Merge pull request #45 from jakcron/nstool-cleanup

NSTool cleanup
This commit is contained in:
Jack 2018-08-15 17:11:25 +08:00 committed by GitHub
commit 740bbb0f16
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GPG key ID: 4AEE18F83AFDEB23
23 changed files with 1906 additions and 1301 deletions

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@ -1,4 +1,5 @@
#pragma once #pragma once
#include <string>
#include <fnd/types.h> #include <fnd/types.h>
namespace fnd namespace fnd
@ -10,6 +11,7 @@ namespace fnd
static void hxdStyleDump(const byte_t* data, size_t len); static void hxdStyleDump(const byte_t* data, size_t len);
static void hexDump(const byte_t* data, size_t len, size_t row_len, size_t indent_len); static void hexDump(const byte_t* data, size_t len, size_t row_len, size_t indent_len);
static void hexDump(const byte_t* data, size_t len); static void hexDump(const byte_t* data, size_t len);
static std::string arrayToString(const byte_t* data, size_t len, bool upper_case, const std::string& separator);
private: private:
static const size_t kDefaultRowLen = 0x10; static const size_t kDefaultRowLen = 0x10;
static const size_t kDefaultByteGroupingSize = 1; static const size_t kDefaultByteGroupingSize = 1;

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@ -21,8 +21,8 @@ namespace fnd
void operator=(const sEcdsa240Point& other) void operator=(const sEcdsa240Point& other)
{ {
memcpy(this->r, r, kEcdsa240Size); memcpy(this->r, other.r, kEcdsa240Size);
memcpy(this->s, s, kEcdsa240Size); memcpy(this->s, other.s, kEcdsa240Size);
} }
bool operator==(const sEcdsa240Point& other) const bool operator==(const sEcdsa240Point& other) const

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@ -1,5 +1,8 @@
#include <fnd/SimpleTextOutput.h> #include <iostream>
#include <iomanip>
#include <sstream>
#include <cstdio> #include <cstdio>
#include <fnd/SimpleTextOutput.h>
void fnd::SimpleTextOutput::hxdStyleDump(const byte_t* data, size_t len, size_t row_len, size_t byte_grouping_size) void fnd::SimpleTextOutput::hxdStyleDump(const byte_t* data, size_t len, size_t row_len, size_t byte_grouping_size)
{ {
@ -58,31 +61,30 @@ void fnd::SimpleTextOutput::hxdStyleDump(const byte_t* data, size_t len)
void fnd::SimpleTextOutput::hexDump(const byte_t* data, size_t len, size_t row_len, size_t indent_len) void fnd::SimpleTextOutput::hexDump(const byte_t* data, size_t len, size_t row_len, size_t indent_len)
{ {
for (size_t i = 0; i < len; i++) for (size_t i = 0; i < len; i += row_len)
{ {
if ((i % row_len) == 0)
{
if (i > 0)
putchar('\n');
for (size_t j = 0; j < indent_len; j++) for (size_t j = 0; j < indent_len; j++)
{ std::cout << " ";
putchar(' '); std::cout << arrayToString(data+i, _MIN(len-i, row_len), true, "") << std::endl;
}
}
printf("%02X", data[i]);
if ((i+1) >= len)
{
putchar('\n');
}
} }
} }
void fnd::SimpleTextOutput::hexDump(const byte_t* data, size_t len) void fnd::SimpleTextOutput::hexDump(const byte_t* data, size_t len)
{ {
std::cout << arrayToString(data, len, true, "") << std::endl;
}
std::string fnd::SimpleTextOutput::arrayToString(const byte_t* data, size_t len, bool upper_case, const std::string& separator)
{
std::stringstream ss;
if (upper_case)
ss << std::uppercase;
for (size_t i = 0; i < len; i++) for (size_t i = 0; i < len; i++)
{ {
printf("%02X", data[i]); ss << std::hex << std::setw(2) << std::setfill('0') << (uint32_t)data[i];
if (i+1 < len)
ss << separator;
} }
putchar('\n'); return ss.str();
} }

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@ -1,3 +1,5 @@
#include <iostream>
#include <iomanip>
#include <fnd/SimpleFile.h> #include <fnd/SimpleFile.h>
#include <fnd/Vec.h> #include <fnd/Vec.h>
#include "AssetProcess.h" #include "AssetProcess.h"
@ -23,11 +25,6 @@ AssetProcess::~AssetProcess()
void AssetProcess::process() void AssetProcess::process()
{ {
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
importHeader(); importHeader();
if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC)) if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC))
displayHeader(); displayHeader();
@ -74,6 +71,12 @@ void AssetProcess::setRomfsExtractPath(const std::string& path)
void AssetProcess::importHeader() void AssetProcess::importHeader()
{ {
fnd::Vec<byte_t> scratch; fnd::Vec<byte_t> scratch;
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
if (mFile->size() < sizeof(nn::hac::sAssetHeader)) if (mFile->size() < sizeof(nn::hac::sAssetHeader))
{ {
throw fnd::Exception(kModuleName, "Corrupt ASET: file too small"); throw fnd::Exception(kModuleName, "Corrupt ASET: file too small");
@ -141,16 +144,16 @@ void AssetProcess::displayHeader()
{ {
if (_HAS_BIT(mCliOutputMode, OUTPUT_LAYOUT)) if (_HAS_BIT(mCliOutputMode, OUTPUT_LAYOUT))
{ {
printf("[ASET Header]\n"); std::cout << "[ASET Header]" << std::endl;
printf(" Icon:\n"); std::cout << " Icon:" << std::endl;
printf(" Offset: 0x%" PRIx64 "\n", mHdr.getIconInfo().offset); std::cout << " Offset: 0x" << std::hex << mHdr.getIconInfo().offset << std::endl;
printf(" Size: 0x%" PRIx64 "\n", mHdr.getIconInfo().size); std::cout << " Size: 0x" << std::hex << mHdr.getIconInfo().size << std::endl;
printf(" NACP:\n"); std::cout << " NACP:" << std::endl;
printf(" Offset: 0x%" PRIx64 "\n", mHdr.getNacpInfo().offset); std::cout << " Offset: 0x" << std::hex << mHdr.getNacpInfo().offset << std::endl;
printf(" Size: 0x%" PRIx64 "\n", mHdr.getNacpInfo().size); std::cout << " Size: 0x" << std::hex << mHdr.getNacpInfo().size << std::endl;
printf(" RomFS:\n"); std::cout << " RomFS:" << std::endl;
printf(" Offset: 0x%" PRIx64 "\n", mHdr.getRomfsInfo().offset); std::cout << " Offset: 0x" << std::hex << mHdr.getRomfsInfo().offset << std::endl;
printf(" Size: 0x%" PRIx64 "\n", mHdr.getRomfsInfo().size); std::cout << " Size: 0x" << std::hex << mHdr.getRomfsInfo().size << std::endl;
} }
} }

