (HttpUtils.usePayloadForQueryParameters(request)) { String encodedParameters = HttpUtils.encodeParameters(request); if (encodedParameters == null) return new byte[0]; try { return encodedParameters.getBytes(DEFAULT_ENCODING); } catch (UnsupportedEncodingException e) { throw new AmazonClientException("Unable to encode string into bytes"); } } return getBinaryRequestPayloadWithoutQueryParams(request); } /** * Returns the request's payload as a String. * * @param request * The request * @return The data from the request's payload, as a string. */ protected String getRequestPayload(Request request) { return newString(getBinaryRequestPayload(request)); } /** * Returns the request's payload contents as a String, without processing * any query string params (i.e. no form encoding for query params). * * @param request * The request * @return the request's payload contents as a String, not including any * form encoding of query string params. */ protected String getRequestPayloadWithoutQueryParams(Request request) { return newString(getBinaryRequestPayloadWithoutQueryParams(request)); } /** * Returns the request's payload contents as binary data, without processing * any query string params (i.e. no form encoding for query params). * * @param request * The request * @return The request's payload contents as binary data, not including any * form encoding of query string params. */ protected byte[] getBinaryRequestPayloadWithoutQueryParams(Request request) { InputStream content = getBinaryRequestPayloadStreamWithoutQueryParams(request); try { content.mark(-1); ByteArrayOutputStream byteArrayOutputStream = new ByteArrayOutputStream(); byte[] buffer = new byte[1024 * 5]; while (true) { int bytesRead = content.read(buffer); if (bytesRead == -1) break; byteArrayOutputStream.write(buffer, 0, bytesRead); } byteArrayOutputStream.close(); content.reset(); return byteArrayOutputStream.toByteArray(); } catch (Exception e) { throw new AmazonClientException("Unable to read request payload to sign request: " + e.getMessage(), e); } } protected InputStream getBinaryRequestPayloadStream(Request request) { if (HttpUtils.usePayloadForQueryParameters(request)) { String encodedParameters = HttpUtils.encodeParameters(request); if (encodedParameters == null) return new ByteArrayInputStream(new byte[0]); try { return new ByteArrayInputStream(encodedParameters.getBytes(DEFAULT_ENCODING)); } catch (UnsupportedEncodingException e) { throw new AmazonClientException("Unable to encode string into bytes"); } } return getBinaryRequestPayloadStreamWithoutQueryParams(request); } protected InputStream getBinaryRequestPayloadStreamWithoutQueryParams(Request request) { try { InputStream content = request.getContent(); if (content == null) return new ByteArrayInputStream(new byte[0]); if (content instanceof StringInputStream) { return content; } if (!content.markSupported()) { throw new AmazonClientException("Unable to read request payload to sign request."); } return request.getContent(); } catch (Exception e) { throw new AmazonClientException("Unable to read request payload to sign request: " + e.getMessage(), e); } } protected String getCanonicalizedResourcePath(String resourcePath) { if (resourcePath == null || resourcePath.length() == 0) { return "/"; } else { String value = HttpUtils.urlEncode(resourcePath, true); if (value.startsWith("/")) { return value; } else { return "/".concat(value); } } } protected String getCanonicalizedEndpoint(URI endpoint) { String endpointForStringToSign = endpoint.getHost().toLowerCase(); /* * Apache HttpClient will omit the port in the Host header for default * port values (i.e. 80 for HTTP and 443 for HTTPS) even if we * explicitly specify it, so we need to be careful that we use the same * value here when we calculate the string to sign and in the Host * header we send in the HTTP request. */ if (HttpUtils.isUsingNonDefaultPort(endpoint)) { endpointForStringToSign += ":" + endpoint.getPort(); } return endpointForStringToSign; } /** * Loads the individual access key ID and secret key from the specified * credentials, ensuring that access to the credentials is synchronized on * the credentials object itself, and trimming any extra whitespace from the * credentials. *

* Returns either a {@link BasicSessionCredentials} or a * {@link BasicAWSCredentials} object, depending on the input type. * * @param credentials * @return A new credentials object with the sanitized credentials. */ protected AWSCredentials sanitizeCredentials(AWSCredentials credentials) { String accessKeyId = null; String secretKey = null; String token = null; synchronized (credentials) { accessKeyId = credentials.getAWSAccessKeyId(); secretKey = credentials.getAWSSecretKey(); if ( credentials instanceof AWSSessionCredentials ) { token = ((AWSSessionCredentials) credentials).getSessionToken(); } } if (secretKey != null) secretKey = secretKey.trim(); if (accessKeyId != null) accessKeyId = accessKeyId.trim(); if (token != null) token = token.trim(); if (credentials instanceof AWSSessionCredentials) { return new BasicSessionCredentials(accessKeyId, secretKey, token); } return new BasicAWSCredentials(accessKeyId, secretKey); } /** * Safely converts a UTF-8 encoded byte array into a String. * * @param bytes UTF-8 encoded binary character data. * * @return The converted String object. */ protected String newString(byte[] bytes) { try { return new String(bytes, "UTF-8"); } catch (UnsupportedEncodingException e) { throw new AmazonClientException("Unable to encode bytes to String", e); } } protected Date getSignatureDate(int timeOffset) { Date dateValue = new Date(); if (timeOffset != 0) { long epochMillis = dateValue.getTime(); epochMillis -= timeOffset*1000; dateValue = new Date(epochMillis); } return dateValue; } /** * Adds session credentials to the request given. * * @param request * The request to add session credentials information to * @param credentials * The session credentials to add to the request */ protected abstract void addSessionCredentials(Request request, AWSSessionCredentials credentials); }





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