public void ShouldNotReturnMoreIdsThanTotalNumberOfEntriesInSection()
{
long pageNumber;
using (var tx = Env.WriteTransaction())
{
var section = ActiveRawDataSmallSection.Create(tx.LowLevelTransaction, "test", (byte)TableType.None);
pageNumber = section.PageNumber;
tx.Commit();
}
long newId;
using (var tx = Env.WriteTransaction())
{
var section = new ActiveRawDataSmallSection(tx.LowLevelTransaction, pageNumber);
Assert.True(section.TryAllocate(16, out newId));
WriteValue(section, newId, 1.ToString("0000000000000"));
tx.Commit();
}
using (var tx = Env.WriteTransaction())
{
var section = new ActiveRawDataSmallSection(tx.LowLevelTransaction, pageNumber);
var ids = section.GetAllIdsInSectionContaining(newId);
Assert.Equal(section.NumberOfEntries, ids.Count);
Assert.Equal(1, ids.Count);
Assert.Equal(newId, ids[0]);
AssertValueMatches(section, newId, 1.ToString("0000000000000"));
}
}
public void CanAllocateEnoughToFillEntireSection()
{
long pageNumber;
using (var tx = Env.WriteTransaction())
{
var section = ActiveRawDataSmallSection.Create(tx.LowLevelTransaction, "test", (byte)TableType.None);
pageNumber = section.PageNumber;
tx.Commit();
}
using (var tx = Env.WriteTransaction())
{
var section = new ActiveRawDataSmallSection(tx.LowLevelTransaction, pageNumber);
section.DataMoved += (previousId, newId, data, size) => { };
int allocationSize = 1020;
long id;
var list = new List <long>();
while (section.TryAllocate(allocationSize, out id))
{
list.Add(id);
}
Assert.False(section.TryAllocate(allocationSize, out id));
var idToFree = list[list.Count / 2];
section.Free(idToFree);
Assert.True(section.TryAllocate(allocationSize, out id));
}
}
public void CanReadAndWriteFromSection()
{
long pageNumber;
using (var tx = Env.WriteTransaction())
{
var section = ActiveRawDataSmallSection.Create(tx.LowLevelTransaction, "test", (byte)TableType.None);
pageNumber = section.PageNumber;
tx.Commit();
}
long id;
using (var tx = Env.WriteTransaction())
{
var section = new ActiveRawDataSmallSection(tx.LowLevelTransaction, pageNumber);
Assert.True(section.TryAllocate(15, out id));
WriteValue(section, id, "Hello There");
tx.Commit();
}
using (var tx = Env.ReadTransaction())
{
var section = new ActiveRawDataSmallSection(tx.LowLevelTransaction, pageNumber);
AssertValueMatches(section, id, "Hello There");
}
}
public void CanReadAndWriteFromSection_AfterFlush()
{
Env.Options.ManualFlushing = true;
long pageNumber;
long id;
using (var tx = Env.WriteTransaction())
{
var section = ActiveRawDataSmallSection.Create(tx.LowLevelTransaction, "test", (byte)TableType.None);
pageNumber = section.PageNumber;
//var section = new RawDataSmallSection(tx.LowLevelTransaction, pageNumber);
Assert.True(section.TryAllocate(15, out id));
WriteValue(section, id, "Hello There");
tx.Commit();
}
Env.FlushLogToDataFile();
using (var tx = Env.ReadTransaction())
{
var section = new ActiveRawDataSmallSection(tx.LowLevelTransaction, pageNumber);
AssertValueMatches(section, id, "Hello There");
}
}
public void Braking_large_allocation_in_scratch_file_has_to_really_create_separate_pages_of_size_one()
{
long pageNumber;
using (var tx = Env.WriteTransaction())
{
var section = ActiveRawDataSmallSection.Create(tx, "test", (byte)TableType.None);
pageNumber = section.PageNumber;
tx.Commit();
}
using (var tx = Env.WriteTransaction())
{
// just to increment transaction id
tx.LowLevelTransaction.ModifyPage(0);
tx.Commit();
}
using (var tx = Env.WriteTransaction())
{
var section = new ActiveRawDataSmallSection(tx, pageNumber);
section.DeleteSection(pageNumber);
var allocatePage = tx.LowLevelTransaction.AllocatePage(1);
// the case is that the free space handling will return same page number as we just freed by deleting raw data section
// if the below assertion fails it means we have changed voron internals and this test might require adjustments
Assert.Equal(allocatePage.PageNumber, pageNumber);
tx.Commit();
}
Env.FlushLogToDataFile();
using (var tx = Env.WriteTransaction())
{
// just to increment transaction id
tx.LowLevelTransaction.ModifyPage(0);
tx.Commit();
}
using (var tx = Env.WriteTransaction())
{
// just to increment transaction id
tx.LowLevelTransaction.ModifyPage(0);
tx.Commit();
}
using (var tx = Env.WriteTransaction())
{
// ensure below call won't throw 'An item with the same key has already been added'
// from ScratchBufferFile.BreakLargeAllocationToSeparatePages
ActiveRawDataSmallSection.Create(tx, "test", (byte)TableType.None);
tx.Commit();
}
}
/// <summary>
/// A table is stored inside a tree, and has the following keys in it
///
/// - active-section -> page number - the page number of the current active small data section
/// - inactive-sections -> fixed size tree with no content where the keys are the page numbers of inactive small raw data sections
/// - large-values -> fixed size tree with no content where the keys are the page numbers of the large values
/// - for each index:
/// - If can fit into fixed size tree, use that.
