/* 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 * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ using System; using System.Collections.Generic; using System.Drawing; using System.Text; using System.Windows.Forms; using XenAdmin.Actions; using XenAdmin.Core; using XenAPI; using XenAdmin.Dialogs; namespace XenAdmin.SettingsPanels { public partial class CPUMemoryEditPage : UserControl, IEditPage { private VM vm; bool ShowMemory = false; // If this VM has DMC, we don't show the memory controls on this page. private bool _ValidToSave = true; private decimal _OrigMemory; private long _OrigVCPUs; private long _OrigVCPUsMax; private long _OrigVCPUsAtStartup; private decimal _OrigVCPUWeight; private decimal _CurrentVCPUWeight; private bool isVcpuHotplugSupported; private int minVCPUs; // Please note that the comboBoxVCPUs control can represent two different VM properties, depending whether the VM supports vCPU hotplug or not: // If vCPU hotplug is supported, comboBoxVCPUs represents the maximum number of vCPUs (VCPUs_max). And the initial number of vCPUs is represented in comboBoxInitialVCPUs (which is only visible in this case) // If vCPU hotplug is not supported, comboBoxVCPUs represents the initial number of vCPUs (VCPUs_at_startup). In this case we will also set the VM property VCPUs_max to the same value. // We use the _OrigVCPUs variable to store the original value that populates this combo box (VCPUs_max if hotplug is allowed, otherwise VCPUs_at_startup) private ChangeMemorySettingsAction memoryAction; public bool ValidToSave { get { if (!_ValidToSave) return false; // Also confirm whether the user wants to save memory changes. // If not, don't close the properties dialog. if (HasMemoryChanged) { long mem = Convert.ToInt64(this.nudMemory.Value * Util.BINARY_MEGA); memoryAction = BallooningDialog.ConfirmAndReturnAction(Program.MainWindow, vm, mem, mem, mem, (long)vm.memory_static_max, false); if (memoryAction == null) return false; } return true; } } public CPUMemoryEditPage() { InitializeComponent(); Text = Messages.CPU_AND_MEMORY; transparentTrackBar1.Scroll += new EventHandler(tbPriority_Scroll); this.nudMemory.TextChanged += new EventHandler(nudMemory_TextChanged); this.nudMemory.LostFocus += new EventHandler(nudMemory_LostFocus); } public Image Image { get { return Properties.Resources._000_CPU_h32bit_16; } } void nudMemory_LostFocus(object sender, EventArgs e) { ValidateNud(nudMemory, (decimal)vm.memory_static_max / Util.BINARY_MEGA); } private void ValidateNud(NumericUpDown nud, Decimal defaultValue) { if (!String.IsNullOrEmpty(nud.Text.Trim())) return; nud.Value = defaultValue >= nud.Minimum && defaultValue <= nud.Maximum ? defaultValue : nud.Maximum; nud.Text = nud.Value.ToString(); } void nudMemory_TextChanged(object sender, EventArgs e) { decimal val; if (decimal.TryParse(nudMemory.Text, out val)) { if (val >= nudMemory.Minimum && val <= nudMemory.Maximum) nudMemory_ValueChanged(null, null); else if (val > nudMemory.Maximum) ShowMemError(true, false); else ShowMemError(false, false); } if (this.nudMemory.Text == "") { _ValidToSave = false; } else { _ValidToSave = true; } } private void tbPriority_Scroll(object sender, EventArgs e) { _CurrentVCPUWeight = Convert.ToDecimal(Math.Pow(4.0d, Convert.ToDouble(transparentTrackBar1.Value))); if (transparentTrackBar1.Value == transparentTrackBar1.Max) _CurrentVCPUWeight--; } /// /// Must be a VM. /// public void SetXenObjects(IXenObject orig, IXenObject clone) { vm = (VM)clone; ShowMemory = Helpers.FeatureForbidden(vm, Host.RestrictDMC); Repopulate(); } public