/// <summary>
/// Reads the content item from the specified reader.
/// </summary>
/// <param name="reader">Binary reader to read from.</param>
internal override void Read(System.IO.BinaryReader reader, BinaryReadInfo readInfo)
{
uint length = reader.ReadUInt32();
ID = reader.ReadUInt32();
ResourceType = (BinaryResourceType)reader.ReadUInt32();
Buffer = reader.ReadBytes((int)length - 8);
}
internal override void Read(System.IO.BinaryReader reader, BinaryReadInfo readInfo)
{
uint length = reader.ReadUInt32();
ID = reader.ReadUInt32();
uint numSections = reader.ReadUInt32();
string componentName = null;
bool canResize = false;
bool canFlip = false;
double minSize = ComponentHelper.GridSize;
List <ComponentProperty> properties = new List <ComponentProperty>();
List <ConnectionGroup> connections = new List <ConnectionGroup>();
List <RenderDescription> renderDescriptions = new List <RenderDescription>();
List <Conditional <FlagOptions> > flagOptions = new List <Conditional <FlagOptions> >();
ComponentDescriptionMetadata descriptionMetadata = new ComponentDescriptionMetadata();
uint?iconResourceId = null;
for (uint sectionCounter = 0; sectionCounter < numSections; sectionCounter++)
{
ushort sectionType = reader.ReadUInt16();
uint sectionLength = reader.ReadUInt32();
#region Metadata
if (sectionType == (uint)BinaryConstants.ComponentSectionType.Metadata)
{
componentName = reader.ReadString();
canResize = reader.ReadBoolean();
canFlip = reader.ReadBoolean();
minSize = reader.ReadDouble();
descriptionMetadata.Type = String.Format("Binary r{0} (*.cdcom)", readInfo.FormatVersion);
descriptionMetadata.GUID = new Guid(reader.ReadBytes(16));
descriptionMetadata.Author = reader.ReadString();
if (readInfo.IsSignatureValid && readInfo.Certificate != null && readInfo.IsCertificateTrusted)
{
descriptionMetadata.Author = readInfo.Certificate.GetNameInfo(X509NameType.EmailName, false);
}
descriptionMetadata.Version = new Version(reader.ReadUInt16(), reader.ReadUInt16());
descriptionMetadata.AdditionalInformation = reader.ReadString();
descriptionMetadata.ImplementSet = reader.ReadString();
descriptionMetadata.ImplementItem = reader.ReadString();
descriptionMetadata.Signature.IsHashValid = readInfo.IsSignatureValid;
descriptionMetadata.Signature.Certificate = readInfo.Certificate;
descriptionMetadata.Signature.IsCertificateTrusted = readInfo.IsCertificateTrusted;
int iconResource = reader.ReadInt32();
if (iconResource != -1)
{
iconResourceId = (uint)iconResource;
}
long created = reader.ReadInt64();
}
#endregion
#region Flags
else if (sectionType == (uint)BinaryConstants.ComponentSectionType.Flags)
{
uint numFlagGroups = reader.ReadUInt32();
for (uint j = 0; j < numFlagGroups; j++)
{
IConditionTreeItem conditions;
if (readInfo.FormatVersion > 1)
{
conditions = reader.ReadConditionTree();
}
else
{
conditions = reader.ReadConditionCollection();
}
FlagOptions value = (FlagOptions)reader.ReadUInt32();
flagOptions.Add(new Conditional <FlagOptions>(value, conditions));
}
}
#endregion
#region Properties
else if (sectionType == (uint)BinaryConstants.ComponentSectionType.Properties)
{
uint numProperties = reader.ReadUInt32();
for (uint j = 0; j < numProperties; j++)
{
string propertyName = reader.ReadString();
string serializedName = reader.ReadString();
string displayName = reader.ReadString();
BinaryType propType;
object rawDefaultValue = reader.ReadType(out propType);
PropertyUnion defaultValue = propType.ToPropertyUnion(rawDefaultValue);
string[] enumOptions = null;
if (propType == BinaryType.Enum)
{
enumOptions = new string[reader.ReadInt32()];
for (int k = 0; k < enumOptions.Length; k++)
{
