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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.ComponentModel; using System.Globalization; using System.Text; using XenAdmin.Core; using XenAPI; namespace XenAdmin.Controls.Ballooning { public class VMMemoryControlsEdit : VMMemoryControlsBase { // Was ballooning on at the time when we entered the dialog? // (Like other settings on the dialog, it deliberately doesn't reflect later changes: see CA-34476). protected bool ballooning = true; // The maximum value allowed for memory for this VM private long maxMemAllowed = VM.DEFAULT_MEM_ALLOWED; protected bool firstPaint = true; public override List VMs { set { base.VMs = value; ballooning = vm0.has_ballooning; firstPaint = true; maxMemAllowed = CalcMaxMemAllowed(); } } private long _static_min; protected long static_min { get { System.Diagnostics.Trace.Assert(ballooning || Program.RunInAutomatedTestMode); // would be better to edit the test XML file to have VMs and templates with ballooning return _static_min; } set { _static_min = value; } } // These properties should be abstract, but you can't have an abstract class as the // base class of a control, otherwise the control can't be edited in the Designer. [Browsable(false)] public virtual long dynamic_min { get { return 0; } } [Browsable(false)] public virtual long dynamic_max { get { return 0; } } [Browsable(false)] public virtual long static_max { get { return 0; } } // A bit hacky, but needed to fix CA-35710. The ballooning dialog has to call this before // closing, otherwise the settings on the spinners may not have taken yet. public virtual void UnfocusSpinners() { SelectNextControl(Controls[0], true, true, true, true); } private long CalcMaxMemAllowed() { long ans = (vms.Count == 0 ? VM.DEFAULT_MEM_ALLOWED : vms[0].MaxMemAllowed); foreach (VM vm in vms) { long max = vm.MaxMemAllowed; if (max < ans) ans = max; } return ans; } protected long maxDynMin = -1; // signal value for no constraint protected void CalcMaxDynMin() { maxDynMin = -1; if (vm0.power_state == vm_power_state.Running || vm0.power_state == vm_power_state.Paused) { // Calculate the maximum possible value of dynamic_min, by looking at all the other VMs on this host // and obeying the constraint sum(dynamic_min) + control domain + virtualisation overhead <= total host memory Host host = vm0.Connection.Resolve(vm0.resident_on); if (host != null) { Host_metrics host_metrics = host.Connection.Resolve(host.metrics); if (host_metrics != null) { long sum_dyn_min = host.memory_overhead; foreach (VM vm in host.Connection.ResolveAll(host.resident_VMs)) { sum_dyn_min += vm.memory_overhead; if (vm.is_control_domain) { VM_metrics vmm = vm.Connection.Resolve(vm.metrics); if (vmm != null) sum_dyn_min += vmm.memory_actual; } else if (!vms.Contains(vm)) sum_dyn_min += vm.memory_dynamic_min; } maxDynMin = host_metrics.memory_total - sum_dyn_min; if (maxDynMin < 0) maxDynMin = 0; maxDynMin /= vms.Count; } } } } // Maximum for dynamic_min spinner: if we have set a maxDynMin, use it, // except constrained by static_min and dynamic_max. protected long DynMinSpinnerMax { get { long maxDM = dynamic_max; if (maxDynMin >= 0 && maxDynMin < maxDM) { maxDM = maxDynMin; if (maxDM < static_min) maxDM = static_min; } // If we've already managed to exceed that value, don't trash the user's setting if (maxDM < dynamic_min) maxDM = dynamic_min; return maxDM; } } // Minimum for dynamic_min spinner: constrained by both static_min, and a proportion of static_max protected long DynMinSpinnerMin { get { long minDM = static_min; long limit = (long)((double)static_max * GetMemoryRatio()); if (limit > minDM) minDM = limit; if (minDM > dynamic_min) minDM = dynamic_min; return minDM; } } // Static_max also has a corresponding limit: it can't go to more than 1/frac of maxDynMin, // or there is no legal value of dynamic_min. protected long StatMaxSpinnerMax { get { double frac = GetMemoryRatio(); long maxSM = maxDynMin >= 0 && MemorySpinnerMax * frac > maxDynMin ? (long)((double)maxDynMin / frac) : MemorySpinnerMax; if (maxSM < static_max) maxSM = static_max; return maxSM; } } protected long MemorySpinnerMax { get { long server = vm0.memory_static_max; return (server > maxMemAllowed ? server : maxMemAllowed); } } protected int CalcIncrement() { // Calculate a suitable increment for dynamic_min and dynamic_max, if static_max small int i; for (i = 1; i < static_max / Util.BINARY_MEGA / 8 && i < 128; i *= 2) ; return i; } protected double GetMemoryRatio() { return GetMemoryRatio(vms.ToArray()); } /// /// Get the most constrained memory ratio for a set of VMs. /// It is assumed they are all on the same pool. /// public static double GetMemoryRatio(params VM[] vms) { bool hvm = false; bool pv = false; foreach (VM vm in vms) { if (vm.IsHVM) hvm = true; else pv = true; } Pool pool = Helpers.GetPoolOfOne(vms[0].Connection); Dictionary poolOtherConfig = Helpers.GetOtherConfig(pool); if (!pv) // only HVM return GetMemoryRatioValue(poolOtherConfig, true); else if (!hvm) // only PV return GetMemoryRatioValue(poolOtherConfig, false); else // both types of VM: return the more constraining ratio { double hvmRatio = GetMemoryRatioValue(poolOtherConfig, true); double pvRatio = GetMemoryRatioValue(poolOtherConfig, false); return (hvmRatio >= pvRatio ? hvmRatio : pvRatio); } } private static double GetMemoryRatioValue(Dictionary poolOtherConfig, bool hvm) { string key = (hvm ? "memory-ratio-hvm" : "memory-ratio-pv"); string value; double frac = -1.0; if (poolOtherConfig.TryGetValue(key, out value)) { try { frac = Convert.ToDouble(value, CultureInfo.InvariantCulture); } catch (FormatException) { } catch (OverflowException) { } } if (frac < 0.0 || frac > 1.0) frac = 0.25; // default value for both HVM and PV if ratio absent or nonsensical return frac; } } }