xenadmin/XenAdmin/Wizards/NewVMWizard/Page_CpuMem.cs
Carmen Agimof 4da67c0590 CA-147944: Use GB for VM Memory if large values
- Memory Tab uses GB units for values greater or equal to 1 GB, otherwise show in MB;
- Search Tab displays values in GB or MB in the same as the Memory Tab (e.g. 512 MB of 1 GB, 256 MB of 512 MB, 2.5 GB of 16 GB).
- The shiny bar present in the Memory Tab and in Memory Settings dialog shows the scaling in the following way: If smaller than 1 GB, then show as before, else show only labels with values multiples of half a GB.
- The units used in Memory Setting Dialog are set depending on the static_max. If it is greater or equal to 1 GB, then the units are GB, else MB. The user does not have the possibility of changing them.
2015-08-20 12:41:39 +01:00

342 lines
12 KiB
C#

/* Copyright (c) Citrix Systems Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms,
* with or without modification, are permitted provided
* that the following conditions are met:
*
* * Redistributions of source code must retain the above
* copyright notice, this list of conditions and the
* following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the
* following disclaimer in the documentation and/or other
* materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND
* CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
* INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
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* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
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* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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using System;
using System.Collections.Generic;
using System.Windows.Forms;
using XenAPI;
using XenAdmin.Controls;
using XenAdmin.Controls.Ballooning;
using XenAdmin.Core;
namespace XenAdmin.Wizards.NewVMWizard
{
public partial class Page_CpuMem : XenTabPage
{
private VM Template;
int memoryMode = 1; // number of spinners to show: 1 for just "memory", 2 for "minimum" and "maximum", 3 for "static max" too
double memoryRatio = 0.0; // the permitted ratio of dynamic_min / static_max
bool initialising = true;
public Page_CpuMem()
{
InitializeComponent();
}
public override string Text
{
get { return Messages.NEWVMWIZARD_CPUMEMPAGE_NAME; }
}
public override string PageTitle
{
get { return Messages.NEWVMWIZARD_CPUMEMPAGE_TITLE; }
}
public override string HelpID
{
get { return "CPU&Memory"; }
}
public override void PageLoaded(PageLoadedDirection direction)
{
base.PageLoaded(direction);
if (SelectedTemplate == Template)
return;
initialising = true;
Template = SelectedTemplate;
if (Template.has_ballooning && Helpers.MidnightRideOrGreater(Template.Connection) && !Helpers.FeatureForbidden(Template, Host.RestrictDMC))
memoryMode = (Template.memory_dynamic_max == Template.memory_static_max ? 2 : 3);
else
memoryMode = 1;
memoryRatio = VMMemoryControlsEdit.GetMemoryRatio(Template);
VcpuSpinner.Minimum = 1;
VcpuSpinner.Maximum = (decimal)(Template.MaxVCPUsAllowed);
VcpuSpinner.Value = (decimal)(Template.VCPUs_at_startup);
FreeSpinnerLimits();
if (memoryMode == 1)
{
spinnerDynMin.Initialize(Messages.MEMORY_COLON, null, Template.memory_static_max, Template.memory_static_max);
spinnerDynMax.Visible = spinnerStatMax.Visible = false;
}
else
{
spinnerDynMax.Visible = true;
spinnerDynMin.Initialize(Messages.DYNAMIC_MIN_COLON, null, Template.memory_dynamic_min, Template.memory_static_max);
FreeSpinnerLimits(); // same as CA-33831
spinnerDynMax.Initialize(Messages.DYNAMIC_MAX_COLON, null, Template.memory_dynamic_max, Template.memory_static_max);
if (memoryMode == 3)
{
FreeSpinnerLimits();
spinnerStatMax.Initialize(Messages.STATIC_MAX_COLON, null, Template.memory_static_max, Template.memory_static_max);
}
else
spinnerStatMax.Visible = false;
}
comboBoxTopology.Populate(Template.VCPUs_at_startup, Template.VCPUs_max, Template.CoresPerSocket, Template.MaxCoresPerSocket);
SetSpinnerLimits();
VcpuSpinner.Select();
ValuesUpdated();
initialising = false;
}
public VM SelectedTemplate { private get; set; }
// Return the larger of the template's MaxMemAllowed and the template's static max,
// to avoid crashes in the spinners (CA-40041).
