Source code of Windows XP (NT5)
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/*++
Copyright (c) 1989 Microsoft Corporation
Module Name:
sxsasmidencdec.c
Abstract:
Implementation of the encoding/decoding support for the assembly identity data type.
Author:
Michael Grier (MGrier) 7/28/2000
Revision History:
--*/
//adriaanc
//#include "stdinc.h"
//#include <setupapi.h>
#include <sxsapi.h>
// adriaanc
//#include <stdlib.h>
//#include <search.h>
// adriaanc
#include "idaux.h"
#include "idp.h"
static const WCHAR s_rgHexChars[] = L"0123456789abcdef";
// adriaanc
#undef FN_TRACE_WIN32
#define FN_TRACE_WIN32(args)
#undef PARAMETER_CHECK
#define PARAMETER_CHECK(args)
BOOL
SxsComputeAssemblyIdentityEncodedSize(
IN ULONG Flags,
IN PCASSEMBLY_IDENTITY AssemblyIdentity,
IN const GUID *EncodingGroup OPTIONAL,
IN ULONG EncodingFormat,
OUT SIZE_T *SizeOut
)
{
BOOL fSuccess = FALSE;
FN_TRACE_WIN32(fSuccess);
SIZE_T Size = 0;
ULONG i;
ULONG AttributeCount, NamespaceCount;
PCINTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE *AttributePointerArray = NULL;
PCASSEMBLY_IDENTITY_NAMESPACE *NamespacePointerArray = NULL;
if (SizeOut != NULL)
*SizeOut = 0;
if ((Flags != 0) ||
(AssemblyIdentity == NULL) ||
(SizeOut == NULL)) {
::SetLastError(ERROR_INVALID_PARAMETER);
goto Exit;
}
if (EncodingGroup != NULL)
{
::SetLastError(ERROR_SXS_UNKNOWN_ENCODING_GROUP);
goto Exit;
}
if ((EncodingFormat != SXS_ASSEMBLY_IDENTITY_ENCODING_DEFAULTGROUP_BINARY) &&
(EncodingFormat != SXS_ASSEMBLY_IDENTITY_ENCODING_DEFAULTGROUP_TEXTUAL))
{
::SetLastError(ERROR_SXS_UNKNOWN_ENCODING);
goto Exit;
}
IFFALSE_EXIT(::SxspValidateAssemblyIdentity(0, AssemblyIdentity));
AttributeCount = AssemblyIdentity->AttributeCount;
NamespaceCount = AssemblyIdentity->NamespaceCount;
AttributePointerArray = AssemblyIdentity->AttributePointerArray;
NamespacePointerArray = AssemblyIdentity->NamespacePointerArray;
switch (EncodingFormat)
{
case SXS_ASSEMBLY_IDENTITY_ENCODING_DEFAULTGROUP_BINARY:
// First, we know we need a header.
Size = sizeof(ENCODED_ASSEMBLY_IDENTITY_HEADER);
// Then a ULONG hash per attribute:
Size += (AssemblyIdentity->AttributeCount * sizeof(ULONG));
// Then a USHORT per namespace...
Size += (AssemblyIdentity->NamespaceCount * sizeof(ULONG));
// Then we need an attribute header per attribute:
Size += AssemblyIdentity->AttributeCount * sizeof(ENCODED_ASSEMBLY_IDENTITY_ATTRIBUTE_HEADER);
// Then come the namespace strings...
for (i=0; i<NamespaceCount; i++)
Size += NamespacePointerArray[i]->NamespaceCch * sizeof(WCHAR);
// Then we need space for each of the attributes' names and value.
AttributePointerArray = AssemblyIdentity->AttributePointerArray;
for (i=0; i<AttributeCount; i++)
{
ASSERT(AttributePointerArray[i] != NULL);
if (AttributePointerArray[i] == NULL)
{
::SetLastError(ERROR_INTERNAL_ERROR);
goto Exit;
}
Size += AttributePointerArray[i]->Attribute.NameCch * sizeof(WCHAR);
Size += AttributePointerArray[i]->Attribute.ValueCch * sizeof(WCHAR);
}
// We should at least be byte aligned here...
ASSERT((Size % 2) == 0);
// And finally pad out to a multiple of four if we are not...
Size = (Size + 3) & ~3;
break;
case SXS_ASSEMBLY_IDENTITY_ENCODING_DEFAULTGROUP_TEXTUAL:
for (i=0; i<AttributeCount; i++)
{
PCINTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE Attribute = AttributePointerArray[i];
BOOL IsAssemblyName = FALSE;
SIZE_T BytesThisAttribute = 0;
INTERNAL_ERROR_CHECK(Attribute != NULL);
IFFALSE_EXIT(SxspIsInternalAssemblyIdentityAttribute(
0,
Attribute,
NULL,
0,
SXS_ASSEMBLY_IDENTITY_STD_ATTRIBUTE_NAME_NAME,
NUMBER_OF(SXS_ASSEMBLY_IDENTITY_STD_ATTRIBUTE_NAME_NAME) - 1,
&IsAssemblyName));
// It's the attribute name. Just account for the size of the encoded value string
IFFALSE_EXIT(::SxspComputeInternalAssemblyIdentityAttributeEncodedTextualSize(
IsAssemblyName ?