enumOptions[k] = reader.ReadString();
}
}
// Format rules
List <ComponentPropertyFormat> formatRules = new List <ComponentPropertyFormat>();
uint numFormatRules = reader.ReadUInt32();
for (uint k = 0; k < numFormatRules; k++)
{
IConditionTreeItem conditions;
if (readInfo.FormatVersion > 1)
{
conditions = reader.ReadConditionTree();
}
else
{
conditions = reader.ReadConditionCollection();
}
string formatRule = reader.ReadString();
formatRules.Add(new ComponentPropertyFormat(formatRule, conditions));
}
// Other conditions
uint numOtherConditions = reader.ReadUInt32();
Dictionary <PropertyOtherConditionType, IConditionTreeItem> otherConditions = new Dictionary <PropertyOtherConditionType, IConditionTreeItem>((int)numOtherConditions);
for (uint k = 0; k < numOtherConditions; k++)
{
uint uintConditionType = reader.ReadUInt32();
IConditionTreeItem conditions;
if (readInfo.FormatVersion > 1)
{
conditions = reader.ReadConditionTree();
}
else
{
conditions = reader.ReadConditionCollection();
}
PropertyOtherConditionType conditionType = (PropertyOtherConditionType)uintConditionType;
otherConditions.Add(conditionType, conditions);
}
properties.Add(new ComponentProperty(propertyName, serializedName, displayName, BinaryIOExtentions.BinaryTypeToPropertyType(propType), defaultValue, formatRules.ToArray(), otherConditions, enumOptions));
}
}
#endregion
#region Configurations
else if (sectionType == (uint)BinaryConstants.ComponentSectionType.Configurations)
{
uint numConfigurations = reader.ReadUInt32();
for (int j = 0; j < numConfigurations; j++)
{
string configurationName = reader.ReadString();
string implementationName = reader.ReadString();
int numSetters = reader.ReadInt32();
var setters = new Dictionary <string, PropertyUnion>(numSetters);
for (int k = 0; k < numSetters; k++)
{
BinaryType tempType;
string name = reader.ReadString();
var setterValue = reader.ReadType(out tempType);
setters.Add(name, tempType.ToPropertyUnion(setterValue));
}
int iconID = reader.ReadInt32();
var configuration = new ComponentConfiguration(implementationName, configurationName, setters);
descriptionMetadata.Configurations.Add(configuration);
if (iconID != -1)
{
iconResources.Add(configuration, (uint)iconID);
}
}
}
#endregion
#region Connections
else if (sectionType == (uint)BinaryConstants.ComponentSectionType.Connections)
{
uint numConnectionGroups = reader.ReadUInt32();
List <ConnectionGroup> connectionGroups = new List <ConnectionGroup>();
for (int j = 0; j < numConnectionGroups; j++)
{
IConditionTreeItem conditions;
if (readInfo.FormatVersion > 1)
{
conditions = reader.ReadConditionTree();
}
else
{
conditions = reader.ReadConditionCollection();
}
List <ConnectionDescription> tConnections = new List <ConnectionDescription>();
uint numConnections = reader.ReadUInt32();
for (uint k = 0; k < numConnections; k++)
{
tConnections.Add(new ConnectionDescription(reader.ReadComponentPoint(), reader.ReadComponentPoint(), (ConnectionEdge)reader.ReadInt32(), reader.ReadString()));
}
connections.Add(new ConnectionGroup(conditions, tConnections.ToArray()));
}
}
#endregion
#region Render
else if (sectionType == (uint)BinaryConstants.ComponentSectionType.Render)
{
uint numRenderGroups = reader.ReadUInt32();
for (uint j = 0; j < numRenderGroups; j++)
{
IConditionTreeItem conditions;
if (readInfo.FormatVersion > 1)
{
conditions = reader.ReadConditionTree();
}
else
{
conditions = reader.ReadConditionCollection();
}
int numRenderCommands = (int)reader.ReadUInt32();
List <IRenderCommand> renderCommands = new List <IRenderCommand>(numRenderCommands);
for (int k = 0; k < numRenderCommands; k++)
{
