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Helper.cs
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Helper.cs
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using System;
using System.Collections.Generic;
using System.Linq;
using System.Net;
using Apache.Cassandra;
using FluentCassandra.Types;
using System.IO;
using System.IO.Compression;
namespace FluentCassandra.Operations
{
internal static class Helper
{
private static readonly DateTimeOffset UnixStart;
private static readonly long MaxUnixSeconds;
private static readonly long MaxUnixMilliseconds;
private static readonly long MaxUnixMicroseconds;
static Helper()
{
UnixStart = new DateTimeOffset(1970, 1, 1, 0, 0, 0, TimeSpan.Zero);
MaxUnixSeconds = Convert.ToInt64((DateTimeOffset.MaxValue - UnixStart).TotalSeconds);
MaxUnixMilliseconds = Convert.ToInt64((DateTimeOffset.MaxValue - UnixStart).TotalMilliseconds);
MaxUnixMicroseconds = Convert.ToInt64((DateTimeOffset.MaxValue - UnixStart).Ticks / 10L);
}
public static List<byte[]> ToByteArrayList(List<CassandraObject> list)
{
return list.Select(x => x.TryToBigEndian()).ToList();
}
public static KeyRange CreateKeyRange(CassandraKeyRange range)
{
if (range.StartKey == null && range.EndKey == null && range.StartToken == null && range.EndToken == null)
range = new CassandraKeyRange("", "", null, null, range.Count);
return new KeyRange {
Start_key = range.StartKey.TryToBigEndian(),
End_key = range.EndKey.TryToBigEndian(),
Start_token = range.StartToken,
End_token = range.EndToken,
Count = range.Count
};
}
public static IndexClause CreateIndexClause(CassandraIndexClause index)
{
return new IndexClause {
Start_key = index.StartKey.TryToBigEndian(),
Count = index.Count,
Expressions = index.CompiledExpressions
};
}
public static ColumnParent CreateColumnParent(CassandraColumnParent parent)
{
return new ColumnParent {
Column_family = parent.ColumnFamily,
Super_column = parent.SuperColumn.TryToBigEndian()
};
}
public static ColumnPath CreateColumnPath(CassandraColumnPath path)
{
return new ColumnPath {
Column = path.Column.TryToBigEndian(),
Column_family = path.ColumnFamily,
Super_column = path.SuperColumn.TryToBigEndian()
};
}
public static CassandraSlicePredicate SetSchemaForSlicePredicate(CassandraSlicePredicate predicate, CassandraColumnFamilySchema schema, bool forSuperColumn = false)
{
CassandraType columnType = forSuperColumn ? schema.SuperColumnNameType : schema.ColumnNameType;
if (predicate is CassandraRangeSlicePredicate)
{
var x = (CassandraRangeSlicePredicate)predicate;
var start = CassandraObject.GetCassandraObjectFromObject(x.Start, columnType);
var finish = CassandraObject.GetCassandraObjectFromObject(x.Finish, columnType);
return new CassandraRangeSlicePredicate(start, finish, x.Reversed, x.Count);
}
else if (predicate is CassandraColumnSlicePredicate)
{
var x = (CassandraColumnSlicePredicate)predicate;
var cols = x.Columns.ToList();
for (int i = 0; i < cols.Count; i++)
cols[i] = CassandraObject.GetCassandraObjectFromObject(cols[i], columnType);
return new CassandraColumnSlicePredicate(cols);
}
return null;
}
public static SlicePredicate CreateSlicePredicate(CassandraSlicePredicate predicate)
{
if (predicate is CassandraRangeSlicePredicate)
{
var x = (CassandraRangeSlicePredicate)predicate;
return new SlicePredicate {
Slice_range = new SliceRange {
Start = x.Start.TryToBigEndian() ?? new byte[0],
Finish = x.Finish.TryToBigEndian() ?? new byte[0],
Reversed = x.Reversed,
Count = x.Count
}
};
}
else if (predicate is CassandraColumnSlicePredicate)
{
var x = (CassandraColumnSlicePredicate)predicate;
return new SlicePredicate {
Column_names = x.Columns.Select(o => o.TryToBigEndian()).ToList()
};
}
return null;
}
public static Column CreateColumn(CassandraColumn column)
{
var ccol = new Column {
Name = column.Name.TryToBigEndian(),
Value = column.Value.TryToBigEndian(),
Timestamp = column.Timestamp.ToTimestamp()
};