/// - Otherwise, create a tree (whose key would be the indexed field value and the value would
/// be a fixed size tree of the ids of all the matching values)
/// - stats -> header information about the table (number of entries, etc)
///
/// </summary>
public void Create(Transaction tx, string name)
{
if (_pk == null && _indexes.Count == 0 && _fixedSizeIndexes.Count == 0)
{
throw new InvalidOperationException($"Cannot create table {name} without a primary key and no indexes");
}
var tableTree = tx.CreateTree(name);
if (tableTree.State.NumberOfEntries > 0)
{
return; // this was already created
}
var rawDataActiveSection = ActiveRawDataSmallSection.Create(tx.LowLevelTransaction, name);
Slice pageNumber = Slice.From(tx.Allocator, EndianBitConverter.Little.GetBytes(rawDataActiveSection.PageNumber), ByteStringType.Immutable);
tableTree.Add(ActiveSection, pageNumber);
var stats = (TableSchemaStats *)tableTree.DirectAdd(Stats, sizeof(TableSchemaStats));
stats->NumberOfEntries = 0;
if (_pk != null)
{
if (_pk.IsGlobal == false)
{
var indexTree = Tree.Create(tx.LowLevelTransaction, tx);
var treeHeader = tableTree.DirectAdd(_pk.NameAsSlice, sizeof(TreeRootHeader));
indexTree.State.CopyTo((TreeRootHeader *)treeHeader);
}
else
{
tx.CreateTree(_pk.Name);
}
}
foreach (var indexDef in _indexes.Values)
{
if (indexDef.IsGlobal == false)
{
var indexTree = Tree.Create(tx.LowLevelTransaction, tx);
var treeHeader = tableTree.DirectAdd(indexDef.NameAsSlice, sizeof(TreeRootHeader));
indexTree.State.CopyTo((TreeRootHeader *)treeHeader);
}
else
{
tx.CreateTree(indexDef.Name);
}
}
}
public void ShouldReturnValidIdsOfEntriesInSectionThatAreReadable()
{
long pageNumber;
using (var tx = Env.WriteTransaction())
{
var section = ActiveRawDataSmallSection.Create(tx.LowLevelTransaction, "test", (byte)TableType.None);
pageNumber = section.PageNumber;
tx.Commit();
}
long idWhichIsGoingToBeDeleted1;
long idWhichIsGoingToBeDeleted2;
long existingId;
using (var tx = Env.WriteTransaction())
{
var section = new ActiveRawDataSmallSection(tx.LowLevelTransaction, pageNumber);
Assert.True(section.TryAllocate(2000, out idWhichIsGoingToBeDeleted1));
WriteValue(section, idWhichIsGoingToBeDeleted1, 1.ToString("0000000000000"));
Assert.True(section.TryAllocate(2000, out idWhichIsGoingToBeDeleted2));
WriteValue(section, idWhichIsGoingToBeDeleted2, 2.ToString("0000000000000"));
Assert.True(section.TryAllocate(2000, out existingId));
WriteValue(section, existingId, 3.ToString("0000000000000"));
tx.Commit();
}
using (var tx = Env.WriteTransaction())
{
var section = new ActiveRawDataSmallSection(tx.LowLevelTransaction, pageNumber);
section.Free(idWhichIsGoingToBeDeleted1);
section.Free(idWhichIsGoingToBeDeleted2);
tx.Commit();
}
using (var tx = Env.WriteTransaction())
{
var section = new ActiveRawDataSmallSection(tx.LowLevelTransaction, pageNumber);
var ids = section.GetAllIdsInSectionContaining(existingId);
Assert.Equal(1, ids.Count);
Assert.Equal(existingId, ids[0]);
AssertValueMatches(section, existingId, 3.ToString("0000000000000"));
}
}
public void WhatShouldWeDoHere()
{
long pageNumber;
using (var tx = Env.WriteTransaction())
{
var section = ActiveRawDataSmallSection.Create(tx.LowLevelTransaction, "test", (byte)TableType.None);
pageNumber = section.PageNumber;
tx.Commit();
}
using (var tx = Env.WriteTransaction())
{
var section = new ActiveRawDataSmallSection(tx.LowLevelTransaction, pageNumber);
Assert.Throws <InvalidOperationException>(() => section.Free(0));
}
}
private long AllocateFromSmallActiveSection(int size)
{
long id;
if (ActiveDataSmallSection.TryAllocate(size, out id) == false)
{
InactiveSections.Add(_activeDataSmallSection.PageNumber);
using (var it = ActiveCandidateSection.Iterate())
{
if (it.Seek(long.MinValue))
{
do
{
var sectionPageNumber = it.CurrentKey;