SXSP_COMPUTE_INTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE_ENCODED_TEXTUAL_SIZE_FLAG_VALUE_ONLY |
SXSP_COMPUTE_INTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE_ENCODED_TEXTUAL_SIZE_FLAG_OMIT_QUOTES
: 0,
Attribute,
&BytesThisAttribute));
// Account for the separator character
if (i != 0)
Size += sizeof(WCHAR);
Size += BytesThisAttribute;
}
break;
}
*SizeOut = Size;
fSuccess = TRUE;
Exit:
return fSuccess;
}
BOOL
SxspComputeQuotedStringSize(
IN DWORD Flags,
IN const WCHAR *StringIn,
IN SIZE_T Cch,
OUT SIZE_T *BytesOut
)
{
BOOL fSuccess = FALSE;
FN_TRACE_WIN32(fSuccess);
SIZE_T Bytes = 0;
if (BytesOut != NULL)
*BytesOut = 0;
PARAMETER_CHECK(Flags == 0);
PARAMETER_CHECK(StringIn != NULL || Cch == 0);
PARAMETER_CHECK(BytesOut != NULL);
while (Cch != 0)
{
const WCHAR wch = *StringIn++;
if (((wch >= L'A') && (wch <= L'Z')) ||
((wch >= L'a') && (wch <= L'z')) ||
((wch >= L'0') && (wch <= L'9')) ||
(wch == L'.') ||
(wch == L'-') ||
(wch == L'_'))
{
Bytes += sizeof(WCHAR);
}
else
{
switch (wch)
{
case L'&':
// &amp;
Bytes += (5 * sizeof(WCHAR));
break;
case L'"':
// &quot;
Bytes += (6 * sizeof(WCHAR));
break;
case L'<':
// &lt;
Bytes += (4 * sizeof(WCHAR));
break;
case L'>':
// &gt;
Bytes += (4 * sizeof(WCHAR));
break;
case L'\'':
// &apos;
Bytes += (6 * sizeof(WCHAR));
break;
default:
// Otherwise, it's going to be &#xn;
if (wch < 0x10)
Bytes += (5 * sizeof(WCHAR));
else if (wch < 0x100)
Bytes += (6 * sizeof(WCHAR));
else if (wch < 0x1000)
Bytes += (7 * sizeof(WCHAR));
else
Bytes += (8 * sizeof(WCHAR));
break;
}
}
Cch--;
}
*BytesOut = Bytes;
fSuccess = TRUE;
// adriaanc
// Exit:
return fSuccess;
}
BOOL
SxspQuoteString(
IN DWORD Flags,
IN const WCHAR *StringIn,
IN SIZE_T Cch,
IN SIZE_T BufferSize,
IN PVOID Buffer,
OUT SIZE_T *BytesWrittenOut
)
{
BOOL fSuccess = FALSE;
FN_TRACE_WIN32(fSuccess);
WCHAR *Cursor;
SIZE_T BytesWritten = 0;
SIZE_T BytesLeft = BufferSize;
if (BytesWrittenOut != NULL)
*BytesWrittenOut = 0;
PARAMETER_CHECK(Flags == 0);
PARAMETER_CHECK(StringIn != NULL || Cch == 0);
PARAMETER_CHECK(Buffer != NULL || BufferSize == 0);
Cursor = (WCHAR *) Buffer;
BytesWritten = 0;
while (Cch != 0)
{
const WCHAR wch = *StringIn++;
if (((wch >= L'A') && (wch <= L'Z')) ||
((wch >= L'a') && (wch <= L'z')) ||
((wch >= L'0') && (wch <= L'9')) ||
(wch == L'.') ||
(wch == L'-') ||
(wch == L'_'))
{
if (BytesLeft < sizeof(WCHAR))
{
::SetLastError(ERROR_INSUFFICIENT_BUFFER);
goto Exit;
}
*Cursor++ = wch;
BytesLeft -= sizeof(WCHAR);
BytesWritten += sizeof(WCHAR);
}
else
{
#define HANDLE_CASE(_wch, _wstr) \
case _wch: \
{ \
ULONG i; \
if (BytesLeft < (sizeof(_wstr) - sizeof(WCHAR))) \
{ \
::SetLastError(ERROR_INSUFFICIENT_BUFFER); \
goto Exit; \
} \
for (i=0; i<(NUMBER_OF(_wstr) - 1); i++) \
*Cursor++ = _wstr[i]; \
BytesLeft -= (sizeof(_wstr) - sizeof(WCHAR)); \
BytesWritten += (sizeof(_wstr) - sizeof(WCHAR)); \
break; \
}
switch (wch)
{
HANDLE_CASE(L'"', L"&quot;")
HANDLE_CASE(L'&', L"&amp;")
HANDLE_CASE(L'<', L"&lt;")
HANDLE_CASE(L'>', L"&gt;")
HANDLE_CASE(L'\'', L"&apos;")
default:
if (wch < 0x10)
{
if (BytesLeft < (5 * sizeof(WCHAR)))
{
::SetLastError(ERROR_INSUFFICIENT_BUFFER);
goto Exit;
}
*Cursor++ = L'&';
*Cursor++ = L'#';
*Cursor++ = L'x';
*Cursor++ = s_rgHexChars[wch];
