Available versions




Template Virt VMware Hypervisor

Macros used

There are no macros links in this template.

There are no template links in this template.

Discovery rules

Name Description Type Key and additional info
Datastore discovery <p>-</p> Simple check vmware.hv.datastore.discovery[{$URL},{HOST.HOST}]<p>Update: 86400</p>

Items collected

Name Description Type Key and additional info
Vendor <p>The hardware vendor identification.</p> Simple check vmware.hv.hw.vendor[{$URL},{HOST.HOST}]<p>Update: 3600</p>
CPU usage <p>Aggregated CPU usage across all cores on the host in Hz. This is only available if the host is connected.</p> Simple check vmware.hv.cpu.usage[{$URL},{HOST.HOST}]<p>Update: 300</p>
Number of bytes transmitted <p>-</p> Simple check vmware.hv.network.out[{$URL},{HOST.HOST},bps]<p>Update: 300</p>
CPU Total Frequency <p>-</p> Calculated vmware.hv.hw.cpu.total[{$URL},{HOST.HOST}]<p>Update: 60</p>
Bios UUID <p>The hardware BIOS identification.</p> Simple check vmware.hv.hw.uuid[{$URL},{HOST.HOST}]<p>Update: 3600</p>
CPU frequency <p>The speed of the CPU cores. This is an average value if there are multiple speeds. The product of CPU frequency and number of cores is approximately equal to the sum of the MHz for all the individual cores on the host.</p> Simple check vmware.hv.hw.cpu.freq[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Number of guest VMs <p>Number of guest virtual machines.</p> Simple check vmware.hv.vm.num[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Overall status <p>The overall alarm status of the host: gray - unknown, ok, red - it has a problem, yellow - it might have a problem.</p> Simple check vmware.hv.status[{$URL},{HOST.HOST}]<p>Update: 300</p>
Ballooned memory <p>The amount of guest physical memory that is currently reclaimed through the balloon driver. Sum of all guest VMs.</p> Simple check vmware.hv.memory.size.ballooned[{$URL},{HOST.HOST}]<p>Update: 300</p>
Model <p>The system model identification.</p> Simple check vmware.hv.hw.model[{$URL},{HOST.HOST}]<p>Update: 3600</p>
CPU Usage Percentage <p>-</p> Calculated vmware.hv.hw.cpu.total.percent[{$URL},{HOST.HOST}]<p>Update: 60</p>
Cluster name <p>Cluster name of the guest VM.</p> Simple check vmware.hv.cluster.name[{$URL},{HOST.HOST}]<p>Update: 3600</p>
CPU model <p>The CPU model.</p> Simple check vmware.hv.hw.cpu.model[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Number of bytes received <p>-</p> Simple check vmware.hv.network.in[{$URL},{HOST.HOST},bps]<p>Update: 300</p>
Datacenter name <p>Datacenter name of the hypervisor.</p> Simple check vmware.hv.datacenter.name[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Used memory percentage <p>-</p> Calculated vmware.hv.hw.memory.total.percent[{$URL},{HOST.HOST}]<p>Update: 60</p>
Health state rollup <p>The host health state rollup sensor value: gray - unknown, ok, red - it has a problem, yellow - it might have a problem.</p> Simple check vmware.hv.sensor.health.state[{$URL},{HOST.HOST}]<p>Update: 300</p>
Total memory <p>The physical memory size.</p> Simple check vmware.hv.hw.memory[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Version <p>Dot-separated version string.</p> Simple check vmware.hv.version[{$URL},{HOST.HOST}]<p>Update: 3600</p>
CPU threads <p>Number of physical CPU threads on the host.</p> Simple check vmware.hv.hw.cpu.threads[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Used memory <p>Physical memory usage on the host.</p> Simple check vmware.hv.memory.used[{$URL},{HOST.HOST}]<p>Update: 300</p>
Full name <p>The complete product name, including the version information.</p> Simple check vmware.hv.fullname[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Available memory <p>-</p> Calculated vmware.hv.memory.available[{$URL},{HOST.HOST}]<p>Update: 60</p>
CPU cores <p>Number of physical CPU cores on the host. Physical CPU cores are the processors contained by a CPU package.</p> Simple check vmware.hv.hw.cpu.num[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Uptime <p>System uptime.</p> Simple check vmware.hv.uptime[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Average read latency of the datastore $3 <p>-</p> Simple check vmware.hv.datastore.read[{$URL},{HOST.HOST},{#DATASTORE},latency]<p>Update: 300</p><p>LLD</p>
Average write latency of the datastore $3 <p>-</p> Simple check vmware.hv.datastore.write[{$URL},{HOST.HOST},{#DATASTORE},latency]<p>Update: 300</p><p>LLD</p>
Free space on datastore $3 <p>-</p> Simple check vmware.hv.datastore.size[{$URL},{HOST.HOST},{#DATASTORE},free]<p>Update: 300</p><p>LLD</p>
Free space on datastore $3 (percentage) <p>-</p> Simple check vmware.hv.datastore.size[{$URL},{HOST.HOST},{#DATASTORE},pfree]<p>Update: 300</p><p>LLD</p>
Total size of datastore $3 <p>-</p> Simple check vmware.hv.datastore.size[{$URL},{HOST.HOST},{#DATASTORE}]<p>Update: 300</p><p>LLD</p>

