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7Search Course
8Grokking the System Design Interview
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10System Design Problems
11System Design Interviews: A step by step guide
12Designing a URL Shortening service like TinyURL
13Designing Pastebin
14Designing Instagram
15Designing Dropbox
16Designing Facebook Messenger
17Designing Twitter
18Designing Youtube or Netflix
19Designing Typeahead Suggestion
20Designing an API Rate Limiter
21Designing Twitter Search
22Designing a Web Crawler
23Designing Facebook’s Newsfeed
24Designing Yelp or Nearby Friends
25Designing Uber backend
26Design Ticketmaster (*New*)
27Additional Resources
28Glossary of System Design Basics
29System Design Basics
30Key Characteristics of Distributed Systems
31Load Balancing
32Caching
33Data Partitioning
34Indexes
35Proxies
36Redundancy and Replication
37SQL vs. NoSQL
38CAP Theorem
39Consistent Hashing
40Long-Polling vs WebSockets vs Server-Sent Events
41Appendix
42Contact Us
43Other courses
44Mark Course as Completed
45
46Designing Pastebin
47Let's design a Pastebin like web service, where users can store plain text. Users of the service will enter a piece of text and get a randomly generated URL to access it. 
48
49Similar Services: pastebin.com, pasted.co, chopapp.com 
50Difficulty Level: Easy
51
521. What is Pastebin?
53Pastebin like services enable users to store plain text or images over the network (typically the Internet) and generate unique URLs to access the uploaded data. Such services are also used to share data over the network quickly, as users would just need to pass the URL to let other users see it.
54
55If you haven’t used pastebin.com before, please try creating a new ‘Paste’ there and spend some time going through the different options their service offers. This will help you a lot in understanding this chapter.
56
572. Requirements and Goals of the System
58Our Pastebin service should meet the following requirements:
59
60Functional Requirements:
61
62Users should be able to upload or “paste” their data and get a unique URL to access it.
63Users will only be able to upload text.
64Data and links will expire after a specific timespan automatically; users should also be able to specify expiration time.
65Users should optionally be able to pick a custom alias for their paste.
66Non-Functional Requirements:
67
68The system should be highly reliable, any data uploaded should not be lost.
69The system should be highly available. This is required because if our service is down, users will not be able to access their Pastes.
70Users should be able to access their Pastes in real-time with minimum latency.
71Paste links should not be guessable (not predictable).
72Extended Requirements:
73
74Analytics, e.g., how many times a paste was accessed?
75Our service should also be accessible through REST APIs by other services.
763. Some Design Considerations
77Pastebin shares some requirements with URL Shortening service, but there are some additional design considerations we should keep in mind.
78
79What should be the limit on the amount of text user can paste at a time? We can limit users not to have Pastes bigger than 10MB to stop the abuse of the service.
80
81Should we impose size limits on custom URLs? Since our service supports custom URLs, users can pick any URL that they like, but providing a custom URL is not mandatory. However, it is reasonable (and often desirable) to impose a size limit on custom URLs, so that we have a consistent URL database.
82
834. Capacity Estimation and Constraints
84Our services will be read-heavy; there will be more read requests compared to new Pastes creation. We can assume a 5:1 ratio between read and write.
85
86Traffic estimates: Pastebin services are not expected to have traffic similar to Twitter or Facebook, let’s assume here that we get one million new pastes added to our system every day. This leaves us with five million reads per day.
87
88New Pastes per second:
89
901M / (24 hours * 3600 seconds) ~= 12 pastes/sec
91Paste reads per second:
92
935M / (24 hours * 3600 seconds) ~= 58 reads/sec
94Storage estimates: Users can upload maximum 10MB of data; commonly Pastebin like services are used to share source code, configs or logs. Such texts are not huge, so let’s assume that each paste on average contains 10KB.
95
96At this rate, we will be storing 10GB of data per day.
97
981M * 10KB => 10 GB/day
99If we want to store this data for ten years we would need the total storage capacity of 36TB.
100
101With 1M pastes every day we will have 3.6 billion Pastes in 10 years. We need to generate and store keys to uniquely identify these pastes. If we use base64 encoding ([A-Z, a-z, 0-9, ., -]) we would need six letters strings:
102
10364^6 ~= 68.7 billion unique strings
104If it takes one byte to store one character, total size required to store 3.6B keys would be:
105
1063.6B * 6 => 22 GB
10722GB is negligible compared to 36TB. To keep some margin, we will assume a 70% capacity model (meaning we don’t want to use more than 70% of our total storage capacity at any point), which raises our storage needs to 51.4TB.
108
109Bandwidth estimates: For write requests, we expect 12 new pastes per second, resulting in 120KB of ingress per second.
110
11112 * 10KB => 120 KB/s
112As for the read request, we expect 58 requests per second. Therefore, total data egress (sent to users) will be 0.6 MB/s.
113
11458 * 10KB => 0.6 MB/s
115Although total ingress and egress are not big, we should keep these numbers in mind while designing our service.