RenderCommandType commandType = (RenderCommandType)reader.ReadUInt32();
switch (commandType)
{
case RenderCommandType.Line:
{
ComponentPoint start = reader.ReadComponentPoint();
ComponentPoint end = reader.ReadComponentPoint();
double thickness = reader.ReadDouble();
renderCommands.Add(new Line(start, end, thickness));
}
continue;
case RenderCommandType.Rect:
{
ComponentPoint location = reader.ReadComponentPoint();
double width = reader.ReadDouble();
double height = reader.ReadDouble();
double thickness = reader.ReadDouble();
bool fill = (reader.ReadUInt32() == 0 ? false : true);
renderCommands.Add(new Rectangle(location, width, height, thickness, fill));
}
continue;
case RenderCommandType.Ellipse:
{
ComponentPoint centre = reader.ReadComponentPoint();
double radiusX = reader.ReadDouble();
double radiusY = reader.ReadDouble();
double thickness = reader.ReadDouble();
bool fill = (reader.ReadUInt32() == 0 ? false : true);
renderCommands.Add(new Ellipse(centre, radiusX, radiusY, thickness, fill));
}
continue;
case RenderCommandType.Path:
{
ComponentPoint start = reader.ReadComponentPoint();
double thickness = reader.ReadDouble();
bool fill = (reader.ReadUInt32() == 0 ? false : true);
int numCommands = reader.ReadInt32();
List <IPathCommand> pathCommands = new List <IPathCommand>(numCommands);
for (int l = 0; l < numCommands; l++)
{
CommandType pType = (CommandType)reader.ReadInt32();
IPathCommand theCommand = null;
switch (pType)
{
case CommandType.MoveTo:
theCommand = new MoveTo();
break;
case CommandType.LineTo:
theCommand = new LineTo();
break;
case CommandType.CurveTo:
theCommand = new CurveTo();
break;
case CommandType.EllipticalArcTo:
theCommand = new EllipticalArcTo();
break;
case CommandType.QuadraticBeizerCurveTo:
theCommand = new QuadraticBeizerCurveTo();
break;
case CommandType.SmoothCurveTo:
theCommand = new SmoothCurveTo();
break;
case CommandType.SmoothQuadraticBeizerCurveTo:
theCommand = new SmoothQuadraticBeizerCurveTo();
break;
default:
theCommand = new ClosePath();
break;
}
theCommand.Read(reader);
pathCommands.Add(theCommand);
}
renderCommands.Add(new RenderPath(start, thickness, fill, pathCommands));
}
continue;
case RenderCommandType.Text:
{
byte formattedTextVersion = reader.ReadByte();
ComponentPoint location = reader.ReadComponentPoint();
TextAlignment alignment = (TextAlignment)reader.ReadUInt32();
uint numTextRuns = reader.ReadUInt32();
List <TextRun> textRuns = new List <TextRun>((int)numTextRuns);
for (uint l = 0; l < numTextRuns; l++)
{
TextRunFormattingType formattingType = (TextRunFormattingType)reader.ReadUInt32();
double runSize = reader.ReadDouble();
string runText = reader.ReadString();
textRuns.Add(new TextRun(runText, new TextRunFormatting(formattingType, runSize)));
}
renderCommands.Add(new Text(location, alignment, textRuns));
}
continue;
}
}
renderDescriptions.Add(new RenderDescription(conditions, renderCommands.ToArray()));
}
}
#endregion
#region Skip
else
{
// Unknown type - skip
reader.BaseStream.Seek(sectionLength, SeekOrigin.Current);
}
#endregion
}
ComponentDescription = new ComponentDescription(ID.ToString(), componentName, canResize, canFlip, minSize, properties.ToArray(), connections.ToArray(), renderDescriptions.ToArray(), flagOptions.ToArray(), descriptionMetadata);
if (iconResourceId.HasValue)
{
mainIconResource = iconResourceId.Value;
}
}
/// <summary> /// Reads the content item from the specified reader. /// </summary> /// <param name="reader">Binary reader to read from.</param> internal abstract void Read(System.IO.BinaryReader reader, BinaryReadInfo readInfo);
internal override void Read(System.IO.BinaryReader reader, BinaryReadInfo readInfo)
{