Triggers

Name Description Expression Priority
{HOST.NAME} - Free space on datastore {#DATASTORE} is {ITEM.LASTVALUE1} - {ITEM.LASTVALUE2} remaining <p>-</p> <p>Expression: {Template Virt VMware Hypervisor:vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree].min(5m)}<=90 and {Template Virt VMware Hypervisor:vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},free].min(5m)}<=0</p><p>Recovery expression: {Template Virt VMware Hypervisor:vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree].min(5m)}>=88</p> average
{HOST.NAME} - Free space on datastore {#DATASTORE} is {ITEM.LASTVALUE1} - {ITEM.LASTVALUE2} remaining <p>-</p> <p>Expression: {Template Virt VMware Hypervisor:vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree].min(5m)}<=95 and {Template Virt VMware Hypervisor:vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},free].min(5m)}<=0</p><p>Recovery expression: </p> high
{HOST.NAME} - Free space on datastore {#DATASTORE} is {ITEM.LASTVALUE1} - {ITEM.LASTVALUE2} remaining (LLD) <p>-</p> <p>Expression: {Template Virt VMware Hypervisor:vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree].min(5m)}<=90 and {Template Virt VMware Hypervisor:vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},free].min(5m)}<=0</p><p>Recovery expression: {Template Virt VMware Hypervisor:vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree].min(5m)}>=88</p> average
{HOST.NAME} - Free space on datastore {#DATASTORE} is {ITEM.LASTVALUE1} - {ITEM.LASTVALUE2} remaining (LLD) <p>-</p> <p>Expression: {Template Virt VMware Hypervisor:vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree].min(5m)}<=95 and {Template Virt VMware Hypervisor:vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},free].min(5m)}<=0</p><p>Recovery expression: </p> high

Template Virt VMware Hypervisor

Macros used

There are no macros links in this template.

There are no template links in this template.

Discovery rules

Name Description Type Key and additional info
Datastore discovery <p>-</p> Simple check vmware.hv.datastore.discovery[{$URL},{HOST.HOST}]<p>Update: 86400</p>