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@ -1,146 +1,9 @@
#include <iostream>
#include <iomanip>
#include <fnd/SimpleTextOutput.h> #include <fnd/SimpleTextOutput.h>
#include "OffsetAdjustedIFile.h" #include "OffsetAdjustedIFile.h"
#include "CnmtProcess.h" #include "CnmtProcess.h"
const std::string kContentTypeStr[7] =
{
"Meta",
"Program",
"Data",
"Control",
"HtmlDocument",
"LegalInformation",
"DeltaFragment"
};
const std::string kContentMetaTypeStr[2][0x80] =
{
{
"",
"SystemProgram",
"SystemData",
"SystemUpdate",
"BootImagePackage",
"BootImagePackageSafe"
},
{
"Application",
"Patch",
"AddOnContent",
"Delta"
}
};
const std::string kUpdateTypeStr[3] =
{
"ApplyAsDelta",
"Overwrite",
"Create"
};
const std::string kContentMetaAttrStr[3] =
{
"IncludesExFatDriver",
"Rebootless"
};
std::string kUnknownStr = "Unknown";
inline const char* getBoolStr(bool isTrue)
{
return isTrue? "TRUE" : "FALSE";
}
inline const char* getContentTypeStr(byte_t i)
{
return i < 7 ? kContentTypeStr[i].c_str() : kUnknownStr.c_str();
}
inline const char* getContentMetaTypeStr(byte_t i)
{
return (i < 0x80) ? kContentMetaTypeStr[0][i].c_str() : kContentMetaTypeStr[1][i - 0x80].c_str();
}
void CnmtProcess::displayCmnt()
{
#define _SPLIT_VER(ver) ( (ver>>26) & 0x3f), ( (ver>>20) & 0x3f), ( (ver>>16) & 0xf), (ver & 0xffff)
#define _HEXDUMP_U(var, len) do { for (size_t a__a__A = 0; a__a__A < len; a__a__A++) printf("%02X", var[a__a__A]); } while(0)
#define _HEXDUMP_L(var, len) do { for (size_t a__a__A = 0; a__a__A < len; a__a__A++) printf("%02x", var[a__a__A]); } while(0)
printf("[ContentMeta]\n");
printf(" TitleId: 0x%016" PRIx64 "\n", (uint64_t)mCnmt.getTitleId());
printf(" Version: v%" PRId32 " (%d.%d.%d.%d)\n", (uint32_t)mCnmt.getTitleVersion(), _SPLIT_VER(mCnmt.getTitleVersion()));
printf(" Type: %s (%d)\n", getContentMetaTypeStr(mCnmt.getType()), mCnmt.getType());
printf(" Attributes: %x\n", mCnmt.getAttributes());
printf(" IncludesExFatDriver: %s\n", getBoolStr(_HAS_BIT(mCnmt.getAttributes(), nn::hac::cnmt::ATTRIBUTE_INCLUDES_EX_FAT_DRIVER)));
printf(" Rebootless: %s\n", getBoolStr(_HAS_BIT(mCnmt.getAttributes(), nn::hac::cnmt::ATTRIBUTE_REBOOTLESS)));
printf(" RequiredDownloadSystemVersion: v%" PRId32 " (%d.%d.%d.%d)\n", (uint32_t)mCnmt.getRequiredDownloadSystemVersion(), _SPLIT_VER(mCnmt.getRequiredDownloadSystemVersion()));
switch(mCnmt.getType())
{
case (nn::hac::cnmt::METATYPE_APPLICATION):
printf(" ApplicationExtendedHeader:\n");
printf(" RequiredSystemVersion: v%" PRId32 " (%d.%d.%d.%d)\n", (uint32_t)mCnmt.getApplicationMetaExtendedHeader().required_system_version, _SPLIT_VER(mCnmt.getApplicationMetaExtendedHeader().required_system_version));
printf(" PatchId: 0x%016" PRIx64 "\n", (uint64_t)mCnmt.getApplicationMetaExtendedHeader().patch_id);
break;
case (nn::hac::cnmt::METATYPE_PATCH):
printf(" PatchMetaExtendedHeader:\n");
printf(" RequiredSystemVersion: v%" PRId32 " (%d.%d.%d.%d))\n", (uint32_t)mCnmt.getPatchMetaExtendedHeader().required_system_version, _SPLIT_VER(mCnmt.getPatchMetaExtendedHeader().required_system_version));
printf(" ApplicationId: 0x%016" PRIx64 "\n", (uint64_t)mCnmt.getPatchMetaExtendedHeader().application_id);
break;
case (nn::hac::cnmt::METATYPE_ADD_ON_CONTENT):
printf(" AddOnContentMetaExtendedHeader:\n");
printf(" RequiredSystemVersion: v%" PRId32 " (%d.%d.%d.%d)\n", (uint32_t)mCnmt.getAddOnContentMetaExtendedHeader().required_system_version, _SPLIT_VER(mCnmt.getAddOnContentMetaExtendedHeader().required_system_version));
printf(" ApplicationId: 0x%016" PRIx64 "\n", (uint64_t)mCnmt.getAddOnContentMetaExtendedHeader().application_id);
break;
case (nn::hac::cnmt::METATYPE_DELTA):
printf(" DeltaMetaExtendedHeader:\n");
printf(" ApplicationId: 0x%016" PRIx64 "\n", (uint64_t)mCnmt.getDeltaMetaExtendedHeader().application_id);
break;
default:
break;
}
if (mCnmt.getContentInfo().size() > 0)
{
printf(" ContentInfo:\n");
for (size_t i = 0; i < mCnmt.getContentInfo().size(); i++)
{
const nn::hac::ContentMetaBinary::ContentInfo& info = mCnmt.getContentInfo()[i];
printf(" %d\n", (int)i);
printf(" Type: %s (%d)\n", getContentTypeStr(info.type), info.type);
printf(" Id: ");
_HEXDUMP_L(info.nca_id, nn::hac::cnmt::kContentIdLen);
printf("\n");
printf(" Size: 0x%" PRIx64 "\n", (uint64_t)info.size);
printf(" Hash: ");
_HEXDUMP_L(info.hash.bytes, sizeof(info.hash));
printf("\n");
}
}
if (mCnmt.getContentMetaInfo().size() > 0)
{
printf(" ContentMetaInfo:\n");
for (size_t i = 0; i < mCnmt.getContentMetaInfo().size(); i++)
{
const nn::hac::ContentMetaBinary::ContentMetaInfo& info = mCnmt.getContentMetaInfo()[i];
printf(" %d\n", (int)i);
printf(" Id: 0x%016" PRIx64 "\n", (uint64_t)info.id);
printf(" Version: v%" PRId32 " (%d.%d.%d.%d)\n", (uint32_t)info.version, _SPLIT_VER(info.version));
printf(" Type: %s (%d)\n", getContentMetaTypeStr(info.type), info.type);
printf(" Attributes: %x\n", mCnmt.getAttributes());
printf(" IncludesExFatDriver: %s\n", getBoolStr(_HAS_BIT(mCnmt.getAttributes(), nn::hac::cnmt::ATTRIBUTE_INCLUDES_EX_FAT_DRIVER)));
printf(" Rebootless: %s\n", getBoolStr(_HAS_BIT(mCnmt.getAttributes(), nn::hac::cnmt::ATTRIBUTE_REBOOTLESS)));
}
}
printf(" Digest: ");
_HEXDUMP_L(mCnmt.getDigest().data, nn::hac::cnmt::kDigestLen);
printf("\n");
#undef _HEXDUMP_L
#undef _HEXDUMP_U
#undef _SPLIT_VER
}
CnmtProcess::CnmtProcess() : CnmtProcess::CnmtProcess() :
mFile(nullptr), mFile(nullptr),
mOwnIFile(false), mOwnIFile(false),
@ -159,20 +22,10 @@ CnmtProcess::~CnmtProcess()
void CnmtProcess::process() void CnmtProcess::process()
{ {
fnd::Vec<byte_t> scratch; importCnmt();
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
scratch.alloc(mFile->size());
mFile->read(scratch.data(), 0, scratch.size());
mCnmt.fromBytes(scratch.data(), scratch.size());
if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC)) if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC))
displayCmnt(); displayCnmt();
} }
void CnmtProcess::setInputFile(fnd::IFile* file, bool ownIFile) void CnmtProcess::setInputFile(fnd::IFile* file, bool ownIFile)
@ -195,3 +48,212 @@ const nn::hac::ContentMetaBinary& CnmtProcess::getContentMetaBinary() const
{ {
return mCnmt; return mCnmt;
} }
void CnmtProcess::importCnmt()
{
fnd::Vec<byte_t> scratch;
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
scratch.alloc(mFile->size());
mFile->read(scratch.data(), 0, scratch.size());
mCnmt.fromBytes(scratch.data(), scratch.size());
}
void CnmtProcess::displayCnmt()
{
#define _SPLIT_VER(ver) (uint32_t)((ver>>26) & 0x3f) << "." << (uint32_t)((ver>>20) & 0x3f) << "." << (uint32_t)((ver>>16) & 0xf) << "." << (uint32_t)(ver & 0xffff)
std::cout << "[ContentMeta]" << std::endl;
std::cout << " TitleId: 0x" << std::hex << std::setw(16) << std::setfill('0') << mCnmt.getTitleId() << std::endl;
std::cout << " Version: v" << std::dec << mCnmt.getTitleVersion() << " (" << _SPLIT_VER(mCnmt.getTitleVersion()) << ")"<< std::endl;
std::cout << " Type: " << getContentMetaTypeStr(mCnmt.getType()) << " (" << std::dec << mCnmt.getType() << ")" << std::endl;
std::cout << " Attributes: 0x" << std::hex << (uint32_t)mCnmt.getAttributes() << std::endl;
std::cout << " IncludesExFatDriver: " << getBoolStr(_HAS_BIT(mCnmt.getAttributes(), nn::hac::cnmt::ATTRIBUTE_INCLUDES_EX_FAT_DRIVER)) << std::endl;
std::cout << " Rebootless: " << getBoolStr(_HAS_BIT(mCnmt.getAttributes(), nn::hac::cnmt::ATTRIBUTE_REBOOTLESS)) << std::endl;
std::cout << " RequiredDownloadSystemVersion: v" << mCnmt.getRequiredDownloadSystemVersion() << " (" << _SPLIT_VER(mCnmt.getRequiredDownloadSystemVersion()) << ")"<< std::endl;
switch(mCnmt.getType())
{
case (nn::hac::cnmt::METATYPE_APPLICATION):
std::cout << " ApplicationExtendedHeader:" << std::endl;
std::cout << " RequiredSystemVersion: v" << std::dec << mCnmt.getApplicationMetaExtendedHeader().required_system_version << " (" << _SPLIT_VER(mCnmt.getApplicationMetaExtendedHeader().required_system_version) << ")"<< std::endl;
std::cout << " PatchId: 0x" << std::hex << std::setw(16) << std::setfill('0') << mCnmt.getApplicationMetaExtendedHeader().patch_id << std::endl;
break;
case (nn::hac::cnmt::METATYPE_PATCH):
std::cout << " PatchMetaExtendedHeader:" << std::endl;
std::cout << " RequiredSystemVersion: v" << std::dec << mCnmt.getPatchMetaExtendedHeader().required_system_version << " (" << _SPLIT_VER(mCnmt.getPatchMetaExtendedHeader().required_system_version) << ")"<< std::endl;
std::cout << " ApplicationId: 0x" << std::hex << std::setw(16) << std::setfill('0') << mCnmt.getPatchMetaExtendedHeader().application_id << std::endl;
break;
case (nn::hac::cnmt::METATYPE_ADD_ON_CONTENT):
std::cout << " AddOnContentMetaExtendedHeader:" << std::endl;
std::cout << " RequiredSystemVersion: v" << std::dec << mCnmt.getAddOnContentMetaExtendedHeader().required_system_version << " (" << _SPLIT_VER(mCnmt.getAddOnContentMetaExtendedHeader().required_system_version) << ")"<< std::endl;
std::cout << " ApplicationId: 0x" << std::hex << std::setw(16) << std::setfill('0') << mCnmt.getAddOnContentMetaExtendedHeader().application_id << std::endl;
break;
case (nn::hac::cnmt::METATYPE_DELTA):
std::cout << " DeltaMetaExtendedHeader:" << std::endl;
std::cout << " ApplicationId: 0x" << std::hex << std::setw(16) << std::setfill('0') << mCnmt.getDeltaMetaExtendedHeader().application_id << std::endl;
break;
default:
break;
}
if (mCnmt.getContentInfo().size() > 0)
{
printf(" ContentInfo:\n");
for (size_t i = 0; i < mCnmt.getContentInfo().size(); i++)
{
const nn::hac::ContentMetaBinary::ContentInfo& info = mCnmt.getContentInfo()[i];
std::cout << " " << std::dec << i << std::endl;
std::cout << " Type: " << getContentTypeStr(info.type) << " (" << std::dec << info.type << ")" << std::endl;
std::cout << " Id: " << fnd::SimpleTextOutput::arrayToString(info.nca_id, nn::hac::cnmt::kContentIdLen, false, "") << std::endl;
std::cout << " Size: 0x" << std::hex << info.size << std::endl;
std::cout << " Hash: " << fnd::SimpleTextOutput::arrayToString(info.hash.bytes, sizeof(info.hash), false, "") << std::endl;
}
}
if (mCnmt.getContentMetaInfo().size() > 0)
{
std::cout << " ContentMetaInfo:" << std::endl;
for (size_t i = 0; i < mCnmt.getContentMetaInfo().size(); i++)
{
const nn::hac::ContentMetaBinary::ContentMetaInfo& info = mCnmt.getContentMetaInfo()[i];
std::cout << " " << std::dec << i << std::endl;
std::cout << " Id: 0x" << std::hex << std::setw(16) << std::setfill('0') << info.id << std::endl;
std::cout << " Version: v" << std::dec << info.version << " (" << _SPLIT_VER(info.version) << ")"<< std::endl;
std::cout << " Type: " << getContentMetaTypeStr(info.type) << " (" << std::dec << info.type << ")" << std::endl;
std::cout << " Attributes: 0x" << std::hex << (uint32_t)info.attributes << std::endl;
std::cout << " IncludesExFatDriver: " << getBoolStr(_HAS_BIT(info.attributes, nn::hac::cnmt::ATTRIBUTE_INCLUDES_EX_FAT_DRIVER)) << std::endl;
std::cout << " Rebootless: " << getBoolStr(_HAS_BIT(info.attributes, nn::hac::cnmt::ATTRIBUTE_REBOOTLESS)) << std::endl;
}
}
std::cout << " Digest: " << fnd::SimpleTextOutput::arrayToString(mCnmt.getDigest().data, nn::hac::cnmt::kDigestLen, false, "") << std::endl;
#undef _SPLIT_VER
}
const char* CnmtProcess::getBoolStr(bool state) const
{
return state? "TRUE" : "FALSE";
}
const char* CnmtProcess::getContentTypeStr(nn::hac::cnmt::ContentType type) const
{
const char* str = nullptr;
switch (type)
{
case (nn::hac::cnmt::TYPE_META):
str = "Meta";
break;
case (nn::hac::cnmt::TYPE_PROGRAM):
str = "Program";
break;
case (nn::hac::cnmt::TYPE_DATA):
str = "Data";
break;
case (nn::hac::cnmt::TYPE_CONTROL):
str = "Control";
break;
case (nn::hac::cnmt::TYPE_HTML_DOCUMENT):
str = "HtmlDocument";
break;
case (nn::hac::cnmt::TYPE_LEGAL_INFORMATION):
str = "LegalInformation";
break;
case (nn::hac::cnmt::TYPE_DELTA_FRAGMENT):
str = "DeltaFragment";
break;
default:
str = "Unknown";
break;
}
return str;
}
const char* CnmtProcess::getContentMetaTypeStr(nn::hac::cnmt::ContentMetaType type) const
{
const char* str = nullptr;
switch (type)
{
case (nn::hac::cnmt::METATYPE_SYSTEM_PROGRAM):
str = "SystemProgram";
break;
case (nn::hac::cnmt::METATYPE_SYSTEM_DATA):
str = "SystemData";
break;
case (nn::hac::cnmt::METATYPE_SYSTEM_UPDATE):
str = "SystemUpdate";
break;
case (nn::hac::cnmt::METATYPE_BOOT_IMAGE_PACKAGE):
str = "BootImagePackage";
break;
case (nn::hac::cnmt::METATYPE_BOOT_IMAGE_PACKAGE_SAFE):
str = "BootImagePackageSafe";
break;
case (nn::hac::cnmt::METATYPE_APPLICATION):
str = "Application";
break;
case (nn::hac::cnmt::METATYPE_PATCH):
str = "Patch";
break;
case (nn::hac::cnmt::METATYPE_ADD_ON_CONTENT):
str = "AddOnContent";
break;
case (nn::hac::cnmt::METATYPE_DELTA):
str = "Delta";
break;
default:
str = "Unknown";
break;
}
return str;
}
const char* CnmtProcess::getUpdateTypeStr(nn::hac::cnmt::UpdateType type) const
{
const char* str = nullptr;
switch (type)
{
case (nn::hac::cnmt::UPDATETYPE_APPLY_AS_DELTA):
str = "ApplyAsDelta";
break;
case (nn::hac::cnmt::UPDATETYPE_OVERWRITE):
str = "Overwrite";
break;
case (nn::hac::cnmt::UPDATETYPE_CREATE):
str = "Create";
break;
default:
str = "Unknown";
break;
}
return str;
}
const char* CnmtProcess::getContentMetaAttrStr(nn::hac::cnmt::ContentMetaAttribute attr) const
{
const char* str = nullptr;
switch (attr)
{
case (nn::hac::cnmt::ATTRIBUTE_INCLUDES_EX_FAT_DRIVER):
str = "IncludesExFatDriver";
break;
case (nn::hac::cnmt::ATTRIBUTE_REBOOTLESS):
str = "Rebootless";
break;
default:
str = "Unknown";
break;
}
return str;
}

