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    Request Signature

    Terakhir diperbarui:2024-03-28 15:36:00
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      Note
      This document is only for the COS XML version.
      It does not apply to POST Object requests over HTTP.

      Overview

      You can use COS with RESTful APIs, which support anonymous and signed HTTP requests. The COS server will authenticate the requester of signed requests.
      Anonymous request: an HTTP request that does not contain any authentication information, and is sent using RESTful API.
      Signed request: an HTTP request that carries a signature. The COS server will authenticate requesters and only execute requests initiated by authenticated ones. If the authentication fails, COS will return an error message and deny the request.
      COS authenticates requesters using a custom solution based on Hash Message Authentication Code (HMAC).

      Implementing Signature in SDK

      Signatures are already implemented in COS SDKs, which means when you initiate requests or obtain signatures using an SDK, you can ignore the signature issue. To implement a signature by yourself or learn about the implementation of signatures in different programming languages, see the programming language−specific signature implementation file from the table below:
      SDK
      Signature Implementation File
      Android SDK
      C SDK
      C++ SDK
      .NET(C#) SDK
      IQCloudSigner.cs (class CosXmlSigner)
      Go SDK
      iOS SDK
      Java SDK
      JavaScript SDK
      util.js (getAuth)
      Node.js SDK
      util.js (getAuth)
      PHP SDK
      Python SDK
      Mini Program SDK
      util.js (getAuth)

      Generating a Signed URL

      Currently, all COS SDKs can generate URLs that carry a signature valid for a period of time. The signature supports PUT and GET requests. Therefore, you can use the generated signed URL to upload/download objects directly without having to generate a signature separately.
      When generating a signed URL for uploads, you can also specify headers such as Content-Type and Content-MD5 to limit the media type/content to upload. For the configurations of request headers related to uploads, please see PUT Object.
      When generating a signed URL for downloads, you can also specify response-xxx so that you can temporarily modify response headers upon download. For the configurations of request parameters related to downloads, please see GET Object.
      Find the pre-signed URL document corresponding to your SDK language from the table below:
      Note
      You are advised to use a temporary key to generate pre-signed URLs for the security of your requests such as uploads and downloads. When you apply for a temporary key, follow the Principle of Least Privilege to avoid leaking resources besides your buckets and objects.
      If you need to use a permanent key to generate a pre-signed URL, you are advised to limit the permission of the permanent key to uploads and downloads only to avoid risks.
      SDK
      Pre-Signed URL Document
      Android SDK
      C SDK
      C++ SDK
      .NET(C#) SDK
      Go SDK
      iOS SDK
      Java SDK
      JavaScript SDK
      Node.js SDK
      PHP SDK
      Pre-Signed URL
      Python SDK
      Mini Program SDK

      Use Cases

      If a COS object needs to be published to the public, you will usually need to set this object to public-read/private-write (everyone can read the object but only the ACL-specified account can write to it). After this, you can use the ACL policy together with the API request signature to authenticate requesters and control the permissions and validity period of operations.
      Note
      The API request signature described in this document is already included in the SDK. Perform the steps below only if you want to redevelop based on the native APIs.
      You can secure your API request as follows for the use case above.
      1. Authenticate requester: verifies the identity of the requester by their unique ID and key.
      2. Prevent data tempering during transfer: signs and verifies data to ensure its integrity during transfer.
      3. Prevent signature from being stolen: sets validity period for the signature to prevent it from being stolen or used repeatedly.

      Preparations

      1. Obtain APPID, SecretId, and SecretKey. They can be obtained on the Manage API Key page in the CAM console.
      2. Determine the programming language. Supported languages include but are not limited to Java, PHP, .NET, C++, Node.js, and Python. You can determine the HMAC-SHA1, SHA1, and UrlEncode functions according to the programming language selected. The HMAC-SHA1 and SHA1 functions take UTF-8 encoded strings as input, and output lowercase hexadecimal strings, and UrlEncode is also based on UTF-8 encoding. Besides, the following printable special characters in the ASCII range should also be encoded:
      Character
      Decimal
      Hex
      Character
      Decimal
      Hex
      (Space)
      32
      20
      ;
      59
      3B
      !
      33
      21
      <
      60
      3C
      "
      34
      22
      =
      61
      3D
      #
      35
      23
      >
      62
      3E
      $
      36
      24
      ?
      63
      3F
      %
      37
      25
      @
      64
      40
      &
      38
      26
      [
      91
      5B
      '
      39
      27
      \\
      92
      5C
      (
      40
      28
      ]
      93
      5D
      )
      41
      29
      ^
      94
      5E
      *
      42
      2A
      `
      96
      60
      +
      43
      2B
      {
      123
      7B
      ,
      44
      2C
      |
      124
      7C
      /
      47
      2F
      }
      125
      7D
      :
      58
      3A
      None
      None
      None

      Generating a Signature

      Step 1. Generate KeyTime

      1. Get the Unix StartTimestamp of the current time. It is the total number of seconds from January 1, 1970, 00:00:00 UTC (January 1, 1970, 08:00:00 Beijing time) till the current time.
      2. Calculate the Unix EndTimestamp for the signature to expire according to StartTimestamp and the expected validity period of the signature.
      3. Generate KeyTime by splicing the two timestamps above in StartTimestamp;EndTimestamp format (e.g., 1557902800;1557910000).