*Cursor++ = L';';
BytesWritten += (5 * sizeof(WCHAR));
BytesLeft -= (5 * sizeof(WCHAR));
}
else if (wch < 0x100)
{
if (BytesLeft < (6 * sizeof(WCHAR)))
{
::SetLastError(ERROR_INSUFFICIENT_BUFFER);
goto Exit;
}
*Cursor++ = L'&';
*Cursor++ = L'#';
*Cursor++ = L'x';
*Cursor++ = s_rgHexChars[(wch >> 4) & 0xf];
*Cursor++ = s_rgHexChars[wch & 0xf];
*Cursor++ = L';';
BytesWritten += (6 * sizeof(WCHAR));
BytesLeft -= (6 * sizeof(WCHAR));
}
else if (wch < 0x1000)
{
if (BytesLeft < (7 * sizeof(WCHAR)))
{
::SetLastError(ERROR_INSUFFICIENT_BUFFER);
goto Exit;
}
*Cursor++ = L'&';
*Cursor++ = L'#';
*Cursor++ = L'x';
*Cursor++ = s_rgHexChars[(wch >> 8) & 0xf];
*Cursor++ = s_rgHexChars[(wch >> 4) & 0xf];
*Cursor++ = s_rgHexChars[wch & 0xf];
*Cursor++ = L';';
BytesWritten += (7 * sizeof(WCHAR));
BytesLeft -= (7 * sizeof(WCHAR));
}
else
{
INTERNAL_ERROR_CHECK(wch <= 0xffff);
if (BytesLeft < (8 * sizeof(WCHAR)))
{
::SetLastError(ERROR_INSUFFICIENT_BUFFER);
goto Exit;
}
*Cursor++ = L'&';
*Cursor++ = L'#';
*Cursor++ = L'x';
*Cursor++ = s_rgHexChars[(wch >> 12) & 0xf];
*Cursor++ = s_rgHexChars[(wch >> 8) & 0xf];
*Cursor++ = s_rgHexChars[(wch >> 4) & 0xf];
*Cursor++ = s_rgHexChars[wch & 0xf];
*Cursor++ = L';';
BytesWritten += (8 * sizeof(WCHAR));
BytesLeft -= (8 * sizeof(WCHAR));
}
break;
}
}
Cch--;
}
if (BytesWrittenOut != NULL)
*BytesWrittenOut = BytesWritten;
fSuccess = TRUE;
Exit:
return fSuccess;
}
BOOL
SxspComputeInternalAssemblyIdentityAttributeEncodedTextualSize(
IN DWORD Flags,
IN PCINTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE Attribute,
OUT SIZE_T *BytesOut
)
{
BOOL fSuccess = FALSE;
FN_TRACE_WIN32(fSuccess);
SIZE_T Bytes = 0;
SIZE_T BytesTemp = 0;
if (BytesOut != NULL)
*BytesOut = 0;
PARAMETER_CHECK((Flags & ~(
SXSP_COMPUTE_INTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE_ENCODED_TEXTUAL_SIZE_FLAG_VALUE_ONLY |
SXSP_COMPUTE_INTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE_ENCODED_TEXTUAL_SIZE_FLAG_OMIT_QUOTES)) == 0);
PARAMETER_CHECK(Attribute != NULL);
PARAMETER_CHECK(BytesOut != NULL);
Bytes = 0;
if ((Flags & SXSP_COMPUTE_INTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE_ENCODED_TEXTUAL_SIZE_FLAG_VALUE_ONLY) == 0)
{
if (Attribute->Attribute.NamespaceCch != 0)
{
// Figure out the ns:n= part
IFFALSE_EXIT(::SxspComputeQuotedStringSize(0, Attribute->Attribute.Namespace, Attribute->Attribute.NamespaceCch, &BytesTemp));
Bytes += BytesTemp;
Bytes += sizeof(WCHAR); // the ":"
}
IFFALSE_EXIT(::SxspComputeQuotedStringSize(0, Attribute->Attribute.Name, Attribute->Attribute.NameCch, &BytesTemp));
Bytes += BytesTemp;
Bytes += sizeof(WCHAR); // the "="
}
IFFALSE_EXIT(::SxspComputeQuotedStringSize(0, Attribute->Attribute.Value, Attribute->Attribute.ValueCch, &BytesTemp));
Bytes += BytesTemp;
if ((Flags & SXSP_COMPUTE_INTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE_ENCODED_TEXTUAL_SIZE_FLAG_OMIT_QUOTES) == 0)
Bytes += 2 * sizeof(WCHAR); // the beginning and ending quotes
*BytesOut = Bytes;
fSuccess = TRUE;
Exit:
return fSuccess;
}
BOOL
SxspEncodeInternalAssemblyIdentityAttributeAsText(
IN DWORD Flags,
IN PCINTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE Attribute,
SIZE_T BufferSize,
PVOID Buffer,
SIZE_T *BytesWrittenOut
)
{
BOOL fSuccess = FALSE;
