Esempi in C# (CSharp) per ByteUnits.ToGiB

Esempio n. 1

        public void Strings()
        {
            Assert.Equal("500", ByteUnits.ToByteString(500));
            Assert.Equal("1000000", ByteUnits.ToByteString(1000000));

            Assert.Equal("1KB", ByteUnits.ToKB(1000));
            Assert.Equal("2KB", ByteUnits.ToKB(2000));
            Assert.Equal("0.5KB", ByteUnits.ToKB(500));

            Assert.Equal("1KiB", ByteUnits.ToKiB(1024));
            Assert.Equal("2KiB", ByteUnits.ToKiB(2048));
            Assert.Equal("0.5KiB", ByteUnits.ToKiB(512));

            Assert.Equal("1MB", ByteUnits.ToMB(1000000));
            Assert.Equal("2MB", ByteUnits.ToMB(2000000));
            Assert.Equal("0.5MB", ByteUnits.ToMB(500000));

            Assert.Equal("1MiB", ByteUnits.ToMiB(1 * ByteUnits.MebiBytes));
            Assert.Equal("2MiB", ByteUnits.ToMiB(2 * ByteUnits.MebiBytes));
            Assert.Equal("0.5MiB", ByteUnits.ToMiB(ByteUnits.MebiBytes / 2));

            Assert.Equal("1GB", ByteUnits.ToGB(1000000000));
            Assert.Equal("2GB", ByteUnits.ToGB(2000000000));
            Assert.Equal("0.5GB", ByteUnits.ToGB(500000000));

            Assert.Equal("1GiB", ByteUnits.ToGiB(1 * ByteUnits.GibiBytes));
            Assert.Equal("2GiB", ByteUnits.ToGiB(2 * ByteUnits.GibiBytes));
            Assert.Equal("0.5GiB", ByteUnits.ToGiB(ByteUnits.GibiBytes / 2));

            Assert.Equal("1TB", ByteUnits.ToTB(1000000000000));
            Assert.Equal("2TB", ByteUnits.ToTB(2000000000000));
            Assert.Equal("0.5TB", ByteUnits.ToTB(500000000000));

            Assert.Equal("1TiB", ByteUnits.ToTiB(1 * ByteUnits.TebiBytes));
            Assert.Equal("2TiB", ByteUnits.ToTiB(2 * ByteUnits.TebiBytes));
            Assert.Equal("0.5TiB", ByteUnits.ToTiB(ByteUnits.TebiBytes / 2));

            Assert.Equal("1PB", ByteUnits.ToPB(1000000000000000));
            Assert.Equal("2PB", ByteUnits.ToPB(2000000000000000));
            Assert.Equal("0.5PB", ByteUnits.ToPB(500000000000000));

            Assert.Equal("1PiB", ByteUnits.ToPiB(1 * ByteUnits.PebiBytes));
            Assert.Equal("2PiB", ByteUnits.ToPiB(2 * ByteUnits.PebiBytes));
            Assert.Equal("0.5PiB", ByteUnits.ToPiB(ByteUnits.PebiBytes / 2));

            Assert.Equal("1EB", ByteUnits.ToEB(1000000000000000000));
            Assert.Equal("2EB", ByteUnits.ToEB(2000000000000000000));
            Assert.Equal("0.5EB", ByteUnits.ToEB(500000000000000000));

            Assert.Equal("1EiB", ByteUnits.ToEiB(1 * ByteUnits.ExbiBytes));
            Assert.Equal("2EiB", ByteUnits.ToEiB(2 * ByteUnits.ExbiBytes));
            Assert.Equal("0.5EiB", ByteUnits.ToEiB(ByteUnits.ExbiBytes / 2));
        }

Esempio n. 2

        /// <summary>
        /// Inspects the node to determine physical machine capabilities like
        /// processor count, RAM, and primary disk capacity and then sets the
        /// corresponding node labels in the cluster definition.
        /// </summary>
        /// <param name="node">The target node.</param>
        private void DetectLabels(NodeSshProxy <NodeDefinition> node)
        {
            CommandResponse result;

            // Download [/proc/meminfo] and extract the [MemTotal] value (in kB).

            result = node.SudoCommand("cat /proc/meminfo", RunOptions.FaultOnError);

            if (result.ExitCode == 0)
            {
                var memInfo       = result.OutputText;
                var memTotalRegex = new Regex(@"^MemTotal:\s*(?<size>\d+)\s*kB", RegexOptions.Multiline);
                var memMatch      = memTotalRegex.Match(memInfo);

                if (memMatch.Success && long.TryParse(memMatch.Groups["size"].Value, out var memSizeKiB))
                {
                    // Note that the RAM reported by Linux is somewhat less than the
                    // physical RAM installed.

                    node.Metadata.Labels.ComputeRam = (int)(memSizeKiB / 1024);  // Convert KiB --> MiB
                }
            }

            // Download [/proc/cpuinfo] and count the number of processors.

            result = node.SudoCommand("cat /proc/cpuinfo", RunOptions.FaultOnError);

            if (result.ExitCode == 0)
            {
                var cpuInfo          = result.OutputText;
                var processorRegex   = new Regex(@"^processor\s*:\s*\d+", RegexOptions.Multiline);
                var processorMatches = processorRegex.Matches(cpuInfo);

                node.Metadata.Labels.ComputeCores = processorMatches.Count;
            }

            // Determine the primary disk size.

            // $hack(jefflill):
            //
            // I'm not entirely sure how to determine which block device is hosting
            // the primary file system for all systems.  For now, I'm just going to
            // assume that this can be one of:
            //
            //      /dev/sda1
            //      /dev/sda
            //      /dev/xvda1
            //      /dev/xvda
            //
            // I'll try each of these in order and setting the label for the
            // first reasonable result we get back.

            var blockDevices = new string[]
            {
                "/dev/sda1",
                "/dev/sda",
                "/dev/xvda1",
                "/dev/xvda"
            };

            foreach (var blockDevice in blockDevices)
            {
                result = node.SudoCommand($"lsblk -b --output SIZE -n -d {blockDevice}", RunOptions.LogOutput | RunOptions.FaultOnError);

                if (result.ExitCode == 0)
                {
                    if (long.TryParse(result.OutputText.Trim(), out var deviceSize) && deviceSize > 0)
                    {
                        node.Metadata.Labels.StorageSize = ByteUnits.ToGiB(deviceSize);
                        break;
                    }
                }
            }
        }