Items collected

Name Description Type Key and additional info
Overall status <p>The overall alarm status of the host: gray - unknown, ok, red - it has a problem, yellow - it might have a problem.</p> Simple check vmware.hv.status[{$URL},{HOST.HOST}]<p>Update: 300</p>
Vendor <p>The hardware vendor identification.</p> Simple check vmware.hv.hw.vendor[{$URL},{HOST.HOST}]<p>Update: 3600</p>
CPU model <p>The CPU model.</p> Simple check vmware.hv.hw.cpu.model[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Version <p>Dot-separated version string.</p> Simple check vmware.hv.version[{$URL},{HOST.HOST}]<p>Update: 3600</p>
CPU usage <p>Aggregated CPU usage across all cores on the host in Hz. This is only available if the host is connected.</p> Simple check vmware.hv.cpu.usage[{$URL},{HOST.HOST}]<p>Update: 300</p>
Full name <p>The complete product name, including the version information.</p> Simple check vmware.hv.fullname[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Number of guest VMs <p>Number of guest virtual machines.</p> Simple check vmware.hv.vm.num[{$URL},{HOST.HOST}]<p>Update: 3600</p>
CPU Usage Percentage <p>-</p> Calculated vmware.hv.hw.cpu.total.percent[{$URL},{HOST.HOST}]<p>Update: 60</p>
CPU cores <p>Number of physical CPU cores on the host. Physical CPU cores are the processors contained by a CPU package.</p> Simple check vmware.hv.hw.cpu.num[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Used memory <p>Physical memory usage on the host.</p> Simple check vmware.hv.memory.used[{$URL},{HOST.HOST}]<p>Update: 300</p>
Model <p>The system model identification.</p> Simple check vmware.hv.hw.model[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Number of bytes transmitted <p>-</p> Simple check vmware.hv.network.out[{$URL},{HOST.HOST},bps]<p>Update: 300</p>
Bios UUID <p>The hardware BIOS identification.</p> Simple check vmware.hv.hw.uuid[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Number of bytes received <p>-</p> Simple check vmware.hv.network.in[{$URL},{HOST.HOST},bps]<p>Update: 300</p>
Health state rollup <p>The host health state rollup sensor value: gray - unknown, ok, red - it has a problem, yellow - it might have a problem.</p> Simple check vmware.hv.sensor.health.state[{$URL},{HOST.HOST}]<p>Update: 300</p>
Total memory <p>The physical memory size.</p> Simple check vmware.hv.hw.memory[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Uptime <p>System uptime.</p> Simple check vmware.hv.uptime[{$URL},{HOST.HOST}]<p>Update: 3600</p>
CPU frequency <p>The speed of the CPU cores. This is an average value if there are multiple speeds. The product of CPU frequency and number of cores is approximately equal to the sum of the MHz for all the individual cores on the host.</p> Simple check vmware.hv.hw.cpu.freq[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Cluster name <p>Cluster name of the guest VM.</p> Simple check vmware.hv.cluster.name[{$URL},{HOST.HOST}]<p>Update: 3600</p>
CPU Total Frequency <p>-</p> Calculated vmware.hv.hw.cpu.total[{$URL},{HOST.HOST}]<p>Update: 60</p>
Ballooned memory <p>The amount of guest physical memory that is currently reclaimed through the balloon driver. Sum of all guest VMs.</p> Simple check vmware.hv.memory.size.ballooned[{$URL},{HOST.HOST}]<p>Update: 300</p>
Used memory percentage <p>-</p> Calculated vmware.hv.hw.memory.total.percent[{$URL},{HOST.HOST}]<p>Update: 60</p>
CPU threads <p>Number of physical CPU threads on the host.</p> Simple check vmware.hv.hw.cpu.threads[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Datacenter name <p>Datacenter name of the hypervisor.</p> Simple check vmware.hv.datacenter.name[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Available memory <p>-</p> Calculated vmware.hv.memory.available[{$URL},{HOST.HOST}]<p>Update: 60</p>
Average read latency of the datastore $3 <p>-</p> Simple check vmware.hv.datastore.read[{$URL},{HOST.HOST},{#DATASTORE},latency]<p>Update: 300</p><p>LLD</p>
Average write latency of the datastore $3 <p>-</p> Simple check vmware.hv.datastore.write[{$URL},{HOST.HOST},{#DATASTORE},latency]<p>Update: 300</p><p>LLD</p>
Free space on datastore $3 <p>-</p> Simple check vmware.hv.datastore.size[{$URL},{HOST.HOST},{#DATASTORE},free]<p>Update: 300</p><p>LLD</p>
Free space on datastore $3 (percentage) <p>-</p> Simple check vmware.hv.datastore.size[{$URL},{HOST.HOST},{#DATASTORE},pfree]<p>Update: 300</p><p>LLD</p>
Total size of datastore $3 <p>-</p> Simple check vmware.hv.datastore.size[{$URL},{HOST.HOST},{#DATASTORE}]<p>Update: 300</p><p>LLD</p>