uint length = reader.ReadUInt32();
ID = reader.ReadUInt32();
uint numSections = reader.ReadUInt32();
string componentName = null;
bool canResize = false;
bool canFlip = false;
double minSize = ComponentHelper.GridSize;
List<ComponentProperty> properties = new List<ComponentProperty>();
List<ConnectionGroup> connections = new List<ConnectionGroup>();
List<RenderDescription> renderDescriptions = new List<RenderDescription>();
List<Conditional<FlagOptions>> flagOptions = new List<Conditional<FlagOptions>>();
ComponentDescriptionMetadata descriptionMetadata = new ComponentDescriptionMetadata();
uint? iconResourceId = null;
for (uint sectionCounter = 0; sectionCounter < numSections; sectionCounter++)
{
ushort sectionType = reader.ReadUInt16();
uint sectionLength = reader.ReadUInt32();
#region Metadata
if (sectionType == (uint)BinaryConstants.ComponentSectionType.Metadata)
{
componentName = reader.ReadString();
canResize = reader.ReadBoolean();
canFlip = reader.ReadBoolean();
minSize = reader.ReadDouble();
descriptionMetadata.Type = String.Format("Binary r{0} (*.cdcom)", readInfo.FormatVersion);
descriptionMetadata.GUID = new Guid(reader.ReadBytes(16));
descriptionMetadata.Author = reader.ReadString();
if (readInfo.IsSignatureValid && readInfo.Certificate != null && readInfo.IsCertificateTrusted)
descriptionMetadata.Author = readInfo.Certificate.GetNameInfo(X509NameType.EmailName, false);
descriptionMetadata.Version = new Version(reader.ReadUInt16(), reader.ReadUInt16());
descriptionMetadata.AdditionalInformation = reader.ReadString();
descriptionMetadata.ImplementSet = reader.ReadString();
descriptionMetadata.ImplementItem = reader.ReadString();
descriptionMetadata.Signature.IsHashValid = readInfo.IsSignatureValid;
descriptionMetadata.Signature.Certificate = readInfo.Certificate;
descriptionMetadata.Signature.IsCertificateTrusted = readInfo.IsCertificateTrusted;
int iconResource = reader.ReadInt32();
if (iconResource != -1)
iconResourceId = (uint)iconResource;
long created = reader.ReadInt64();
}
#endregion
#region Flags
else if (sectionType == (uint)BinaryConstants.ComponentSectionType.Flags)
{
uint numFlagGroups = reader.ReadUInt32();
for (uint j = 0; j < numFlagGroups; j++)
{
IConditionTreeItem conditions;
if (readInfo.FormatVersion > 1)
conditions = reader.ReadConditionTree();
else
conditions = reader.ReadConditionCollection();
FlagOptions value = (FlagOptions)reader.ReadUInt32();
flagOptions.Add(new Conditional<FlagOptions>(value, conditions));
}
}
#endregion
#region Properties
else if (sectionType == (uint)BinaryConstants.ComponentSectionType.Properties)
{
uint numProperties = reader.ReadUInt32();
for (uint j = 0; j < numProperties; j++)
{
string propertyName = reader.ReadString();
string serializedName = reader.ReadString();
string displayName = reader.ReadString();
BinaryType propType;
object rawDefaultValue = reader.ReadType(out propType);
PropertyUnion defaultValue = propType.ToPropertyUnion(rawDefaultValue);
string[] enumOptions = null;
if (propType == BinaryType.Enum)
{
enumOptions = new string[reader.ReadInt32()];
for (int k = 0; k < enumOptions.Length; k++)
enumOptions[k] = reader.ReadString();
}
// Format rules
List<ComponentPropertyFormat> formatRules = new List<ComponentPropertyFormat>();
uint numFormatRules = reader.ReadUInt32();
for (uint k = 0; k < numFormatRules; k++)
{
IConditionTreeItem conditions;
if (readInfo.FormatVersion > 1)
conditions = reader.ReadConditionTree();
else
conditions = reader.ReadConditionCollection();
string formatRule = reader.ReadString();
formatRules.Add(new ComponentPropertyFormat(formatRule, conditions));
}
// Other conditions