FN_TRACE_WIN32(fSuccess);
SIZE_T BytesWritten = 0;
SIZE_T BytesLeft = 0;
SIZE_T BytesThisSegment;
WCHAR *Cursor;
if (BytesWrittenOut != NULL)
*BytesWrittenOut = 0;
PARAMETER_CHECK(Flags == 0);
PARAMETER_CHECK(Attribute != NULL);
PARAMETER_CHECK((Buffer != NULL) || (BufferSize == 0));
BytesWritten = 0;
BytesLeft = BufferSize;
Cursor = reinterpret_cast<WCHAR *>(Buffer);
if (Attribute->Attribute.NamespaceCch != 0)
{
IFFALSE_EXIT(::SxspQuoteString(0, Attribute->Namespace->Namespace, Attribute->Namespace->NamespaceCch, BytesLeft, Cursor, &BytesThisSegment));
INTERNAL_ERROR_CHECK(BytesThisSegment <= BytesLeft);
Cursor = (WCHAR *) (((ULONG_PTR) Cursor) + BytesThisSegment);
BytesLeft -= BytesThisSegment;
BytesWritten += BytesThisSegment;
if (BytesLeft < sizeof(WCHAR))
{
::SetLastError(ERROR_INSUFFICIENT_BUFFER);
goto Exit;
}
*Cursor++ = L':';
BytesLeft -= sizeof(WCHAR);
BytesWritten += sizeof(WCHAR);
}
IFFALSE_EXIT(::SxspQuoteString(0, Attribute->Attribute.Name, Attribute->Attribute.NameCch, BytesLeft, Cursor, &BytesThisSegment));
INTERNAL_ERROR_CHECK(BytesThisSegment <= BytesLeft);
Cursor = (WCHAR *) (((ULONG_PTR) Cursor) + BytesThisSegment);
BytesLeft -= BytesThisSegment;
BytesWritten += BytesThisSegment;
if (BytesLeft < (2 * sizeof(WCHAR)))
{
::SetLastError(ERROR_INSUFFICIENT_BUFFER);
goto Exit;
}
*Cursor++ = L'=';
*Cursor++ = L'"';
BytesLeft -= (2 * sizeof(WCHAR));
BytesWritten += (2 * sizeof(WCHAR));
IFFALSE_EXIT(::SxspQuoteString(0, Attribute->Attribute.Value, Attribute->Attribute.ValueCch, BytesLeft, Cursor, &BytesThisSegment));
INTERNAL_ERROR_CHECK(BytesThisSegment <= BytesLeft);
Cursor = (WCHAR *) (((ULONG_PTR) Cursor) + BytesThisSegment);
BytesLeft -= BytesThisSegment;
BytesWritten += BytesThisSegment;
if (BytesLeft < sizeof(WCHAR))
{
::SetLastError(ERROR_INSUFFICIENT_BUFFER);
goto Exit;
}
*Cursor++ = L'"';
BytesLeft -= sizeof(WCHAR);
BytesWritten += sizeof(WCHAR);
*BytesWrittenOut = BytesWritten;
fSuccess = TRUE;
Exit:
return fSuccess;
}
BOOL
SxspEncodeAssemblyIdentityTextually(
IN DWORD Flags,
IN PCASSEMBLY_IDENTITY AssemblyIdentity,
IN SIZE_T BufferSize,
IN PVOID Buffer,
OUT SIZE_T *BytesWrittenOut)
{
BOOL fSuccess = FALSE;
FN_TRACE_WIN32(fSuccess);
ULONG AttributeCount, NamespaceCount;
PCINTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE *Attributes;
PCASSEMBLY_IDENTITY_NAMESPACE *Namespaces;
ULONG i;
ASSEMBLY_IDENTITY_ATTRIBUTE Attribute;
PCINTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE NameInternalAttribute = NULL;
SIZE_T BytesLeft;
SIZE_T BytesWritten;
PVOID Cursor;
SIZE_T TempBytesWritten;
if (BytesWrittenOut != NULL)
*BytesWrittenOut = 0;
PARAMETER_CHECK(Flags == 0);
PARAMETER_CHECK(AssemblyIdentity != NULL);
PARAMETER_CHECK(BufferSize != 0);
PARAMETER_CHECK(Buffer != NULL);
PARAMETER_CHECK(BytesWrittenOut != NULL);
Cursor = Buffer;
BytesLeft = BufferSize;
BytesWritten = 0;
// The root assembly identity is actually totally empty, so we'll short-circuit that case.
AttributeCount = AssemblyIdentity->AttributeCount;
if (AttributeCount != 0)
{
NamespaceCount = AssemblyIdentity->NamespaceCount;
Attributes = AssemblyIdentity->AttributePointerArray;
Namespaces = AssemblyIdentity->NamespacePointerArray;
// First, let's look for the "name" attribute.