      Step 2. Generate SignKey

      Use HMAC-SHA1 with SecretKey as the key and KeyTime as the message to calculate the message digest (i.e., SignKey), which is a hash value in lowercase hexadecimal format, such as eb2519b498b02ac213cb1f3d1a3d27a3b3c9bc5f.

      Step 3. Generate UrlParamList and HttpParameters

      1. Traverse the HTTP request parameters to generate a key-to-value Map and a KeyList:
      Encode keys using UrlEncode, and convert them to lowercase.
      Encode values using UrlEncode. If a parameter does not take any value, its value is considered to be an empty string. For example, a request path /?acl is considered as /?acl=.
      Note
      The parameters in an HTTP request are what comes after ? in the request path. For example, in the request path /?versions&prefix=example-folder%2F&delimiter=%2F&max-keys=10, the request parameters are versions&prefix=example-folder%2F&delimiter=%2F&max-keys=10.
      2. Sort the KeyList in lexicographical order.
      3. Splice all key-value pairs in the Map according to the order in KeyList in the format of key1=value1&key2=value2&key3=value3, which is the HttpParameters.
      4. Splice all keys in the order of the KeyList· in the format of key1;key2;key3, which is the UrlParamList.

      Examples

      Example 1: Request path: /?prefix=example-folder%2F&delimiter=%2F&max-keys=10 UrlParamList: delimiter;max-keys;prefix HttpParameters: delimiter=%2F&max-keys=10&prefix=example-folder%2F
      Note
      When the request is sent, the request parameters in the request path will also be URL-encoded. Therefore, do not repeat the URL encoding operation.
      Example 2: Request path: /exampleobject?acl UrlParamList: acl HttpParameters: acl=

      Step 4. Generate HeaderList and HttpHeaders

      1. Traverse the HTTP request parameters, and generate the key-to-value mapping Map and the key list KeyList, where keys are [URL-encoded](#.E5.87.86.E5.A4.87.E5.B7.A5 .E4.BD.9C) and converted to lowercase, and values are URL-encoded.
      2. Sort the KeyList in lexicographical order.
      3. Splice all key-value pairs in the Map according to the order in KeyList in the format of key1=value1&key2=value2&key3=value3, which is the HttpHeaders.
      4. Splice all keys according to the order in KeyList in the format of key1;key2;key3, which is the HeaderList.

      Examples

      Request headers:
      Host: examplebucket-1250000000.cos.ap-shanghai.myqcloud.com
      Date: Thu, 16 May 2019 03:15:06 GMT
      x-cos-acl: private
      x-cos-grant-read: uin="100000000011"
      Calculations:
      HeaderList = date;host;x-cos-acl;x-cos-grant-read
      HttpHeaders = date=Thu%2C%2016%20May%202019%2003%3A15%3A06%20GMT&host=examplebucket-1250000000.cos.ap-shanghai.myqcloud.com&x-cos-acl=private&x-cos-grant-read=uin%3D%22100000000011%22

      Step 5. Generate HttpString

      Generate HttpString based on HttpMethod, UriPathname, HttpParameters, and HttpHeaders in the format of HttpMethod\\nUriPathname\\nHttpParameters\\nHttpHeaders\\n.
      Where:
      HttpMethod is converted to lowercase, such as get or put.
      UriPathname is the request path, such as / or /exampleobject.
      \\n is a line break. If there is an empty string, the line breaks before and after it should be retained, for example, get\\n/exampleobject\\n\\n\\n.

      Step 6. Generate StringToSign

      Generate StringToSign based on KeyTime and HttpString in the format of sha1\\nKeyTime\\nSHA1(HttpString)\\n. Where:
      sha1 is a fixed string.
      \\n is a line break.
      SHA1(HttpString) is the message digest (in lowercase hexadecimal format, such as 54ecfe22f59d3514fdc764b87a32d8133ea611e6) calculated with SHA1 and HttpString.

      Step 7. Generate Signature

      Use HMAC-SHA1 with SignKey (a string rather than the original binary) as the key and StringToSign as the message to calculate the message digest, which is Signature, for example, 01681b8c9d798a678e43b685a9f1bba0f6c01234.