uint numOtherConditions = reader.ReadUInt32();
Dictionary<PropertyOtherConditionType, IConditionTreeItem> otherConditions = new Dictionary<PropertyOtherConditionType, IConditionTreeItem>((int)numOtherConditions);
for (uint k = 0; k < numOtherConditions; k++)
{
uint uintConditionType = reader.ReadUInt32();
IConditionTreeItem conditions;
if (readInfo.FormatVersion > 1)
conditions = reader.ReadConditionTree();
else
conditions = reader.ReadConditionCollection();
PropertyOtherConditionType conditionType = (PropertyOtherConditionType)uintConditionType;
otherConditions.Add(conditionType, conditions);
}
properties.Add(new ComponentProperty(propertyName, serializedName, displayName, BinaryIOExtentions.BinaryTypeToPropertyType(propType), defaultValue, formatRules.ToArray(), otherConditions, enumOptions));
}
}
#endregion
#region Configurations
else if (sectionType == (uint)BinaryConstants.ComponentSectionType.Configurations)
{
uint numConfigurations = reader.ReadUInt32();
for (int j = 0; j < numConfigurations; j++)
{
string configurationName = reader.ReadString();
string implementationName = reader.ReadString();
int numSetters = reader.ReadInt32();
var setters = new Dictionary<string, PropertyUnion>(numSetters);
for (int k = 0; k < numSetters; k++)
{
BinaryType tempType;
string name = reader.ReadString();
var setterValue = reader.ReadType(out tempType);
setters.Add(name, tempType.ToPropertyUnion(setterValue));
}
int iconID = reader.ReadInt32();
var configuration = new ComponentConfiguration(implementationName, configurationName, setters);
descriptionMetadata.Configurations.Add(configuration);
if (iconID != -1)
iconResources.Add(configuration, (uint)iconID);
}
}
#endregion
#region Connections
else if (sectionType == (uint)BinaryConstants.ComponentSectionType.Connections)
{
uint numConnectionGroups = reader.ReadUInt32();
List<ConnectionGroup> connectionGroups = new List<ConnectionGroup>();
for (int j = 0; j < numConnectionGroups; j++)
{
IConditionTreeItem conditions;
if (readInfo.FormatVersion > 1)
conditions = reader.ReadConditionTree();
else
conditions = reader.ReadConditionCollection();
List<ConnectionDescription> tConnections = new List<ConnectionDescription>();
uint numConnections = reader.ReadUInt32();
for (uint k = 0; k < numConnections; k++)
{
tConnections.Add(new ConnectionDescription(reader.ReadComponentPoint(), reader.ReadComponentPoint(), (ConnectionEdge)reader.ReadInt32(), reader.ReadString()));
}
connections.Add(new ConnectionGroup(conditions, tConnections.ToArray()));
}
}
#endregion
#region Render
else if (sectionType == (uint)BinaryConstants.ComponentSectionType.Render)
{
uint numRenderGroups = reader.ReadUInt32();
for (uint j = 0; j < numRenderGroups; j++)
{
IConditionTreeItem conditions;
if (readInfo.FormatVersion > 1)
conditions = reader.ReadConditionTree();
else
conditions = reader.ReadConditionCollection();
int numRenderCommands = (int)reader.ReadUInt32();
List<IRenderCommand> renderCommands = new List<IRenderCommand>(numRenderCommands);
for (int k = 0; k < numRenderCommands; k++)
{
RenderCommandType commandType = (RenderCommandType)reader.ReadUInt32();
switch (commandType)
{
case RenderCommandType.Line:
{
ComponentPoint start = reader.ReadComponentPoint();
ComponentPoint end = reader.ReadComponentPoint();
double thickness = reader.ReadDouble();
renderCommands.Add(new Line(start, end, thickness));
}
continue;
case RenderCommandType.Rect:
{
ComponentPoint location = reader.ReadComponentPoint();
double width = reader.ReadDouble();
double height = reader.ReadDouble();
double thickness = reader.ReadDouble();
bool fill = (reader.ReadUInt32() == 0 ? false : true);
