Hadoop Distributed File System(HDFS)
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1 Hadoop Distributed File System(HDFS) Bu eğitim sunumları İstanbul Kalkınma Ajansı nın 2016 yılı Yenilikçi ve Yaratıcı İstanbul Mali Destek Programı kapsamında yürütülmekte olan TR10/16/YNY/0036 no lu İstanbul Big Data Eğitim ve Araştırma Merkezi Projesi dahilinde gerçekleştirilmiştir. İçerik ile ilgili tek sorumluluk Bahçeşehir Üniversitesi ne ait olup İSTKA veya Kalkınma Bakanlığı nın görüşlerini yansıtmamaktadır.
2 Motivation Questions Problem 1: Data is too big to store on one machine. HDFS: Store the data on multiple machines!
3 Motivation Questions Problem 2: Very high end machines are too expensive HDFS: Run on commodity hardware!
4 Motivation Questions Problem 3: Commodity hardware will fail! HDFS: Software is intelligent enough to handle hardware failure!
5 Motivation Questions Problem 4: What happens to the data if the machine stores the data fails? HDFS: Replicate the data!
6 Motivation Questions Problem 5: How can distributed machines organize the data in a coordinated way? HDFS: Master-Slave Architecture!
7 How do we get data to the workers? NAS Compute Nodes SAN What s the problem here?
8 Distributed File System Don t move data to workers move workers to the data! Store data on the local disks of nodes in the cluster Start up the workers on the node that has the data local Why? Not enough RAM to hold all the data in memory Disk access is slow, but disk throughput is reasonable A distributed file system is the answer GFS (Google File System) for Google s MapReduce HDFS (Hadoop Distributed File System) for Hadoop
9 Distributed File System Single Namespace for entire cluster Data Coherency Write-once-read-many access model Client can only append to existing files Files are broken up into blocks Each block replicated on multiple DataNodes Intelligent Client Client can find location of blocks Client accesses data directly from DataNode
10 GFS: Assumptions Commodity hardware over exotic hardware Scale out, not up High component failure rates Inexpensive commodity components fail all the time Modest number of huge files Multi-gigabyte files are common, if not encouraged Files are write-once, mostly appended to Perhaps concurrently Large streaming reads over random access High sustained throughput over low latency GFS slides adapted from material by (Ghemawat et al., SOSP 2003)
11 GFS: Design Decisions Files stored as chunks Fixed size (64MB) Reliability through replication Each chunk replicated across 3+ chunkservers Single master to coordinate access, keep metadata Simple centralized management No data caching Little benefit due to large datasets, streaming reads Simplify the API Push some of the issues onto the client (e.g., data layout) HDFS = GFS clone (same basic ideas)
12 From GFS to HDFS Terminology differences: GFS master = Hadoop namenode GFS chunkservers = Hadoop datanodes Functional differences: HDFS performance is (likely) slower For the most part, we ll use the Hadoop terminology
13 HDFS Architecture: Master-Slave Master Name Node (NN) Secondary Name Node (SNN) Data Node (DN) Name Node: Controller File System Name Space Management Block Mappings Data Node: Work Horses Block Operations Replication Secondary Name Node: Checkpoint node Slaves Single Rack Cluster
14 HDFS Cluster Architecture Cluster Membership NameNode Secondary NameNode Client Cluster Membership NameNode : Maps a file to a file-id and list of MapNodes DataNode : Maps a block-id to a physical location on disk SecondaryNameNode: Periodic merge of Transaction log DataNodes
15 Block Placement Current Strategy -- One replica on local node -- Second replica on a remote rack -- Third replica on same remote rack -- Additional replicas are randomly placed Clients read from nearest replica Would like to make this policy pluggable
16 Data Correctness Use Checksums to validate data Use CRC32 File Creation Client computes checksum per 512 byte DataNode stores the checksum File access Client retrieves the data and checksum from DataNode If Validation fails, Client tries other replicas
17 HDFS Architecture: Master-Slave Multiple-Rack Cluster I know all blocks and replicas! Switch Name Node (NN) Switch Secondary Name Node (SNN) Reliable Storage NN will replicate lost blocks in another node Data Node (DN) Data Node (DN) Data Node (DN) Rack 1 Rack 2... Rack N
