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「Proxmox VE 4.x 中文初階學習手冊」目錄
MarkDown
2-2-4-6 5.x ---> 6.x 升級版本
1. 導讀 Proxmox VE
1-1 前言 --- 企業級產品 買不起 還好有社群資源 支援 企業級的技術
1-2 建議閱讀參考資料
1-3 各家虛擬軟體比較
1-3-1 Proxmox VE 和 VMWare 比較
1-3-2 圖表
1-4 新版
1-4-1 4.2 版新增功能
1-5 攜碼跳槽前的準備(從 VirtualBox,VMWare,ESXi 轉換前的準備)
2. 安裝 Proxmox VE
2-1 開始安裝 Proxmox VE
2-1-1 proxmox 實體機的建議
2-2 開始在 實體機上 安裝 Proxmox VE
2-2-1 下載 proxmox 5.0 版的 .iso 檔
2-2-2 開始安裝 Proxmox VE
2-2-2-1 BIOS 設定
2-2-2-2 安裝方式1:以光碟開機安裝
2-2-2-3 安裝方式2:以隨身碟方式安裝
2-2-2-4 安裝方式3:直接將系統安裝在 USB 隨身碟上以隨身碟當開機碟
2-2-2-5 版權宣告
2-2-2-6 安裝提示訊息-硬碟格式化
2-2-2-7 時區與鍵盤設定
2-2-2-8 管理員密碼與 Email 設定
2-2-2-9 網路設定
2-2-2-10 複製系統與程式檔案
2-2-2-11 安裝完成第1次開機
2-2-3 管理
2-2-3-1 文字介面的管理-1.本機登入
2-2-3-2 文字介面的管理-2.遠端登入
2-2-3-3 Web 主控台方式登入-Firefox
2-2-3-4 Web 主控台方式登入-Chrome
2-2-4 第1次更新套件(debian update)
2-2-4-1 無購買企業支援授權
2-2-4-2 Proxmox 的 enterprise support
2-2-4-3 套件功能的更新(Proxmox update)
2-2-4-4 安裝其它套件
2-2-4-5 4.x ---> 5.x 升級版本
2-2-4-6 5.x ---> 6.x 升級版本
2-2-5 Proxmox VE 的安全性
2-2-5-1 proxmox ve 使用者權限管理功能
2-2-5-2
2-2-5-3 Root 的密碼 安全性
2-2-5-4 建立單一帳號管理單一虛擬機(for webgui)
2-2-5-5 建立一個具全部管理權限的使用者與群組
2-3 參考:安裝硬碟規劃
2-3-1 安裝時選擇 ZFS 格式
2-3-2 硬碟空間分割設定的規劃(系統預設自動分配)-以虛擬機安裝示範
2-3-3 硬碟空間分割設定的規劃(系統預設自動分配)-以實體機安裝示範
2-3-4 安裝Proxmox前安裝硬碟空間分割設定的規劃(手動分配)
2-3-5 刪除內建的LVM thin
2-3-6 4.2版後不使用 lvm 恢復為 ext4 的方式(官網)
2-4 將 Proxmox VE 安裝在 Debian 8
2-4-1 英文
2-4-2 中文(google 翻譯)
3. 開始建立虛擬機
3-0-0-1 建立虛擬機 的認識
3-0-1 LXC(Container)記憶體的使用
3-0-1 KVM - 文字模式 記憶體的使用
3-0-1 LXC(Container)和KVM 記憶體使用的差異
3-0-1 KVM - 圖形介面 記憶體的使用
3-0-1 虛擬硬碟的介面 (使用 .vmdk 映像檔快取定)
3-1 虛擬機開機
3-1 虛擬機遠端桌面
3-1 建立虛擬機
3-1 安裝虛擬機上的作業系統
3-1 KVM 虛擬機的安裝
3-2 LXC Container 虛擬機的安裝
3-2-1 前言暨建立LXC虛擬機
3-2-1-1 下載 樣版系統
3-2-1-2 開始建立 LXC 虛擬機(Linux Container)
3-2-1-3 LXC虛擬機的更新
3-2-1-4 LXC 虛擬機 OS 的實際大小
3-2-1-5 LXC 虛擬機中 ssh 中文輸入顯示功能/指令補完功能
3-2-2 安裝 SFS3
3-2-2-1 ssh 設定連線範圍
3-2-2-2 /bin/firewall 防火牆程式
3-2-2-3 LAMP的安裝
3-2-2-4 apache2 的設定
3-2-2-5 SFS3網頁連線範圍設定
3-2-2-6 sfs3程式的移轉
3-2-2-7 mysql 資料庫的移轉
3-2-2-8 配合縣網openid的設定
3-2-2-9 IP的設定變更/LXC虛擬機
3-2-2-10 IP的設定變更/kvm虛擬機
3-2-2-11 DNS 主機上的設定
3-2-2-12 cron 等排程備份程式
3-2-2-13 時區調整
3-2-3 LXC 容器 LXC Mounts 的方法
3-2-3-1 LXC 容器 LXC Bind Mounts
3-2-3-2 4.2版 Mount Point GUI 介面
3-2-3-3 4.4版 Mount Point GUI 介面
3-2-3-4 autofs 掛載 cifs (samba) / 實體機上掛載
3-2-3-5 NFS & Automount
3-2-3-6 MountPoint 遷移 解決方法
3-2-4 虛擬機調校
3-2-4-1 虛擬機瘦身
3-3 從實體機移轉為虛擬機 實作(非整機轉換)
3-3-1 sfs3 學籍系統
3-3-1-1 備份主機硬體設定
3-3-1-2 備份原始主機資料
3-3-1-3 備份 sfs3 實體主機設定檔、網頁、資料庫 script
3-3-1-4 準備 樣版 LXC
3-3-1-5 sfs3 實體主機設定檔、網頁、資料庫 ---> Proxmox VE
3-3-1-6 在虛擬機 LXC 212 中解壓縮檔案
3-3-1-7 還原 sfs3 網頁
3-3-1-8 還原 apache2 虛擬網站設定
3-3-1-9 修改 sfs3 設定檔
3-3-1-10 還原 mysql 資料庫
3-3-1-11 變更 mysql root 密碼
3-3-1-12 還原 hosts.allow hosts.deny crontab ACFSsfsBK.txt
3-3-1-13 變更 hostname 和 hosts
3-4 刪除虛擬機
3-4-1 存放位置:local
3-4-2 存放位置:local-lvm
3-4-3 ZFS pool
4. VirtualBox、VMWare 移轉至 proxmox
4-0-1 樣版虛擬機製作
4-1 vdi 硬碟映像檔 轉換 至 proxmox 的 qcow2 格式
4-1 虛擬硬碟-格式轉換
4-1 How to convert VirtualBox vdi to KVM qcow2
4-1 Proxmox VE無法開啟vmdk格式虛擬機器的問題
4-2 使用 VirtualBox 的虛擬硬碟轉換後的檔案的移機
4-2-1 Proxmox VE 的設定檔與虛擬機儲存位置
4-2-1-1 proxmox VE 設定檔放置位置
4-2-1-2 Proxmox VE 虛擬機儲存位置
4-2-2 建立 VM 樣版