renderCommands.Add(new Rectangle(location, width, height, thickness, fill));
}
continue;
case RenderCommandType.Ellipse:
{
ComponentPoint centre = reader.ReadComponentPoint();
double radiusX = reader.ReadDouble();
double radiusY = reader.ReadDouble();
double thickness = reader.ReadDouble();
bool fill = (reader.ReadUInt32() == 0 ? false : true);
renderCommands.Add(new Ellipse(centre, radiusX, radiusY, thickness, fill));
}
continue;
case RenderCommandType.Path:
{
ComponentPoint start = reader.ReadComponentPoint();
double thickness = reader.ReadDouble();
bool fill = (reader.ReadUInt32() == 0 ? false : true);
int numCommands = reader.ReadInt32();
List<IPathCommand> pathCommands = new List<IPathCommand>(numCommands);
for (int l = 0; l < numCommands; l++)
{
CommandType pType = (CommandType)reader.ReadInt32();
IPathCommand theCommand = null;
switch (pType)
{
case CommandType.MoveTo:
theCommand = new MoveTo();
break;
case CommandType.LineTo:
theCommand = new LineTo();
break;
case CommandType.CurveTo:
theCommand = new CurveTo();
break;
case CommandType.EllipticalArcTo:
theCommand = new EllipticalArcTo();
break;
case CommandType.QuadraticBeizerCurveTo:
theCommand = new QuadraticBeizerCurveTo();
break;
case CommandType.SmoothCurveTo:
theCommand = new SmoothCurveTo();
break;
case CommandType.SmoothQuadraticBeizerCurveTo:
theCommand = new SmoothQuadraticBeizerCurveTo();
break;
default:
theCommand = new ClosePath();
break;
}
theCommand.Read(reader);
pathCommands.Add(theCommand);
}
renderCommands.Add(new RenderPath(start, thickness, fill, pathCommands));
}
continue;
case RenderCommandType.Text:
{
byte formattedTextVersion = reader.ReadByte();
ComponentPoint location = reader.ReadComponentPoint();
TextAlignment alignment = (TextAlignment)reader.ReadUInt32();
uint numTextRuns = reader.ReadUInt32();
List<TextRun> textRuns = new List<TextRun>((int)numTextRuns);
for (uint l = 0; l < numTextRuns; l++)
{
TextRunFormattingType formattingType = (TextRunFormattingType)reader.ReadUInt32();
double runSize = reader.ReadDouble();
string runText = reader.ReadString();
textRuns.Add(new TextRun(runText, new TextRunFormatting(formattingType, runSize)));
}
renderCommands.Add(new Text(location, alignment, textRuns));
}
continue;
}
}
renderDescriptions.Add(new RenderDescription(conditions, renderCommands.ToArray()));
}
}
#endregion
#region Skip
else
{
// Unknown type - skip
reader.BaseStream.Seek(sectionLength, SeekOrigin.Current);
}
#endregion
}
ComponentDescription = new ComponentDescription(ID.ToString(), componentName, canResize, canFlip, minSize, properties.ToArray(), connections.ToArray(), renderDescriptions.ToArray(), flagOptions.ToArray(), descriptionMetadata);
if (iconResourceId.HasValue)
mainIconResource = iconResourceId.Value;
}
/// <summary> /// Reads the content item from the specified reader. /// </summary> /// <param name="reader">Binary reader to read from.</param> internal abstract void Read(System.IO.BinaryReader reader, BinaryReadInfo readInfo);
public bool Read(Stream stream)
{
try
{
BinaryReader reader = new BinaryReader(stream);
// read header
ulong magicNumber = reader.ReadUInt64();
byte formatVersion = reader.ReadByte();
byte[] md5hash = reader.ReadBytes(16);
uint reserved = reader.ReadUInt32();
uint fileLength = reader.ReadUInt32();
uint offsetToContent = reader.ReadUInt32();
uint numContentItems = reader.ReadUInt32();
// Signing
CheckSignature(stream, reader, offsetToContent);
// Construct BinaryReadInfo
BinaryReadInfo readInfo = new BinaryReadInfo()
{
FormatVersion = formatVersion,
IsSigned = isSigned,
IsSignatureValid = validSignature,
IsCertificateTrusted = certificateTrusted
};