View file

@ -30,5 +30,12 @@ private:
nn::hac::ContentMetaBinary mCnmt; nn::hac::ContentMetaBinary mCnmt;
void displayCmnt(); void importCnmt();
void displayCnmt();
const char* getBoolStr(bool state) const;
const char* getContentTypeStr(nn::hac::cnmt::ContentType type) const;
const char* getContentMetaTypeStr(nn::hac::cnmt::ContentMetaType type) const;
const char* getUpdateTypeStr(nn::hac::cnmt::UpdateType type) const;
const char* getContentMetaAttrStr(nn::hac::cnmt::ContentMetaAttribute attr) const;
}; };

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@ -1,6 +1,5 @@
#include <iostream> #include <iostream>
#include <iomanip> #include <iomanip>
#include <fnd/SimpleTextOutput.h> #include <fnd/SimpleTextOutput.h>
#include <nn/pki/SignUtils.h> #include <nn/pki/SignUtils.h>
#include "OffsetAdjustedIFile.h" #include "OffsetAdjustedIFile.h"
@ -64,12 +63,14 @@ void EsTikProcess::setVerifyMode(bool verify)
void EsTikProcess::importTicket() void EsTikProcess::importTicket()
{ {
fnd::Vec<byte_t> scratch;
if (mFile == nullptr) if (mFile == nullptr)
{ {
throw fnd::Exception(kModuleName, "No file reader set."); throw fnd::Exception(kModuleName, "No file reader set.");
} }
fnd::Vec<byte_t> scratch;
scratch.alloc(mFile->size()); scratch.alloc(mFile->size());
mFile->read(scratch.data(), 0, scratch.size()); mFile->read(scratch.data(), 0, scratch.size());
mTik.fromBytes(scratch.data(), scratch.size()); mTik.fromBytes(scratch.data(), scratch.size());
@ -106,9 +107,7 @@ void EsTikProcess::verifyTicket()
void EsTikProcess::displayTicket() void EsTikProcess::displayTicket()
{ {
#define _SPLIT_VER(ver) ( (ver>>10) & 0x3f), ( (ver>>4) & 0x3f), ( (ver>>0) & 0xf) #define _SPLIT_VER(ver) (uint32_t)((ver>>10) & 0x3f) << "." << (uint32_t)((ver>>4) & 0x3f) << "." << (uint32_t)((ver>>0) & 0xf)
#define _HEXDUMP_U(var, len) do { for (size_t a__a__A = 0; a__a__A < len; a__a__A++) printf("%02X", var[a__a__A]); } while(0)
#define _HEXDUMP_L(var, len) do { for (size_t a__a__A = 0; a__a__A < len; a__a__A++) printf("%02x", var[a__a__A]); } while(0)
const nn::es::TicketBody_V2& body = mTik.getBody(); const nn::es::TicketBody_V2& body = mTik.getBody();
@ -127,10 +126,10 @@ void EsTikProcess::displayTicket()
size_t size = body.getTitleKeyEncType() == nn::es::ticket::RSA2048 ? fnd::rsa::kRsa2048Size : fnd::aes::kAes128KeySize; size_t size = body.getTitleKeyEncType() == nn::es::ticket::RSA2048 ? fnd::rsa::kRsa2048Size : fnd::aes::kAes128KeySize;
fnd::SimpleTextOutput::hexDump(body.getEncTitleKey(), size, 0x10, 6); fnd::SimpleTextOutput::hexDump(body.getEncTitleKey(), size, 0x10, 6);
printf(" Version: v%d.%d.%d", _SPLIT_VER(body.getTicketVersion())); std::cout << " Version: v" << _SPLIT_VER(body.getTicketVersion());
if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED)) if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
printf(" (%d)", body.getTicketVersion()); std::cout << " (" << (uint32_t)body.getTicketVersion() << ")";
printf("\n"); std::cout << std::endl;
std::cout << " License Type: " << getLicenseTypeStr(body.getLicenseType()) << std::endl; std::cout << " License Type: " << getLicenseTypeStr(body.getLicenseType()) << std::endl;
@ -163,9 +162,6 @@ void EsTikProcess::displayTicket()
std::cout << " SectionNum: 0x" << std::hex << body.getSectionNum() << std::endl; std::cout << " SectionNum: 0x" << std::hex << body.getSectionNum() << std::endl;
std::cout << " SectionEntrySize: 0x" << std::hex << body.getSectionEntrySize() << std::endl; std::cout << " SectionEntrySize: 0x" << std::hex << body.getSectionEntrySize() << std::endl;
#undef _HEXDUMP_L
#undef _HEXDUMP_U
#undef _SPLIT_VER #undef _SPLIT_VER
} }

