The ungleich ceph handbook » History » Version 14
Nico Schottelius, 12/06/2018 07:01 PM
1 | 1 | Nico Schottelius | h1. The ungleich ceph handbook |
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3 | 3 | Nico Schottelius | {{toc}} |
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5 | 1 | Nico Schottelius | h2. Status |
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7 | 7 | Nico Schottelius | This document is **IN PRODUCTION**. |
8 | 1 | Nico Schottelius | |
9 | h2. Introduction |
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10 | |||
11 | This article describes the ungleich storage architecture that is based on ceph. It describes our architecture as well maintenance commands. Required for |
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13 | h2. Communication guide |
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14 | |||
15 | Usually when disks fails no customer communication is necessary, as it is automatically compensated/rebalanced by ceph. However in case multiple disk failures happen at the same time, I/O speed might be reduced and thus customer experience impacted. |
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17 | For this reason communicate whenever I/O recovery settings are temporarily tuned. |
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19 | 2 | Nico Schottelius | h2. Adding a new disk/ssd to the ceph cluster |
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21 | h3. For Dell servers |
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22 | |||
23 | First find the disk and then add it to the operating system |
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24 | |||
25 | <pre> |
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26 | megacli -PDList -aALL | grep -B16 -i unconfigur |
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27 | |||
28 | # Sample output: |
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29 | [19:46:50] server7.place6:~# megacli -PDList -aALL | grep -B16 -i unconfigur |
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30 | Enclosure Device ID: N/A |
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31 | Slot Number: 0 |
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32 | Enclosure position: N/A |
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33 | Device Id: 0 |
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34 | WWN: 0000000000000000 |
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35 | Sequence Number: 1 |
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36 | Media Error Count: 0 |
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37 | Other Error Count: 0 |
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38 | Predictive Failure Count: 0 |
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39 | Last Predictive Failure Event Seq Number: 0 |
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40 | PD Type: SATA |
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41 | |||
42 | Raw Size: 894.252 GB [0x6fc81ab0 Sectors] |
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43 | Non Coerced Size: 893.752 GB [0x6fb81ab0 Sectors] |
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44 | Coerced Size: 893.75 GB [0x6fb80000 Sectors] |
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45 | Sector Size: 0 |
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46 | Firmware state: Unconfigured(good), Spun Up |
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47 | </pre> |
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48 | |||
49 | Then add the disk to the OS: |
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50 | |||
51 | <pre> |
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52 | megacli -CfgLdAdd -r0 [enclosure:slot] -aX |
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53 | |||
54 | # Sample call, if enclosure and slot are KNOWN (aka not N/A) |
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55 | megacli -CfgLdAdd -r0 [32:0] -a0 |
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56 | |||
57 | # Sample call, if enclosure is N/A |
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58 | megacli -CfgLdAdd -r0 [:0] -a0 |
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59 | </pre> |
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60 | |||
61 | 1 | Nico Schottelius | h2. Moving a disk/ssd to another server |
62 | 4 | Nico Schottelius | |
63 | (needs to be described better) |
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64 | |||
65 | Generally speaking: |
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66 | |||
67 | 9 | Nico Schottelius | * /opt/ungleich-tools/ceph-osd-stop-disable does the following: |
68 | ** Stop the osd, remove monit on the server you want to take it out |
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69 | ** umount the disk |
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70 | 1 | Nico Schottelius | * Take disk out |
71 | * Discard preserved cache on the server you took it out |
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72 | 9 | Nico Schottelius | ** using megacli |
73 | 1 | Nico Schottelius | * Insert into new server |
74 | 9 | Nico Schottelius | * Clear foreign configuration |
75 | ** using megacli |
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76 | * Disk will now appear in the OS, ceph/udev will automatically start the OSD (!) |
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77 | ** No creating of the osd required! |
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78 | * Verify that the disk exists and that the osd is started |
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79 | ** using *ps aux* |
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80 | ** using *ceph osd tree* |
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81 | 10 | Nico Schottelius | * */opt/ungleich-tools/monit-ceph-create-start osd.XX* # where osd.XX is the osd + number |
82 | 9 | Nico Schottelius | ** Creates the monit configuration file so that monit watches the OSD |
83 | ** Reload monit |
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84 | 11 | Nico Schottelius | * Verify monit using *monit status* |
85 | 1 | Nico Schottelius | |
86 | h2. Removing a disk/ssd |
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87 | 5 | Nico Schottelius | |
88 | To permanently remove a failed disk from a cluster, use ***ceph-osd-stop-remove-permanently*** from ungleich-tools repo. Warning: if the disk is still active, the OSD will be shutdown AND removed from the cluster -> all data of that disk will need to be rebalanced. |
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89 | 1 | Nico Schottelius | |
90 | h2. Handling DOWN osds with filesystem errors |
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91 | |||
92 | If an email arrives with the subject "monit alert -- Does not exist osd.XX-whoami", the filesystem of an OSD cannot be read anymore. It is very highly likely that the disk / ssd is broken. Steps that need to be done: |
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93 | |||
94 | * Login to any ceph monitor (cephX.placeY.ungleich.ch) |
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95 | * Check **ceph -s**, find host using **ceph osd tree** |
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96 | * Login to the affected host |
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97 | * Run the following commands: |
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98 | ** ls /var/lib/ceph/osd/ceph-XX |
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99 | ** dmesg |
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100 | * Create a new ticket in the datacenter light project |
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101 | ** Subject: "Replace broken OSD.XX on serverX.placeY.ungleich.ch" |
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102 | ** Add (partial) output of above commands |
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103 | ** Use /opt/ungleich-tools/ceph-osd-stop-remove-permanently XX, where XX is the osd id, to remove the disk from the cluster |
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104 | ** Remove the physical disk from the host, checkout if there is warranty on it and if yes |
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105 | *** Create a short letter to the vendor, including technical details a from above |
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106 | *** Record when you sent it in |
