.TH HSPACE 1 2009-06-01 htools "Ganeti H-tools" .SH NAME hspace \- Cluster space analyzer for Ganeti .SH SYNOPSIS .B hspace .B "[-p]" .B "[-v... | -q]" .BI "[-O" name... "]" .BI "[-m " cluster "]" .BI "[-n " nodes-file " ]" .BI "[-i " instances-file "]" .BI "[--memory " mem "]" .BI "[--disk " disk "]" .BI "[--req-nodes " req-nodes "]" .BI "[--max-cpu " cpu-ratio "]" .BI "[--min-disk " disk-ratio "]" .B hspace .B --version .SH DESCRIPTION hspace computes how many additional instances can be fit on a cluster, while maintaining N+1 status. The program will try to place instances, all of the same size, on the cluster, until the point where we don't have any N+1 possible allocation. It uses the exact same allocation algorithm as the hail iallocator plugin. With default options, the output of the program is designed to be parseable; when the -p option is passed, this is no longer true. .SH OPTIONS The options that can be passed to the program are as follows: .TP .BI "--memory " mem The memory size of the instances to be placed (defaults to 4GiB). .TP .BI "--disk " disk The disk size of the instances to be placed (defaults to 100GiB). .TP .BI "--req-nodes " num-nodes The number of nodes for the instances; the default of two means mirrored instances, while passing one means plain type instances. .TP .BI "--max-cpu " cpu-ratio The maximum virtual-to-physical cpu ratio, as a floating point number between zero and one. For example, specifying \fIcpu-ratio\fR as \fB2.5\fR means that, for a 4-cpu machine, a maximum of 10 virtual cpus should be allowed to be in use for primary instances. A value of one doesn't make sense though, as that means no disk space can be used on it. .TP .BI "--min-disk " disk-ratio The minimum amount of free disk space remaining, as a floating point number. For example, specifying \fIdisk-ratio\fR as \fB0.25\fR means that at least one quarter of disk space should be left free on nodes. .TP .B -p, --print-nodes Prints the before and after node status, in a format designed to allow the user to understand the node's most important parameters. The node list will contain these informations: .RS .TP .B F a character denoting the status of the node, with '-' meaning an offline node, '*' meaning N+1 failure and blank meaning a good node .TP .B Name the node name .TP .B t_mem the total node memory .TP .B n_mem the memory used by the node itself .TP .B i_mem the memory used by instances .TP .B x_mem amount memory which seems to be in use but cannot be determined why or by which instance; usually this means that the hypervisor has some overhead or that there are other reporting errors .TP .B f_mem the free node memory .TP .B r_mem the reserved node memory, which is the amount of free memory needed for N+1 compliance .TP .B t_dsk total disk .TP .B f_dsk free disk .TP .B pcpu the number of physical cpus on the node .TP .B vcpu the number of virtual cpus allocated to primary instances .TP .B pri number of primary instances .TP .B sec number of secondary instances .TP .B p_fmem percent of free memory .TP .B p_fdsk percent of free disk .TP .B r_cpu ratio of virtual to physical cpus .RE .TP .BI "-O " name This option (which can be given multiple times) will mark nodes as being \fIoffline\fR, and instances won't be placed on these nodes. Note that hspace will also mark as offline any nodes which are reported by RAPI as such, or that have "?" in file-based input in any numeric fields. .RE .TP .BI "-n" nodefile ", --nodes=" nodefile The name of the file holding node information (if not collecting via RAPI), instead of the default \fInodes\fR file (but see below how to customize the default value via the environment). .TP .BI "-i" instancefile ", --instances=" instancefile The name of the file holding instance information (if not collecting via RAPI), instead of the default \fIinstances\fR file (but see below how to customize the default value via the environment). .TP .BI "-m" cluster Collect data not from files but directly from the .I cluster given as an argument via RAPI. If the argument doesn't contain a colon (:), then it is converted into a fully-built URL via prepending https:// and appending the default RAPI port, otherwise it's considered a fully-specified URL and is used as-is. .TP .B -v, --verbose Increase the output verbosity. Each usage of this option will increase the verbosity (currently more than 2 doesn't make sense) from the default of one. At verbosity 2 the location of the new instances is shown in program output. .TP .B -q, --quiet Decrease the output verbosity. Each usage of this option will decrease the verbosity (less than zero doesn't make sense) from the default of one. .TP .B -V, --version Just show the program version and exit. .SH EXIT STATUS The exist status of the command will be zero, unless for some reason the algorithm fatally failed (e.g. wrong node or instance data). .SH BUGS The algorithm is highly dependent on the number of nodes; its runtime grows exponentially with this number, and as such is impractical for really big clusters. The algorithm doesn't rebalance the cluster or try to get the optimal fit; it just allocates in the best place for the current step, without taking into consideration the impact on future placements. .SH EXAMPLE .SS Default output .in +4n .nf .RB "$" " hspace --mem 16 --disk 16 --req-nodes 2" Initial score: 0.38988095 Initial instances: 3 Initial free RAM: 546 Initial free disk: 260600 Final score: 0.32638889 Final instances: 7 Final free RAM: 482 Final free disk: 260472 Usage: 0.43 Allocations: 4 .fi .in This shows that (on this fake cluster), starting from 3 initial instances, using the hail iallocator plugin, it would be possible to add four (Allocations: 4) new instances to the cluster. .SS Verbose output For the same cluster as above: .in +4n .nf .RB "$" " hspace --mem 16 --disk 16 --req-nodes 2 -v" Initial score: 0.38988095 Initial instances: 3 Initial free RAM: 546 Initial free disk: 260600 Final score: 0.32638889 Final instances: 7 Final free RAM: 482 Final free disk: 260472 Usage: 0.43 Allocations: 4 Inst: new-0 node2 node1 Inst: new-1 node2 node1 Inst: new-2 node2 node1 Inst: new-3 node2 node1 .fi .in The output now includes the placement for the new instances (named \fBnew-\fInumber\fR). .SH ENVIRONMENT If the variables \fBHTOOLS_NODES\fR and \fBHTOOLS_INSTANCES\fR are present in the environment, they will override the default names for the nodes and instances files. These will have of course no effect when RAPI is used. .SH SEE ALSO .BR hbal "(1), " hscan "(1), " ganeti "(7), " gnt-instance "(8), " .BR gnt-node "(8)" .SH "COPYRIGHT" .PP Copyright (C) 2009 Google Inc. Permission is granted to copy, distribute and/or modify under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. .PP On Debian systems, the complete text of the GNU General Public License can be found in /usr/share/common-licenses/GPL.