View file

@ -1,11 +1,195 @@
#include <sstream> #include <sstream>
#include <iostream>
#include <iomanip>
#include <fnd/SimpleTextOutput.h> #include <fnd/SimpleTextOutput.h>
#include "OffsetAdjustedIFile.h" #include "OffsetAdjustedIFile.h"
#include "NacpProcess.h" #include "NacpProcess.h"
const char* getLanguageStr(nn::hac::nacp::Language var) NacpProcess::NacpProcess() :
mFile(nullptr),
mOwnIFile(false),
mCliOutputMode(_BIT(OUTPUT_BASIC)),
mVerify(false)
{
}
NacpProcess::~NacpProcess()
{
if (mOwnIFile)
{
delete mFile;
}
}
void NacpProcess::process()
{
importNacp();
if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC))
displayNacp();
}
void NacpProcess::setInputFile(fnd::IFile* file, bool ownIFile)
{
mFile = file;
mOwnIFile = ownIFile;
}
void NacpProcess::setCliOutputMode(CliOutputMode type)
{
mCliOutputMode = type;
}
void NacpProcess::setVerifyMode(bool verify)
{
mVerify = verify;
}
const nn::hac::ApplicationControlPropertyBinary& NacpProcess::getApplicationControlPropertyBinary() const
{
return mNacp;
}
void NacpProcess::importNacp()
{
fnd::Vec<byte_t> scratch;
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
scratch.alloc(mFile->size());
mFile->read(scratch.data(), 0, scratch.size());
mNacp.fromBytes(scratch.data(), scratch.size());
}
void NacpProcess::displayNacp()
{
std::cout << "[ApplicationControlProperty]" << std::endl;
std::cout << " Menu Description:" << std::endl;
std::cout << " DisplayVersion: " << mNacp.getDisplayVersion() << std::endl;
if (mNacp.getIsbn().empty() == false || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
std::cout << " ISBN: " << mNacp.getIsbn() << std::endl;
for (size_t i = 0; i < mNacp.getTitle().size(); i++)
{
std::cout << " " << getLanguageStr(mNacp.getTitle()[i].language) << " Title:" << std::endl;
std::cout << " Name: " << mNacp.getTitle()[i].name << std::endl;
std::cout << " Publisher: " << mNacp.getTitle()[i].publisher << std::endl;
}
std::cout << " Logo:" << std::endl;
std::cout << " Type: " << getLogoTypeStr(mNacp.getLogoType()) << std::endl;
std::cout << " Handling: " << getLogoHandlingStr(mNacp.getLogoHandling()) << std::endl;
std::cout << " AddOnContent:" << std::endl;
std::cout << " BaseId: 0x" << std::hex << std::setw(16) << std::setfill('0') << mNacp.getAocBaseId() << std::endl;
std::cout << " RegistrationType: " << getAocRegistrationTypeStr(mNacp.getAocRegistrationType()) << std::endl;
std::cout << " RuntimeInstallMode: " << getRuntimeAocInstallModeStr(mNacp.getRuntimeAocInstallMode()) << std::endl;
std::cout << " Play Log:" << std::endl;
std::cout << " PlayLogPolicy: " << getPlayLogPolicyStr(mNacp.getPlayLogPolicy()) << std::endl;
std::cout << " PlayLogQueryCapability: " << getPlayLogQueryCapabilityStr(mNacp.getPlayLogQueryCapability()) << std::endl;
if (mNacp.getPlayLogQueryableApplicationId().size() > 0)
{
std::cout << " PlayLogQueryableApplicationId:" << std::endl;
for (size_t i = 0; i < mNacp.getPlayLogQueryableApplicationId().size(); i++)
{
std::cout << " 0x" << std::hex << std::setw(16) << std::setfill('0') << mNacp.getPlayLogQueryableApplicationId()[i] << std::endl;
}
}
std::cout << " Parental Controls:" << std::endl;
std::cout << " ParentalControlFlag: " << getParentalControlFlagStr(mNacp.getParentalControlFlag()) << std::endl;
for (size_t i = 0; i < mNacp.getRatingAge().size(); i++)
{
std::cout << " Age Restriction:" << std::endl;
std::cout << " Agency: " << getOrganisationStr(mNacp.getRatingAge()[i].organisation) << std::endl;
std::cout << " Age: " << std::dec << (uint32_t)mNacp.getRatingAge()[i].age << std::endl;
}
if (mNacp.getBcatPassphase().empty() == false || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
std::cout << " BCAT:" << std::endl;
std::cout << " BcatPassphase: " << mNacp.getBcatPassphase() << std::endl;
std::cout << " DeliveryCacheStorageSize: 0x" << std::hex << mNacp.getBcatDeliveryCacheStorageSize() << std::endl;
}
if (mNacp.getLocalCommunicationId().size() > 0)
{
std::cout << " Local Area Communication:" << std::endl;
std::cout << " LocalCommunicationId:" << std::endl;
for (size_t i = 0; i < mNacp.getLocalCommunicationId().size(); i++)
{
std::cout << " 0x" << std::hex << std::setw(16) << std::setfill('0') << mNacp.getLocalCommunicationId()[i] << std::endl;
}
}
std::cout << " SaveData:" << std::endl;
std::cout << " SaveDatawOwnerId: 0x" << std::hex << std::setw(16) << std::setfill('0') << mNacp.getSaveDatawOwnerId() << std::endl;
if (mNacp.getUserAccountSaveDataSize().journal_size > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
std::cout << " UserAccountSaveData:" << std::endl;
std::cout << " Size: " << getSaveDataSizeStr(mNacp.getUserAccountSaveDataSize().size) << std::endl;
std::cout << " JournalSize: " << getSaveDataSizeStr(mNacp.getUserAccountSaveDataSize().journal_size) << std::endl;
}
if (mNacp.getDeviceSaveDataSize().journal_size > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
std::cout << " DeviceSaveData:" << std::endl;
std::cout << " Size: " << getSaveDataSizeStr(mNacp.getDeviceSaveDataSize().size) << std::endl;
std::cout << " JournalSize: " << getSaveDataSizeStr(mNacp.getDeviceSaveDataSize().journal_size) << std::endl;
}
if (mNacp.getUserAccountSaveDataMax().journal_size > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
std::cout << " UserAccountSaveDataMax:" << std::endl;
std::cout << " Size: " << getSaveDataSizeStr(mNacp.getUserAccountSaveDataMax().size) << std::endl;
std::cout << " JournalSize: " << getSaveDataSizeStr(mNacp.getUserAccountSaveDataMax().journal_size) << std::endl;
}
if (mNacp.getDeviceSaveDataMax().journal_size > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
std::cout << " DeviceSaveDataMax:" << std::endl;
std::cout << " Size: " << getSaveDataSizeStr(mNacp.getDeviceSaveDataMax().size) << std::endl;
std::cout << " JournalSize: " << getSaveDataSizeStr(mNacp.getDeviceSaveDataMax().journal_size) << std::endl;
}
if (mNacp.getTemporaryStorageSize() > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
std::cout << " TemporaryStorageSize: " << getSaveDataSizeStr(mNacp.getTemporaryStorageSize()) << std::endl;
}
if (mNacp.getCacheStorageSize().journal_size > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
std::cout << " CacheStorage:" << std::endl;
std::cout << " Size: " << getSaveDataSizeStr(mNacp.getCacheStorageSize().size) << std::endl;
std::cout << " JournalSize: " << getSaveDataSizeStr(mNacp.getCacheStorageSize().journal_size) << std::endl;
std::cout << " MaxDataAndJournalSize: " << getSaveDataSizeStr(mNacp.getCacheStorageDataAndJournalSizeMax()) << std::endl;
std::cout << " StorageIndexMax: 0x" << std::hex << mNacp.getCacheStorageIndexMax() << std::endl;
}
std::cout << " Other Flags:" << std::endl;
std::cout << " StartupUserAccount: " << getStartupUserAccountStr(mNacp.getStartupUserAccount()) << std::endl;
if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
std::cout << " TouchScreenUsageMode: " << getTouchScreenUsageModeStr(mNacp.getTouchScreenUsageMode()) << std::endl;
}
std::cout << " AttributeFlag: " << getAttributeFlagStr(mNacp.getAttributeFlag()) << std::endl;
std::cout << " CrashReportMode: " << getCrashReportModeStr(mNacp.getCrashReportMode()) << std::endl;
std::cout << " HDCP: " << getHdcpStr(mNacp.getHdcp()) << std::endl;
std::cout << " ScreenshotMode: " << getScreenshotModeStr(mNacp.getScreenshotMode()) << std::endl;
std::cout << " VideoCaptureMode: " << getVideoCaptureModeStr(mNacp.getVideoCaptureMode()) << std::endl;
std::cout << " DataLossConfirmation: " << getDataLossConfirmationStr(mNacp.getDataLossConfirmation()) << std::endl;
std::cout << " RepairFlag: " << getRepairFlagStr(mNacp.getRepairFlag()) << std::endl;
std::cout << " ProgramIndex: 0x" << std::hex << std::setw(2) << std::setfill('0') << (uint32_t)mNacp.getProgramIndex() << std::endl;
if (mNacp.getApplicationErrorCodeCategory().empty() == false || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
std::cout << " ApplicationErrorCodeCategory: " << mNacp.getApplicationErrorCodeCategory() << std::endl;
}
if (mNacp.getSeedForPsuedoDeviceId() > 0 || mNacp.getPresenceGroupId() > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
std::cout << " Other Ids:" << std::endl;
if (mNacp.getSeedForPsuedoDeviceId() > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
std::cout << " SeedForPsuedoDeviceId: 0x" << std::hex << std::setw(16) << std::setfill('0') << mNacp.getSeedForPsuedoDeviceId() << std::endl;
if (mNacp.getPresenceGroupId() > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
std::cout << " PresenceGroupId: 0x" << std::hex << std::setw(16) << std::setfill('0') << mNacp.getPresenceGroupId() << std::endl;
}
}
const char* NacpProcess::getLanguageStr(nn::hac::nacp::Language var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::LANG_AmericanEnglish): case (nn::hac::nacp::LANG_AmericanEnglish):
@ -56,12 +240,14 @@ const char* getLanguageStr(nn::hac::nacp::Language var)
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getStartupUserAccountStr(nn::hac::nacp::StartupUserAccount var) const char* NacpProcess::getStartupUserAccountStr(nn::hac::nacp::StartupUserAccount var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::USER_None): case (nn::hac::nacp::USER_None):
@ -76,12 +262,14 @@ const char* getStartupUserAccountStr(nn::hac::nacp::StartupUserAccount var)
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getTouchScreenUsageModeStr(nn::hac::nacp::TouchScreenUsageMode var) const char* NacpProcess::getTouchScreenUsageModeStr(nn::hac::nacp::TouchScreenUsageMode var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::TOUCH_None): case (nn::hac::nacp::TOUCH_None):
@ -96,12 +284,14 @@ const char* getTouchScreenUsageModeStr(nn::hac::nacp::TouchScreenUsageMode var)
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getAocRegistrationTypeStr(nn::hac::nacp::AocRegistrationType var) const char* NacpProcess::getAocRegistrationTypeStr(nn::hac::nacp::AocRegistrationType var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::AOC_AllOnLaunch): case (nn::hac::nacp::AOC_AllOnLaunch):
@ -113,12 +303,14 @@ const char* getAocRegistrationTypeStr(nn::hac::nacp::AocRegistrationType var)
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getAttributeFlagStr(nn::hac::nacp::AttributeFlag var) const char* NacpProcess::getAttributeFlagStr(nn::hac::nacp::AttributeFlag var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::ATTR_None): case (nn::hac::nacp::ATTR_None):
@ -133,12 +325,14 @@ const char* getAttributeFlagStr(nn::hac::nacp::AttributeFlag var)
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getParentalControlFlagStr(nn::hac::nacp::ParentalControlFlag var) const char* NacpProcess::getParentalControlFlagStr(nn::hac::nacp::ParentalControlFlag var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::PC_None): case (nn::hac::nacp::PC_None):
@ -150,12 +344,14 @@ const char* getParentalControlFlagStr(nn::hac::nacp::ParentalControlFlag var)
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getScreenshotModeStr(nn::hac::nacp::ScreenshotMode var) const char* NacpProcess::getScreenshotModeStr(nn::hac::nacp::ScreenshotMode var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::SCRN_Allow): case (nn::hac::nacp::SCRN_Allow):
@ -167,12 +363,14 @@ const char* getScreenshotModeStr(nn::hac::nacp::ScreenshotMode var)
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getVideoCaptureModeStr(nn::hac::nacp::VideoCaptureMode var) const char* NacpProcess::getVideoCaptureModeStr(nn::hac::nacp::VideoCaptureMode var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::VCAP_Disable): case (nn::hac::nacp::VCAP_Disable):