Attribute.Flags = 0;
Attribute.Namespace = NULL;
Attribute.NamespaceCch = 0;
Attribute.Name = SXS_ASSEMBLY_IDENTITY_STD_ATTRIBUTE_NAME_NAME;
Attribute.NameCch = NUMBER_OF(SXS_ASSEMBLY_IDENTITY_STD_ATTRIBUTE_NAME_NAME) - 1;
IFFALSE_EXIT(
::SxspLocateInternalAssemblyIdentityAttribute(
SXSP_LOCATE_INTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE_FLAG_MATCH_NAMESPACE |
SXSP_LOCATE_INTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE_FLAG_MATCH_NAME,
AssemblyIdentity,
&Attribute,
&NameInternalAttribute,
NULL));
INTERNAL_ERROR_CHECK(NameInternalAttribute != NULL);
IFFALSE_EXIT(::SxspQuoteString(0, NameInternalAttribute->Attribute.Value, NameInternalAttribute->Attribute.ValueCch, BytesLeft, Cursor, &TempBytesWritten));
INTERNAL_ERROR_CHECK(TempBytesWritten <= BytesLeft);
Cursor = (PVOID) (((ULONG_PTR) Cursor) + TempBytesWritten);
BytesLeft -= TempBytesWritten;
BytesWritten += TempBytesWritten;
for (i=0; i<AttributeCount; i++)
{
// Skip the standard "name" attribute
if (Attributes[i] == NameInternalAttribute)
continue;
if (BytesLeft < sizeof(WCHAR))
{
::SetLastError(ERROR_INSUFFICIENT_BUFFER);
goto Exit;
}
*((WCHAR *) Cursor) = L',';
Cursor = (PVOID) (((ULONG_PTR) Cursor) + sizeof(WCHAR));
BytesLeft -= sizeof(WCHAR);
BytesWritten += sizeof(WCHAR);
IFFALSE_EXIT(::SxspEncodeInternalAssemblyIdentityAttributeAsText(0, Attributes[i], BytesLeft, Cursor, &TempBytesWritten));
INTERNAL_ERROR_CHECK(TempBytesWritten <= BytesLeft);
Cursor = (PVOID) (((ULONG_PTR) Cursor) + TempBytesWritten);
BytesLeft -= TempBytesWritten;
BytesWritten += TempBytesWritten;
}
}
*BytesWrittenOut = BytesWritten;
fSuccess = TRUE;
Exit:
return fSuccess;
}
BOOL
SxsEncodeAssemblyIdentity(
IN ULONG Flags,
IN PCASSEMBLY_IDENTITY AssemblyIdentity,
IN const GUID *EncodingGroup OPTIONAL, // use NULL to use any of the SXS_ASSEMBLY_IDENTITY_ENCODING_DEFAULTGROUP_* encodings
IN ULONG EncodingFormat,
IN SIZE_T BufferSize,
OUT PVOID Buffer,
OUT SIZE_T *BytesWrittenOrRequired
)
{
BOOL fSuccess = FALSE;
FN_TRACE_WIN32(fSuccess);
SIZE_T TotalSize = 0;
PVOID Cursor = NULL;
SIZE_T i;
PENCODED_ASSEMBLY_IDENTITY_HEADER EncodedAssemblyIdentityHeader = NULL;
PENCODED_ASSEMBLY_IDENTITY_ATTRIBUTE_HEADER EncodedAssemblyIdentityAttributeHeader = NULL;
ULONG *TempULONGArrayPointer;
SIZE_T BytesWritten = 0;
ULONG AttributeCount, NamespaceCount;
if (BytesWrittenOrRequired != NULL)
*BytesWrittenOrRequired = 0;
if ((Flags != 0) ||
(AssemblyIdentity == NULL) ||
((BufferSize != 0) && (Buffer == NULL)) ||
((BufferSize == 0) && (BytesWrittenOrRequired == NULL)))
{
::SetLastError(ERROR_INVALID_PARAMETER);
goto Exit;
}
if (EncodingGroup != NULL)
{
::SetLastError(ERROR_SXS_UNKNOWN_ENCODING_GROUP);
goto Exit;
}
if ((EncodingFormat != SXS_ASSEMBLY_IDENTITY_ENCODING_DEFAULTGROUP_BINARY) &&
(EncodingFormat != SXS_ASSEMBLY_IDENTITY_ENCODING_DEFAULTGROUP_TEXTUAL))
{
::SetLastError(ERROR_SXS_UNKNOWN_ENCODING);
goto Exit;
}
IFFALSE_EXIT(::SxspValidateAssemblyIdentity(0, AssemblyIdentity));
IFFALSE_EXIT(::SxsComputeAssemblyIdentityEncodedSize(0, AssemblyIdentity, EncodingGroup, EncodingFormat, &TotalSize));
if (TotalSize > BufferSize)
{
if (BytesWrittenOrRequired != NULL)
*BytesWrittenOrRequired = TotalSize;
::SetLastError(ERROR_INSUFFICIENT_BUFFER);
goto Exit;
}
AttributeCount = AssemblyIdentity->AttributeCount;
NamespaceCount = AssemblyIdentity->NamespaceCount;
//
// Let's start filling it in.