4-2-2-1 開始建立 VM 樣版
4-2-2-2 新建立的樣版 VM
4-2-2-3 新增加一顆 SATA 介面的虛擬硬碟
4-2-2-4 變更 虛擬硬碟檔案的檔名
4-2-2-5 啟動虛擬機
4-2-2-6 關閉虛擬機
4-2-2-7 esxi 虛擬機轉到ProxmoxVE
4-3 VMWare 轉換 為 Proxmox VE
4-3-1 Proxmox 筆記 vsphere 轉移篇
4-3-2 文章:Esxi移機到Proxmox-檔案格式轉檔、iscsi、nfs串連教學、虛擬機新增及相關備忘事項
4-3-3 KVM 的 vmdk to qcow2 方式
4-3-4 OVA 檔案轉換成 qcow2
4-4 實體機轉換為虛擬機
4-4-1 參考資料
4-4-1-1 ==實體機轉換成虛擬機
4-4-1-2 virt-p2v
4-4-1-3 KVM 的 P2V k 可以根據 redhat 的模式, 也可以做到
5. Storage 儲存容器
5-1 Directory - proxmox實體機安裝第二顆硬碟 掛載為Directory
5-2 Directory
5-3 NFS
5-4 ZFS
6. Live Migration
6-1 備份與移機原文位址: http://viewcamerafan.blogspot.tw/2011/11/proxmox-ve.html
7. 虛擬機的移機 備援 備份 重建 還原
7-1 KVM (qemu)的複製(手工)
7-1-1 3.2 版的操作
7-1-1-1 虛擬機的備份或移機-手動方式
7-1-1-2 設定檔修改與檔名變更
7-1-1-3 兩台 proxmox 主機間的直接手動設定複製
7-1-1-4 利用 scp 指令把虛擬機直接 從另一台 proxmox 主機 copy 回來
7-1-1-5 以 script.sh 手動方式備份 VM 至另一台主機
7-1-1-6 以 script.sh 結合管理遠端主機VM的啟動/關閉
7-1-1-7 以變數代入 script
7-1-2 Proxmox VE 3.3 版的操作
7-1-2-1 虛擬機整機複製
7-1-2-2 手動複製 VM
7-1-3 Proxmox VE 4.0 b1 版的操作
7-2 LXC(Container) 的複製(手工)
7-2-1 LXC(Container) 的複製 實作-複製映像檔
7-2-2 LXC(Container) 的複製 實作-複製並修改設定檔
7-3 Proxmox VE 正規 備份/還原
7-3-1 Backup 備份 虛擬機
7-3-1-1 Backup 1. LXC
7-3-1-2 Backup 2. KVM
7-3-1-3 vzdump 備份時 io 權限調整
7-3-1-4 vzdump 虛擬機備份打包指令
7-3-2 虛擬機差異性備份(不建議使用,請改用zfs差異性備份)
7-3-2-1 Proxmox 上的每日差異備份
7-3-2-2 差異性備份-非官方-不建議使用
7-3-2-3 差異性備份(實作)---非官方-不建議使用
7-3-3 Restore 還原虛擬機 (從備份檔還原) LXC、KVM
7-4 利用 Backup 來複製 虛擬機
7-4-1 複製 LXC 虛擬機
7-4-2 複製 KVM 虛擬機
7-5 利用 ZFS send / receive 來直接跨主機間備份/複製虛擬機
7-5-1 ZFS send / receive 將 zfs 分割區 直接複製
7-5-2 ZFS send / receive 將 zfs 分割區 增量複製
7-5-2-1 實作
7-5-2-2 實作2
7-5-2-3 1 對 N 快照差異性傳送模式
7-5-3-4 實作2-script 配合 crondtab 自動同步
8. DATACenter -叢集管理功能-管理全部主機
8-1-1 將其餘的主機加入集叢( Cluster )
8-1-2 集叢 與 LXC 虛擬機 的相關問題
8-1-3 脫離 Cluster(刪除其中一個 node)
8-1-4 從集叢中刪除其中一台主機(Remove a cluster node)
8-1-5 把原來刪除的 node 再重新加回來
8-1-6 del node
8-1-7 cluster 從三個 node 變成只有兩個 node
8-2 遷移虛擬機器
8-3 遷移虛擬機器與注意事項
8-4 PVE 4.2 Cluster 修改方式
9. ZFS
9-0-1 ZFS 檔案系統基本概念
9-0-2 安裝 ZFS 功能
9-0-3 記憶體參數設定 zfs arc
9-0-4 在巢狀虛擬系統下使用 zfs 時虛擬機裡虛擬硬碟的類型
9-0-5 指定 ZFS 掛載目錄
9-0-6 zfs 維護指令
9-1 PVE 4.4 安裝 OpenAttic 套件/簡單管理 ZFS
9-1-1 Openattic 現在 3.0 版本出來了, 它能管理的檔案儲存系統跟格式更多, 同時界面更加完善簡潔
9-2 將硬碟格式化為 ZFS 格式及ZFS分割區
9-2-1 選擇單顆硬碟或製作磁碟陣列
9-2-1-1 ZFS 建立基本指令
9-2-1-2 單一顆硬碟 ---> ZFS 格式
9-2-1-3 二顆硬碟 ---> ZFS 格式 Raid0
9-2-1-4 二或四顆硬碟 ---> ZFS 格式 Raid1 (Mirror) Raid10 (Mirror Mirror)
9-2-1-5 二顆硬碟 ---> ZFS 格式 RAID Z-1
9-2-2 附註:zfs 陣列變換 一顆硬碟在安裝完 zfs raid 0 後想再增加一顆硬碟做成 zfs mirror (raid 1)
9-2-3 建立 ZFS 的分割區
9-2-3-1 ZFS 的分割區 的建立 與 刪除
9-2-3-2 ZFS 的分割區 的 搬移、更名、刪除
9-2-3-3 建立與摧毀磁碟區-建立具快照的 fat 檔案系統
9-2-3-4 比對快照
9-2-3-5 加入與移除裝置
9-2-3-6 更換運作中的裝置
9-2-3-7 更換運作中的裝置
9-2-3-8 清潔儲存池
9-3 Snapshot 快照功能 (檔案時光機)
9-3-1 Snapshot 快照的建立
9-3-2 Snapshot 刪除快照
9-3-3 Snapshot 回復到過去任意的還原點
9-3-4 Snaoshot cron 定時快照 script
9-3-4-1 配合 crontab 定時將虛擬機製作快照
9-3-4-2 script snapshot 不同期間快照保存份數主程式
9-3-4-3 script 快照刪除程式
9-3-5 Snapshot 備份/使用 replication
9-3-5-1
9-3-6 zfs send recive 的應用實作
9-4 製作以 USB 隨身碟開機的步驟
9-4-1 變更USB隨身碟的讀寫區到硬碟
9-5 硬碟更換
9-5-1 實作1 zfs Raid1 陣列替換固障硬碟
9-6 man zfs
9-6-1 man zfs ( Proxmox VE )
9-6-2 man zfs ( ubuntu 1404 )
9-7 測試報告
9-7-1 ZFS Raidz Performance, Capacity and Integrity