Triggers

Name Description Expression Priority
{HOST.NAME} - Free space on datastore {#DATASTORE} is {ITEM.LASTVALUE1} - {ITEM.LASTVALUE2} remaining <p>-</p> <p>Expression: min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree],5m)<=90 and min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},free],5m)<=0</p><p>Recovery expression: min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree],5m)>=88</p> average
{HOST.NAME} - Free space on datastore {#DATASTORE} is {ITEM.LASTVALUE1} - {ITEM.LASTVALUE2} remaining <p>-</p> <p>Expression: min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree],5m)<=95 and min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},free],5m)<=0</p><p>Recovery expression: </p> high
{HOST.NAME} - Free space on datastore {#DATASTORE} is {ITEM.LASTVALUE1} - {ITEM.LASTVALUE2} remaining (LLD) <p>-</p> <p>Expression: min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree],5m)<=90 and min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},free],5m)<=0</p><p>Recovery expression: min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree],5m)>=88</p> average
{HOST.NAME} - Free space on datastore {#DATASTORE} is {ITEM.LASTVALUE1} - {ITEM.LASTVALUE2} remaining (LLD) <p>-</p> <p>Expression: min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree],5m)<=95 and min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},free],5m)<=0</p><p>Recovery expression: </p> high

Template Virt VMware Hypervisor

Macros used

There are no macros links in this template.

There are no template links in this template.

Discovery rules

Name Description Type Key and additional info
Datastore discovery <p>-</p> Simple check vmware.hv.datastore.discovery[{$URL},{HOST.HOST}]<p>Update: 86400</p>