@ -187,12 +385,14 @@ const char* getVideoCaptureModeStr(nn::hac::nacp::VideoCaptureMode var)
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getDataLossConfirmationStr(nn::hac::nacp::DataLossConfirmation var) const char* NacpProcess::getDataLossConfirmationStr(nn::hac::nacp::DataLossConfirmation var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::DLOSS_None): case (nn::hac::nacp::DLOSS_None):
@ -204,12 +404,14 @@ const char* getDataLossConfirmationStr(nn::hac::nacp::DataLossConfirmation var)
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getPlayLogPolicyStr(nn::hac::nacp::PlayLogPolicy var) const char* NacpProcess::getPlayLogPolicyStr(nn::hac::nacp::PlayLogPolicy var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::PLP_All): case (nn::hac::nacp::PLP_All):
@ -224,12 +426,14 @@ const char* getPlayLogPolicyStr(nn::hac::nacp::PlayLogPolicy var)
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getOrganisationStr(nn::hac::nacp::Organisation var) const char* NacpProcess::getOrganisationStr(nn::hac::nacp::Organisation var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::ORGN_CERO): case (nn::hac::nacp::ORGN_CERO):
@ -271,12 +475,14 @@ const char* getOrganisationStr(nn::hac::nacp::Organisation var)
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getLogoTypeStr(nn::hac::nacp::LogoType var) const char* NacpProcess::getLogoTypeStr(nn::hac::nacp::LogoType var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::LOGO_LicensedByNintendo): case (nn::hac::nacp::LOGO_LicensedByNintendo):
@ -291,12 +497,14 @@ const char* getLogoTypeStr(nn::hac::nacp::LogoType var)
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getLogoHandlingStr(nn::hac::nacp::LogoHandling var) const char* NacpProcess::getLogoHandlingStr(nn::hac::nacp::LogoHandling var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::LHND_Auto): case (nn::hac::nacp::LHND_Auto):
@ -308,12 +516,14 @@ const char* getLogoHandlingStr(nn::hac::nacp::LogoHandling var)
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getRuntimeAocInstallModeStr(nn::hac::nacp::RuntimeAocInstallMode var) const char* NacpProcess::getRuntimeAocInstallModeStr(nn::hac::nacp::RuntimeAocInstallMode var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::RTAOC_Deny): case (nn::hac::nacp::RTAOC_Deny):
@ -325,12 +535,14 @@ const char* getRuntimeAocInstallModeStr(nn::hac::nacp::RuntimeAocInstallMode var
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getCrashReportModeStr(nn::hac::nacp::CrashReportMode var) const char* NacpProcess::getCrashReportModeStr(nn::hac::nacp::CrashReportMode var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::CREP_Deny): case (nn::hac::nacp::CREP_Deny):
@ -342,12 +554,14 @@ const char* getCrashReportModeStr(nn::hac::nacp::CrashReportMode var)
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getHdcpStr(nn::hac::nacp::Hdcp var) const char* NacpProcess::getHdcpStr(nn::hac::nacp::Hdcp var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::HDCP_None): case (nn::hac::nacp::HDCP_None):
@ -359,12 +573,14 @@ const char* getHdcpStr(nn::hac::nacp::Hdcp var)
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getPlayLogQueryCapabilityStr(nn::hac::nacp::PlayLogQueryCapability var) const char* NacpProcess::getPlayLogQueryCapabilityStr(nn::hac::nacp::PlayLogQueryCapability var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::PLQC_None): case (nn::hac::nacp::PLQC_None):
@ -379,12 +595,14 @@ const char* getPlayLogQueryCapabilityStr(nn::hac::nacp::PlayLogQueryCapability v
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
const char* getRepairFlagStr(nn::hac::nacp::RepairFlag var) const char* NacpProcess::getRepairFlagStr(nn::hac::nacp::RepairFlag var) const
{ {
const char* str = nullptr; const char* str = nullptr;
switch(var) switch(var)
{ {
case (nn::hac::nacp::REPF_None): case (nn::hac::nacp::REPF_None):
@ -396,10 +614,11 @@ const char* getRepairFlagStr(nn::hac::nacp::RepairFlag var)
default: default:
str = "Unknown"; str = "Unknown";
} }
return str; return str;
} }
std::string getSaveDataSizeStr(int64_t size) std::string NacpProcess::getSaveDataSizeStr(int64_t size) const
{ {
static const int64_t kKiloByte = 1024; static const int64_t kKiloByte = 1024;
static const int64_t kMegaByte = 1024 * 1024; static const int64_t kMegaByte = 1024 * 1024;
@ -422,179 +641,3 @@ std::string getSaveDataSizeStr(int64_t size)
return sstr.str(); return sstr.str();
} }
NacpProcess::NacpProcess() :
mFile(nullptr),
mOwnIFile(false),
mCliOutputMode(_BIT(OUTPUT_BASIC)),
mVerify(false)
{
}
NacpProcess::~NacpProcess()
{
if (mOwnIFile)
{
delete mFile;
}
}
void NacpProcess::process()
{
fnd::Vec<byte_t> scratch;
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
scratch.alloc(mFile->size());
mFile->read(scratch.data(), 0, scratch.size());
mNacp.fromBytes(scratch.data(), scratch.size());
if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC))
displayNacp();
}
void NacpProcess::setInputFile(fnd::IFile* file, bool ownIFile)
{
mFile = file;
mOwnIFile = ownIFile;
}
void NacpProcess::setCliOutputMode(CliOutputMode type)
{
mCliOutputMode = type;
}
void NacpProcess::setVerifyMode(bool verify)
{
mVerify = verify;
}
const nn::hac::ApplicationControlPropertyBinary& NacpProcess::getApplicationControlPropertyBinary() const
{
return mNacp;
}
void NacpProcess::displayNacp()
{
printf("[ApplicationControlProperty]\n");
printf(" Menu Description:\n");
printf(" DisplayVersion: %s\n", mNacp.getDisplayVersion().c_str());
if (mNacp.getIsbn().empty() == false || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
printf(" ISBN: %s\n", mNacp.getIsbn().c_str());
for (size_t i = 0; i < mNacp.getTitle().size(); i++)
{
printf(" %s Title:\n", getLanguageStr(mNacp.getTitle()[i].language));
printf(" Name: %s\n", mNacp.getTitle()[i].name.c_str());
printf(" Publisher: %s\n", mNacp.getTitle()[i].publisher.c_str());
}
printf(" Logo:\n");
printf(" Type: %s\n", getLogoTypeStr(mNacp.getLogoType()));
printf(" Handling: %s\n", getLogoHandlingStr(mNacp.getLogoHandling()));
printf(" AddOnContent:\n");
printf(" BaseId: 0x%016" PRIx64 "\n", mNacp.getAocBaseId());
printf(" RegistrationType: %s\n", getAocRegistrationTypeStr(mNacp.getAocRegistrationType()));
printf(" RuntimeInstallMode: %s\n", getRuntimeAocInstallModeStr(mNacp.getRuntimeAocInstallMode()));
printf(" Play Log:\n");
printf(" PlayLogPolicy: %s\n", getPlayLogPolicyStr(mNacp.getPlayLogPolicy()));
printf(" PlayLogQueryCapability: %s\n", getPlayLogQueryCapabilityStr(mNacp.getPlayLogQueryCapability()));
if (mNacp.getPlayLogQueryableApplicationId().size() > 0)
{
printf(" PlayLogQueryableApplicationId:\n");
for (size_t i = 0; i < mNacp.getPlayLogQueryableApplicationId().size(); i++)
{
printf(" 0x%016" PRIx64 "\n", mNacp.getPlayLogQueryableApplicationId()[i]);
}
}
printf(" Parental Controls:\n");
printf(" ParentalControlFlag: %s\n", getParentalControlFlagStr(mNacp.getParentalControlFlag()));
for (size_t i = 0; i < mNacp.getRatingAge().size(); i++)
{
printf(" Age Restriction:\n");
printf(" Agency: %s\n", getOrganisationStr(mNacp.getRatingAge()[i].organisation));
printf(" Age: %d\n", mNacp.getRatingAge()[i].age);
}
if (mNacp.getBcatPassphase().empty() == false || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
printf(" BCAT:\n");
printf(" BcatPassphase: %s\n", mNacp.getBcatPassphase().c_str());
printf(" DeliveryCacheStorageSize: 0x%016" PRIx64 "\n", mNacp.getBcatDeliveryCacheStorageSize());
}
if (mNacp.getLocalCommunicationId().size() > 0)
{
printf(" Local Area Communication:\n");
printf(" LocalCommunicationId:\n");
for (size_t i = 0; i < mNacp.getLocalCommunicationId().size(); i++)
{
printf(" 0x%016" PRIx64 "\n", mNacp.getLocalCommunicationId()[i]);
}
}
printf(" SaveData:\n");
printf(" SaveDatawOwnerId: 0x%016" PRIx64 "\n", mNacp.getSaveDatawOwnerId());
if (mNacp.getUserAccountSaveDataSize().journal_size > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
printf(" UserAccountSaveData:\n");
printf(" Size: %s\n", getSaveDataSizeStr(mNacp.getUserAccountSaveDataSize().size).c_str());
printf(" JournalSize: %s\n", getSaveDataSizeStr(mNacp.getUserAccountSaveDataSize().journal_size).c_str());
}
if (mNacp.getDeviceSaveDataSize().journal_size > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
printf(" DeviceSaveData:\n");
printf(" Size: %s\n", getSaveDataSizeStr(mNacp.getDeviceSaveDataSize().size).c_str());
printf(" JournalSize: %s\n", getSaveDataSizeStr(mNacp.getDeviceSaveDataSize().journal_size).c_str());
}
if (mNacp.getUserAccountSaveDataMax().journal_size > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
printf(" UserAccountSaveDataMax:\n");
printf(" Size: %s\n", getSaveDataSizeStr(mNacp.getUserAccountSaveDataMax().size).c_str());
printf(" JournalSize: %s\n", getSaveDataSizeStr(mNacp.getUserAccountSaveDataMax().journal_size).c_str());
}
if (mNacp.getDeviceSaveDataMax().journal_size > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
printf(" DeviceSaveDataMax:\n");
printf(" Size: %s\n", getSaveDataSizeStr(mNacp.getDeviceSaveDataMax().size).c_str());
printf(" JournalSize: %s\n", getSaveDataSizeStr(mNacp.getDeviceSaveDataMax().journal_size).c_str());
}
if (mNacp.getTemporaryStorageSize() > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
printf(" TemporaryStorageSize: %s\n", getSaveDataSizeStr(mNacp.getTemporaryStorageSize()).c_str());
}
if (mNacp.getCacheStorageSize().journal_size > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
printf(" CacheStorage:\n");
printf(" Size: %s\n", getSaveDataSizeStr(mNacp.getCacheStorageSize().size).c_str());
printf(" JournalSize: %s\n", getSaveDataSizeStr(mNacp.getCacheStorageSize().journal_size).c_str());
printf(" MaxDataAndJournalSize: %s\n", getSaveDataSizeStr(mNacp.getCacheStorageDataAndJournalSizeMax()).c_str());
printf(" StorageIndexMax: 0x%" PRIx16 "\n", mNacp.getCacheStorageIndexMax());
}
printf(" Other Flags:\n");
printf(" StartupUserAccount: %s\n", getStartupUserAccountStr(mNacp.getStartupUserAccount()));
if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
printf(" TouchScreenUsageMode: %s\n", getTouchScreenUsageModeStr(mNacp.getTouchScreenUsageMode()));
}
printf(" AttributeFlag: %s\n", getAttributeFlagStr(mNacp.getAttributeFlag()));
printf(" CrashReportMode: %s\n", getCrashReportModeStr(mNacp.getCrashReportMode()));
printf(" HDCP: %s\n", getHdcpStr(mNacp.getHdcp()));
printf(" ScreenshotMode: %s\n", getScreenshotModeStr(mNacp.getScreenshotMode()));
printf(" VideoCaptureMode: %s\n", getVideoCaptureModeStr(mNacp.getVideoCaptureMode()));
printf(" DataLossConfirmation: %s\n", getDataLossConfirmationStr(mNacp.getDataLossConfirmation()));
printf(" RepairFlag: %s\n", getRepairFlagStr(mNacp.getRepairFlag()));
printf(" ProgramIndex: 0x%02x\n", mNacp.getProgramIndex());
if (mNacp.getApplicationErrorCodeCategory().empty() == false || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
printf(" ApplicationErrorCodeCategory: %s\n", mNacp.getApplicationErrorCodeCategory().c_str());
}
if (mNacp.getSeedForPsuedoDeviceId() > 0 || mNacp.getPresenceGroupId() > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{
printf(" Other Ids:\n");
if (mNacp.getSeedForPsuedoDeviceId() > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
printf(" SeedForPsuedoDeviceId: 0x%016" PRIx64 "\n", mNacp.getSeedForPsuedoDeviceId());
if (mNacp.getPresenceGroupId() > 0 || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
printf(" PresenceGroupId: 0x%016" PRIx64 "\n", mNacp.getPresenceGroupId());
}
}