9-7-2 swap on zfs
9-7-3 zfs 測試工具
9-7-4 zfs 2018 新功能
9-8 其它秘技
9-8-1 qcow2或vmdk是以檔案的方式放在ZFS上,disk的cache設定記得要使用write back
10. 10
10-1 routeros 24hr版 抓不到硬碟無法安裝
10-2 虛擬硬碟容量擴充
11. 手動升級
11-1 下載新版的iso檔
11-2 安裝新版的硬碟
11-3 備份原始開機硬碟的設定
11-4 接上新硬碟
11-5 將設定檔寫至新硬碟
12. Proxmox VE 的應用
12-1 KVM 虛擬機 將備份上傳至 google drive 雲端硬碟
12-1-1 安裝套件
12-1-1-1 KVM 虛擬機 安裝套件
12-1-1-2 實體機 安裝套件
12-1-2 實作
12-1-2-1 實體主機上的 NFS 分享
12-1-2-2 虛擬機上的設定
12-1-2-3 實際上機操作上傳
12-1-3 應用
12-2 在 LXC 安裝OpenMediaVault 並附加 HW block device
12-2-1 在 LXC 安裝OpenMediaVault 並附加 HW block device
12-2-2 將 OMV3 安裝在 LXC 裡
12-2-3 在 Proxmox VE 5.1 LXC 中安裝 OpenMediaVault 4
12-2-4 利用 ZFS 和 Proxmox VE 自建 NAS
13. 問題排除
13-1 Proxmox 3.1 客端關機或是重新開機都會lock住
13-2 Error closing file /var/tmp/pve-reserved-ports.tmp.43281 failed - No space left on device (500)
13-3 某一本右側書籍目錄無法顯示
13-4 LXC 無法啟動 ( Cluster 相關 )
13-4-1 重開機後 LXC 無法啟動
13-5 PVE 4.2 嚴重 BUG
13-6 pve4.4 zfs on root 不支援 UEFI 開機模式
13-7 安裝 Qemu Agent - 節省 KVM 使用的記憶體使用量(windows)
13-8 主機重新安裝後 虛擬機存放在 zfs dataset 裡的東西都不見了
14. 概念
14-1 VM 的安全性
15. 其他技術
15-1 主機硬體支援虛擬化
15-1-1 Proxmox VE 中 安裝 Proxmox VE(Proxmox VE Nested Virtualization)
15-2 改機
15-2-1 NAS 改 Proxmox VE 4.1 教學
15-3 PVE GPU passthrough
15-4 掛載硬體
15-4-1 Proxmox Physical disk to kvm (KVM 虛擬機直接使用實體硬碟)
15-5 How To Create A NAS Using ZFS and Proxmox (with pictures)
15-6 網路速率
15-6-1 Linux開啓BBR擁塞控制算法
15-7 樣版
15-7-1 PVE 自訂 LXC 樣版來產生 CT
15-8 pve 优化
16. 外文資料
16-1 FB proxmox
16-1-1 pve 4.4 ZFS
16-2 在 Debian 8 上安裝 Proxmox VE
17. 參考文章
17-1 手動安裝 java jdk
17-2 promox 指令
17-3 proxmox 常用指令
17-4 在Proxmox VE中加入NFS資料儲存伺服器
17-5 Proxmox - USB pass-through
17-6 遠端執行命令、多台機器管理(Push.sh)
17-7 不用密碼直接用 ssh 登入到遠端電腦
17-8 rsync 檔案備份
17-9 透過rsync備份
17-10 ssh 免密碼登入
17-11 ssh 免密碼登入 & 資料
17-12 proxmox 3.4 版無法安裝 nfs-kernel-server
17-13 手動方式升級
17-14 Ubuntu 12.04 LTS 及ubuntu14.10 -- NFS安裝
17-15 pve 在 i386 機器
17-16 Proxmox VE的不足
17-17 Proxmox Virtual Environment 筆記
17-18 KVM to LXC 與 LXC to KVM
17-19 Proxmox VE USB Physical Port Mapping
17-20 Proxmox VE Physical disk to kvm
17-21 ceph要七台主要的考量
17-22 zfs 入門與管理技術
17-23 RAID-1 陣列讀取資料方式
17-24 How to mount Glusterfs volumes inside LXC/LXD (Linux containers)
17-25 變更 Proxmox VE 主機名稱 hostname
17-26 PVE內建的防火牆
17-27 未整理的指令
17-46 Proxmox VE 可以結合 FreeNAS 使用 ZFS over iSCSI,做到兼具 Block Level 效能與 WebUI 管理
18. 新增/修改記錄
19. 友站連結
2-2-5-2
Proxmox VE 4.x 中文初階學習手冊 ======================= https://pve.proxmox.com/wiki/User\_Management Cookies help us deliver our services. By using our services, you agree to our use of cookies. More information User Management Contents Users Authentication Realms Two factor authentication Permission Management Command Line Tool Real World Examples Proxmox VE supports multiple authentication sources, e.g. Linux PAM, an integrated Proxmox VE authentication server, LDAP, Microsoft Active Directory. By using the role based user- and permission management for all objects (VMs, storages, nodes, etc.) granular access can be defined. Users Proxmox VE stores user attributes in /etc/pve/user.cfg. Passwords are not stored here, users are instead associated with authentication