I can able to fetch attachment by passing userId, nessageID and attachmentID(For reference:
Google Developer
Cocoa Docs
I'm getting response as like below.
{
"data": "JVBERi0xLjYKJeTjz9IKMSAwIG9iagpbL1BERi9JbWFnZUIvSW1hZ2VDL0l...."
"size": 629163
}
I want to decode data to save in my app local and later i will display .
I can successfully downloaded and saved in local(document folder) but not able to see the content in the attachment please make me perfect.
I've just succeeded (minutes ago!) to decode the attachment data retrieved, in Swift (sorry I can't code objective-c) so here are steps :
1) Count the number of characters in "data". Base64 encoded strings has to have a number of characters which is a multiple of 4. If this is not the case, you need to pad the end of the string by as many "=" characters as need to reach the next multiple of 4. (I believe Google has sent data without need of patching but you never know...)
2) As I've discovered in this SO link (iOS - download attachment from Gmail using messageId and attachmentId), Google replaced some characters for the HTTP transfers so you need to replace:
"-" (minus character) by "+" (plus character)
"_" (underscore character) by "/" (slash character)
3) Then convert the "prepared" Base64 string into Data using this Swift Data init method : Data(base64: YourBase64String, options: .ignoreUnknownCharacters)
Then you can save this converted data into a file with the correct extension. I've managed to retrieve jpeg and pdf format attachments.
I hope it works for you.
Related
Ik building an GO application where I want to output a cvs string from a buffer out via the http server.
I'm putting it into the csv buffer:
var buffer bytes.Buffer
resp := csv.NewWriter(&buffer)
resp.Write("Schröder")
The output it via the http server:
resp.Flush()
w.Header().Set("Content-Type", "text/csv; charset=utf-8")
w.Write([]byte(buffer.String()))
When I then open my url a csv file is download en opened by Excel. In that excelsheet the field value is converted to "Schröder".
Any idee, i'm already a week stuk on this item?
The problem is not in Go but in Excel. The information that the data are encoded in UTF-8 is lost when saving the file, since there is no such thing as an encoding attribute on saved files.
Thus Excel will just see the plan data and has no information about the encoding. There are several tricks to make Excel do the right guess, like placing the proper byte order mark (BOM) at start of the file. See Is it possible to force Excel recognize UTF-8 CSV files automatically?. But just specifying charset=utf-8 within the HTTP Content-type header will not help since Excel does not get this information.
We receive a BASE64 encoded representation of a courier label PDF in an xml file, which we store in the IFS of our AS400.
We would like to decode this BASE64 string and save it as a .PDF in the IFS so we can then either email it as an attachment or send it to a printer.
I have looked at the capability of the CPYSPLF command using the *PDF WSCST parameter, but this only seems relevant where we would have a Spooled File representation of the label we want to produce.
Does anyone know if this is possible via native iSeries commands/RPG?
One way is to
IFS_READ_UTF8 to load the XML file
XMLPARSE to make it a XML object
XML_TABLE to extract BASE64 data
BASE64_DECODE to decode B64 data to PDF binary stream
IFS_WRITE_BINARY to write that stream as a .pdf file
You could make it a pure sql prodecure, or a SQLRPGLE program.