116
117Memory estimates: We can cache some of the hot pastes that are frequently accessed. Following the 80-20 rule, meaning 20% of hot pastes generate 80% of traffic, we would like to cache these 20% pastes
118
119Since we have 5M read requests per day, to cache 20% of these requests, we would need:
120
1210.2 * 5M * 10KB ~= 10 GB
1225. System APIs
123We can have SOAP or REST APIs to expose the functionality of our service. Following could be the definitions of the APIs to create/retrieve/delete Pastes:
124
125addPaste(api_dev_key, paste_data, custom_url=None user_name=None, paste_name=None, expire_date=None)
126Parameters:
127api_dev_key (string): The API developer key of a registered account. This will be used to, among other things, throttle users based on their allocated quota.
128paste_data (string): Textual data of the paste.
129custom_url (string): Optional custom URL.
130user_name (string): Optional user name to be used to generate URL.
131paste_name (string): Optional name of the paste
132expire_date (string): Optional expiration date for the paste.
133
134Returns: (string)
135A successful insertion returns the URL through which the paste can be accessed, otherwise, it will return an error code.
136
137Similarly, we can have retrieve and delete Paste APIs:
138
139getPaste(api_dev_key, api_paste_key)
140Where “api_paste_key” is a string representing the Paste Key of the paste to be retrieved. This API will return the textual data of the paste.
141
142deletePaste(api_dev_key, api_paste_key)
143A successful deletion returns ‘true’, otherwise returns ‘false’.
144
1456. Database Design
146A few observations about the nature of the data we are storing:
147
148We need to store billions of records.
149Each metadata object we are storing would be small (less than 1KB).
150Each paste object we are storing can be of medium size (it can be a few MB).
151There are no relationships between records, except if we want to store which user created what Paste.
152Our service is read-heavy.
153Database Schema:
154We would need two tables, one for storing information about the Pastes and the other for users’ data.
155
156widget
157Here, ‘URlHash’ is the URL equivalent of the TinyURL and ‘ContentKey’ is a reference to an external object storing the contents of the paste; we’ll discuss the external storage of the paste contents later in the chapter.
158
1597. High Level Design
160At a high level, we need an application layer that will serve all the read and write requests. Application layer will talk to a storage layer to store and retrieve data. We can segregate our storage layer with one database storing metadata related to each paste, users, etc., while the other storing the paste contents in some object storage (like Amazon S3). This division of data will also allow us to scale them individually.
161
162widget
1638. Component Design
164a. Application layer
165Our application layer will process all incoming and outgoing requests. The application servers will be talking to the backend data store components to serve the requests.
166
167How to handle a write request? Upon receiving a write request, our application server will generate a six-letter random string, which would serve as the key of the paste (if the user has not provided a custom key). The application server will then store the contents of the paste and the generated key in the database. After the successful insertion, the server can return the key to the user. One possible problem here could be that the insertion fails because of a duplicate key. Since we are generating a random key, there is a possibility that the newly generated key could match an existing one. In that case, we should regenerate a new key and try again. We should keep retrying until we don’t see failure due to the duplicate key. We should return an error to the user if the custom key they have provided is already present in our database.
168
169Another solution of the above problem could be to run a standalone Key Generation Service (KGS) that generates random six letters strings beforehand and stores them in a database (let’s call it key-DB). Whenever we want to store a new paste, we will just take one of the already generated keys and use it. This approach will make things quite simple and fast since we will not be worrying about duplications or collisions. KGS will make sure all the keys inserted in key-DB are unique. KGS can use two tables to store keys, one for keys that are not used yet and one for all the used keys. As soon as KGS gives some keys to an application server, it can move these to the used keys table. KGS can always keep some keys in memory so that whenever a server needs them, it can quickly provide them. As soon as KGS loads some keys in memory, it can move them to the used keys table, this way we can make sure each server gets unique keys. If KGS dies before using all the keys loaded in memory, we will be wasting those keys. We can ignore these keys given that we have a huge number of them.
170
171Isn’t KGS a single point of failure? Yes, it is. To solve this, we can have a standby replica of KGS and whenever the primary server dies it can take over to generate and provide keys.
172
173Can each app server cache some keys from key-DB? Yes, this can surely speed things up. Although in this case, if the application server dies before consuming all the keys, we will end up losing those keys. This could be acceptable since we have 68B unique six letters keys, which are a lot more than we require.
174
175How does it handle a paste read request? Upon receiving a read paste request, the application service layer contacts the datastore. The datastore searches for the key, and if it is found, returns the paste’s contents. Otherwise, an error code is returned.
176
177b. Datastore layer
178We can divide our datastore layer into two:
179
180Metadata database: We can use a relational database like MySQL or a Distributed Key-Value store like Dynamo or Cassandra.
181Object storage: We can store our contents in an Object Storage like Amazon’s S3. Whenever we feel like hitting our full capacity on content storage, we can easily increase it by adding more servers.
182widget
183Detailed component design for Pastebin
1849. Purging or DB Cleanup
185Please see Designing a URL Shortening service.
186
18710. Data Partitioning and Replication
188Please see Designing a URL Shortening service.
189
19011. Cache and Load Balancer
191Please see Designing a URL Shortening service.
192
19312. Security and Permissions
194Please see Designing a URL Shortening service.
195
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