realms described below. Therefore a user is internally often identified by its name and realm in the form <userid>@<realm>. Each user entry in this file contains the following information: First name Last name E-mail address Group memberships An optional Expiration date A comment or note about this user Whether this user is enabled or disabled Optional two factor authentication keys System administrator The system’s root user can always log in via the Linux PAM realm and is an unconfined administrator. This user cannot be deleted, but attributes can still be changed and system mails will be sent to the email address assigned to this user. Groups Each user can be member of several groups. Groups are the preferred way to organize access permissions. You should always grant permission to groups instead of using individual users. That way you will get a much shorter access control list which is easier to handle. Authentication Realms As Proxmox VE users are just counterparts for users existing on some external realm, the realms have to be configured in /etc/pve/domains.cfg. The following realms (authentication methods) are available: Linux PAM standard authentication In this case a system user has to exist (e.g. created via the adduser command) on all nodes the user is allowed to login, and the user authenticates with their usual system password. useradd heinz passwd heinz groupadd watchman usermod -a -G watchman heinz Proxmox VE authentication server This is a unix like password store (/etc/pve/priv/shadow.cfg). Password are encrypted using the SHA-256 hash method. This is the most convenient method for small (or even medium) installations where users do not need access to anything outside of Proxmox VE. In this case users are fully managed by Proxmox VE and are able to change their own passwords via the GUI. LDAP It is possible to authenticate users via an LDAP server (e.g. openldap). The server and an optional fallback server can be configured and the connection can be encrypted via SSL. Users are searched under a Base Domain Name (base\_dn), with the user name found in the attribute specified in the User Attribute Name (user\_attr) field. For instance, if a user is represented via the following ldif dataset: # user1 of People at ldap-test.com dn: uid=user1,ou=People,dc=ldap-test,dc=com objectClass: top objectClass: person objectClass: organizationalPerson objectClass: inetOrgPerson uid: user1 cn: Test User 1 sn: Testers description: This is the first test user. The Base Domain Name would be ou=People,dc=ldap-test,dc=com and the user attribute would be uid. If Proxmox VE needs to authenticate (bind) to the ldap server before being able to query and authenticate users, a bind domain name can be configured via the bind\_dn property in /etc/pve/domains.cfg. Its password then has to be stored in /etc/pve/priv/ldap/<realmname>.pw (e.g. /etc/pve/priv/ldap/my-ldap.pw). This file should contain a single line containing the raw password. Microsoft Active Directory A server and authentication domain need to be specified. Like