nstool/lib/nx/AciHeader.h

133 lines
3.3 KiB
C++

#pragma once
#include <string>
#include <fnd/types.h>
#include <fnd/memory_blob.h>
#include <nx/ISerialiseableBinary.h>
namespace nx
{
class AciHeader : public ISerialiseableBinary
{
public:
enum AciType
{
TYPE_ACI0, // for Access Control Info
TYPE_ACID // for Access Control Info Desc
};
struct sSection
{
size_t offset;
size_t size;
void operator=(const sSection& other)
{
offset = other.offset;
size = other.size;
}
bool operator==(const sSection& other) const
{
return (offset == other.offset) \
&& (size == other.size);
}
bool operator!=(const sSection& other) const
{
return !operator==(other);
}
};
AciHeader();
AciHeader(const AciHeader& other);
AciHeader(const u8* bytes);
bool operator==(const AciHeader& other) const;
bool operator!=(const AciHeader& other) const;
void operator=(const AciHeader& other);
// to be used after export
const u8* getBytes() const;
size_t getSize() const;
// export/import binary
void exportBinary();
void importBinary(const u8* bytes);
void importBinary(const u8* bytes, size_t len);
// variables
AciType getAciType() const;
void setAciType(AciType type);
u64 getProgramId() const;
void setProgramId(u64 program_id);
const sSection& getFileAccessControl() const;
void setFileAccessControl(u32 size);
const sSection& getServiceAccessControl() const;
void setServiceAccessControl(u32 size);
const sSection& getKernelCapabilities() const;
void setKernelCapabilities(u32 size);
private:
const std::string kModuleName = "ACI_HEADER";
const std::string kAciStructSig = "ACI0";
const std::string kAciDescStructSig = "ACID";
static const size_t kAciAlignSize = 0x10;
#pragma pack(push, 1)
struct sAciHeader
{
private:
u8 signature_[4];
u32 size_; // includes prefacing signature, set only in ACID since it is signed
u8 reserved_1[8];
u64 program_id_; // set only in ACI0 (since ACID is generic)
u8 reserved_2[8];
struct sAciSection
{
private:
u32 offset_; // aligned by 0x10 from the last one
u32 size_;
public:
u32 offset() const { return le_word(offset_); }
void set_offset(u32 offset) { offset_ = le_word(offset); }
u32 size() const { return le_word(size_); }
void set_size(u32 size) { size_ = le_word(size); }
} fac_, sac_, kc_;
u8 reserved_3[8];
public:
const char* signature() const { return (const char*)signature_; }
void set_signature(const char* signature) { memcpy(signature_, signature, 4); }
u32 size() const { return le_word(size_); }
void set_size(u32 size) { size_ = le_word(size); }
u64 program_id() const { return le_dword(program_id_); }
void set_program_id(u64 program_id) { program_id_ = le_dword(program_id); }
const sAciSection& fac() const { return fac_; }
sAciSection& fac() { return fac_; }
const sAciSection& sac() const { return sac_; }
sAciSection& sac() { return sac_; }
const sAciSection& kc() const { return kc_; }
sAciSection& kc() { return kc_; }
};
#pragma pack(pop)
// raw data
fnd::MemoryBlob mBinaryBlob;
// variables
AciType mType;
u64 mProgramId;
sSection mFac, mSac, mKc;
void clearVariables();
void calculateSectionOffsets();
bool isEqual(const AciHeader& other) const;
void copyFrom(const AciHeader& other);
};
}