void Repopulate() { VM vm = this.vm; Text = ShowMemory ? Messages.CPU_AND_MEMORY : Messages.CPU; if (!ShowMemory) lblMemory.Visible = panel2.Visible = MemWarningLabel.Visible = false; else if (vm.power_state != vm_power_state.Halted && vm.power_state != vm_power_state.Running) { panel2.Enabled = false; MemWarningLabel.Text = Messages.MEM_NOT_WHEN_SUSPENDED; MemWarningLabel.ForeColor = SystemColors.ControlText; MemWarningLabel.Visible = true; } // Since updates come in dribs and drabs, avoid error if new max and min arrive // out of sync and maximum < minimum. if (vm.memory_dynamic_max >= vm.memory_dynamic_min && vm.memory_static_max >= vm.memory_static_min) { decimal min = Convert.ToDecimal(vm.memory_static_min / Util.BINARY_MEGA); decimal max = Convert.ToDecimal(vm.MaxMemAllowed() / Util.BINARY_MEGA); decimal value = Convert.ToDecimal(vm.memory_static_max / Util.BINARY_MEGA); // Avoid setting the range to exclude the current value: CA-40041 if (value > max) max = value; if (value < min) min = value; this.nudMemory.Minimum = min; this.nudMemory.Maximum = max; this.nudMemory.Text = (this.nudMemory.Value = value).ToString(); } Host currentHost = Helpers.GetMaster(this.vm.Connection); if (currentHost != null) { // Show the performance warning about vCPUs > pCPUs. // Don't show if the VM isn't running, since we don't know which server it will // run on (and so can't count the number of pCPUs). if ( vm.power_state == vm_power_state.Running && vm.VCPUs_at_startup > currentHost.host_CPUs.Count && !vm.GetIgnoreExcessiveVcpus()) { lblVcpuWarning.Visible = true; this.tableLayoutPanel1.RowStyles[1].SizeType = SizeType.Absolute; this.tableLayoutPanel1.RowStyles[1].Height = 30; } else { lblVcpuWarning.Visible = false; } } else { lblVcpuWarning.Visible = false; } isVcpuHotplugSupported = vm.SupportsVcpuHotplug(); minVCPUs = vm.MinVCPUs(); label1.Text = GetRubric(); _OrigMemory = nudMemory.Value; _OrigVCPUsMax = vm.VCPUs_max > 0 ? vm.VCPUs_max : 1; _OrigVCPUsAtStartup = vm.VCPUs_at_startup > 0 ? vm.VCPUs_at_startup : 1; _OrigVCPUWeight = _CurrentVCPUWeight; _OrigVCPUs = isVcpuHotplugSupported ? _OrigVCPUsMax : _OrigVCPUsAtStartup; _prevVCPUsMax = _OrigVCPUsMax; // we use variable in RefreshCurrentVCPUs for checking if VcpusAtStartup and VcpusMax were equal before VcpusMax changed _CurrentVCPUWeight = Convert.ToDecimal(vm.GetVcpuWeight()); InitializeVcpuControls(); _ValidToSave = true; } private void InitializeVcpuControls() { lblVCPUs.Text = isVcpuHotplugSupported ? Messages.VM_CPUMEMPAGE_MAX_VCPUS_LABEL : Messages.VM_CPUMEMPAGE_VCPUS_LABEL; labelInitialVCPUs.Text = vm.power_state == vm_power_state.Halted ? Messages.VM_CPUMEMPAGE_INITIAL_VCPUS_LABEL : Messages.VM_CPUMEMPAGE_CURRENT_VCPUS_LABEL; labelInitialVCPUs.Visible = comboBoxInitialVCPUs.Visible = isVcpuHotplugSupported; comboBoxInitialVCPUs.Enabled = isVcpuHotplugSupported && (vm.power_state == vm_power_state.Halted || vm.power_state == vm_power_state.Running); comboBoxVCPUs.Enabled = comboBoxTopology.Enabled = vm.power_state == vm_power_state.Halted; comboBoxTopology.Populate(vm.VCPUs_at_startup, vm.VCPUs_max, vm.GetCoresPerSocket(), vm.MaxCoresPerSocket()); // CA-12941 // We set a sensible maximum based on the template, but if the user sets something higher // from the CLI then use that as the maximum. var maxAllowed = vm.MaxVCPUsAllowed(); long maxVCPUs = maxAllowed < _OrigVCPUs ? _OrigVCPUs : maxAllowed; PopulateVCPUs(maxVCPUs, _OrigVCPUs); if (isVcpuHotplugSupported) PopulateVCPUsAtStartup(_OrigVCPUsMax, _OrigVCPUsAtStartup); transparentTrackBar1.Value = Convert.ToInt32(Math.Log(Convert.ToDouble(vm.GetVcpuWeight())) / Math.Log(4.0d)); panel1.Enabled = vm.power_state == vm_power_state.Halted; } private void PopulateVCPUComboBox(ComboBox comboBox, long min, long max, long currentValue, Predicate isValid) { comboBox.BeginUpdate(); comboBox.Items.Clear(); for (long i = min; i <= max; ++i) { if (i == currentValue || isValid(i)) comboBox.Items.Add(i); } if (currentValue > max) comboBox.Items.Add(currentValue); comboBox.SelectedItem = currentValue; comboBox.EndUpdate(); } private void PopulateVCPUs(long maxVCPUs, long currentVCPUs) { PopulateVCPUComboBox(comboBoxVCPUs, 1, maxVCPUs, currentVCPUs, i => comboBoxTopology.IsValidVCPU(i)); } private void PopulateVCPUsAtStartup(long max, long currentValue) { long min = vm.power_state == vm_power_state.Halted ? 1 : _OrigVCPUsAtStartup; PopulateVCPUComboBox(comboBoxInitialVCPUs, min, max, currentValue, i => true); } private string GetRubric() { StringBuilder sb = new StringBuilder(); sb.Append(Messages.VM_CPUMEMPAGE_RUBRIC); // add hotplug text if (isVcpuHotplugSupported) sb.Append(Messages.VM_CPUMEMPAGE_RUBRIC_HOTPLUG); // add power state warning if (vm.power_state != vm_power_state.Halted) { sb.AppendLine(); sb.AppendLine(); sb.Append(isVcpuHotplugSupported ? Messages.VM_CPUMEMPAGE_MAX_VCPUS_READONLY : Messages.VCPU_ONLY_WHEN_HALTED); } // add power state warning for Current number of vCPUs if (isVcpuHotplugSupported && vm.power_state != vm_power_state.Halted && vm.power_state != vm_power_state.Running) { sb.Append(Messages.VM_CPUMEMPAGE_CURRENT_VCPUS_READONLY); } return sb.ToString(); } public bool HasChanged { get { return HasVCPUChanged || HasMemoryChanged || HasTopologyChanged || HasVCPUsAtStartupChanged || HasVCPUWeightChanged; } } private bool HasMemoryChanged { get { return _OrigMemory != nudMemory.Value; } } private bool HasVCPUChanged { get { return _OrigVCPUs != (long)comboBoxVCPUs.SelectedItem; } } private bool HasVCPUWeightChanged { get { return _OrigVCPUWeight != _CurrentVCPUWeight; } } private bool HasVCPUsAtStartupChanged { get { return isVcpuHotplugSupported && _OrigVCPUsAtStartup != (long)comboBoxInitialVCPUs.SelectedItem; } } private bool HasTopologyChanged { get { return vm.GetCoresPerSocket() != comboBoxTopology.CoresPerSocket; } } private long SelectedVcpusMax { get { return (long)comboBoxVCPUs.SelectedItem; } } private long SelectedVcpusAtStartup { get { return isVcpuHotplugSupported ? (long)comboBoxInitialVCPUs.SelectedItem : (long)comboBoxVCPUs.SelectedItem; } } public AsyncAction SaveSettings() { List actions = new List(); if (HasVCPUWeightChanged) { vm.SetVcpuWeight(Convert.ToInt32(_CurrentVCPUWeight)); } if (HasVCPUChanged || HasVCPUsAtStartupChanged) { actions.Add(new ChangeVCPUSettingsAction(vm, SelectedVcpusMax, SelectedVcpusAtStartup)); } if (HasTopologyChanged) { vm.SetCoresPerSocket(comboBoxTopology.CoresPerSocket); } if (HasMemoryChanged) { actions.Add(memoryAction); // Calculated in ValidToSave } if (actions.Count == 0) return null; else if (actions.Count == 1) return actions[0]; else { MultipleAction multipleAction = new MultipleAction(vm.Connection, "", "", "", actions, true); return multipleAction; } } /** Show local validation balloon tooltips */ public void ShowLocalValidationMessages() { } /** Unregister listeners, dispose balloon tooltips, etc. */ public void Cleanup() { } /// /// Shows the warning dialog about vCPUs > pCPUs. /// private void lblVcpuWarning_LinkClicked(object sender, LinkLabelLinkClickedEventArgs e) { if (vm == null) { System.Diagnostics.Trace.Assert(false, "Selected object should be a vm"); } else { new Dialogs.VcpuWarningDialog(vm).ShowDialog(); this.Refresh(); } } private void nudMemory_ValueChanged(object sender, EventArgs e) { ShowMemError(false, true); } private void ShowMemError(bool showAlways, bool testValue) { if (vm == null || !ShowMemory) return; Host selectedAffinity = vm.Connection.Resolve(vm.power_state == vm_power_state.Running ? vm.resident_on : vm.affinity); if (selectedAffinity != null) { Host_metrics host_metrics = vm.Connection.Resolve(selectedAffinity.metrics); if ((showAlways || (testValue && (host_metrics != null && (double)host_metrics.memory_total < (double)nudMemory.Value * (double)Util.BINARY_MEGA)))) { MemWarningLabel.Visible = true; } else { MemWarningLabel.Visible = false; } } } private void comboBoxVCPUs_SelectedIndexChanged(object sender, EventArgs e) { ValidateVCPUSettings(); comboBoxTopology.Update((long)comboBoxVCPUs.SelectedItem); ValidateTopologySettings(); RefreshCurrentVCPUs(); } private void ValidateVCPUSettings() { if (vm == null || !comboBoxVCPUs.Enabled) return; Host selectedAffinity = vm.Home(); if (selectedAffinity == null && vm.Connection.Cache.Hosts.Length == 1) selectedAffinity = vm.Connection.Cache.Hosts[0]; if (selectedAffinity != null && comboBoxVCPUs.SelectedItem != null && selectedAffinity.host_CPUs.Count < SelectedVcpusMax) { VCPUWarningLabel.Text = Messages.VM_CPUMEMPAGE_VCPU_WARNING; VCPUWarningLabel.Visible = true; } else if (comboBoxVCPUs.SelectedItem != null && SelectedVcpusMax < minVCPUs) { VCPUWarningLabel.Text = string.Format(Messages.VM_CPUMEMPAGE_VCPU_MIN_WARNING, minVCPUs); VCPUWarningLabel.Visible = true; } else { VCPUWarningLabel.Visible = false; } if (comboBoxInitialVCPUs.SelectedItem != null && SelectedVcpusAtStartup < minVCPUs) { initialVCPUWarningLabel.Text = string.Format(Messages.VM_CPUMEMPAGE_VCPU_MIN_WARNING, minVCPUs); initialVCPUWarningLabel.Visible = true; } else { initialVCPUWarningLabel.Visible = false; } } private void ValidateTopologySettings() { if (comboBoxVCPUs.SelectedItem != null) labelInvalidVCPUWarning.Text = VM.ValidVCPUConfiguration((long)comboBoxVCPUs.SelectedItem, comboBoxTopology.CoresPerSocket); } private long _prevVCPUsMax; private void RefreshCurrentVCPUs() { // refresh comboBoxInitialVCPUs if it's visible and populated if (comboBoxInitialVCPUs.Visible && comboBoxInitialVCPUs.Items.Count > 0) { // VcpusAtStartup is always <= VcpusMax // So if VcpusMax is decreased below VcpusAtStartup, then VcpusAtStartup is decreased to that number too // If VcpusAtStartup and VcpusMax are equal, and VcpusMax is changed, then VcpusAtStartup is changed to match // But if the numbers are unequal, and VcpusMax is changed but is still higher than VcpusAtStartup, then VcpusAtStartup is unchanged var newValue = SelectedVcpusAtStartup; if (SelectedVcpusMax < SelectedVcpusAtStartup) newValue = SelectedVcpusMax; else if (SelectedVcpusAtStartup == _prevVCPUsMax && SelectedVcpusMax != _prevVCPUsMax) newValue = SelectedVcpusMax; PopulateVCPUsAtStartup(SelectedVcpusMax, newValue); _prevVCPUsMax = SelectedVcpusMax; } } public String SubText { get { return ShowMemory ? String.Format(Messages.CPU_AND_MEMORY_SUB, SelectedVcpusAtStartup, nudMemory.Value) : String.Format(Messages.CPU_SUB, SelectedVcpusAtStartup); } } private void comboBoxTopology_SelectedIndexChanged(object sender, EventArgs e) { ValidateTopologySettings(); } private void comboBoxInitialVCPUs_SelectedIndexChanged(object sender, EventArgs e) { ValidateVCPUSettings(); } } }