with ldap an optional fallback server, optional port, and SSL encryption can be configured. Two factor authentication Each realm can optionally be secured additionally by two factor authentication. This can be done by selecting one of the available methods via the TFA dropdown box when adding or editing an Authentication Realm. When a realm has TFA enabled it becomes a requirement and only users with configured TFA will be able to login. Currently there are two methods available: Time based OATH (TOTP) This uses the standard HMAC-SHA1 algorithm where the current time is hashed with the user’s configured key. The time step and password length parameters are configured. A user can have multiple keys configured (separated by spaces), and the keys can be specified in Base32 (RFC3548) or hexadecimal notation. Proxmox VE provides a key generation tool (oathkeygen) which prints out a random key in Base32 notation which can be used directly with various OTP tools, such as the oathtool command line tool, the Google authenticator or FreeOTP Android apps. YubiKey OTP For authenticating via a YubiKey a Yubico API ID, API KEY and validation server URL must be configured, and users must have a YubiKey available. In order to get the key ID from a YubiKey, you can trigger the YubiKey once after connecting it to USB and copy the first 12 characters of the typed password into the user’s Key IDs field. Please refer to the YubiKey OTP documentation for how to use the YubiCloud or host your own verification server. Permission Management In order for a user to perform an action (such as listing, modifying or deleting a parts of a VM configuration), the user needs to have the appropriate permissions. Proxmox VE uses a role and path based permission management system. An entry in the permissions table allows a user or group to take on a specific role when accessing an object or path. This means an such an access rule can be represented as a triple of (path, user, role) or (path, group, role), with the role containing a set of allowed actions, and the path representing the target of these actions. Roles A role is simply a list of privileges. Proxmox VE comes with a number of predefined roles which satisfies most needs. Administrator: 擁有所有特權 NoAccess: 沒有特權 (used to forbid access) PVEAdmin: can do most things, but miss rights to modify system settings (Sys.PowerMgmt, Sys.Modify, Realm.Allocate). PVEAuditor: read only access PVEDatastoreAdmin: create and allocate backup space and templates PVEDatastoreUser: allocate backup space and view storage PVEPoolAdmin: allocate pools PVESysAdmin: User ACLs, audit, system console and system logs PVETemplateUser: view and clone templates PVEUserAdmin: user administration PVEVMAdmin: 完全管理 VM PVEVMUser: view, backup, config CDROM, VM console, VM power management You can see the whole set of predefined roles on the GUI. Adding new roles can be done via both GUI and the command line, like this: pveum roleadd PVE\_Power-only -privs "VM.PowerMgmt VM.Console" pveum roleadd Sys\_Power-only -privs "Sys.PowerMgmt