var componentDescriptions = new List<ComponentResource>();
// Load content
for (uint contentCounter = 0; contentCounter < numContentItems; contentCounter++)
{
var itemType = (BinaryConstants.ContentItemType)reader.ReadUInt16();
if (itemType == BinaryConstants.ContentItemType.Resource)
{
var item = new BinaryResource();
item.Read(reader, readInfo);
Items.Add(item);
Resources.Add(item);
}
else if (itemType == BinaryConstants.ContentItemType.Component)
{
var item = new ComponentResource();
item.Read(reader, readInfo);
Items.Add(item);
componentDescriptions.Add(item);
}
else
{
// Unknown item type
continue;
}
}
// Process images
Dictionary<uint, MultiResolutionImage> images = new Dictionary<uint, MultiResolutionImage>();
foreach(var resource in Resources)
{
if (resource.ResourceType == BinaryResourceType.BitmapImage
|| resource.ResourceType == BinaryResourceType.JPEGImage
|| resource.ResourceType == BinaryResourceType.PNGImage
|| true)
{
if (!images.ContainsKey(resource.ID))
images.Add(resource.ID, new MultiResolutionImage());
images[resource.ID].Add(new SingleResolutionImage()
{
MimeType = BinaryConstants.ResourceMimeTypeToString((uint)resource.ResourceType),
Data = resource.Buffer
});
}
}
// Add component descriptions
foreach(var componentDescription in componentDescriptions)
{
componentDescription.SetIcons(images);
ComponentDescriptions.Add(componentDescription.ComponentDescription);
}
return true;
}
catch (Exception)
{
// Invalid binary file
return false;
}
}
public bool Read(Stream stream)
{
try
{
BinaryReader reader = new BinaryReader(stream);
// read header
ulong magicNumber = reader.ReadUInt64();
byte formatVersion = reader.ReadByte();
byte[] md5hash = reader.ReadBytes(16);
uint reserved = reader.ReadUInt32();
uint fileLength = reader.ReadUInt32();
uint offsetToContent = reader.ReadUInt32();
uint numContentItems = reader.ReadUInt32();
// Signing
CheckSignature(stream, reader, offsetToContent);
// Construct BinaryReadInfo
BinaryReadInfo readInfo = new BinaryReadInfo()
{
FormatVersion = formatVersion,
IsSigned = isSigned,
IsSignatureValid = validSignature,
IsCertificateTrusted = certificateTrusted
};
var componentDescriptions = new List <ComponentResource>();
// Load content
for (uint contentCounter = 0; contentCounter < numContentItems; contentCounter++)
{
var itemType = (BinaryConstants.ContentItemType)reader.ReadUInt16();
if (itemType == BinaryConstants.ContentItemType.Resource)
{
var item = new BinaryResource();
item.Read(reader, readInfo);
Items.Add(item);
Resources.Add(item);
}
else if (itemType == BinaryConstants.ContentItemType.Component)
{
var item = new ComponentResource();
item.Read(reader, readInfo);
Items.Add(item);
componentDescriptions.Add(item);
}
else
{
// Unknown item type
continue;
}
}
// Process images
Dictionary <uint, MultiResolutionImage> images = new Dictionary <uint, MultiResolutionImage>();
foreach (var resource in Resources)
{
if (resource.ResourceType == BinaryResourceType.BitmapImage ||
resource.ResourceType == BinaryResourceType.JPEGImage ||
resource.ResourceType == BinaryResourceType.PNGImage ||
true)
{
if (!images.ContainsKey(resource.ID))
{
images.Add(resource.ID, new MultiResolutionImage());
}
images[resource.ID].Add(new SingleResolutionImage()
{
MimeType = BinaryConstants.ResourceMimeTypeToString((uint)resource.ResourceType),
Data = resource.Buffer
});
}
}
// Add component descriptions
foreach (var componentDescription in componentDescriptions)
{
componentDescription.SetIcons(images);
ComponentDescriptions.Add(componentDescription.ComponentDescription);
}
return(true);
}
catch (Exception)
{
// Invalid binary file
return(false);
}
}