View file

@ -30,5 +30,25 @@ private:
nn::hac::ApplicationControlPropertyBinary mNacp; nn::hac::ApplicationControlPropertyBinary mNacp;
void importNacp();
void displayNacp(); void displayNacp();
const char* getLanguageStr(nn::hac::nacp::Language var) const;
const char* getStartupUserAccountStr(nn::hac::nacp::StartupUserAccount var) const;
const char* getTouchScreenUsageModeStr(nn::hac::nacp::TouchScreenUsageMode var) const;
const char* getAocRegistrationTypeStr(nn::hac::nacp::AocRegistrationType var) const;
const char* getAttributeFlagStr(nn::hac::nacp::AttributeFlag var) const;
const char* getParentalControlFlagStr(nn::hac::nacp::ParentalControlFlag var) const;
const char* getScreenshotModeStr(nn::hac::nacp::ScreenshotMode var) const;
const char* getVideoCaptureModeStr(nn::hac::nacp::VideoCaptureMode var) const;
const char* getDataLossConfirmationStr(nn::hac::nacp::DataLossConfirmation var) const;
const char* getPlayLogPolicyStr(nn::hac::nacp::PlayLogPolicy var) const;
const char* getOrganisationStr(nn::hac::nacp::Organisation var) const;
const char* getLogoTypeStr(nn::hac::nacp::LogoType var) const;
const char* getLogoHandlingStr(nn::hac::nacp::LogoHandling var) const;
const char* getRuntimeAocInstallModeStr(nn::hac::nacp::RuntimeAocInstallMode var) const;
const char* getCrashReportModeStr(nn::hac::nacp::CrashReportMode var) const;
const char* getHdcpStr(nn::hac::nacp::Hdcp var) const;
const char* getPlayLogQueryCapabilityStr(nn::hac::nacp::PlayLogQueryCapability var) const;
const char* getRepairFlagStr(nn::hac::nacp::RepairFlag var) const;
std::string getSaveDataSizeStr(int64_t size) const;
}; };