Sys.Console" Privileges A privilege is the right to perform a specific action. To simplify management, lists of privileges are grouped into roles, which can then be used in the permission table. Note that privileges cannot directly be assigned to users and paths without being part of a role. We currently use the following privileges: Node / System related privileges Permissions.Modify: modify access permissions Sys.PowerMgmt: Node power management (start, stop, reset, shutdown, …) Sys.Console: console access to Node Sys.Syslog: view Syslog Sys.Audit: view node status/config, Corosync cluster config and HA config Sys.Modify: create/remove/modify node network parameters Group.Allocate: create/remove/modify groups Pool.Allocate: create/remove/modify a pool Realm.Allocate: create/remove/modify authentication realms Realm.AllocateUser: assign user to a realm User.Modify: create/remove/modify user access and details. Virtual machine related privileges VM.Allocate: create/remove new VM to server inventory VM.Migrate: migrate VM to alternate server on cluster VM.PowerMgmt: power management (start, stop, reset, shutdown, …) VM.Console: console access to VM VM.Monitor: access to VM monitor (kvm) VM.Backup: backup/restore VMs VM.Audit: view VM config VM.Clone: clone/copy a VM VM.Config.Disk: add/modify/delete Disks VM.Config.CDROM: eject/change CDROM VM.Config.CPU: modify CPU settings VM.Config.Memory: modify Memory settings VM.Config.Network: add/modify/delete Network devices VM.Config.HWType: modify emulated HW type VM.Config.Options: modify any other VM configuration VM.Snapshot: create/remove VM snapshots Storage related privileges Datastore.Allocate: create/remove/modify a data store, delete volumes Datastore.AllocateSpace: allocate space on a datastore Datastore.AllocateTemplate: allocate/upload templates and iso images Datastore.Audit: view/browse a datastore Objects and Paths Access permissions are assigned to objects, such as a virtual machines, storages or pools of resources. We use file system like paths to address these objects. These paths form a natural tree, and permissions of higher levels (shorter path) can optionally be propagated down within this hierarchy. Paths can be templated. When an API call requires permissions on a templated path, the path may contain references to parameters of the API call. These references are specified in curly braces. Some parameters are implicitly taken from the API call’s URI. For instance the permission path /nodes/{node} when calling /nodes/mynode/status requires permissions on /nodes/mynode, while the path {path} in a PUT request to /access/acl refers to the method’s path parameter. Some examples are: /nodes/{node}: Access to Proxmox VE server machines /vms: Covers all VMs /vms/{vmid}: Access to specific VMs /storage/{storeid}: Access to a storages /pool/{poolname}: Access to VMs part of a pool /access/groups: Group administration /access/realms/{realmid}: Administrative access to realms Inheritance As mentioned earlier, object paths form a file system like tree, and