//
switch (EncodingFormat)
{
case SXS_ASSEMBLY_IDENTITY_ENCODING_DEFAULTGROUP_BINARY:
BytesWritten = 0;
Cursor = Buffer;
EncodedAssemblyIdentityHeader = (PENCODED_ASSEMBLY_IDENTITY_HEADER) Cursor;
Cursor = (PVOID) (((ULONG_PTR) Cursor) + sizeof(ENCODED_ASSEMBLY_IDENTITY_HEADER));
BytesWritten += sizeof(ENCODED_ASSEMBLY_IDENTITY_HEADER);
EncodedAssemblyIdentityHeader->HeaderSize = sizeof(ENCODED_ASSEMBLY_IDENTITY_HEADER);
EncodedAssemblyIdentityHeader->Magic = ENCODED_ASSEMBLY_IDENTITY_HEADER_MAGIC;
EncodedAssemblyIdentityHeader->TotalSize = static_cast<ULONG>(TotalSize);
// turn off any flags not relevant to persisted state
EncodedAssemblyIdentityHeader->Type = AssemblyIdentity->Type;
EncodedAssemblyIdentityHeader->Flags = AssemblyIdentity->Flags & ~(ASSEMBLY_IDENTITY_FLAG_FROZEN);
EncodedAssemblyIdentityHeader->EncodingFlags = 0;
EncodedAssemblyIdentityHeader->AttributeCount = AttributeCount;
EncodedAssemblyIdentityHeader->NamespaceCount = NamespaceCount;
EncodedAssemblyIdentityHeader->ReservedMustBeZero1 = 0;
EncodedAssemblyIdentityHeader->ReservedMustBeZero2 = 0;
EncodedAssemblyIdentityHeader->ReservedMustBeZero3 = 0;
EncodedAssemblyIdentityHeader->ReservedMustBeZero4 = 0;
TempULONGArrayPointer = (ULONG *) Cursor;
Cursor = (PVOID) (TempULONGArrayPointer + AttributeCount);
BytesWritten += (AttributeCount * sizeof(ULONG));
for (i=0; i<AttributeCount; i++)
TempULONGArrayPointer[i] = AssemblyIdentity->AttributePointerArray[i]->WholeAttributeHash;
// sort 'em...
qsort(TempULONGArrayPointer, AttributeCount, sizeof(ULONG), &SxspCompareULONGsForQsort);
TempULONGArrayPointer = (ULONG *) Cursor;
Cursor = (PVOID) (TempULONGArrayPointer + NamespaceCount);
BytesWritten += (sizeof(ULONG) * NamespaceCount);
for (i=0; i<NamespaceCount; i++)
TempULONGArrayPointer[i] = static_cast<ULONG>(AssemblyIdentity->NamespacePointerArray[i]->NamespaceCch);
EncodedAssemblyIdentityAttributeHeader = (PENCODED_ASSEMBLY_IDENTITY_ATTRIBUTE_HEADER) Cursor;
Cursor = (PVOID) (EncodedAssemblyIdentityAttributeHeader + AttributeCount);
BytesWritten += (AttributeCount * sizeof(ENCODED_ASSEMBLY_IDENTITY_ATTRIBUTE_HEADER));
for (i=0; i<AttributeCount; i++)
{
PCINTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE InternalAttribute = AssemblyIdentity->AttributePointerArray[i];
ULONG NamespaceIndex;
// Totally gross linear search to determine the namespace index. Fortunately the common case
// will be a single namespace for all attributes.
for (NamespaceIndex = 0; NamespaceIndex < NamespaceCount; NamespaceIndex++)
{
if (AssemblyIdentity->NamespacePointerArray[NamespaceIndex] == InternalAttribute->Namespace)
break;
}
// If this assert fires, the attribute refers to a namespace that's not in the identity; bad!
INTERNAL_ERROR_CHECK(
(InternalAttribute->Namespace == NULL) ||
(NamespaceIndex < NamespaceCount));
EncodedAssemblyIdentityAttributeHeader[i].NamespaceIndex = NamespaceIndex + 1;
EncodedAssemblyIdentityAttributeHeader[i].NameCch = static_cast<ULONG>(InternalAttribute->Attribute.NameCch);
EncodedAssemblyIdentityAttributeHeader[i].ValueCch = static_cast<ULONG>(InternalAttribute->Attribute.ValueCch);
}
// so much for the fixed length stuff; write the namespaces.
for (i=0; i<NamespaceCount; i++)
{
PWSTR psz = (PWSTR) Cursor;
Cursor = (PVOID) (((ULONG_PTR) psz) + (AssemblyIdentity->NamespacePointerArray[i]->NamespaceCch * sizeof(WCHAR)));
BytesWritten += (AssemblyIdentity->NamespacePointerArray[i]->NamespaceCch * sizeof(WCHAR));
memcpy(
psz,
AssemblyIdentity->NamespacePointerArray[i]->Namespace,
AssemblyIdentity->NamespacePointerArray[i]->NamespaceCch * sizeof(WCHAR));
}
// And the attributes...