View file

@ -1,4 +1,5 @@
#include <iostream> #include <iostream>
#include <iomanip>
#include <sstream> #include <sstream>
#include <fnd/SimpleTextOutput.h> #include <fnd/SimpleTextOutput.h>
#include <nn/hac/NcaUtils.h> #include <nn/hac/NcaUtils.h>
@ -11,215 +12,6 @@
#include "AesCtrWrappedIFile.h" #include "AesCtrWrappedIFile.h"
#include "HashTreeWrappedIFile.h" #include "HashTreeWrappedIFile.h"
const char* getFormatVersionStr(nn::hac::NcaHeader::FormatVersion format_ver)
{
const char* str;
switch (format_ver)
{
case (nn::hac::NcaHeader::NCA2_FORMAT):
str = "NCA2";
break;
case (nn::hac::NcaHeader::NCA3_FORMAT):
str = "NCA3";
break;
default:
str = "Unknown";
break;
}
return str;
}
const char* getDistributionTypeStr(nn::hac::nca::DistributionType dist_type)
{
const char* str;
switch (dist_type)
{
case (nn::hac::nca::DIST_DOWNLOAD):
str = "Download";
break;
case (nn::hac::nca::DIST_GAME_CARD):
str = "Game Card";
break;
default:
str = "Unknown";
break;
}
return str;
}
const char* getContentTypeStr(nn::hac::nca::ContentType cont_type)
{
const char* str;
switch (cont_type)
{
case (nn::hac::nca::TYPE_PROGRAM):
str = "Program";
break;
case (nn::hac::nca::TYPE_META):
str = "Meta";
break;
case (nn::hac::nca::TYPE_CONTROL):
str = "Control";
break;
case (nn::hac::nca::TYPE_MANUAL):
str = "Manual";
break;
case (nn::hac::nca::TYPE_DATA):
str = "Data";
break;
case (nn::hac::nca::TYPE_PUBLIC_DATA):
str = "PublicData";
break;
default:
str = "Unknown";
break;
}
return str;
}
const char* getEncryptionTypeStr(nn::hac::nca::EncryptionType enc_type)
{
const char* str;
switch (enc_type)
{
case (nn::hac::nca::CRYPT_AUTO):
str = "Auto";
break;
case (nn::hac::nca::CRYPT_NONE):
str = "None";
break;
case (nn::hac::nca::CRYPT_AESXTS):
str = "AesXts";
break;
case (nn::hac::nca::CRYPT_AESCTR):
str = "AesCtr";
break;
case (nn::hac::nca::CRYPT_AESCTREX):
str = "AesCtrEx";
break;
default:
str = "Unknown";
break;
}
return str;
}
inline const char* getHashTypeStr(nn::hac::nca::HashType hash_type)
{
const char* str;
switch (hash_type)
{
case (nn::hac::nca::HASH_AUTO):
str = "Auto";
break;
case (nn::hac::nca::HASH_NONE):
str = "None";
break;
case (nn::hac::nca::HASH_HIERARCHICAL_SHA256):
str = "HierarchicalSha256";
break;
case (nn::hac::nca::HASH_HIERARCHICAL_INTERGRITY):
str = "HierarchicalIntegrity";
break;
default:
str = "Unknown";
break;
}
return str;
}
inline const char* getFormatTypeStr(nn::hac::nca::FormatType format_type)
{
const char* str;
switch (format_type)
{
case (nn::hac::nca::FORMAT_ROMFS):
str = "RomFs";
break;
case (nn::hac::nca::FORMAT_PFS0):
str = "PartitionFs";
break;
default:
str = "Unknown";
break;
}
return str;
}
inline const char* getKaekIndexStr(nn::hac::nca::KeyAreaEncryptionKeyIndex keak_index)
{
const char* str;
switch (keak_index)
{
case (nn::hac::nca::KAEK_IDX_APPLICATION):
str = "Application";
break;
case (nn::hac::nca::KAEK_IDX_OCEAN):
str = "Ocean";
break;
case (nn::hac::nca::KAEK_IDX_SYSTEM):
str = "System";
break;
default:
str = "Unknown";
break;
}
return str;
}
inline const char* getContentTypeForMountStr(nn::hac::nca::ContentType cont_type)
{
const char* str;
switch (cont_type)
{
case (nn::hac::nca::TYPE_PROGRAM):
str = "program";
break;
case (nn::hac::nca::TYPE_META):
str = "meta";
break;
case (nn::hac::nca::TYPE_CONTROL):
str = "control";
break;
case (nn::hac::nca::TYPE_MANUAL):
str = "manual";
break;
case (nn::hac::nca::TYPE_DATA):
str = "data";
break;
case (nn::hac::nca::TYPE_PUBLIC_DATA):
str = "publicData";
break;
default:
str = "";
break;
}
return str;
}
const char* getProgramPartitionNameStr(size_t i)
{
const char* str;
switch (i)
{
case (nn::hac::nca::PARTITION_CODE):
str = "code";
break;
case (nn::hac::nca::PARTITION_DATA):
str = "data";
break;
case (nn::hac::nca::PARTITION_LOGO):
str = "logo";
break;
default:
str = "";
break;
}
return str;
}
NcaProcess::NcaProcess() : NcaProcess::NcaProcess() :
mFile(nullptr), mFile(nullptr),
mOwnIFile(false), mOwnIFile(false),
@ -253,22 +45,8 @@ NcaProcess::~NcaProcess()
void NcaProcess::process() void NcaProcess::process()
{ {
if (mFile == nullptr) // import header
{ importHeader();
throw fnd::Exception(kModuleName, "No file reader set.");
}
// read header block
mFile->read((byte_t*)&mHdrBlock, 0, sizeof(nn::hac::sNcaHeaderBlock));
// decrypt header block
nn::hac::NcaUtils::decryptNcaHeader((byte_t*)&mHdrBlock, (byte_t*)&mHdrBlock, mKeyset->nca.header_key);
// generate header hash
fnd::sha::Sha256((byte_t*)&mHdrBlock.header, sizeof(nn::hac::sNcaHeader), mHdrHash.bytes);
// proccess main header
mHdr.fromBytes((byte_t*)&mHdrBlock.header, sizeof(nn::hac::sNcaHeader));
// determine keys // determine keys
generateNcaBodyEncryptionKeys(); generateNcaBodyEncryptionKeys();
@ -338,6 +116,26 @@ void NcaProcess::setListFs(bool list_fs)
mListFs = list_fs; mListFs = list_fs;
} }
void NcaProcess::importHeader()
{
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
// read header block
mFile->read((byte_t*)&mHdrBlock, 0, sizeof(nn::hac::sNcaHeaderBlock));
// decrypt header block
nn::hac::NcaUtils::decryptNcaHeader((byte_t*)&mHdrBlock, (byte_t*)&mHdrBlock, mKeyset->nca.header_key);
// generate header hash
fnd::sha::Sha256((byte_t*)&mHdrBlock.header, sizeof(nn::hac::sNcaHeader), mHdrHash.bytes);
// proccess main header
mHdr.fromBytes((byte_t*)&mHdrBlock.header, sizeof(nn::hac::sNcaHeader));
}
void NcaProcess::generateNcaBodyEncryptionKeys() void NcaProcess::generateNcaBodyEncryptionKeys()
{ {
// create zeros key // create zeros key
@ -440,18 +238,15 @@ void NcaProcess::generateNcaBodyEncryptionKeys()
{ {
if (mBodyKeys.aes_ctr.isSet) if (mBodyKeys.aes_ctr.isSet)
{ {
printf("[NCA Body Key]\n"); std::cout << "[NCA Body Key]" << std::endl;
printf(" AES-CTR Key: "); std::cout << " AES-CTR Key: " << fnd::SimpleTextOutput::arrayToString(mBodyKeys.aes_ctr.var.key, sizeof(mBodyKeys.aes_ctr.var), true, "") << std::endl;
fnd::SimpleTextOutput::hexDump(mBodyKeys.aes_ctr.var.key, sizeof(mBodyKeys.aes_ctr.var));
} }
if (mBodyKeys.aes_xts.isSet) if (mBodyKeys.aes_xts.isSet)
{ {
printf("[NCA Body Key]\n"); std::cout << "[NCA Body Key]" << std::endl;
printf(" AES-XTS Key0: "); std::cout << " AES-XTS Key0: " << fnd::SimpleTextOutput::arrayToString(mBodyKeys.aes_xts.var.key[0], sizeof(mBodyKeys.aes_ctr.var), true, "") << std::endl;
fnd::SimpleTextOutput::hexDump(mBodyKeys.aes_xts.var.key[0], sizeof(mBodyKeys.aes_ctr.var)); std::cout << " AES-XTS Key1: " << fnd::SimpleTextOutput::arrayToString(mBodyKeys.aes_xts.var.key[1], sizeof(mBodyKeys.aes_ctr.var), true, "") << std::endl;
printf(" AES-XTS Key1: ");
fnd::SimpleTextOutput::hexDump(mBodyKeys.aes_xts.var.key[1], sizeof(mBodyKeys.aes_ctr.var));
} }
} }
@ -572,7 +367,7 @@ void NcaProcess::validateNcaSignatures()
// validate signature[0] // validate signature[0]
if (fnd::rsa::pss::rsaVerify(mKeyset->nca.header_sign_key, fnd::sha::HASH_SHA256, mHdrHash.bytes, mHdrBlock.signature_main) != 0) if (fnd::rsa::pss::rsaVerify(mKeyset->nca.header_sign_key, fnd::sha::HASH_SHA256, mHdrHash.bytes, mHdrBlock.signature_main) != 0)
{ {
printf("[WARNING] NCA Header Main Signature: FAIL \n"); std::cout << "[WARNING] NCA Header Main Signature: FAIL" << std::endl;
} }
// validate signature[1] // validate signature[1]
@ -599,147 +394,125 @@ void NcaProcess::validateNcaSignatures()