permissions can be inherited down that tree (the propagate flag is set by default). We use the following inheritance rules: Permissions for individual users always replace group permissions. Permissions for groups apply when the user is member of that group. Permissions replace the ones inherited from an upper level. Pools Pools can be used to group a set of virtual machines and data stores. You can then simply set permissions on pools (/pool/{poolid}), which are inherited to all pool members. This is a great way simplify access control. What permission do I need? The required API permissions are documented for each individual method, and can be found at http://pve.proxmox.com/pve-docs/api-viewer/ The permissions are specified as a list which can be interpreted as a tree of logic and access-check functions: \["and", <subtests>...\] and \["or", <subtests>...\] Each(and) or any(or) further element in the current list has to be true. \["perm", <path>, \[ <privileges>... \], <options>...\] The path is a templated parameter (see Objects and Paths). All (or , if the any option is used, any) of the listed privileges must be allowed on the specified path. If a require-param option is specified, then its specified parameter is required even if the API call’s schema otherwise lists it as being optional. \["userid-group", \[ <privileges>... \], <options>...\] The caller must have any of the listed privileges on /access/groups. In addition there are two possible checks depending on whether the groups\_param option is set: groups\_param is set: The API call has a non-optional groups parameter and the caller must have any of the listed privileges on all of the listed groups. groups\_param is not set: The user passed via the userid parameter must exist and be part of a group on which the caller has any of the listed privileges (via the /access/groups/<group> path). \["userid-param", "self"\] The value provided for the API call’s userid parameter must refer to the user performing the action. (Usually in conjunction with or, to allow users to perform an action on themselves even if they don’t have elevated privileges.) \["userid-param", "Realm.AllocateUser"\] The user needs Realm.AllocateUser access to /access/realm/<realm>, with <realm> referring to the realm of the user passed via the userid parameter. Note that the user does not need to exist in order to be associated with a realm, since user IDs are passed in the form of <username>@<realm>. \["perm-modify", <path>\] The path is a templated parameter (see Objects and Paths). The user needs either the Permissions.Modify privilege, or, depending on the path, the following privileges as a possible substitute: /storage/...: additionally requires 'Datastore.Allocate` /vms/...: additionally requires 'VM.Allocate` /pool/...: additionally requires 'Pool.Allocate` If the path is empty, Permission.Modify on /access is required. Command Line Tool Most users will simply use the GUI to manage users. But there is also a full featured command line tool called pveum (short for “Proxmox VE User