18 HDFS Architecture: Master-Slave Multiple-Rack Cluster I know the topology of the cluster! Switch Name Node (NN) Switch Secondary Name Node (SNN) Rack Awareness NN will replicate lost blocks across racks Data Node (DN) Data Node (DN) Data Node (DN) Rack 1 Rack 2... Rack N
19 HDFS Architecture: Master-Slave Multiple-Rack Cluster Do not ask me, I am down Switch Switch Single Point of Failure Name Node (NN) Secondary Name Node (SNN) Data Node (DN) Data Node (DN) Data Node (DN) Rack 1 Rack 2... Rack N
20 HDFS Architecture: Master-Slave Multiple-Rack Cluster How about network performance? Switch Name Node (NN) Switch Secondary Name Node (SNN) Keep bulky communication within a rack! Data Node (DN) Data Node (DN) Data Node (DN) Rack 1 Rack 2... Rack N
21 HDFS Inside: Name Node Name Node Snapshot of FS Edit log: record changes to FS Filename Replication factor Block ID File 1 3 [1, 2, 3] File 2 2 [4, 5, 6] File 3 1 [7,8] Data Nodes 1, 2, 5, 7, 4, 3 1, 5, 3, 2, 8, 6 1, 4, 3, 2, 6
22 HDFS Inside: Name Node Name Node FS image Periodically Secondary Name Node FS image Edit log Edit log - House Keeping - Backup NN Meta Data Data Nodes
23 HDFS Inside: Blocks Q: Why do we need the abstraction Blocks in addition to Files? Reasons: File can be larger than a single disk Block is of fixed size, easy to manage and manipulate Easy to replicate and do more fine grained load balancing
24 HDFS Inside: Blocks HDFS Block size is by default 64 MB, why it is much larger than regular file system block? Reasons: Minimize overhead: disk seek time is almost constant Example: seek time: 10 ms, file transfer rate: 100MB/s, overhead (seek time/a block transfer time) is 1%, what is the block size? 100 MB (HDFS-> 128 MB)
25 HDFS Inside: Read 1 Name Node Client DN1 DN2 DN3... DNn 1. Client connects to NN to read data 2. NN tells client where to find the data blocks 3. Client reads blocks directly from data nodes (without going through NN) 4. In case of node failures, client connects to another node that serves the missing block
26 HDFS Inside: Read Q: Why does HDFS choose such a design for read? Why not ask client to read blocks through NN? Reasons: Prevent NN from being the bottleneck of the cluster Allow HDFS to scale to large number of concurrent clients Spread the data traffic across the cluster
27 HDFS Inside: Read Q: Given multiple replicas of the same block, how does NN decide which replica the client should read? HDFS Solution: Rack awareness based on network topology
28 HDFS Inside: Network Topology The critical resource in HDFS is bandwidth, distance is defined based on that Measuring bandwidths between any pair of nodes is too complex and does not scale Basic Idea: Processes on the same node Different nodes on the same rack Nodes on different racks in the same data center (cluster) Nodes in different data centers Bandwidth becomes less
29 HDFS Inside: Network Topology HDFS takes a simple approach: See the network as a tree Distance between two nodes is the sum of their distances to their closest common ancestor Rack 1 Rack 2 Rack 3 Rack 4 n1 n3 n5 n7 n2 n4 n6 n8 Data center 1 Data center 2
30 HDFS Inside: Network Topology What are the distance of the following pairs: Dist (d1/r1/n1, d1/r1/n1)= Dist(d1/r1/n1, d1/r1/n2)= Dist(d1/r1/n1, d1/r2/n3)= Dist(d1/r1/n1, d2/r3/n6)= Rack 1 Rack 2 Rack 3 Rack 4 n1 n3 n5 n7 n2 n4 n6 n8 Data center 1 Data center 2
31 HDFS Inside: Write 1 Name Node Client DN1 DN2 DN3... DNn 1. Client connects to NN to write data 2. NN tells client write these data nodes 3. Client writes blocks directly to data nodes with desired replication factor 4. In case of node failures, NN will figure it out and replicate the missing blocks
32 HDFS Inside: Write Q: Where should HDFS put the three replicas of a block? What tradeoffs we need to consider? Tradeoffs: Reliability Write Bandwidth Read Bandwidth Q: What are some possible strategies?
33 HDFS Inside: Write Replication Strategy vs Tradeoffs Put all replicas on one node Put all replicas on different racks Reliability Write Bandwidth Read Bandwidth
34 HDFS Inside: Write Replication Strategy vs Tradeoffs Put all replicas on one node Put all replicas on different racks HDFS: 1-> same node as client 2-> a node on different rack 3-> a different node on the same rack as 2 Reliability Write Bandwidth Read Bandwidth
35 HDFS Interface Web Based Interface Command Line: hdfs fs Shell
36 HDFS-Web UI
37 HDFS-Web UI
38 Hdfs Shell HDFS Command Line
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