      Step 8. Generate an actual signature

      Generate the actual signature based on SecretId, KeyTime, HeaderList, UrlParamList, and Signature in the following format:
      q-sign-algorithm=sha1
      &q-ak=SecretId
      &q-sign-time=KeyTime
      &q-key-time=KeyTime
      &q-header-list=HeaderList
      &q-url-param-list=UrlParamList
      &q-signature=Signature
      Note
      Line breaks in the sample above are for readability only and are not included in the actual signature.

      Using a Signature

      Signed HTTP requests sent to COS via RESTful APIs can pass the signature in the following ways:
      1. Pass through a standard HTTP Authorization header, such as Authorization: q-sign-algorithm=sha1&q-ak=...&q-sign-time=1557989753;1557996953&...&q-signature=...
      2. Pass as an HTTP request parameter (be sure to URL-encode), such as /exampleobject?q-sign-algorithm=sha1&q-ak=...&q-sign-time=1557989753%3B1557996953&...&q-signature=...
      Note
      In the example above, ... are the signatures.

      Using a Temporary Credential (Key)

      If a temporary credential is used for signature calculation, the x-cos-security-token field should be specified when you send the request. The way to specify this field varies depending on how the signature is passed in.
      1. If the signature is passed in using the standard HTTP Authorization header, specify x-cos-security-token as a request header as follows:
      Authorization: q-sign-algorithm=sha1&q-ak=...&q-sign-time=1557989753;1557996953&...&q-signature=...
      x-cos-security-token: ...
      2. If the signature is passed in as an HTTP request parameter, specify x-cos-security-token as a request parameter as follows:
      /exampleobject?q-sign-algorithm=sha1&q-ak=...&q-sign-time=1557989753%3B1557996953&...&q-signature=...&x-cos-security-token=...
      Note
      In the samples above, ... is the signature and access token.

      Sample Code

      Pseudocode

      KeyTime = [Now];[Expires]
      SignKey = HMAC-SHA1([SecretKey], KeyTime)
      HttpString = [HttpMethod]\\n[HttpURI]\\n[HttpParameters]\\n[HttpHeaders]\\n
      StringToSign = sha1\\nKeyTime\\nSHA1(HttpString)\\n
      Signature = HMAC-SHA1(SignKey, StringToSign)

      Sample of the message digest algorithm

      The samples below illustrate how to call HMAC-SHA1 in different languages:

      PHP

      $sha1HttpString = sha1('ExampleHttpString');
      
      $signKey = hash_hmac('sha1', 'ExampleKeyTime', 'YourSecretKey');

      Java

      import org.apache.commons.codec.digest.DigestUtils;
      import org.apache.commons.codec.digest.HmacUtils;
      
      String sha1HttpString = DigestUtils.sha1Hex("ExampleHttpString");
      
      String signKey = HmacUtils.hmacSha1Hex("YourSecretKey", "ExampleKeyTime");

      Python

      import hmac
      import hashlib
      
      sha1_http_string = hashlib.sha1('ExampleHttpString'.encode('utf-8')).hexdigest()
      
      sign_key = hmac.new('YourSecretKey'.encode('utf-8'), 'ExampleKeyTime'.encode('utf-8'), hashlib.sha1).hexdigest()

      Node.js

      var crypto = require('crypto');
      
      var sha1HttpString = crypto.createHash('sha1').update('ExampleHttpString').digest('hex');
      var signKey = crypto.createHmac('sha1', 'YourSecretKey').update('ExampleKeyTime').digest('hex');

      Go

      import (
          "crypto/hmac"
          "crypto/sha1"
      )
      
      h := sha1.New()
      h.Write([]byte("ExampleHttpString"))
      sha1HttpString := h.Sum(nil)
      
      var hashFunc = sha1.New
      h = hmac.New(hashFunc, []byte("YourSecretKey"))
      h.Write([]byte("ExampleKeyTime"))
      signKey := h.Sum(nil)

      Examples

      Preparations

      Log in to the CAM console and go to the Manage API Key page to obtain your APPID, SecretId, and SecretKey. Below is an example:
      APPID
      SecretId
      SecretKey
      1250000000
      AKXXXXXXXXXXXXXXXXXXX
      BQXXXXXXXXXXXXXXXXXXXX

      Uploading an object

      Original request

      PUT /exampleobject(%E8%85%BE%E8%AE%AF%E4%BA%91) HTTP/1.1
      Date: Thu, 16 May 2019 06:45:51 GMT
      Host: examplebucket-1250000000.cos.ap-beijing.myqcloud.com
      Content-Type: text/plain
      Content-Length: 13
      Content-MD5: mQ/fVh815F3k6TAUm8m0eg==
      x-cos-acl: private
      x-cos-grant-read: uin="100000000011"
      