private long MaxMemAllowed
{
get
{
long msm = Template.memory_static_max;
long mma = Template.MaxMemAllowed;
return (msm > mma ? msm : mma);
}
}
private void FreeSpinnerLimits()
{
long maxMemAllowed = MaxMemAllowed;
spinnerDynMin.SetRange(0, maxMemAllowed);
spinnerDynMax.SetRange(0, maxMemAllowed);
spinnerStatMax.SetRange(0, maxMemAllowed);
}
private void SetSpinnerLimits()
{
long maxMemAllowed = MaxMemAllowed;
double min = Template.memory_static_min;
if (memoryMode == 1)
{
spinnerDynMin.SetRange(min, maxMemAllowed);
return;
}
long min2 = (long)(SelectedMemoryStaticMax * memoryRatio);
if (min < min2)
min = min2;
double max = SelectedMemoryDynamicMax;
if (max < min)
max = min;
spinnerDynMin.SetRange(min, max);
spinnerDynMax.SetRange(SelectedMemoryDynamicMin,
memoryMode == 2 ? maxMemAllowed : SelectedMemoryStaticMax);
spinnerStatMax.SetRange(SelectedMemoryDynamicMax, maxMemAllowed);
}
public void DisableMemoryControls()
{
spinnerDynMin.Enabled = false;
spinnerDynMax.Enabled = false;
spinnerStatMax.Enabled = false;
}
public double SelectedMemoryDynamicMin
{
get
{
return spinnerDynMin.Value;
}
}
public double SelectedMemoryDynamicMax
{
get
{
return memoryMode == 1 ? spinnerDynMin.Value : spinnerDynMax.Value;
}
}
public double SelectedMemoryStaticMax
{
get
{
return
memoryMode == 1 ? spinnerDynMin.Value :
memoryMode == 2 ? spinnerDynMax.Value :
spinnerStatMax.Value;
}
}
public long SelectedVcpus
{
get
{
return (long)VcpuSpinner.Value;
}
}
public long SelectedCoresPerSocket
{
get
{
return comboBoxTopology.CoresPerSocket;
}
}
public override List<KeyValuePair<string, string>> PageSummary
{
get
{
List<KeyValuePair<string, string>> sum = new List<KeyValuePair<string, string>>();
sum.Add(new KeyValuePair<string, string>(Messages.NEWVMWIZARD_CPUMEMPAGE_VCPUS, SelectedVcpus.ToString()));
sum.Add(new KeyValuePair<string, string>(Messages.NEWVMWIZARD_CPUMEMPAGE_TOPOLOGY, comboBoxTopology.Text));
if (memoryMode == 1)
sum.Add(new KeyValuePair<string, string>(Messages.MEMORY, Util.MemorySizeStringMB(SelectedMemoryStaticMax)));
else
{
sum.Add(new KeyValuePair<string, string>(Messages.DYNAMIC_MIN, Util.MemorySizeStringMB(SelectedMemoryDynamicMin)));
sum.Add(new KeyValuePair<string, string>(Messages.DYNAMIC_MAX, Util.MemorySizeStringMB(SelectedMemoryDynamicMax)));
if (memoryMode == 3)
sum.Add(new KeyValuePair<string, string>(Messages.STATIC_MAX, Util.MemorySizeStringMB(SelectedMemoryStaticMax)));
}
return sum;
}
}
private void ValuesUpdated()
{
CheckForError();
OnPageUpdated();
}
private void CheckForError()
{
long max_mem_total = 0;
long max_mem_free = 0;
long max_vcpus = 0;
Host max_mem_total_host = null;
Host max_mem_free_host = null;
Host max_vcpus_host = null;
foreach (Host host in Connection.Cache.Hosts)
{
long host_cpus = 0;
foreach (Host_cpu cpu in Connection.Cache.Host_cpus)
{
if (cpu.host.opaque_ref.Equals(host.opaque_ref))
host_cpus++;
}
Host_metrics metrics = Connection.Resolve(host.metrics);
if (host_cpus > max_vcpus)
{
max_vcpus = host_cpus;
max_vcpus_host = host;
}
if (metrics != null && metrics.memory_total > max_mem_total)
{
max_mem_total = metrics.memory_total;
max_mem_total_host = host;
}
// The available memory of a server is taken to be the current memory_free,
// plus however much we can squeeze down the existing VMs. This assumes
// that the overhead won't increase when we create the new VM, so it
// has false negatives.
long memory_free = host.memory_available_calc;
if (metrics != null && memory_free > max_mem_free)
{
max_mem_free = memory_free;
max_mem_free_host = host;
}
}
if (max_mem_total_host != null && SelectedMemoryDynamicMin > max_mem_total)
{
ErrorPanel.Visible = true;
ErrorLabel.Text = string.Format(Messages.NEWVMWIZARD_CPUMEMPAGE_MEMORYWARN1, Helpers.GetName(max_mem_total_host), Util.MemorySizeStringMB(max_mem_total));
}
else if (max_mem_free_host != null && SelectedMemoryDynamicMin > max_mem_free)
{
ErrorPanel.Visible = true;
ErrorLabel.Text = string.Format(Messages.NEWVMWIZARD_CPUMEMPAGE_MEMORYWARN2, Helpers.GetName(max_mem_free_host), Util.MemorySizeStringMB(max_mem_free));
}
else if (max_vcpus_host != null && SelectedVcpus > max_vcpus)
{
ErrorPanel.Visible = true;
ErrorLabel.Text = string.Format(Messages.NEWVMWIZARD_CPUMEMPAGE_VCPUSWARN, Helpers.GetName(max_vcpus_host), max_vcpus);
}
else
{
ErrorPanel.Visible = false;
}
}
private void vCPU_ValueChanged(object sender, EventArgs e)
{
comboBoxTopology.Update((long)(VcpuSpinner.Value));
ValuesUpdated();
ValidateVCPUSettings();
}
private void memory_ValueChanged(object sender, EventArgs e)
{
if (initialising)
return;
SetSpinnerLimits();
ValuesUpdated();
}
private void VcpuSpinner_Leave(object sender, EventArgs e)
{
if (sender is NumericUpDown)
((Control)sender).Text = ((NumericUpDown)sender).Value.ToString();
}
private void ValidateVCPUSettings()
{
labelInvalidVCPUWarning.Visible = !VM.ValidVCPUConfiguration((long)(VcpuSpinner.Value), comboBoxTopology.CoresPerSocket);
}
private void comboBoxTopology_SelectedIndexChanged(object sender, EventArgs e)
{
ValidateVCPUSettings();
}
}
}