for (i=0; i<AttributeCount; i++)
{
PCINTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE InternalAttribute = AssemblyIdentity->AttributePointerArray[i];
PWSTR psz;
psz = (PWSTR) Cursor;
Cursor = (PVOID) (((ULONG_PTR) psz) + (InternalAttribute->Attribute.NameCch * sizeof(WCHAR)));
BytesWritten += (InternalAttribute->Attribute.NameCch * sizeof(WCHAR));
memcpy(
psz,
InternalAttribute->Attribute.Name,
InternalAttribute->Attribute.NameCch * sizeof(WCHAR));
psz = (PWSTR) Cursor;
Cursor = (PVOID) (((ULONG_PTR) psz) + InternalAttribute->Attribute.ValueCch * sizeof(WCHAR));
BytesWritten += InternalAttribute->Attribute.ValueCch * sizeof(WCHAR);
memcpy(
psz,
InternalAttribute->Attribute.Value,
InternalAttribute->Attribute.ValueCch * sizeof(WCHAR));
}
if ((BytesWritten % 4) != 0) {
ASSERT((BytesWritten % 4) == sizeof(USHORT));
*((USHORT *) Cursor) = 0;
BytesWritten += sizeof(USHORT);
}
break;
case SXS_ASSEMBLY_IDENTITY_ENCODING_DEFAULTGROUP_TEXTUAL:
IFFALSE_EXIT(::SxspEncodeAssemblyIdentityTextually(0, AssemblyIdentity, BufferSize, Buffer, &BytesWritten));
break;
}
INTERNAL_ERROR_CHECK(BytesWritten == TotalSize);
if (BytesWrittenOrRequired != NULL)
*BytesWrittenOrRequired = BytesWritten;
fSuccess = TRUE;
Exit:
return fSuccess;
}
BOOL
SxsDecodeAssemblyIdentity(
ULONG Flags,
IN const GUID *EncodingGroup,
IN ULONG EncodingFormat,
IN SIZE_T BufferSize,
IN const VOID *Buffer,
OUT PASSEMBLY_IDENTITY *AssemblyIdentityOut
)
{
BOOL fSuccess = FALSE;
FN_TRACE_WIN32(fSuccess);
PCENCODED_ASSEMBLY_IDENTITY_HEADER EncodedAssemblyIdentityHeader = NULL;
PCENCODED_ASSEMBLY_IDENTITY_ATTRIBUTE_HEADER EncodedAssemblyIdentityAttributeHeader = NULL;
PCINTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE *AttributePointerArray = NULL;
PCASSEMBLY_IDENTITY_NAMESPACE *NamespacePointerArray = NULL;
PASSEMBLY_IDENTITY AssemblyIdentity = NULL;
ULONG AttributeCount = 0;
ULONG NamespaceCount = 0;
ULONG AttributeArraySize = 0;
ULONG NamespaceArraySize = 0;
ULONG i;
const ULONG *NamespaceLengthArray = NULL;
const ULONG *AttributeHashArray = NULL;
const WCHAR *UnicodeStringArray = NULL;
if (AssemblyIdentityOut != NULL)
*AssemblyIdentityOut = NULL;
if (((Flags & ~(SXS_DECODE_ASSEMBLY_IDENTITY_FLAG_FREEZE)) != 0) ||
(BufferSize < sizeof(ENCODED_ASSEMBLY_IDENTITY_HEADER)) ||
(Buffer == NULL) ||
(AssemblyIdentityOut == NULL)) {
::SetLastError(ERROR_INVALID_PARAMETER);
goto Exit;
}
if (EncodingGroup != NULL)
{
::SetLastError(ERROR_SXS_UNKNOWN_ENCODING_GROUP);
goto Exit;
}
if ((EncodingFormat != SXS_ASSEMBLY_IDENTITY_ENCODING_DEFAULTGROUP_BINARY) &&
(EncodingFormat != SXS_ASSEMBLY_IDENTITY_ENCODING_DEFAULTGROUP_TEXTUAL))
{
::SetLastError(ERROR_SXS_UNKNOWN_ENCODING);
goto Exit;
}
EncodedAssemblyIdentityHeader = (PCENCODED_ASSEMBLY_IDENTITY_HEADER) Buffer;
if ((EncodedAssemblyIdentityHeader->HeaderSize != sizeof(ENCODED_ASSEMBLY_IDENTITY_HEADER)) ||
(EncodedAssemblyIdentityHeader->Magic != ENCODED_ASSEMBLY_IDENTITY_HEADER_MAGIC) ||
(EncodedAssemblyIdentityHeader->TotalSize > BufferSize) ||
(EncodedAssemblyIdentityHeader->Flags != 0) ||
((EncodedAssemblyIdentityHeader->Type != ASSEMBLY_IDENTITY_TYPE_DEFINITION) &&
(EncodedAssemblyIdentityHeader->Type != ASSEMBLY_IDENTITY_TYPE_REFERENCE) &&
(EncodedAssemblyIdentityHeader->Type != ASSEMBLY_IDENTITY_TYPE_WILDCARD)) ||
(EncodedAssemblyIdentityHeader->EncodingFlags != 0) ||
(EncodedAssemblyIdentityHeader->ReservedMustBeZero1 != 0) ||
(EncodedAssemblyIdentityHeader->ReservedMustBeZero2 != 0) ||
(EncodedAssemblyIdentityHeader->ReservedMustBeZero3 != 0) ||
(EncodedAssemblyIdentityHeader->ReservedMustBeZero4 != 0)) {
::SetLastError(ERROR_INVALID_PARAMETER);
goto Exit;
}
IFALLOCFAILED_EXIT(AssemblyIdentity = new ASSEMBLY_IDENTITY);
NamespaceCount = EncodedAssemblyIdentityHeader->NamespaceCount;
if (Flags & SXS_DECODE_ASSEMBLY_IDENTITY_FLAG_FREEZE)
{
NamespaceArraySize = NamespaceCount;
}
else if (NamespaceCount == 0)
{
NamespaceArraySize = 8;
}
else
{
NamespaceArraySize = (NamespaceCount + 7) & ~7;
}
if (NamespaceArraySize != 0)
{
IFALLOCFAILED_EXIT(NamespacePointerArray = FUSION_NEW_ARRAY(PCASSEMBLY_IDENTITY_NAMESPACE, NamespaceArraySize));
for (i=0; i<NamespaceArraySize; i++)
NamespacePointerArray[i] = NULL;
}
AttributeCount = EncodedAssemblyIdentityHeader->AttributeCount;
if (Flags & SXS_DECODE_ASSEMBLY_IDENTITY_FLAG_FREEZE)
{
// If we're going to freeze, just perform an exact allocation.