if (column.Ttl.HasValue && column.Ttl.Value > 0)
ccol.Ttl = column.Ttl.Value;
return ccol;
}
public static CounterColumn CreateCounterColumn(CassandraCounterColumn column)
{
return new CounterColumn {
Name = column.Name.TryToBigEndian(),
Value = column.Value
};
}
public static byte[] TryToBigEndian(this CassandraObject value)
{
if (value == null)
return null;
return value.ToBigEndian();
}
public static long ToTimestamp(this DateTimeOffset dt)
{
// we are using the microsecond format from 1/1/1970 00:00:00 UTC same as the Cassandra server
return (dt - UnixStart).Ticks / 10L;
}
public static DateTimeOffset FromTimestamp(long ts)
{
if (ts <= MaxUnixSeconds)
ts *= 1000L;
if (ts <= MaxUnixMilliseconds)
ts *= 1000L;
if (ts <= MaxUnixMicroseconds)
ts *= 10L;
return UnixStart.AddTicks(ts);
}
public static IFluentBaseColumn ConvertToFluentBaseColumn(ColumnOrSuperColumn col, CassandraColumnFamilySchema schema = null)
{
if (col.Super_column != null)
return ConvertSuperColumnToFluentSuperColumn(col.Super_column, schema);
else if (col.Column != null)
return ConvertColumnToFluentColumn(col.Column, schema);
else if (col.Counter_super_column != null)
return ConvertColumnToFluentCounterColumn(col.Counter_column, schema);
else if (col.Counter_column != null)
return ConvertSuperColumnToFluentCounterSuperColumn(col.Counter_super_column, schema);
else
return null;
}
public static FluentCounterColumn ConvertColumnToFluentCounterColumn(CounterColumn col, CassandraColumnFamilySchema schema = null)
{
var colSchema = new CassandraColumnSchema();
if (schema != null)
{
var name = CassandraObject.GetCassandraObjectFromDatabaseByteArray(col.Name, schema.ColumnNameType);
colSchema = schema.Columns.Where(x => x.Name == name).FirstOrDefault();
if (colSchema == null)
{
colSchema = new CassandraColumnSchema();
colSchema.NameType = schema.ColumnNameType;
colSchema.Name = name;
colSchema.ValueType = schema.DefaultColumnValueType;
}
}
var fcol = new FluentCounterColumn(colSchema) {
ColumnName = CassandraObject.GetCassandraObjectFromDatabaseByteArray(col.Name, colSchema.NameType),
ColumnValue = col.Value
};
return fcol;
}
public static FluentColumn ConvertColumnToFluentColumn(Column col, CassandraColumnFamilySchema schema = null)
{
var colSchema = new CassandraColumnSchema();
if (schema != null)
{
var name = CassandraObject.GetCassandraObjectFromDatabaseByteArray(col.Name, schema.ColumnNameType);
colSchema = schema.Columns.Where(x => x.Name == name).FirstOrDefault();
if (colSchema == null)
{
colSchema = new CassandraColumnSchema();
colSchema.NameType = schema.ColumnNameType;
colSchema.Name = name;
colSchema.ValueType = schema.DefaultColumnValueType;
}
}
var fcol = new FluentColumn(colSchema) {
ColumnName = CassandraObject.GetCassandraObjectFromDatabaseByteArray(col.Name, colSchema.NameType),
ColumnValue = CassandraObject.GetCassandraObjectFromDatabaseByteArray(col.Value, colSchema.ValueType),
ColumnTimestamp = FromTimestamp(col.Timestamp),
};
if (col.__isset.ttl)
fcol.ColumnSecondsUntilDeleted = col.Ttl;
return fcol;
}
public static FluentSuperColumn ConvertSuperColumnToFluentCounterSuperColumn(CounterSuperColumn col, CassandraColumnFamilySchema schema = null)
{
var superColSchema = new CassandraColumnSchema {
Name = col.Name
};
if (schema != null)
superColSchema = new CassandraColumnSchema {
NameType = schema.SuperColumnNameType,
Name = CassandraObject.GetCassandraObjectFromDatabaseByteArray(col.Name, schema.SuperColumnNameType),
ValueType = schema.ColumnNameType
};
var superCol = new FluentSuperColumn(superColSchema) {
ColumnName = CassandraObject.GetCassandraObjectFromDatabaseByteArray(col.Name, superColSchema.NameType)
};
foreach (var xcol in col.Columns)
superCol.Columns.Add(ConvertColumnToFluentCounterColumn(xcol, schema));
return superCol;
}
public static FluentSuperColumn ConvertSuperColumnToFluentSuperColumn(SuperColumn col, CassandraColumnFamilySchema schema = null)
{