Items collected

Name Description Type Key and additional info
Overall status <p>The overall alarm status of the host: gray - unknown, ok, red - it has a problem, yellow - it might have a problem.</p> Simple check vmware.hv.status[{$URL},{HOST.HOST}]<p>Update: 300</p>
Vendor <p>The hardware vendor identification.</p> Simple check vmware.hv.hw.vendor[{$URL},{HOST.HOST}]<p>Update: 3600</p>
CPU model <p>The CPU model.</p> Simple check vmware.hv.hw.cpu.model[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Version <p>Dot-separated version string.</p> Simple check vmware.hv.version[{$URL},{HOST.HOST}]<p>Update: 3600</p>
CPU usage <p>Aggregated CPU usage across all cores on the host in Hz. This is only available if the host is connected.</p> Simple check vmware.hv.cpu.usage[{$URL},{HOST.HOST}]<p>Update: 300</p>
Full name <p>The complete product name, including the version information.</p> Simple check vmware.hv.fullname[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Number of guest VMs <p>Number of guest virtual machines.</p> Simple check vmware.hv.vm.num[{$URL},{HOST.HOST}]<p>Update: 3600</p>
CPU Usage Percentage <p>-</p> Calculated vmware.hv.hw.cpu.total.percent[{$URL},{HOST.HOST}]<p>Update: 60</p>
CPU cores <p>Number of physical CPU cores on the host. Physical CPU cores are the processors contained by a CPU package.</p> Simple check vmware.hv.hw.cpu.num[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Used memory <p>Physical memory usage on the host.</p> Simple check vmware.hv.memory.used[{$URL},{HOST.HOST}]<p>Update: 300</p>
Model <p>The system model identification.</p> Simple check vmware.hv.hw.model[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Number of bytes transmitted <p>-</p> Simple check vmware.hv.network.out[{$URL},{HOST.HOST},bps]<p>Update: 300</p>
Bios UUID <p>The hardware BIOS identification.</p> Simple check vmware.hv.hw.uuid[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Number of bytes received <p>-</p> Simple check vmware.hv.network.in[{$URL},{HOST.HOST},bps]<p>Update: 300</p>
Health state rollup <p>The host health state rollup sensor value: gray - unknown, ok, red - it has a problem, yellow - it might have a problem.</p> Simple check vmware.hv.sensor.health.state[{$URL},{HOST.HOST}]<p>Update: 300</p>
Total memory <p>The physical memory size.</p> Simple check vmware.hv.hw.memory[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Uptime <p>System uptime.</p> Simple check vmware.hv.uptime[{$URL},{HOST.HOST}]<p>Update: 3600</p>
CPU frequency <p>The speed of the CPU cores. This is an average value if there are multiple speeds. The product of CPU frequency and number of cores is approximately equal to the sum of the MHz for all the individual cores on the host.</p> Simple check vmware.hv.hw.cpu.freq[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Cluster name <p>Cluster name of the guest VM.</p> Simple check vmware.hv.cluster.name[{$URL},{HOST.HOST}]<p>Update: 3600</p>
CPU Total Frequency <p>-</p> Calculated vmware.hv.hw.cpu.total[{$URL},{HOST.HOST}]<p>Update: 60</p>
Ballooned memory <p>The amount of guest physical memory that is currently reclaimed through the balloon driver. Sum of all guest VMs.</p> Simple check vmware.hv.memory.size.ballooned[{$URL},{HOST.HOST}]<p>Update: 300</p>
Used memory percentage <p>-</p> Calculated vmware.hv.hw.memory.total.percent[{$URL},{HOST.HOST}]<p>Update: 60</p>
CPU threads <p>Number of physical CPU threads on the host.</p> Simple check vmware.hv.hw.cpu.threads[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Datacenter name <p>Datacenter name of the hypervisor.</p> Simple check vmware.hv.datacenter.name[{$URL},{HOST.HOST}]<p>Update: 3600</p>
Available memory <p>-</p> Calculated vmware.hv.memory.available[{$URL},{HOST.HOST}]<p>Update: 60</p>
Average read latency of the datastore $3 <p>-</p> Simple check vmware.hv.datastore.read[{$URL},{HOST.HOST},{#DATASTORE},latency]<p>Update: 300</p><p>LLD</p>
Average write latency of the datastore $3 <p>-</p> Simple check vmware.hv.datastore.write[{$URL},{HOST.HOST},{#DATASTORE},latency]<p>Update: 300</p><p>LLD</p>
Free space on datastore $3 <p>-</p> Simple check vmware.hv.datastore.size[{$URL},{HOST.HOST},{#DATASTORE},free]<p>Update: 300</p><p>LLD</p>
Free space on datastore $3 (percentage) <p>-</p> Simple check vmware.hv.datastore.size[{$URL},{HOST.HOST},{#DATASTORE},pfree]<p>Update: 300</p><p>LLD</p>
Total size of datastore $3 <p>-</p> Simple check vmware.hv.datastore.size[{$URL},{HOST.HOST},{#DATASTORE}]<p>Update: 300</p><p>LLD</p>

Triggers

Name Description Expression Priority
{HOST.NAME} - Free space on datastore {#DATASTORE} is {ITEM.LASTVALUE1} - {ITEM.LASTVALUE2} remaining <p>-</p> <p>Expression: min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree],5m)<=90 and min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},free],5m)<=0</p><p>Recovery expression: min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree],5m)>=88</p> average
{HOST.NAME} - Free space on datastore {#DATASTORE} is {ITEM.LASTVALUE1} - {ITEM.LASTVALUE2} remaining <p>-</p> <p>Expression: min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree],5m)<=95 and min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},free],5m)<=0</p><p>Recovery expression: </p> high
{HOST.NAME} - Free space on datastore {#DATASTORE} is {ITEM.LASTVALUE1} - {ITEM.LASTVALUE2} remaining (LLD) <p>-</p> <p>Expression: min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree],5m)<=90 and min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},free],5m)<=0</p><p>Recovery expression: min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree],5m)>=88</p> average
{HOST.NAME} - Free space on datastore {#DATASTORE} is {ITEM.LASTVALUE1} - {ITEM.LASTVALUE2} remaining (LLD) <p>-</p> <p>Expression: min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},pfree],5m)<=95 and min(/Template Virt VMware Hypervisor/vmware.hv.datastore.size[{$URL},Template Virt VMware Hypervisor,{#DATASTORE},free],5m)<=0</p><p>Recovery expression: </p> high