You also could extract BASE64 date using RPGLE XML-INTO. The use Scott Klement's BASE64 SRVPGM to decode it, then write it to the IFS
we want Json format from binary content of pdf file using node.js.
Actually we are getting binary content of pdf from 3 party api response , using this response we will save in our database ,so give me working code for convert binary pdf format to json format
in simple words
Please let us know , "any working code so i have just pass binary data got json data" .
The JSON format natively doesn't support binary data.
Use Base64 or base85
I think the best you can do space-wise is base85 which represents four bytes as five characters. However, this is only a 7% improvement over base64, it's more expensive to compute, and implementations are less common than for base64 so it's probably not a win.
I have an api in which I generate an XLSX file with some data, and then transform it to base64 and return it to the client.
I'm having trouble transforming the XLSX to Base64, the function returns the string in base64, but when I check it with tools like base64guru or similar, it is converted to a zip file and the XLSX is completely lost.
I'm using the typical method to convert to base64, I don't have anything strange, it just transforms it into a zip and I don't know why.
Here is the parser code:
const path = `./some_path/${randomName}.xlsx`;
XLSX.writeFile(workbook, path); //<<-- the file is generated and i can open it with excel and works
fine.
const base64String = fs.readFileSync(path).toString('base64'); //this return the base64 zip file :S
Does anyone know why this happens and how can I solve it?
Here i put a base64 generated string:
UEsDBAoAAAAAAPOGalHWknwRWgEAAFoBAAARAAAAZG9jUHJvcHMvY29yZS54bWw8P3htbCB2ZXJzaW9uPSIxLjAiIGVuY29kaW5nPSJVVEYtOCIgc3RhbmRhbG9uZT0ieWVzIj8+DQo8Y3A6Y29yZVByb3BlcnRpZXMgeG1sbnM6Y3A9Imh0dHA6Ly9zY2hlbWFzLm9wZW54bWxmb3JtYXRzLm9yZy9wYWNrYWdlLzIwMDYvbWV0YWRhdGEvY29yZS1wcm9wZXJ0aWVzIiB4bWxuczpkYz0iaHR0cDovL3B1cmwub3JnL2RjL2VsZW1lbnRzLzEuMS8iIHhtbG5zOmRjdGVybXM9Imh0dHA6Ly9wdXJsLm9yZy9kYy90ZXJtcy8iIHhtbG5zOmRjbWl0eXBlPSJodHRwOi8vcHVybC5vcmcvZGMvZGNtaXR5cGUvIiB4bWxuczp4c2k9Imh0dHA6Ly93d3cudzMub3JnLzIwMDEvWE1MU2NoZW1hLWluc3RhbmNlIi8+UEsDBAoAAAAAAPOGalGxLi/VMwIAADMCAAAQAAAAZG9jUHJvcHMvYXBwLnhtbDw/eG1sIHZlcnNpb249IjEuMCIgZW5jb2Rpbmc9IlVURi04IiBzdGFuZGFsb25lPSJ5ZXMiPz4NCjxQcm9wZXJ0aWVzIHhtbG5zPSJodHRwOi8vc2NoZW1hcy5vcGVueG1sZm9ybWF0cy5vcmcvb2ZmaWNlRG9jdW1lbnQvMjAwNi9leHRlbmRlZC1wcm9wZXJ0aWVzIiB4bWxuczp2dD0iaHR0cDovL3NjaGVtYXMub3BlbnhtbGZvcm1hdHMub3JnL29mZmljZURvY3VtZW50LzIwMDYvZG9jUHJvcHNWVHlwZXMiPjxBcHBsaWNhdGlvbj5TaGVldEpTPC9BcHBsaWNhdGlvbj48SGVhZGluZ1BhaXJzPjx2dDp2ZWN0b3Igc2l6ZT0iMiIgYmFzZVR5cGU9InZhcmlhbnQiPjx2dDp2YXJpYW50Pjx2dDpscHN0cj5Xb3Jrc2hlZXRzPC92dDpscHN0cj48L3Z0OnZhcmlhbnQ+PHZ0OnZhcmlhbnQ+PHZ0Omk0PjE8L3Z0Omk0PjwvdnQ6dmFyaWFudD48L3Z0OnZlY3Rvcj48L0hlYWRpbmdQYWlycz48VGl0bGVzT2ZQYXJ0cz48dnQ6dmVjdG9yIHNpemU9IjEiIGJhc2VUeXBlPSJscHN0ciI+PHZ0Omxwc3RyPkVycm9yZXM8L3Z0Omxwc3RyPjwvdnQ6dmVjdG9yPjwvVGl0bGVzT2ZQYXJ0cz48L1Byb3BlcnRpZXM+UEsDBAoAAAAAAPOGalH8EfzNxwQAAMcEAAAYAAAAeGwvd29ya3NoZWV0cy9zaGVldDEueG1sPD94bWwgdmVyc2lvbj0iMS4wIiBlbmNvZGluZz0iVVRGLTgiIHN0YW5kYWxvbmU9InllcyI/Pg0KPHdvcmtzaGVldCB4bWxucz0iaHR0cDovL3NjaGVtYXMub3BlbnhtbGZvcm1hdHMub3JnL3NwcmVhZHNoZWV0bWwvMjAwNi9tYWluIiB4bWxuczpyPSJodHRwOi8vc2NoZW1hcy5vcGVueG1sZm9ybWF0cy5vcmcvb2ZmaWNlRG9jdW1lbnQvMjAwNi9yZWxhdGlvbnNoaXBzIj48ZGltZW5zaW9uIHJlZj0iQTE6RDQiLz48c2hlZXRWaWV3cz48c2hlZXRWaWV3IHdvcmtib29rVmlld0lkPSIwIi8+PC9zaGVldFZpZXdzPjxzaGVldERhdGE+PHJvdyByPSIxIj48YyByPSJBMSIgdD0ic3RyIj48dj5GaWxhPC92PjwvYz48YyByPSJCMSIgdD0ic3RyIj48dj5Db2x1bW5hPC92PjwvYz48YyByPSJDMSIgdD0ic3RyIj48dj5WYWxvcjwvdj48L2M+PGMgcj0iRDEiIHQ9InN0ciI+PHY+RXJyb3I8L3Y+PC9jPjwvcm93Pjxyb3cgcj0iMiI+PGMgcj0iQTIiPjx2PjE8L3Y+PC9jPjxjIHI9IkIyIiB0PSJzdHIiPjx2PlRlcm1pbm8gZGVsIENvbnRyYXRvIGRlIFRyYWJham88L3Y+PC9jPjxjIHI9IkMyIiB0PSJzdHIiPjx2Pjwvdj48L2M+PGMgcj0iRDIiIHQ9InN0ciI+PHY+JnF1b3Q7VGVybWlubyBkZWwgQ29udHJhdG8gZGUgVHJhYmFqbyZxdW90OyBtdXN0IGJlIGluIERELU1NLVlZWVkgZm9ybWF0PC92PjwvYz48L3Jvdz48cm93IHI9IjMiPjxjIHI9IkEzIj48dj4yPC92PjwvYz48YyByPSJCMyIgdD0ic3RyIj48dj5SVVQgZGVsIFRyYWJhamFkb3I8L3Y+PC9jPjxjIHI9IkMzIiB0PSJzdHIiPjx2Pjwvdj48L2M+PGMgcj0iRDMiIHQ9InN0ciI+PHY+JnF1b3Q7UlVUIGRlbCBUcmFiYWphZG9yJnF1b3Q7IGlzIG5vdCBhbGxvd2VkIHRvIGJlIGVtcHR5PC92PjwvYz48L3Jvdz48cm93IHI9IjQiPjxjIHI9IkE0Ij48dj4yPC92PjwvYz48YyByPSJCNCIgdD0ic3RyIj48dj5UZXJtaW5vIGRlbCBDb250cmF0byBkZSBUcmFiYWpvPC92PjwvYz48YyByPSJDNCIgdD0ic3RyIj48dj48L3Y+PC9jPjxjIHI9IkQ0IiB0PSJzdHIiPjx2PiZxdW90O1Rlcm1pbm8gZGVsIENvbnRyYXRvIGRlIFRyYWJham8mcXVvdDsgbXVzdCBiZSBpbiBERC1NTS1ZWVlZIGZvcm1hdDwvdj48L2M+PC9yb3c+PC9zaGVldERhdGE+PGlnbm9yZWRFcnJvcnM+PGlnbm9yZWRFcnJvciBudW1iZXJTdG9yZWRBc1RleHQ9IjEiIHNxcmVmPSJBMTpENCIvPjwvaWdub3JlZEVycm9ycz48L3dvcmtzaGVldD5QSwMECgAAAAAA84ZqUUcUG3FDAQAAQwEAAA8AAAB4bC93b3JrYm9vay54bWw8P3htbCB2ZXJzaW9uPSIxLjAiIGVuY29kaW5nPSJVVEYtOCIgc3RhbmRhbG9uZT0ieWVzIj8+DQo8d29ya2Jvb2sgeG1sbnM9Imh0dHA6Ly9zY2hlbWFzLm9wZW54bWxmb3JtYXRzLm9yZy9zcHJlYWRzaGVldG1sLzIwMDYvbWFpbiIgeG1sbnM6cj0iaHR0cDovL3NjaGVtYXMub3BlbnhtbGZvcm1hdHMub3JnL29mZmljZURvY3VtZW50LzIwMDYvcmVsYXRpb25zaGlwcyI+PHdvcmtib29rUHIgY29kZU5hbWU9IlRoaXNXb3JrYm9vayIvPjxzaGVldHM+PHNoZWV0IG5hbWU9IkVycm9yZXMiIHNoZWV0SWQ9IjEiIHI6aWQ9InJJZDEiLz48L3NoZWV0cz48L3dvcmtib29rPlBLAwQKAAAAAADzhmpRMA+Ia94dAADeHQAAEwAAAHhsL3RoZW1lL3RoZW1lMS54bWw8P3htbCB2ZXJzaW9uPSIxLjAiIGVuY29kaW5nPSJVVEYtOCIgc3RhbmRhbG9uZT0ieWVzIj8+DQo8YTp0aGVtZSB4bWxuczphPSJodHRwOi8vc2NoZW1hcy5vcGVueG1sZm9ybWF0cy5vcmcvZHJhd2luZ21sLzIwMDYvbWFpbiIgbmFtZT0iT2ZmaWNlIFRoZW1lIj48YTp0aGVtZUVsZW1lbnRzPjxhOmNsclNjaGVtZSBuYW1lPSJPZmZpY2UiPjxhOmRrMT48YTpzeXNDbHIgdmFsPSJ3aW5kb3dUZXh0IiBsYXN0Q2xyPSIwMDAwMDAiLz48L2E6ZGsxPjxhOmx0MT48YTpzeXNDbHIgdmFsPSJ3aW5kb3ciIGxhc3RDbHI9IkZGRkZGRiIvPjwvYTpsdDE+PGE6ZGsyPjxhOnNyZ2JDbHIgdmFsPSIxRjQ5N0QiLz48L2E6ZGsyPjxhOmx0Mj48YTpzcmdiQ2xyIHZhbD0iRUVFQ0UxIi8+PC9hOmx0Mj48YTphY2NlbnQxPjxhOnNyZ2JDbHIgdmFsPSI0RjgxQkQiLz48L2E6YWNjZW50MT48YTphY2NlbnQyPjxhOnNyZ2JDbHIgdmFsPSJDMDUwNEQiLz48L2E6YWNjZW50Mj48YTphY2NlbnQzPjxhOnNyZ2JDbHIgdmFsPSI5QkJCNTkiLz48L2E6YWNjZW50Mz48YTphY2NlbnQ0PjxhOnNyZ2JDbHIgdmFsPSI4MDY0QTIiLz48L2E6YWNjZW50ND48YTphY2NlbnQ1PjxhOnNyZ2JDbHIgdmFsPSI0QkFDQzYiLz48L2E6YWNjZW50NT48YTphY2NlbnQ2PjxhOnNyZ2JDbHIgdmFsPSJGNzk2NDYiLz48L2E6YWNjZW50Nj48YTpobGluaz48YTpzcmdiQ2xyIHZhbD0iMDAwMEZGIi8+PC9hOmhsaW5rPjxhOmZvbEhsaW5rPjxhOnNyZ2JDbHIgdmFsPSI4MDAwODAiLz48L2E6Zm9sSGxpbms+PC9hOmNsclNjaGVtZT48YTpmb250U2NoZW1lIG5hbWU9Ik9mZmljZSI+PGE6bWFqb3JGb250PjxhOmxhdGluIHR5cGVmYWNlPSJDYW1icmlhIi8+PGE6ZWEgdHlwZWZhY2U9IiIvPjxhOmNzIHR5cGVmYWNlPSIiLz48YTpmb250IHNjcmlwdD0iSnBhbiIgdHlwZWZhY2U9Iu+8re+8syDvvLDjgrTjgrfjg4Pjgq8iLz48YTpmb250IHNjcmlwdD0iSGFuZyIgdHlwZWZhY2U9IuunkeydgCDqs6DrlJUiLz48YTpmb250IHNjcmlwdD0iSGFucyIgdHlwZWZhY2U9IuWui+S9kyIvPjxhOmZvbnQgc2NyaXB0PSJIYW50IiB0eXBlZmFjZT0i5paw57Sw5piO6auUIi8+PGE6Zm9udCBzY3JpcHQ9IkFyYWIiIHR5cGVmYWNlPSJUaW1lcyBOZXcgUm9tYW4iLz48YTpmb250IHNjcmlwdD0iSGViciIgdHlwZWZhY2U9IlRpbWVzIE5ldyBSb21hbiIvPjxhOmZvbnQgc2NyaXB0PSJUaGFpIiB0eXBlZmFjZT0iVGFob21hIi8+PGE6Zm9udCBzY3JpcHQ9IkV0aGkiIHR5cGVmYWNlPSJOeWFsYSIvPjxhOmZvbnQgc2NyaXB0PSJCZW5nIiB0eXBlZmFjZT0iVnJpbmRhIi8+PGE6Zm9udCBzY3JpcHQ9Ikd1anIiIHR5cGVmYWNlPSJTaHJ1dGkiLz48YTpmb250IHNjcmlwdD0iS2htciIgdHlwZWZhY2U9Ik1vb2xCb3JhbiIvPjxhOmZvbnQgc2NyaXB0PSJLbmRhIiB0eXBlZmFjZT0iVHVuZ2EiLz48YTpmb250IHNjcmlwdD0iR3VydSIgdHlwZWZhY2U9IlJhYXZpIi8+PGE6Zm9udCBzY3JpcHQ9IkNhbnMiIHR5cGVmYWNlPSJFdXBoZW1pYSIvPjxhOmZvbnQgc2NyaXB0PSJDaGVyIiB0eXBlZmFjZT0iUGxhbnRhZ2VuZXQgQ2hlcm9rZWUiLz48YTpmb250IHNjcmlwdD0iWWlpaSIgdHlwZWZhY2U9Ik1pY3Jvc29mdCBZaSBCYWl0aSIvPjxhOmZvbnQgc2NyaXB0PSJUaWJ0IiB0eXBlZmFjZT0iTWljcm9zb2Z0IEhpbWFsYXlhIi8+PGE6Zm9udCBzY3JpcHQ9IlRoYWEiIHR5cGVmYWNlPSJNViBCb2xpIi8+PGE6Zm9udCBzY3JpcHQ9IkRldmEiIHR5cGVmYWNlPSJNYW5nYWwiLz48YTpmb250IHNjcmlwdD0iVGVsdSIgdHlwZWZhY2U9IkdhdXRhbWkiLz48YTpmb250IHNjcmlwdD0iVGFtbCIgdHlwZWZhY2U9IkxhdGhhIi8+PGE6Zm9udCBzY3JpcHQ9IlN5cmMiIHR5cGVmYWNlPSJFc3RyYW5nZWxvIEVkZXNzYSIvPjxhOmZvbnQgc2NyaXB0PSJPcnlhIiB0eXBlZmFjZT0iS2FsaW5nYSIvPjxhOmZvbnQgc2NyaXB0PSJNbHltIiB0eXBlZmFjZT0iS2FydGlrYSIvPjxhOmZvbnQgc2NyaXB0PSJMYW9vIiB0eXBlZmFjZT0iRG9rQ2hhbXBhIi8+PGE6Zm9udCBzY3JpcHQ9IlNpbmgiIHR5cGVmYWNlPSJJc2tvb2xhIFBvdGEiLz48YTpmb250IHNjcmlwdD0iTW9uZyIgdHlwZWZhY2U9Ik1vbmdvbGlhbiBCYWl0aSIvPjxhOmZvbnQgc2NyaXB0PSJWaWV0IiB0eXBlZmFjZT0iVGltZXMgTmV3IFJvbWFuIi8+PGE6Zm9udCBzY3JpcHQ9IlVpZ2giIHR5cGVmYWNlPSJNaWNyb3NvZnQgVWlnaHVyIi8+PGE6Zm9udCBzY3JpcHQ9Ikdlb3IiIHR5cGVmYWNlPSJTeWxmYWVuIi8+PC9hOm1ham9yRm9udD48YTptaW5vckZvbnQ+PGE6bGF0aW4gdHlwZWZhY2U9IkNhbGlicmkiLz48YTplYSB0eXBlZmFjZT0iIi8+PGE6Y3MgdHlwZWZhY2U9IiIvPjxhOmZvbnQgc2NyaXB0PSJKcGFuIiB0eXBlZmFjZT0i77yt77yzIO+8sOOCtOOCt+ODg+OCryIvPjxhOmZvbnQgc2NyaXB0PSJIYW5nIiB0eXBlZmFjZT0i66eR7J2AIOqzoOuUlSIvPjxhOmZvbnQgc2NyaXB0PSJIYW5zIiB0eXBlZmFjZT0i5a6L5L2TIi8+PGE6Zm9udCBzY3JpcHQ9IkhhbnQiIHR5cGVmYWNlPSLmlrDntLDmmI7pq5QiLz48YTpmb250IHNjcmlwdD0iQXJhYiIgdHlwZWZhY2U9IkFyaWFsIi8+PGE6Zm9udCBzY3JpcHQ9IkhlYnIiIHR5cGVmYWNlPSJBcmlhbCIvPjxhOmZvbnQgc2NyaXB0PSJUaGFpIiB0eXBlZmFjZT0iVGFob21hIi8+PGE6Zm9udCBzY3JpcHQ9IkV0aGkiIHR5cGVmYWNlPSJOeWFsYSIvPjxhOmZvbnQgc2NyaXB0PSJCZW5nIiB0eXBlZmFjZT0iVnJpbmRhIi8+PGE6Zm9udCBzY3JpcHQ9Ikd1anIiIHR5cGVmYWNlPSJTaHJ1dGkiLz48YTpmb250IHNjcmlwdD0iS2htciIgdHlwZWZhY2U9IkRhdW5QZW5oIi8+PGE6Zm9udCBzY3JpcHQ9IktuZGEiIHR5cGVmYWNlPSJUdW5nYSIvPjxhOmZvbnQgc2NyaXB0PSJHdXJ1IiB0eXBlZmFjZT0iUmFhdmkiLz48YTpmb250IHNjcmlwdD0iQ2FucyIgdHlwZWZhY2U9IkV1cGhlbWlhIi8+PGE6Zm9udCBzY3JpcHQ9IkNoZXIiIHR5cGVmYWNlPSJQbGFudGFnZW5ldCBDaGVyb2tlZSIvPjxhOmZvbnQgc2NyaXB0PSJZaWlpIiB0eXBlZmFjZT0iTWljcm9zb2Z0IFlpIEJhaXRpIi8+PGE6Zm9udCBzY3JpcHQ9IlRpYnQiIHR5cGVmYWNlPSJNaWNyb3NvZnQgSGltYWxheWEiLz48YTpmb250IHNjcmlwdD0iVGhhYSIgdHlwZWZhY2U9Ik1WIEJvbGkiLz48YTpmb250IHNjcmlwdD0iRGV2YSIgdHlwZWZhY2U9Ik1hbmdhbCIvPjxhOmZvbnQgc2NyaXB0PSJUZWx1IiB0eXBlZmFjZT0iR2F1dGFtaSIvPjxhOmZvbnQgc2NyaXB0PSJUYW1sIiB0eXBlZmFjZT0iTGF0aGEiLz48YTpmb250IHNjcmlwdD0iU3lyYyIgdHlwZWZhY2U9IkVzdHJhbmdlbG8gRWRlc3NhIi8+PGE6Zm9udCBzY3JpcHQ9Ik9yeWEiIHR5cGVmYWNlPSJLYWxpbmdhIi8+PGE6Zm9udCBzY3JpcHQ9Ik1seW0iIHR5cGVmYWNlPSJLYXJ0aWthIi8+PGE6Zm9udCBzY3JpcHQ9Ikxhb28iIHR5cGVmYWNlPSJEb2tDaGFtcGEiLz48YTpmb250IHNjcmlwdD0iU2luaCIgdHlwZWZhY2U9Iklza29vbGEgUG90YSIvPjxhOmZvbnQgc2NyaXB0PSJNb25nIiB0eXBlZmFjZT0iTW9uZ29saWFuIEJhaXRpIi8+PGE6Zm9udCBzY3JpcHQ9IlZpZXQiIHR5cGVmYWNlPSJBcmlhbCIvPjxhOmZvbnQgc2NyaXB0PSJVaWdoIiB0eXBlZmFjZT0iTWljcm9zb2Z0IFVpZ2h1ciIvPjxhOmZvbnQgc2NyaXB0PSJHZW9yIiB0eXBlZmFjZT0iU3lsZmFlbiIvPjwvYTptaW5vckZvbnQ+PC9hOmZvbnRTY2hlbWU+PGE6Zm10U2NoZW1lIG5hbWU9Ik9mZmljZSI+PGE6ZmlsbFN0eWxlTHN0PjxhOnNvbGlkRmlsbD48YTpzY2hlbWVDbHIgdmFsPSJwaENsciIvPjwvYTpzb2xpZEZpbGw+PGE6Z3JhZEZpbGwgcm90V2l0aFNoYXBlPSIxIj48YTpnc0xzdD48YTpncyBwb3M9IjAiPjxhOnNjaGVtZUNsciB2YWw9InBoQ2xyIj48YTp0aW50IHZhbD0iNTAwMDAiLz48YTpzYXRNb2QgdmFsPSIzMDAwMDAiLz