      ObjectContent

      Intermediate variables

      KeyTime = 1557989151;1557996351
      SignKey = eb2519b498b02ac213cb1f3d1a3d27a3b3c9bc5f
      UrlParamList = (empty string)
      HttpParameters = (empty string)
      HeaderList = content-length;content-md5;content-type;date;host;x-cos-acl;x-cos-grant-read
      HttpHeaders = content-length=13&content-md5=mQ%2FfVh815F3k6TAUm8m0eg%3D%3D&content-type=text%2Fplain&date=Thu%2C%2016%20May%202019%2006%3A45%3A51%20GMT&host=examplebucket-1250000000.cos.ap-beijing.myqcloud.com&x-cos-acl=private&x-cos-grant-read=uin%3D%22100000000011%22
      HttpString = put\\n/exampleobject(tencentcloud)\\n\\ncontent-length=13&content-md5=mQ%2FfVh815F3k6TAUm8m0eg%3D%3D&content-type=text%2Fplain&date=Thu%2C%2016%20May%202019%2006%3A45%3A51%20GMT&host=examplebucket-1250000000.cos.ap-beijing.myqcloud.com&x-cos-acl=private&x-cos-grant-read=uin%3D%22100000000011%22\\n
      StringToSign = sha1\\n1557989151;1557996351\\n8b2751e77f43a0995d6e9eb9477f4b685cca4172\\n
      Signature = 3b8851a11a569213c17ba8fa7dcf2abec6931234
      Here, (empty string) is a zero-byte string and \\n is a line break.

      Signed request

      PUT /exampleobject(%E8%85%BE%E8%AE%AF%E4%BA%91) HTTP/1.1
      Date: Thu, 16 May 2019 06:45:51 GMT
      Host: examplebucket-1250000000.cos.ap-beijing.myqcloud.com
      Content-Type: text/plain
      Content-Length: 13
      Content-MD5: mQ/fVh815F3k6TAUm8m0eg==
      x-cos-acl: private
      x-cos-grant-read: uin="100000000011"
      Authorization: q-sign-algorithm=sha1&q-ak=AKIDQjz3ltompVjBni5LitkWHFlFpwkn****&q-sign-time=1557989151;1557996351&q-key-time=1557989151;1557996351&q-header-list=content-length;content-md5;content-type;date;host;x-cos-acl;x-cos-grant-read&q-url-param-list=&q-signature=3b8851a11a569213c17ba8fa7dcf2abec693****
      
      ObjectContent

      Download an object

      Original request

      GET /exampleobject(%E8%85%BE%E8%AE%AF%E4%BA%91)?response-content-type=application%2Foctet-stream&response-cache-control=max-age%3D600 HTTP/1.1
      Date: Thu, 16 May 2019 06:55:53 GMT
      Host: examplebucket-1250000000.cos.ap-beijing.myqcloud.com

      Intermediate variables

      KeyTime = 1557989753;1557996953
      SignKey = 937914bf490e9e8c189836aad2052e4feeb35eaf
      UrlParamList = response-cache-control;response-content-type
      HttpParameters = response-cache-control=max-age%3D600&response-content-type=application%2Foctet-stream
      HeaderList = date;host
      HttpHeaders = date=Thu%2C%2016%20May%202019%2006%3A55%3A53%20GMT&host=examplebucket-1250000000.cos.ap-beijing.myqcloud.com
      HttpString = get\\n/exampleobject(tencentcloud)\\nresponse-cache-control=max-age%3D600&response-content-type=application%2Foctet-stream\\ndate=Thu%2C%2016%20May%202019%2006%3A55%3A53%20GMT&host=examplebucket-1250000000.cos.ap-beijing.myqcloud.com\\n
      StringToSign = sha1\\n1557989753;1557996953\\n54ecfe22f59d3514fdc764b87a32d8133ea611e6\\n
      Signature = 01681b8c9d798a678e43b685a9f1bba0f6c01234
      Here, \\n is a line break.

      Signed request

      GET /exampleobject(%E8%85%BE%E8%AE%AF%E4%BA%91)?response-content-type=application%2Foctet-stream&response-cache-control=max-age%3D600 HTTP/1.1
      Date: Thu, 16 May 2019 06:55:53 GMT
      Host: examplebucket-1250000000.cos.ap-beijing.myqcloud.com
      Authorization: q-sign-algorithm=sha1&q-ak=AKIDQjz3ltompVjBni5LitkWHFlFpwkn****&q-sign-time=1557989753;1557996953&q-key-time=1557989753;1557996953&q-header-list=date;host&q-url-param-list=response-cache-control;response-content-type&q-signature=01681b8c9d798a678e43b685a9f1bba0f6c0****
      
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