_activeDataSmallSection = new ActiveRawDataSmallSection(_tx.LowLevelTransaction,
sectionPageNumber);
_activeDataSmallSection.DataMoved += OnDataMoved;
if (_activeDataSmallSection.TryAllocate(size, out id))
{
ActiveCandidateSection.Delete(sectionPageNumber);
return(id);
}
} while (it.MoveNext());
}
}
var newNumberOfPages = Math.Max((ushort)(ActiveDataSmallSection.NumberOfPages * 2), ushort.MaxValue);
_activeDataSmallSection = ActiveRawDataSmallSection.Create(_tx.LowLevelTransaction, Name, newNumberOfPages);
_activeDataSmallSection.DataMoved += OnDataMoved;
Slice pageNumber;
var val = _activeDataSmallSection.PageNumber;
using (Slice.External(_tx.Allocator, (byte *)&val, sizeof(long), out pageNumber))
{
_tableTree.Add(TableSchema.ActiveSectionSlice, pageNumber);
}
var allocationResult = _activeDataSmallSection.TryAllocate(size, out id);
Debug.Assert(allocationResult);
}
return(id);
}
public void CanReadAndWriteFromSection_SingleTx()
{
Env.Options.ManualFlushing = true;
using (var tx = Env.WriteTransaction())
{
var section = ActiveRawDataSmallSection.Create(tx, "test", (byte)TableType.None);
long id;
Assert.True(section.TryAllocate(15, out id));
WriteValue(section, id, "Hello There");
AssertValueMatches(section, id, "Hello There");
tx.Commit();
}
Env.FlushLogToDataFile();
}
public void CanAllocateMultipleValues(int seed)
{
var random = new Random(seed);
long pageNumber;
using (var tx = Env.WriteTransaction())
{
var section = ActiveRawDataSmallSection.Create(tx.LowLevelTransaction, "test", (byte)TableType.None);
pageNumber = section.PageNumber;
tx.Commit();
}
var dic = new Dictionary <long, int>();
for (int i = 0; i < 100; i++)
{
long id;
using (var tx = Env.WriteTransaction())
{
var section = new ActiveRawDataSmallSection(tx.LowLevelTransaction, pageNumber);
Assert.True(section.TryAllocate(random.Next(16, 256), out id));
WriteValue(section, id, i.ToString("0000000000000"));
dic[id] = i;
tx.Commit();
}
using (var tx = Env.WriteTransaction())
{
var section = new ActiveRawDataSmallSection(tx.LowLevelTransaction, pageNumber);
AssertValueMatches(section, id, i.ToString("0000000000000"));
}
}
foreach (var kvp in dic)
{
using (var tx = Env.WriteTransaction())
{
var section = new ActiveRawDataSmallSection(tx.LowLevelTransaction, pageNumber);
AssertValueMatches(section, kvp.Key, kvp.Value.ToString("0000000000000"));
}
}
}
private long AllocateFromSmallActiveSection(int size)
{
long id;
if (ActiveDataSmallSection.TryAllocate(size, out id) == false)
{
InactiveSections.Add(_activeDataSmallSection.PageNumber);
using (var it = ActiveCandidateSection.Iterate())
{
if (it.Seek(long.MinValue))
{
do
{
var sectionPageNumber = it.CurrentKey;
_activeDataSmallSection = new ActiveRawDataSmallSection(_tx.LowLevelTransaction,
sectionPageNumber);
if (_activeDataSmallSection.TryAllocate(size, out id))
{
ActiveCandidateSection.Delete(sectionPageNumber);
return(id);
}
} while (it.MoveNext());
}
}
_activeDataSmallSection = ActiveRawDataSmallSection.Create(_tx.LowLevelTransaction, Name);
var pageNumber = Slice.From(_tx.Allocator, EndianBitConverter.Little.GetBytes(_activeDataSmallSection.PageNumber), ByteStringType.Immutable);
_tableTree.Add(TableSchema.ActiveSection, pageNumber);
var allocationResult = _activeDataSmallSection.TryAllocate(size, out id);
Debug.Assert(allocationResult);
}
return(id);
}
/// <summary>
/// A table is stored inside a tree, and has the following keys in it
///
/// - active-section -> page number - the page number of the current active small data section
/// - inactive-sections -> fixed size tree with no content where the keys are the page numbers of inactive small raw data sections
/// - large-values -> fixed size tree with no content where the keys are the page numbers of the large values
/// - for each index:
/// - If can fit into fixed size tree, use that.