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107 | *** Put ticket into status waiting |
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108 | ** If there is no warranty, dispose it |
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111 | |||
112 | h2. Change ceph speed for i/o recovery |
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113 | |||
114 | By default we want to keep I/O recovery traffic low to not impact customer experience. However when multiple disks fail at the same point, we might want to prioritise recover for data safety over performance. |
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115 | |||
116 | The default configuration on our servers contains: |
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117 | |||
118 | <pre> |
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119 | [osd] |
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120 | osd max backfills = 1 |
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121 | osd recovery max active = 1 |
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122 | osd recovery op priority = 2 |
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123 | </pre> |
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124 | |||
125 | The important settings are *osd max backfills* and *osd recovery max active*, the priority is always kept low so that regular I/O has priority. |
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126 | |||
127 | To adjust the number of backfills *per osd* and to change the *number of threads* used for recovery, we can use on any node with the admin keyring: |
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128 | |||
129 | <pre> |
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130 | ceph tell osd.* injectargs '--osd-max-backfills Y' |
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131 | ceph tell osd.* injectargs '--osd-recovery-max-active X' |
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132 | </pre> |
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133 | |||
134 | where Y and X are the values that we want to use. Experience shows that Y=5 and X=5 doubles to triples the recovery performance, whereas X=10 and Y=10 increases recovery performance 5 times. |
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135 | |||
136 | h2. Debug scrub errors / inconsistent pg message |
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137 | 6 | Nico Schottelius | |
138 | 1 | Nico Schottelius | From time to time disks don't save what they are told to save. Ceph scrubbing detects these errors and switches to HEALTH_ERR. Use *ceph health detail* to find out which placement groups (*pgs*) are affected. Usually a ***ceph pg repair <number>*** fixes the problem. |
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140 | If this does not help, consult https://ceph.com/geen-categorie/ceph-manually-repair-object/. |
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141 | 12 | Nico Schottelius | |
142 | h2. Move servers into the osd tree |
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143 | |||
144 | New servers have their buckets placed outside the **default root** and thus need to be moved inside. |
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145 | Output might look as follows: |
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146 | |||
147 | <pre> |
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148 | [11:19:27] server5.place6:~# ceph osd tree |
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149 | ID CLASS WEIGHT TYPE NAME STATUS REWEIGHT PRI-AFF |
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150 | -3 0.87270 host server5 |
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151 | 41 ssd 0.87270 osd.41 up 1.00000 1.00000 |
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152 | -1 251.85580 root default |
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153 | -7 81.56271 host server2 |
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154 | 0 hdd-big 9.09511 osd.0 up 1.00000 1.00000 |
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155 | 5 hdd-big 9.09511 osd.5 up 1.00000 1.00000 |
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156 | ... |
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157 | </pre> |
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158 | |||
159 | |||
160 | Use **ceph osd crush move serverX root=default** (where serverX is the new server), |
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161 | which will move the bucket in the right place: |
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163 | <pre> |
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164 | [11:21:17] server5.place6:~# ceph osd crush move server5 root=default |
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165 | moved item id -3 name 'server5' to location {root=default} in crush map |
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166 | [11:32:12] server5.place6:~# ceph osd tree |
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167 | ID CLASS WEIGHT TYPE NAME STATUS REWEIGHT PRI-AFF |
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168 | -1 252.72850 root default |
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169 | ... |
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170 | -3 0.87270 host server5 |
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171 | 41 ssd 0.87270 osd.41 up 1.00000 1.00000 |
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172 | |||
173 | |||
174 | </pre> |
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175 | 13 | Nico Schottelius | |
176 | h2. How to fix existing osds with wrong partition layout |
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177 | |||
178 | In the first version of DCL we used filestore/3 partition based layout. |
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179 | In the second version of DCL, including OSD autodection, we use bluestore/2 partition based layout. |
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180 | |||
181 | To convert, we delete the old OSD, clean the partitions and create a new osd: |
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183 | 14 | Nico Schottelius | h3. Inactive OSD |
184 | 1 | Nico Schottelius | |
185 | 14 | Nico Schottelius | If the OSD is *not active*, we can do the following: |
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187 | 13 | Nico Schottelius | * Find the OSD number: mount the partition and find the whoami file |
188 | |||
189 | <pre> |
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190 | root@server2:/opt/ungleich-tools# mount /dev/sda2 /mnt/ |
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191 | root@server2:/opt/ungleich-tools# cat /mnt/whoami |
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192 | 0 |
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193 | root@server2:/opt/ungleich-tools# umount /mnt/ |
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194 | |||
195 | </pre> |
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196 | |||
197 | * Verify in the *ceph osd tree* that the OSD is on that server |
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198 | * Deleting the OSD |
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199 | ** ceph osd crush remove $osd_name |
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200 | 1 | Nico Schottelius | ** ceph osd rm $osd_name |
201 | 14 | Nico Schottelius | |
202 | Then continue below as described in "Recreating the OSD". |
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203 | |||
204 | h3. Remove Active OSD |
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206 | * Use /opt/ungleich-tools/ceph-osd-stop-remove-permanently OSDID to stop and remove the OSD |
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207 | * Then continue below as described in "Recreating the OSD". |
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209 | |||
210 | h3. Recreating the OSD |
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212 | 13 | Nico Schottelius | * Create an empty partition table |
213 | ** fdisk /dev/sdX |
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214 | ** g |
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215 | ** w |
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216 | * Create a new OSD |
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217 | ** /opt/ungleich-tools/ceph-osd-create-start /dev/sdX CLASS # use hdd, ssd, ... for the CLASS |