48L2E6c2NoZW1lQ2xyPjwvYTpncz48YTpncyBwb3M9IjM1MDAwIj48YTpzY2hlbWVDbHIgdmFsPSJwaENsciI+PGE6dGludCB2YWw9IjM3MDAwIi8+PGE6c2F0TW9kIHZhbD0iMzAwMDAwIi8+PC9hOnNjaGVtZUNscj48L2E6Z3M+PGE6Z3MgcG9zPSIxMDAwMDAiPjxhOnNjaGVtZUNsciB2YWw9InBoQ2xyIj48YTp0aW50IHZhbD0iMTUwMDAiLz48YTpzYXRNb2QgdmFsPSIzNTAwMDAiLz48L2E6c2NoZW1lQ2xyPjwvYTpncz48L2E6Z3NMc3Q+PGE6bGluIGFuZz0iMTYyMDAwMDAiIHNjYWxlZD0iMSIvPjwvYTpncmFkRmlsbD48YTpncmFkRmlsbCByb3RXaXRoU2hhcGU9IjEiPjxhOmdzTHN0PjxhOmdzIHBvcz0iMCI+PGE6c2NoZW1lQ2xyIHZhbD0icGhDbHIiPjxhOnRpbnQgdmFsPSIxMDAwMDAiLz48YTpzaGFkZSB2YWw9IjEwMDAwMCIvPjxhOnNhdE1vZCB2YWw9IjEzMDAwMCIvPjwvYTpzY2hlbWVDbHI+PC9hOmdzPjxhOmdzIHBvcz0iMTAwMDAwIj48YTpzY2hlbWVDbHIgdmFsPSJwaENsciI+PGE6dGludCB2YWw9IjUwMDAwIi8+PGE6c2hhZGUgdmFsPSIxMDAwMDAiLz48YTpzYXRNb2QgdmFsPSIzNTAwMDAiLz48L2E6c2NoZW1lQ2xyPjwvYTpncz48L2E6Z3NMc3Q+PGE6bGluIGFuZz0iMTYyMDAwMDAiIHNjYWxlZD0iMCIvPjwvYTpncmFkRmlsbD48L2E6ZmlsbFN0eWxlTHN0PjxhOmxuU3R5bGVMc3Q+PGE6bG4gdz0iOTUyNSIgY2FwPSJmbGF0IiBjbXBkPSJzbmciIGFsZ249ImN0ciI+PGE6c29saWRGaWxsPjxhOnNjaGVtZUNsciB2YWw9InBoQ2xyIj48YTpzaGFkZSB2YWw9Ijk1MDAwIi8+PGE6c2F0TW9kIHZhbD0iMTA1MDAwIi8+PC9hOnNjaGVtZUNscj48L2E6c29saWRGaWxsPjxhOnByc3REYXNoIHZhbD0ic29saWQiLz48L2E6bG4+PGE6bG4gdz0iMjU0MDAiIGNhcD0iZmxhdCIgY21wZD0ic25nIiBhbGduPSJjdHIiPjxhOnNvbGlkRmlsbD48YTpzY2hlbWVDbHIgdmFsPSJwaENsciIvPjwvYTpzb2xpZEZpbGw+PGE6cHJzdERhc2ggdmFsPSJzb2xpZCIvPjwvYTpsbj48YTpsbiB3PSIzODEwMCIgY2FwPSJmbGF0IiBjbXBkPSJzbmciIGFsZ249ImN0ciI+PGE6c29saWRGaWxsPjxhOnNjaGVtZUNsciB2YWw9InBoQ2xyIi8+PC9hOnNvbGlkRmlsbD48YTpwcnN0RGFzaCB2YWw9InNvbGlkIi8+PC9hOmxuPjwvYTpsblN0eWxlTHN0PjxhOmVmZmVjdFN0eWxlTHN0PjxhOmVmZmVjdFN0eWxlPjxhOmVmZmVjdExzdD48YTpvdXRlclNoZHcgYmx1clJhZD0iNDAwMDAiIGRpc3Q9IjIwMDAwIiBkaXI9IjU0MDAwMDAiIHJvdFdpdGhTaGFwZT0iMCI+PGE6c3JnYkNsciB2YWw9IjAwMDAwMCI+PGE6YWxwaGEgdmFsPSIzODAwMCIvPjwvYTpzcmdiQ2xyPjwvYTpvdXRlclNoZHc+PC9hOmVmZmVjdExzdD48L2E6ZWZmZWN0U3R5bGU+PGE6ZWZmZWN0U3R5bGU+PGE6ZWZmZWN0THN0PjxhOm91dGVyU2hkdyBibHVyUmFkPSI0MDAwMCIgZGlzdD0iMjMwMDAiIGRpcj0iNTQwMDAwMCIgcm90V2l0aFNoYXBlPSIwIj48YTpzcmdiQ2xyIHZhbD0iMDAwMDAwIj48YTphbHBoYSB2YWw9IjM1MDAwIi8+PC9hOnNyZ2JDbHI+PC9hOm91dGVyU2hkdz48L2E6ZWZmZWN0THN0PjwvYTplZmZlY3RTdHlsZT48YTplZmZlY3RTdHlsZT48YTplZmZlY3RMc3Q+PGE6b3V0ZXJTaGR3IGJsdXJSYWQ9IjQwMDAwIiBkaXN0PSIyMzAwMCIgZGlyPSI1NDAwMDAwIiByb3RXaXRoU2hhcGU9IjAiPjxhOnNyZ2JDbHIgdmFsPSIwMDAwMDAiPjxhOmFscGhhIHZhbD0iMzUwMDAiLz48L2E6c3JnYkNscj48L2E6b3V0ZXJTaGR3PjwvYTplZmZlY3RMc3Q+PGE6c2NlbmUzZD48YTpjYW1lcmEgcHJzdD0ib3J0aG9ncmFwaGljRnJvbnQiPjxhOnJvdCBsYXQ9IjAiIGxvbj0iMCIgcmV2PSIwIi8+PC9hOmNhbWVyYT48YTpsaWdodFJpZyByaWc9InRocmVlUHQiIGRpcj0idCI+PGE6cm90IGxhdD0iMCIgbG9uPSIwIiByZXY9IjEyMDAwMDAiLz48L2E6bGlnaHRSaWc+PC9hOnNjZW5lM2Q+PGE6c3AzZD48YTpiZXZlbFQgdz0iNjM1MDAiIGg9IjI1NDAwIi8+PC9hOnNwM2Q+PC9hOmVmZmVjdFN0eWxlPjwvYTplZmZlY3RTdHlsZUxzdD48YTpiZ0ZpbGxTdHlsZUxzdD48YTpzb2xpZEZpbGw+PGE6c2NoZW1lQ2xyIHZhbD0icGhDbHIiLz48L2E6c29saWRGaWxsPjxhOmdyYWRGaWxsIHJvdFdpdGhTaGFwZT0iMSI+PGE6Z3NMc3Q+PGE6Z3MgcG9zPSIwIj48YTpzY2hlbWVDbHIgdmFsPSJwaENsciI+PGE6dGludCB2YWw9IjQwMDAwIi8+PGE6c2F0TW9kIHZhbD0iMzUwMDAwIi8+PC9hOnNjaGVtZUNscj48L2E6Z3M+PGE6Z3MgcG9zPSI0MDAwMCI+PGE6c2NoZW1lQ2xyIHZhbD0icGhDbHIiPjxhOnRpbnQgdmFsPSI0NTAwMCIvPjxhOnNoYWRlIHZhbD0iOTkwMDAiLz48YTpzYXRNb2QgdmFsPSIzNTAwMDAiLz48L2E6c2NoZW1lQ2xyPjwvYTpncz48YTpncyBwb3M9IjEwMDAwMCI+PGE6c2NoZW1lQ2xyIHZhbD0icGhDbHIiPjxhOnNoYWRlIHZhbD0iMjAwMDAiLz48YTpzYXRNb2QgdmFsPSIyNTUwMDAiLz48L2E6c2NoZW1lQ2xyPjwvYTpncz48L2E6Z3NMc3Q+PGE6cGF0aCBwYXRoPSJjaXJjbGUiPjxhOmZpbGxUb1JlY3QgbD0iNTAwMDAiIHQ9Ii04MDAwMCIgcj0iNTAwMDAiIGI9IjE4MDAwMCIvPjwvYTpwYXRoPjwvYTpncmFkRmlsbD48YTpncmFkRmlsbCByb3RXaXRoU2hhcGU9IjEiPjxhOmdzTHN0PjxhOmdzIHBvcz0iMCI+PGE6c2NoZW1lQ2xyIHZhbD0icGhDbHIiPjxhOnRpbnQgdmFsPSI4MDAwMCIvPjxhOnNhdE1vZCB2YWw9IjMwMDAwMCIvPjwvYTpzY2hlbWVDbHI+PC9hOmdzPjxhOmdzIHBvcz0iMTAwMDAwIj48YTpzY2hlbWVDbHIgdmFsPSJwaENsciI+PGE6c2hhZGUgdmFsPSIzMDAwMCIvPjxhOnNhdE1vZCB2YWw9IjIwMDAwMCIvPjwvYTpzY2hlbWVDbHI+PC9hOmdzPjwvYTpnc0xzdD48YTpwYXRoIHBhdGg9ImNpcmNsZSI+PGE6ZmlsbFRvUmVjdCBsPSI1MDAwMCIgdD0iNTAwMDAiIHI9IjUwMDAwIiBiPSI1MDAwMCIvPjwvYTpwYXRoPjwvYTpncmFkRmlsbD48L2E6YmdGaWxsU3R5bGVMc3Q+PC9hOmZtdFNjaGVtZT48L2E6dGhlbWVFbGVtZW50cz48YTpvYmplY3REZWZhdWx0cz48YTpzcERlZj48YTpzcFByLz48YTpib2R5UHIvPjxhOmxzdFN0eWxlLz48YTpzdHlsZT48YTpsblJlZiBpZHg9IjEiPjxhOnNjaGVtZUNsciB2YWw9ImFjY2VudDEiLz48L2E6bG5SZWY+PGE6ZmlsbFJlZiBpZHg9IjMiPjxhOnNjaGVtZUNsciB2YWw9ImFjY2VudDEiLz48L2E6ZmlsbFJlZj48YTplZmZlY3RSZWYgaWR4PSIyIj48YTpzY2hlbWVDbHIgdmFsPSJhY2NlbnQxIi8+PC9hOmVmZmVjdFJlZj48YTpmb250UmVmIGlkeD0ibWlub3IiPjxhOnNjaGVtZUNsciB2YWw9Imx0MSIvPjwvYTpmb250UmVmPjwvYTpzdHlsZT48L2E6c3BEZWY+PGE6bG5EZWY+PGE6c3BQci8+PGE6Ym9keVByLz48YTpsc3RTdHlsZS8+PGE6c3R5bGU+PGE6bG5SZWYgaWR4PSIyIj48YTpzY2hlbWVDbHIgdmFsPSJhY2NlbnQxIi8+PC9hOmxuUmVmPjxhOmZpbGxSZWYgaWR4PSIwIj48YTpzY2hlbWVDbHIgdmFsPSJhY2NlbnQxIi8+PC9hOmZpbGxSZWY+PGE6ZWZmZWN0UmVmIGlkeD0iMSI+PGE6c2NoZW1lQ2xyIHZhbD0iYWNjZW50MSIvPjwvYTplZmZlY3RSZWY+PGE6Zm9udFJlZiBpZHg9Im1pbm9yIj48YTpzY2hlbWVDbHIgdmFsPSJ0eDEiLz48L2E6Zm9udFJlZj48L2E6c3R5bGU+PC9hOmxuRGVmPjwvYTpvYmplY3REZWZhdWx0cz48YTpleHRyYUNsclNjaGVtZUxzdC8+PC9hOnRoZW1lPlBLAwQKAAAAAADzhmpRVfQElFoEAABaBAAADQAAAHhsL3N0eWxlcy54bWw8P3htbCB2ZXJzaW9uPSIxLjAiIGVuY29kaW5nPSJVVEYtOCIgc3RhbmRhbG9uZT0ieWVzIj8+DQo8c3R5bGVTaGVldCB4bWxucz0iaHR0cDovL3NjaGVtYXMub3BlbnhtbGZvcm1hdHMub3JnL3NwcmVhZHNoZWV0bWwvMjAwNi9tYWluIiB4bWxuczp2dD0iaHR0cDovL3NjaGVtYXMub3BlbnhtbGZvcm1hdHMub3JnL29mZmljZURvY3VtZW50LzIwMDYvZG9jUHJvcHNWVHlwZXMiPjxudW1GbXRzIGNvdW50PSIxIj48bnVtRm10IG51bUZtdElkPSI1NiIgZm9ybWF0Q29kZT0iJnF1b3Q75LiK5Y2IL+S4i+WNiCAmcXVvdDtoaCZxdW90O+aZgiZxdW90O21tJnF1b3Q75YiGJnF1b3Q7c3MmcXVvdDvnp5IgJnF1b3Q7Ii8+PC9udW1GbXRzPjxmb250cyBjb3VudD0iMSI+PGZvbnQ+PHN6IHZhbD0iMTIiLz48Y29sb3IgdGhlbWU9IjEiLz48bmFtZSB2YWw9IkNhbGlicmkiLz48ZmFtaWx5IHZhbD0iMiIvPjxzY2hlbWUgdmFsPSJtaW5vciIvPjwvZm9udD48L2ZvbnRzPjxmaWxscyBjb3VudD0iMiI+PGZpbGw+PHBhdHRlcm5GaWxsIHBhdHRlcm5UeXBlPSJub25lIi8+PC9maWxsPjxmaWxsPjxwYXR0ZXJuRmlsbCBwYXR0ZXJuVHlwZT0iZ3JheTEyNSIvPjwvZmlsbD48L2ZpbGxzPjxib3JkZXJzIGNvdW50PSIxIj48Ym9yZGVyPjxsZWZ0Lz48cmlnaHQvPjx0b3AvPjxib3R0b20vPjxkaWFnb25hbC8+PC9ib3JkZXI+PC9ib3JkZXJzPjxjZWxsU3R5bGVYZnMgY291bnQ9IjEiPjx4ZiBudW1GbXRJZD0iMCIgZm9udElkPSIwIiBmaWxsSWQ9IjAiIGJvcmRlcklkPSIwIi8+PC9jZWxsU3R5bGVYZnM+PGNlbGxYZnMgY291bnQ9IjEiPjx4ZiBudW1GbXRJZD0iMCIgZm9udElkPSIwIiBmaWxsSWQ9IjAiIGJvcmRlcklkPSIwIiB4ZklkPSIwIiBhcHBseU51bWJlckZvcm1hdD0iMSIvPjwvY2VsbFhmcz48Y2VsbFN0eWxlcyBjb3VudD0iMSI+PGNlbGxTdHlsZSBuYW1lPSJOb3JtYWwiIHhmSWQ9IjAiIGJ1aWx0aW5JZD0iMCIvPjwvY2VsbFN0eWxlcz48ZHhmcyBjb3VudD0iMCIvPjx0YWJsZVN0eWxlcyBjb3VudD0iMCIgZGVmYXVsdFRhYmxlU3R5bGU9IlRhYmxlU3R5bGVNZWRpdW05IiBkZWZhdWx0UGl2b3RTdHlsZT0iUGl2b3RTdHlsZU1lZGl1bTQiLz48L3N0eWxlU2hlZXQ+UEsDBAoAAAAAAPOGalE265b9kgcAAJIHAAATAAAAW0NvbnRlbnRfVHlwZXNdLnhtbDw/eG1sIHZlcnNpb249IjEuMCIgZW5jb2Rpbmc9IlVURi04IiBzdGFuZGFsb25lPSJ5ZXMiPz4NCjxUeXBlcyB4bWxucz0iaHR0cDovL3NjaGVtYXMub3BlbnhtbGZvcm1hdHMub3JnL3BhY2thZ2UvMjAwNi9jb250ZW50LXR5cGVzIiB4bWxuczp4c2Q9Imh0dHA6Ly93d3cudzMub3JnLzIwMDEvWE1MU2NoZW1hIiB4bWxuczp4c2k9Imh0dHA6Ly93d3cudzMub3JnLzIwMDEvWE1MU2NoZW1hLWluc3RhbmNlIj48RGVmYXVsdCBFeHRlbnNpb249InhtbCIgQ29udGVudFR5cGU9ImFwcGxpY2F0aW9uL3htbCIvPjxEZWZhdWx0IEV4dGVuc2lvbj0iYmluIiBDb250ZW50VHlwZT0iYXBwbGljYXRpb24vdm5kLm1zLWV4Y2VsLnNoZWV0LmJpbmFyeS5tYWNyb0VuYWJsZWQubWFpbiIvPjxEZWZhdWx0IEV4dGVuc2lvbj0idm1sIiBDb250ZW50VHlwZT0iYXBwbGljYXRpb24vdm5kLm9wZW54bWxmb3JtYXRzLW9mZmljZWRvY3VtZW50LnZtbERyYXdpbmciLz48RGVmYXVsdCBFeHRlbnNpb249ImRhdGEiIENvbnRlbnRUeXBlPSJhcHBsaWNhdGlvbi92bmQub3BlbnhtbGZvcm1hdHMtb2ZmaWNlZG9jdW1lbnQubW9kZWwrZGF0YSIvPjxEZWZhdWx0IEV4dGVuc2lvbj0iYm1wIiBDb250ZW50VHlwZT0iaW1hZ2UvYm1wIi8+PERlZmF1bHQgRXh0ZW5zaW9uPSJwbmciIENvbnRlbnRUeXBlPSJpbWFnZS9wbmciLz48RGVmYXVsdCBFeHRlbnNpb249ImdpZiIgQ29udGVudFR5cGU9ImltYWdlL2dpZiIvPjxEZWZhdWx0IEV4dGVuc2lvbj0iZW1mIiBDb250ZW50VHlwZT0iaW1hZ2UveC1lbWYiLz48RGVmYXVsdCBFeHRlbnNpb249IndtZiIgQ29udGVudFR5cGU9ImltYWdlL3gtd21mIi8+PERlZmF1bHQgRXh0ZW5zaW9uPSJqcGciIENvbnRlbnRUeXBlPSJpbWFnZS9qcGVnIi8+PERlZmF1bHQgRXh0ZW5zaW9uPSJqcGVnIiBDb250ZW50VHlwZT0iaW1hZ2UvanBlZyIvPjxEZWZhdWx0IEV4dGVuc2lvbj0idGlmIiBDb250ZW50VHlwZT0iaW1hZ2UvdGlmZiIvPjxEZWZhdWx0IEV4dGVuc2lvbj0idGlmZiIgQ29udGVudFR5cGU9ImltYWdlL3RpZmYiLz48RGVmYXVsdCBFeHRlbnNpb249InBkZiIgQ29udGVudFR5cGU9ImFwcGxpY2F0aW9uL3BkZiIvPjxEZWZhdWx0IEV4dGVuc2lvbj0icmVscyIgQ29udGVudFR5cGU9ImFwcGxpY2F0aW9uL3ZuZC5vcGVueG1sZm9ybWF0cy1wYWNrYWdlLnJlbGF0aW9uc2hpcHMreG1sIi8+PE92ZXJyaWRlIFBhcnROYW1lPSIveGwvd29ya2Jvb2sueG1sIiBDb250ZW50VHlwZT0iYXBwbGljYXRpb24vdm5kLm9wZW54bWxmb3JtYXRzLW9mZmljZWRvY3VtZW50LnNwcmVhZHNoZWV0bWwuc2hlZXQubWFpbit4bWwiLz48T3ZlcnJpZGUgUGFydE5hbWU9Ii94bC93b3Jrc2hlZXRzL3NoZWV0MS54bWwiIENvbnRlbnRUeXBlPSJhcHBsaWNhdGlvbi92bmQub3BlbnhtbGZvcm1hdHMtb2ZmaWNlZG9jdW1lbnQuc3ByZWFkc2hlZXRtbC53b3Jrc2hlZXQreG1sIi8+PE92ZXJyaWRlIFBhcnROYW1lPSIveGwvdGhlbWUvdGhlbWUxLnhtbCIgQ29udGVudFR5cGU9ImFwcGxpY2F0aW9uL3ZuZC5vcGVueG1sZm9ybWF0cy1vZmZpY2Vkb2N1bWVudC50aGVtZSt4bWwiLz48T3ZlcnJpZGUgUGFydE5hbWU9Ii94bC9zdHlsZXMueG1sIiBDb250ZW50VHlwZT0iYXBwbGljYXRpb24vdm5kLm9wZW54bWxmb3JtYXRzLW9mZmljZWRvY3VtZW50LnNwcmVhZHNoZWV0bWwuc3R5bGVzK3htbCIvPjxPdmVycmlkZSBQYXJ0TmFtZT0iL2RvY1Byb3BzL2NvcmUueG1sIiBDb250ZW50VHlwZT0iYXBwbGljYXRpb24vdm5kLm9wZW54bWxmb3JtYXRzLXBhY2thZ2UuY29yZS1wcm9wZXJ0aWVzK3htbCIvPjxPdmVycmlkZSBQYXJ0TmFtZT0iL2RvY1Byb3BzL2FwcC54bWwiIENvbnRlbnRUeXBlPSJhcHBsaWNhdGlvbi92bmQub3BlbnhtbGZvcm1hdHMtb2ZmaWNlZG9jdW1lbnQuZXh0ZW5kZWQtcHJvcGVydGllcyt4bWwiLz48L1R5cGVzPlBLAwQKAAAAAADzhmpRSmoR+UwCAABMAgAACwAAAF9yZWxzLy5yZWxzPD94bWwgdmVyc2lvbj0iMS4wIiBlbmNvZGluZz0iVVRGLTgiIHN0YW5kYWxvbmU9InllcyI/Pg0KPFJlbGF0aW9uc2hpcHMgeG1sbnM9Imh0dHA6Ly9zY2hlbWFzLm9wZW54bWxmb3JtYXRzLm9yZy9wYWNrYWdlLzIwMDYvcmVsYXRpb25zaGlwcyI+PFJlbGF0aW9uc2hpcCBJZD0icklkMiIgVHlwZT0iaHR0cDovL3NjaGVtYXMub3BlbnhtbGZvcm1hdHMub3JnL3BhY2thZ2UvMjAwNi9yZWxhdGlvbnNoaXBzL21ldGFkYXRhL2NvcmUtcHJvcGVydGllcyIgVGFyZ2V0PSJkb2NQcm9wcy9jb3JlLnhtbCIvPjxSZWxhdGlvbnNoaXAgSWQ9InJJZDMiIFR5cGU9Imh0dHA6Ly9zY2hlbWFzLm9wZW54bWxmb3JtYXRzLm9yZy9vZmZpY2VEb2N1bWVudC8yMDA2L3JlbGF0aW9uc2hpcHMvZXh0ZW5kZWQtcHJvcGVydGllcyIgVGFyZ2V0PSJkb2NQcm9wcy9hcHAueG1sIi8+PFJlbGF0aW9uc2hpcCBJZD0icklkMSIgVHlwZT0iaHR0cDovL3NjaGVtYXMub3BlbnhtbGZvcm1hdHMub3JnL29mZmljZURvY3VtZW50LzIwMDYvcmVsYXRpb25zaGlwcy9vZmZpY2VEb2N1bWVudCIgVGFyZ2V0PSJ4bC93b3JrYm9vay54bWwiLz48L1JlbGF0aW9uc2hpcHM+UEsDBAoAAAAAAPOGalHQP2TdLQIAAC0CAAAaAAAAeGwvX3JlbHMvd29ya2Jvb2sueG1sLnJlbHM8P3htbCB2ZXJzaW9uPSIxLjAiIGVuY29kaW5nPSJVVEYtOCIgc3RhbmRhbG9uZT0ieWVzIj8+DQo8UmVsYXRpb25zaGlwcyB4bWxucz0iaHR0cDovL3NjaGVtYXMub3BlbnhtbGZvcm1hdHMub3JnL3BhY2thZ2UvMjAwNi9yZWxhdGlvbnNoaXBzIj48UmVsYXRpb25zaGlwIElkPSJySWQxIiBUeXBlPSJodHRwOi8vc2NoZW1hcy5vcGVueG1sZm9ybWF0cy5vcmcvb2ZmaWNlRG9jdW1lbnQvMjAwNi9yZWxhdGlvbnNoaXBzL3dvcmtzaGVldCIgVGFyZ2V0PSJ3b3Jrc2hlZXRzL3NoZWV0MS54bWwiLz48UmVsYXRpb25zaGlwIElkPSJySWQyIiBUeXBlPSJodHRwOi8vc2NoZW1hcy5vcGVueG1sZm9ybWF0cy5vcmcvb2ZmaWNlRG9jdW1lbnQvMjAwNi9yZWxhdGlvbnNoaXBzL3RoZW1lIiBUYXJnZXQ9InRoZW1lL3RoZW1lMS54bWwiLz48UmVsYXRpb25zaGlwIElkPSJySWQzIiBUeXBlPSJodHRwOi8vc2NoZW1hcy5vcGVueG1sZm9ybWF0cy5vcmcvb2ZmaWNlRG9jdW1lbnQvMjAwNi9yZWxhdGlvbnNoaXBzL3N0eWxlcyIgVGFyZ2V0PSJzdHlsZXMueG1sIi8+PC9SZWxhdGlvbnNoaXBzPlBLAQIUAAoAAAAAAPOGalHWknwRWgEAAFoBAAARAAAAAAAAAAAAAAAAAAAAAABkb2NQcm9wcy9jb3JlLnhtbFBLAQIUAAoAAAAAAPOGalGxLi/VMwIAADMCAAAQAAAAAAAAAAAAAAAAAIkBAABkb2NQcm9wcy9hcHAueG1sUEsBAhQACgAAAAAA84ZqUfwR/M3HBAAAxwQAABgAAAAAAAAAAAAAAAAA6gMAAHhsL3dvcmtzaGVldHMvc2hlZXQxLnhtbFBLAQIUAAoAAAAAAPOGalFHFBtxQwEAAEMBAAAPAAAAAAAAAAAAAAAAAOcIAAB4bC93b3JrYm9vay54bWxQSwECFAAKAAAAAADzhmpRMA+Ia94dAADeHQAAEwAAAAAAAAAAAAAAAABXCgAAeGwvdGhlbWUvdGhlbWUxLnhtbFBLAQIUAAoAAAAAAPOGalFV9ASUWgQAAFoEAAANAAAAAAAAAAAAAAAAAGYoAAB4bC9zdHlsZXMueG1sUEsBAhQACgAAAAAA84ZqUTbrlv2SBwAAkgcAABMAAAAAAAAAAAAAAAAA6ywAAFtDb250ZW50X1R5cGVzXS54bWxQSwECFAAKAAAAAADzhmpRSmoR+UwCAABMAgAACwAAAAAAAAAAAAAAAACuNAAAX3JlbHMvLnJlbHNQSwECFAAKAAAAAADzhmpR0D9k3S0CAAAtAgAAGgAAAAAAAAAAAAAAAAAjNwAAeGwvX3JlbHMvd29ya2Jvb2sueG1sLnJlbHNQSwUGAAAAAAkACQA+AgAAiDkAAAAA
There is nothing wrong here. You can rename the decoded Base64 file to .xlsx and open it with Excel.
XLSX is in fact a zip-file with a certain structure inside.
Office Open XML (also informally known as OOXML or Microsoft Open XML (MOX))[3] is a zipped, XML-based file format developed by Microsoft for representing spreadsheets, charts, presentations and word processing documents
(Source: https://en.wikipedia.org/wiki/Office_Open_XML)
The base64 website did it's best to identify the file format and found the first 4 bytes
50 4b 03 04 ("PK��")
which identifies it as a ZIP file.(originally PKZIP, starting with the initials of the creator)
If you keep the .zip extension, you can open it with any unzip tool or directly in the Windows Explorer to see the internal structure of it.
With a few lines JavaScript you can identify the OpenXML content type of the OpenXML/ZIP file:
var base64input = 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'
var buf = Buffer.from(base64input, 'base64');
console.log(buf)
const header = buf.toString()
if (header.indexOf(" ContentType=\"application/vnd.openxmlformats-officedocument.spreadsheetml.sheet.main+xml\"") > 0)
console.log("Excel XSLX")
else if (header.indexOf(" ContentType=\"application/vnd.openxmlformats-officedocument.wordprocessingml.document.main+xml\"") > 0)
console.log("Word DOCX")
else if (header.indexOf("ContentType=\"application/vnd.openxmlformats-officedocument.presentationml.presentation.main+xml\"") > 0)
console.log("PowerPoint PPTX")
I can't guarantee that it will allways work. With the example from the question it works, but with a DOCX file on my PC it didn't. I'll update this answer as soon as I know more.
I'm coding an API in ASP.NET that receives base64 encoded string to parse them into a DB. My problem is the following : these strings contain both an image and some text following it and I cannot find a way to separate them to then process he text part. Of course I have no possibility of changing the format.. So I was wondering if someone had an idea or a tool to detect the begining and end of the image and the text parts?
Here is a sample :
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I cannot comment, so I post this as an answer:
You could decode the base64 encoded string to binary and try to detect the magic number of the image (assuming it has one). if it is an JPEG image it has a start and end signature. a BMP has the size of the image encoded into the header.