/// - Otherwise, create a tree (whose key would be the indexed field value and the value would
/// be a fixed size tree of the ids of all the matching values)
/// - stats -> header information about the table (number of entries, etc)
/// - schemas -> schema definition for the table
///
/// </summary>
public void Create(Transaction tx, Slice name, ushort?sizeInPages)
{
if (_primaryKey == null && _indexes.Count == 0 && _fixedSizeIndexes.Count == 0)
{
throw new InvalidOperationException($"Cannot create table {name} without a primary key and no indexes");
}
var tableTree = tx.CreateTree(name, RootObjectType.Table);
if (tableTree.State.NumberOfEntries > 0)
{
return; // this was already created
}
// Create raw data. This is where we will actually store the documents
using (var rawDataActiveSection = ActiveRawDataSmallSection.Create(tx.LowLevelTransaction, name, TableType, sizeInPages))
{
long val = rawDataActiveSection.PageNumber;
Slice pageNumber;
using (
Slice.External(tx.Allocator, (byte *)&val, sizeof(long), ByteStringType.Immutable, out pageNumber))
{
tableTree.Add(ActiveSectionSlice, pageNumber);
}
byte *ptr;
using (tableTree.DirectAdd(StatsSlice, sizeof(TableSchemaStats), out ptr))
{
var stats = (TableSchemaStats *)ptr;
stats->NumberOfEntries = 0;
}
var tablePageAllocator = new NewPageAllocator(tx.LowLevelTransaction, tableTree);
tablePageAllocator.Create();
var globalPageAllocator = new NewPageAllocator(tx.LowLevelTransaction,
tx.LowLevelTransaction.RootObjects);
globalPageAllocator.Create();
if (_primaryKey != null)
{
if (_primaryKey.IsGlobal == false)
{
using (var indexTree = Tree.Create(tx.LowLevelTransaction, tx, _primaryKey.Name, isIndexTree: true, newPageAllocator: tablePageAllocator))
{
using (tableTree.DirectAdd(_primaryKey.Name, sizeof(TreeRootHeader), out ptr))
{
indexTree.State.CopyTo((TreeRootHeader *)ptr);
}
}
}
else
{
tx.CreateTree(_primaryKey.Name.ToString(), isIndexTree: true, newPageAllocator: globalPageAllocator);
}
}
foreach (var indexDef in _indexes.Values)
{
if (indexDef.IsGlobal == false)
{
using (var indexTree = Tree.Create(tx.LowLevelTransaction, tx, indexDef.Name, isIndexTree: true, newPageAllocator: tablePageAllocator))
{
using (tableTree.DirectAdd(indexDef.Name, sizeof(TreeRootHeader), out ptr))
{
indexTree.State.CopyTo((TreeRootHeader *)ptr);
}
}
}
else
{
tx.CreateTree(indexDef.Name.ToString(), isIndexTree: true, newPageAllocator: globalPageAllocator);
}
}
// Serialize the schema into the table's tree
var serializer = SerializeSchema();
using (tableTree.DirectAdd(SchemasSlice, serializer.Length, out ptr))
{
fixed(byte *source = serializer)
{
Memory.Copy(ptr, source, serializer.Length);
}
}
}
}