![]() ![]() In 1997, Marc Jacobs became the creative director at Louis Vuitton and ushered in a period of artist collaborations and limited edition Louis Vuitton purses that remain highly desirable in the secondary market. The Louis Vuitton Keepall and Louis Vuitton Speedy come in two distinct styles, without a strap or with a strap or Bandoulière. The LV Keepall, LV Noe, and LV Speedy were all introduced during the 1930s and remain among the most popular Louis Vuitton bag styles even today. Vuitton registered trademark" before it's more famous signature Monogram canvas debuted in 1896. Vuitton déposée," which translates into "L. It's first pattern was the Damier check pattern in 1888 which included a logo that read " marque L. Louis Vuitton's growth and popularity is due to it's innovative creative directors and unique partnerships that have balanced the history of it's products while modernizing the designs to appeal to new generations of buyers. hdiskpower2), pp number is needed as well (e.g.Louis Vuitton was founded in 1854 as a maker of travel trunks but today is one the top international fashion brands of luxury handbags and accessories. (Sometimes for migratelp not enough to give diskname only (e.g. Hdiskpower19 p_datlv 2 /root # migratelp p_datlv/9968/2 hdiskpower2/329 This will sort the disks with lvs on it and show which copy (1st or 2nd) is /root # lsvg -M P_NAVISvg | awk -F: ''| sort -u | sort -tr +1 -n Hdiskpower1 P_NAVISvg VMAX_03, you can see the 1st and 2nd copy of an lv resides on which disk.Īfter that you can check if that disk belongs to the correct mirror pool or not. check lv - mirror pool /root # lsvg -m P_NAVISvgĪs you see all of the 1st copy belongs to VMAX_02 and the 2nd copy to VMAX_03Ģ. Sometimes reorgvg can't solve it and you have to manually find where is the problem:ġ. If you remove mirror pool from a disk, but it still exist on LV level (step 2 and 3 are not in correct order), you will get this:Ġ516-1010 chpv: Warning, the physical volume hdiskpower0 has openĠ516-1812 lchangepv: Warning, existing allocation violates mirror pools.Ĭonsider reorganizing the logical volume to bring it into compliance. Lsvg shows mirro pool sctrictness (at the end of the output: MIRROR POOL STRICT: super)Ĭreating/Removing/Renaming a Mirror Pool (adding disk to a Mirror Pool): Mkvg -M s -S creating a vg with super strict settingĬhvg -M s turn on/off super strict setting for a vg (chvg -M n. With this setting each mirror pool must contain at least one copy of each logical volume. Lsvg shows mirro pool sctrictness (at the end of the output: MIRROR POOL STRICT: on)Ī super strict allocation policy can be set so that the partitions allocated for one mirror cannot share a physical volume with the partitions from another mirror. Mkvg -M y -S creating a vg with strict mirror poolĬhvg -M y turn on/off strict miror pool setting for a vg (chvg -M n. (If this is enabled all of the logical volumes in the volume group must use mirror pools.) When strict mirror pools are enabled any logical volume created in the volume group must have mirror pools enabled for each copy of the logical volume. The reorgvg command should be used after mirror pool changes are made to move the allocated partitions to conform to the mirror pool restrictions. Therefore, two separate volume groups could use the same name for their mirror pools.Īny changes to mirror pool characteristics will not affect partitions allocated before the changes were made. Mirro Pool name can be up to 15 characters long and is unique to the volume group it belongs to. When creating a logical volume, each copy of the lv being created can be assigned to a mirror pool. Each physical volume can only belong to one mirror pool at a time. Mirror Pools allow to group physical volumes in a scalable volume group so that a mirror copy of a logical volume can be restricted to only allocate partitions from physical volumes in a specified group.Ī mirror pool is made up of one or more physical volumes. Starting with 6.1 TL2 so-called mirror pools were introduced that make it possible to divide the physical volumes of a scalable volume group into separate pools. ![]()
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