Manager”). Please note that all Proxmox VE command line tools are wrappers around the API, so you can also access those function through the REST API. Here are some simple usage examples. To show help type: pveum or (to show detailed help about a specific command) pveum help useradd Create a new user: pveum useradd testuser@pve -comment "Just a test" Set or Change the password (not all realms support that): pveum passwd testuser@pve Disable a user: pveum usermod testuser@pve -enable 0 Create a new group: pveum groupadd testgroup Create a new role: pveum roleadd PVE\_Power-only -privs "VM.PowerMgmt VM.Console" Real World Examples Administrator Group One of the most wanted features was the ability to define a group of users with full administrator rights (without using the root account). Define the group: pveum groupadd admin -comment "System Administrators" Then add the permission: pveum aclmod / -group admin -role Administrator You can finally add users to the new admin group: pveum usermod testuser@pve -group admin Auditors You can give read only access to users by assigning the PVEAuditor role to users or groups. Example1: Allow user joe@pve to see everything pveum aclmod / -user joe@pve -role PVEAuditor Example1: Allow user joe@pve to see all virtual machines pveum aclmod /vms -user joe@pve -role PVEAuditor Delegate User Management If you want to delegate user management to user joe@pve you can do that with: pveum aclmod /access -user joe@pve -role PVEUserAdmin User joe@pve can now add and remove users, change passwords and other user attributes. This is a very powerful role, and you most likely want to limit that to selected realms and groups. The following example allows joe@pve to modify users within realm pve if they are members of group customers: pveum aclmod /access/realm/pve -user joe@pve -role PVEUserAdmin pveum aclmod /access/groups/customers -user joe@pve -role PVEUserAdmin Note The user is able to add other users, but only if they are members of group customers and within realm pve. Pools An enterprise is usually structured into several smaller departments, and it is common that you want to assign resources to them and delegate management tasks. A pool is simply a set of virtual machines and data stores. You can create pools on the GUI. After that you can add resources to the pool (VMs, Storage). You can also assign permissions to the pool. Those permissions are inherited to all pool members. Lets assume you have a software development department, so we first create a group pveum groupadd developers -comment "Our software developers" Now we create a new user which is a member of that group pveum useradd developer1@pve -group developers -password Note The -password parameter will prompt you for a password I assume we already created a pool called “dev-pool” on the GUI. So we can now assign permission to that pool: pveum aclmod /pool/dev-pool/ -group developers -role PVEAdmin Our software developers can now administrate the resources assigned to that pool. 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