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// Copyright Epic Games, Inc. All Rights Reserved.
#include "frontend.h"
#include <zencore/endian.h>
#include <zencore/filesystem.h>
#include <zencore/string.h>
ZEN_THIRD_PARTY_INCLUDES_START
#if ZEN_PLATFORM_WINDOWS
# include <Windows.h>
#endif
ZEN_THIRD_PARTY_INCLUDES_END
namespace zen {
//////////////////////////////////////////////////////////////////////////
static IoBuffer
FindZipFsInBinary(const IoBuffer& BinBuffer)
{
if (BinBuffer.GetSize() < 4)
{
return {};
}
uintptr_t Cursor = uintptr_t(BinBuffer.GetData());
size_t BinSize = 0;
uint32_t Magic = *(uint32_t*)(Cursor);
#if ZEN_PLATFORM_LINUX
if (Magic == 0x464c457f)
{
struct Elf64Header
{
char Ident[16];
uint16_t Type;
uint16_t Machine;
uint32_t Version;
uint64_t Entry;
uint64_t ProgHeaderOffset;
uint64_t SectionHeaderOffset;
uint32_t Flags;
uint16_t EhSize;
uint16_t ProgHeaderEntrySize;
uint16_t ProgHeaderCount;
uint16_t SectionHeaderEntrySize;
uint16_t SectionHeaderCount;
uint16_t SectionStringIndex;
};
struct SectionHeader
{
uint32_t NameIndex;
uint32_t Type;
uint64_t Flags;
uint64_t Address;
uint64_t Offset;
uint64_t Size;
uint64_t _Other[3];
};
const auto* Elf = (Elf64Header*)Cursor;
if (Elf->Ident[4] != 0x02) // Elf64
{
return {};
}
const auto* Section = (SectionHeader*)(Cursor + Elf->SectionHeaderOffset);
/*
size_t BinSize = 0;
for (int i = 0, n = Elf->SectionHeaderCount; i < n; ++i, ++Section)
{
uint32_t SectionEnd = Section->Offset + Section->Size;
BinSize = (SectionEnd > BinSize) ? SectionEnd : BinSize;
}
*/
// What if the section headers aren't the last thing in the fiile though?
BinSize = Elf->SectionHeaderEntrySize;
BinSize *= Elf->SectionHeaderCount;
BinSize += Elf->SectionHeaderOffset;
}
#elif ZEN_PLATFORM_WINDOWS
if ((Magic & 0xffff) == 0x5a4d)
{
const auto* Dos = (IMAGE_DOS_HEADER*)Cursor;
const auto* Nt = (IMAGE_NT_HEADERS64*)(Cursor + Dos->e_lfanew);
const auto* Section = (IMAGE_SECTION_HEADER*)(uintptr_t(&Nt->OptionalHeader) + Nt->FileHeader.SizeOfOptionalHeader);
for (int i = 0, n = Nt->FileHeader.NumberOfSections; i < n; ++i, ++Section)
{
uint32_t SectionEnd = Section->PointerToRawData + Section->SizeOfRawData;
BinSize = (SectionEnd > BinSize) ? SectionEnd : BinSize;
}
}
#elif ZEN_PLATFORM_MAC
if (Magic == 0xbebafeca)
{
struct MachInt32
{
operator uint32_t() const { return ByteSwap(Value); }
uint32_t Value;
};
struct MachFatArch
{
MachInt32 CpuType;
MachInt32 SubType;
MachInt32 Offset;
MachInt32 Size;
MachInt32 Alignment;
};
struct MachFatHeader
{
uint32_t Magic;
MachInt32 NumArchs;
MachFatArch Archs[];
};
const auto* Header = (MachFatHeader*)Cursor;
for (int i = 0, n = Header->NumArchs; i < n; ++i)
{
const MachFatArch* Arch = Header->Archs + i;
uint32_t ArchEnd = Arch->Offset + Arch->Size;
BinSize = (ArchEnd > BinSize) ? ArchEnd : BinSize;
}
}
#endif // win/linux/mac
if (!BinSize || BinSize > BinBuffer.GetSize())
{
return {};
}
size_t ZipFsSize = BinBuffer.Size() - BinSize;
if (!ZipFsSize)
{
return {};
}
return IoBuffer(BinBuffer, BinSize);
}
////////////////////////////////////////////////////////////////////////////////
HttpFrontendService::HttpFrontendService(std::filesystem::path Directory) : m_Directory(Directory)
{
std::filesystem::path SelfPath = GetRunningExecutablePath();
// Locate a .zip file appended onto the end of this binary
IoBuffer SelfBuffer = IoBufferBuilder::MakeFromFile(SelfPath);
IoBuffer SelfTailBuffer = FindZipFsInBinary(SelfBuffer);
if (SelfTailBuffer)
{
m_ZipFs = ZipFs(std::move(SelfTailBuffer));
}
#if ZEN_BUILD_DEBUG
if (!Directory.empty())
{
return;
}
std::error_code ErrorCode;
auto Path = SelfPath;
while (Path.has_parent_path())
{
auto ParentPath = Path.parent_path();
if (ParentPath == Path)
{
break;
}
if (std::filesystem::is_regular_file(ParentPath / "xmake.lua", ErrorCode))
{
if (ErrorCode)
{
break;
}
auto HtmlDir = ParentPath / "zenserver" / "frontend" / "html";
if (std::filesystem::is_directory(HtmlDir, ErrorCode))
{
m_Directory = HtmlDir;
}
break;
}
Path = ParentPath;
};
#endif
}
////////////////////////////////////////////////////////////////////////////////
HttpFrontendService::~HttpFrontendService()
{
}
////////////////////////////////////////////////////////////////////////////////
const char*
HttpFrontendService::BaseUri() const
{
return "/dashboard"; // in order to use the root path we need to remove HttpAddUrlToUrlGroup in HttpSys.cpp
}
////////////////////////////////////////////////////////////////////////////////
void
HttpFrontendService::HandleRequest(zen::HttpServerRequest& Request)
{
using namespace std::literals;
std::string_view Uri = Request.RelativeUri();
for (; Uri[0] == '/'; Uri = Uri.substr(1))
;
if (Uri.empty())
{
Uri = "index.html"sv;
}
// Dismiss if the URI contains .. anywhere to prevent arbitrary file reads
if (Uri.find("..") != Uri.npos)
{
return Request.WriteResponse(HttpResponseCode::Forbidden);
}
// Map the file extension to a MIME type. To keep things constrained, only a
// small subset of file extensions is allowed
HttpContentType ContentType = HttpContentType::kUnknownContentType;
if (const size_t DotIndex = Uri.rfind("."); DotIndex != Uri.npos)
{
const std::string_view DotExt = Uri.substr(DotIndex + 1);
ContentType = ParseContentType(DotExt);
}
if (ContentType == HttpContentType::kUnknownContentType)
{
return Request.WriteResponse(HttpResponseCode::Forbidden);
}
// The given content directory overrides any zip-fs discovered in the binary
if (!m_Directory.empty())
{
FileContents File = ReadFile(m_Directory / Uri);
if (!File.ErrorCode)
{
return Request.WriteResponse(HttpResponseCode::OK, ContentType, File.Data[0]);
}
}
if (IoBuffer FileBuffer = m_ZipFs.GetFile(Uri))
{
return Request.WriteResponse(HttpResponseCode::OK, ContentType, FileBuffer);
}
Request.WriteResponse(HttpResponseCode::NotFound, HttpContentType::kText, "Not found"sv);
}
} // namespace zen
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