AttributeArraySize = AttributeCount;
}
else if (AttributeCount == 0)
{
AttributeArraySize = 8;
}
else
{
AttributeArraySize = (AttributeCount + 7) & ~7;
}
if (AttributeArraySize != 0)
{
IFALLOCFAILED_EXIT(AttributePointerArray = FUSION_NEW_ARRAY(PCINTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE, AttributeArraySize));
for (i=0; i<AttributeArraySize; i++)
AttributePointerArray[i] = NULL;
}
AttributeHashArray = (const ULONG *) (EncodedAssemblyIdentityHeader + 1);
NamespaceLengthArray = (const ULONG *) (AttributeHashArray + AttributeCount);
EncodedAssemblyIdentityAttributeHeader = (PCENCODED_ASSEMBLY_IDENTITY_ATTRIBUTE_HEADER) (NamespaceLengthArray + NamespaceCount);
UnicodeStringArray = (const WCHAR *) (EncodedAssemblyIdentityAttributeHeader + AttributeCount);
// Start by building up those namespaces...
for (i=0; i<NamespaceCount; i++)
{
ULONG NamespaceHash = 0;
IFFALSE_EXIT(::FusionpHashUnicodeString(UnicodeStringArray, NamespaceLengthArray[i], &NamespaceHash, 0));
IFFALSE_EXIT(::SxspAllocateAssemblyIdentityNamespace(0, UnicodeStringArray, NamespaceLengthArray[i], NamespaceHash, &NamespacePointerArray[i]));
UnicodeStringArray += NamespaceLengthArray[i];
}
if (AttributeCount != 0)
{
// and now those attributes...
for (i=0; i<AttributeCount; i++)
{
const ULONG NamespaceIndex = EncodedAssemblyIdentityAttributeHeader[i].NamespaceIndex;
const ULONG NameCch = EncodedAssemblyIdentityAttributeHeader[i].NameCch;
const ULONG ValueCch = EncodedAssemblyIdentityAttributeHeader[i].ValueCch;
const WCHAR * const Name = UnicodeStringArray;
const WCHAR * const Value = &UnicodeStringArray[NameCch];
UnicodeStringArray = &Value[ValueCch];
IFFALSE_EXIT(
::SxspAllocateInternalAssemblyIdentityAttribute(
0,
NamespacePointerArray[NamespaceIndex],
Name,
NameCch,
Value,
ValueCch,
&AttributePointerArray[i]));
}
// sort 'em...
qsort((PVOID) AttributePointerArray, AttributeCount, sizeof(PINTERNAL_ASSEMBLY_IDENTITY_ATTRIBUTE), &SxspCompareInternalAttributesForQsort);
}
IFFALSE_EXIT(::SxspHashInternalAssemblyIdentityAttributes(0, AttributeCount, AttributePointerArray, &AssemblyIdentity->Hash));
AssemblyIdentity->Flags = 0;
AssemblyIdentity->Type = EncodedAssemblyIdentityHeader->Type;
AssemblyIdentity->InternalFlags = ASSEMBLY_IDENTITY_INTERNAL_FLAG_ATTRIBUTE_POINTERS_IN_SEPARATE_ALLOCATION | ASSEMBLY_IDENTITY_INTERNAL_FLAG_NAMESPACE_POINTERS_IN_SEPARATE_ALLOCATION;
AssemblyIdentity->AttributePointerArray = AttributePointerArray;
AssemblyIdentity->AttributeCount = AttributeCount;
AssemblyIdentity->AttributeArraySize = AttributeArraySize;
AssemblyIdentity->NamespacePointerArray = NamespacePointerArray;
AssemblyIdentity->NamespaceCount = NamespaceCount;
AssemblyIdentity->NamespaceArraySize = NamespaceArraySize;
AttributePointerArray = NULL;
NamespacePointerArray = NULL;
if (Flags & SXS_DECODE_ASSEMBLY_IDENTITY_FLAG_FREEZE)
AssemblyIdentity->Flags |= ASSEMBLY_IDENTITY_FLAG_FROZEN;
*AssemblyIdentityOut = AssemblyIdentity;
AssemblyIdentity = NULL;
fSuccess = TRUE;
Exit:
//
// REVIEW: Should this be an SxsDestroyAssemblyIdentity
//
if (AssemblyIdentity != NULL)
FUSION_DELETE_SINGLETON(AssemblyIdentity);
if ((AttributeCount != 0) && (AttributePointerArray != NULL))
{
for (i=0; i<AttributeCount; i++)
{
if (AttributePointerArray[i] != NULL)
{
::SxspDeallocateInternalAssemblyIdentityAttribute(AttributePointerArray[i]);
AttributePointerArray[i] = NULL;
}
}
FUSION_DELETE_ARRAY( AttributePointerArray );
}
if ((NamespaceCount != 0) && (NamespacePointerArray != NULL))
{
for (i=0; i<NamespaceCount; i++)
{
if (NamespacePointerArray[i] != NULL)
{
::SxspDeallocateAssemblyIdentityNamespace(NamespacePointerArray[i]);
NamespacePointerArray[i] = NULL;
}
}
FUSION_DELETE_ARRAY( NamespacePointerArray );
}
return fSuccess;
}