var superColSchema = new CassandraColumnSchema {
Name = col.Name
};
if (schema != null)
superColSchema = new CassandraColumnSchema {
NameType = schema.SuperColumnNameType,
Name = CassandraObject.GetCassandraObjectFromDatabaseByteArray(col.Name, schema.SuperColumnNameType),
ValueType = schema.ColumnNameType
};
var superCol = new FluentSuperColumn(superColSchema) {
ColumnName = CassandraObject.GetCassandraObjectFromDatabaseByteArray(col.Name, superColSchema.NameType)
};
foreach (var xcol in col.Columns)
superCol.Columns.Add(ConvertColumnToFluentColumn(xcol, schema));
return superCol;
}
public static IEnumerable<Mutation> CreateDeletedColumnMutation(IEnumerable<FluentMutation> mutation)
{
foreach (var col in mutation)
{
var deletion = new Deletion {
Timestamp = col.Timestamp.ToTimestamp(),
Predicate = CreateSlicePredicate(new[] { col.Column.ColumnName })
};
yield return new Mutation {
Deletion = deletion
};
}
}
public static IEnumerable<Mutation> CreateDeletedSuperColumnMutation(IEnumerable<FluentMutation> mutation)
{
foreach (var col in mutation)
{
var superColumn = col.Column.GetPath().SuperColumn.ColumnName.TryToBigEndian();
var deletion = new Deletion {
Timestamp = col.Timestamp.ToTimestamp(),
Super_column = superColumn,
Predicate = CreateSlicePredicate(new[] { col.Column.ColumnName })
};
yield return new Mutation {
Deletion = deletion
};
}
}
public static Mutation CreateInsertedOrChangedMutation(FluentMutation mutation)
{
switch (mutation.Type)
{
case MutationType.Added:
case MutationType.Changed:
return new Mutation {
Column_or_supercolumn = CreateColumnOrSuperColumn(mutation.Column)
};
default:
return null;
}
}
public static Column CreateColumn(FluentColumn column)
{
var col = new Column {
Name = column.ColumnName.TryToBigEndian(),
Value = column.ColumnValue.TryToBigEndian(),
Timestamp = column.ColumnTimestamp.ToTimestamp()
};
if (column.ColumnSecondsUntilDeleted.HasValue)
col.Ttl = column.ColumnSecondsUntilDeleted.Value;
return col;
}
public static ColumnOrSuperColumn CreateColumnOrSuperColumn(IFluentBaseColumn column)
{
if (column is FluentColumn)
{
return new ColumnOrSuperColumn {
Column = CreateColumn((FluentColumn)column)
};
}
else if (column is FluentSuperColumn)
{
var colY = (FluentSuperColumn)column;
var superColumn = new SuperColumn {
Name = colY.ColumnName.TryToBigEndian(),
Columns = new List<Column>()
};
foreach (var col in colY.Columns.OfType<FluentColumn>())
superColumn.Columns.Add(CreateColumn(col));
return new ColumnOrSuperColumn {
Super_column = superColumn
};
}
else
{
return null;
}
}
public static SlicePredicate CreateSlicePredicate(IEnumerable<CassandraObject> columnNames)
{
return new SlicePredicate {
Column_names = columnNames.Select(o => o.TryToBigEndian()).ToList()
};
}
public static byte[] ZlibCompress(byte[] data)
{
// Note: even though Cassandra calls this GZIP compression it is actually ZLIB compression provided by the
// Java Inflator class http://docs.oracle.com/javase/1.4.2/docs/api/java/util/zip/Inflater.html
// If it wasn't for this post explaining how to get Deflator to mimic ZLIB compression none of the following
// code would work http://tlzprgmr.wordpress.com/2010/03/17/net-deflatestreamzlib-compatibility/
using (MemoryStream outStream = new MemoryStream())
{
// zlib header
outStream.WriteByte(0x58);
outStream.WriteByte(0x85);
// zlib body
using (var compressor = new DeflateStream(outStream, CompressionMode.Compress, true))
compressor.Write(data, 0, data.Length);
// zlib checksum - a naive implementation of adler-32 checksum
const uint A32Mod = 65521;
uint s1 = 1, s2 = 0;
foreach (byte b in data)
{
s1 = (s1 + b) % A32Mod;
s2 = (s2 + s1) % A32Mod;
}
int adler32 = unchecked((int)((s2 << 16) + s1));
outStream.Write(BitConverter.GetBytes(IPAddress.HostToNetworkOrder(adler32)), 0, sizeof(uint));
// zlib compatible compressed query
var bytes = outStream.ToArray();
outStream.Close();
return bytes;
}
}
}
}