if (fnd::rsa::pss::rsaVerify(npdm.getNpdmBinary().getAcid().getNcaHeaderSignature2Key(), fnd::sha::HASH_SHA256, mHdrHash.bytes, mHdrBlock.signature_acid) != 0) if (fnd::rsa::pss::rsaVerify(npdm.getNpdmBinary().getAcid().getNcaHeaderSignature2Key(), fnd::sha::HASH_SHA256, mHdrHash.bytes, mHdrBlock.signature_acid) != 0)
{ {
printf("[WARNING] NCA Header ACID Signature: FAIL \n"); std::cout << "[WARNING] NCA Header ACID Signature: FAIL" << std::endl;
} }
} }
else else
{ {
printf("[WARNING] NCA Header ACID Signature: FAIL (\"%s\" not present in ExeFs)\n", kNpdmExefsPath.c_str()); std::cout << "[WARNING] NCA Header ACID Signature: FAIL (\"" << kNpdmExefsPath << "\" not present in ExeFs)" << std::endl;
} }
} }
else else
{ {
printf("[WARNING] NCA Header ACID Signature: FAIL (ExeFs unreadable)\n"); std::cout << "[WARNING] NCA Header ACID Signature: FAIL (ExeFs unreadable)" << std::endl;
} }
} }
else else
{ {
printf("[WARNING] NCA Header ACID Signature: FAIL (No ExeFs partition)\n"); std::cout << "[WARNING] NCA Header ACID Signature: FAIL (No ExeFs partition)" << std::endl;
} }
} }
} }
void NcaProcess::displayHeader() void NcaProcess::displayHeader()
{ {
#define _HEXDUMP_U(var, len) do { for (size_t a__a__A = 0; a__a__A < len; a__a__A++) printf("%02X", var[a__a__A]); } while(0) std::cout << "[NCA Header]" << std::endl;
#define _HEXDUMP_L(var, len) do { for (size_t a__a__A = 0; a__a__A < len; a__a__A++) printf("%02x", var[a__a__A]); } while(0) std::cout << " Format Type: " << getFormatVersionStr(mHdr.getFormatVersion()) << std::endl;
std::cout << " Dist. Type: " << getDistributionTypeStr(mHdr.getDistributionType()) << std::endl;
printf("[NCA Header]\n"); std::cout << " Content Type: " << getContentTypeStr(mHdr.getContentType()) << std::endl;
printf(" Format Type: %s\n", getFormatVersionStr(mHdr.getFormatVersion())); std::cout << " Key Generation: " << std::dec << (uint32_t)mHdr.getKeyGeneration() << std::endl;
printf(" Dist. Type: %s\n", getDistributionTypeStr(mHdr.getDistributionType())); std::cout << " Kaek Index: " << getKaekIndexStr((nn::hac::nca::KeyAreaEncryptionKeyIndex)mHdr.getKaekIndex()) << " (" << std::dec << (uint32_t)mHdr.getKaekIndex() << ")" << std::endl;
printf(" Content Type: %s\n", getContentTypeStr(mHdr.getContentType())); std::cout << " Size: 0x" << std::hex << mHdr.getContentSize() << std::endl;
printf(" Key Generation: %d\n", mHdr.getKeyGeneration()); std::cout << " ProgID: 0x" << std::hex << std::setw(16) << std::setfill('0') << mHdr.getProgramId() << std::endl;
printf(" Kaek Index: %s (%d)\n", getKaekIndexStr((nn::hac::nca::KeyAreaEncryptionKeyIndex)mHdr.getKaekIndex()), mHdr.getKaekIndex()); std::cout << " Content Index: " << std::dec << mHdr.getContentIndex() << std::endl;
printf(" Size: 0x%" PRIx64 "\n", mHdr.getContentSize()); #define _SPLIT_VER(ver) std::dec << (uint32_t)((ver>>24) & 0xff) << "." << (uint32_t)((ver>>16) & 0xff) << "." << (uint32_t)((ver>>8) & 0xff)
printf(" ProgID: 0x%016" PRIx64 "\n", mHdr.getProgramId()); std::cout << " SdkAddon Ver.: v" << std::dec << mHdr.getSdkAddonVersion() << " (" << _SPLIT_VER(mHdr.getSdkAddonVersion()) << ")" << std::endl;
printf(" Content Index: %" PRIu32 "\n", mHdr.getContentIndex());
#define _SPLIT_VER(ver) ( (ver>>24) & 0xff), ( (ver>>16) & 0xff), ( (ver>>8) & 0xff)
printf(" SdkAddon Ver.: v%" PRIu32 " (%d.%d.%d)\n", mHdr.getSdkAddonVersion(), _SPLIT_VER(mHdr.getSdkAddonVersion()));
#undef _SPLIT_VER #undef _SPLIT_VER
if (mHdr.hasRightsId()) if (mHdr.hasRightsId())
{ {
printf(" RightsId: "); std::cout << " RightsId: " << fnd::SimpleTextOutput::arrayToString(mHdr.getRightsId(), nn::hac::nca::kRightsIdLen, true, "") << std::endl;
fnd::SimpleTextOutput::hexDump(mHdr.getRightsId(), nn::hac::nca::kRightsIdLen);
} }
if (mBodyKeys.keak_list.size() > 0 && _HAS_BIT(mCliOutputMode, OUTPUT_KEY_DATA)) if (mBodyKeys.keak_list.size() > 0 && _HAS_BIT(mCliOutputMode, OUTPUT_KEY_DATA))
{ {
printf(" Key Area: \n"); std::cout << " Key Area:" << std::endl;
printf(" <--------------------------------------------------------------------------->\n"); std::cout << " <--------------------------------------------------------------------------->" << std::endl;
printf(" | IDX | ENCRYPTED KEY | DECRYPTED KEY |\n"); std::cout << " | IDX | ENCRYPTED KEY | DECRYPTED KEY |" << std::endl;
printf(" |-----|----------------------------------|----------------------------------|\n"); std::cout << " |-----|----------------------------------|----------------------------------|" << std::endl;
for (size_t i = 0; i < mBodyKeys.keak_list.size(); i++) for (size_t i = 0; i < mBodyKeys.keak_list.size(); i++)
{ {
printf(" | %3d | ", mBodyKeys.keak_list[i].index); std::cout << " | " << std::dec << std::setw(3) << std::setfill(' ') << (uint32_t)mBodyKeys.keak_list[i].index << " | ";
_HEXDUMP_L(mBodyKeys.keak_list[i].enc.key, 16); std::cout << fnd::SimpleTextOutput::arrayToString(mBodyKeys.keak_list[i].enc.key, 16, false, "") << " | ";
//for (size_t j = 0; j < 16; j++) printf("%02x", mBodyKeys.keak_list[i].enc.key[j]);
printf(" | ");
if (mBodyKeys.keak_list[i].decrypted) if (mBodyKeys.keak_list[i].decrypted)
_HEXDUMP_L(mBodyKeys.keak_list[i].dec.key, 16); std::cout << fnd::SimpleTextOutput::arrayToString(mBodyKeys.keak_list[i].dec.key, 16, false, "");
else else
printf("<unable to decrypt> "); std::cout << "<unable to decrypt> ";
printf(" |\n"); std::cout << " |" << std::endl;
} }
printf(" <--------------------------------------------------------------------------->\n"); std::cout << " <--------------------------------------------------------------------------->" << std::endl;
} }
if (_HAS_BIT(mCliOutputMode, OUTPUT_LAYOUT)) if (_HAS_BIT(mCliOutputMode, OUTPUT_LAYOUT))
{ {
printf(" Partitions:\n"); std::cout << " Partitions:" << std::endl;
for (size_t i = 0; i < mHdr.getPartitions().size(); i++) for (size_t i = 0; i < mHdr.getPartitions().size(); i++)
{ {
size_t index = mHdr.getPartitions()[i].index; size_t index = mHdr.getPartitions()[i].index;
sPartitionInfo& info = mPartitions[index]; sPartitionInfo& info = mPartitions[index];
printf(" %d:\n", (int)index); std::cout << " " << std::dec << index << ":" << std::endl;
printf(" Offset: 0x%" PRIx64 "\n", (uint64_t)info.offset); std::cout << " Offset: 0x" << std::hex << (uint64_t)info.offset << std::endl;
printf(" Size: 0x%" PRIx64 "\n", (uint64_t)info.size); std::cout << " Size: 0x" << std::hex << (uint64_t)info.size << std::endl;
printf(" Format Type: %s\n", getFormatTypeStr(info.format_type)); std::cout << " Format Type: " << getFormatTypeStr(info.format_type) << std::endl;
printf(" Hash Type: %s\n", getHashTypeStr(info.hash_type)); std::cout << " Hash Type: " << getHashTypeStr(info.hash_type) << std::endl;
printf(" Enc. Type: %s\n", getEncryptionTypeStr(info.enc_type)); std::cout << " Enc. Type: " << getEncryptionTypeStr(info.enc_type) << std::endl;
if (info.enc_type == nn::hac::nca::CRYPT_AESCTR) if (info.enc_type == nn::hac::nca::CRYPT_AESCTR)
{ {
printf(" AES-CTR: ");
fnd::aes::sAesIvCtr ctr; fnd::aes::sAesIvCtr ctr;
fnd::aes::AesIncrementCounter(info.aes_ctr.iv, info.offset>>4, ctr.iv); fnd::aes::AesIncrementCounter(info.aes_ctr.iv, info.offset>>4, ctr.iv);
fnd::SimpleTextOutput::hexDump(ctr.iv, sizeof(fnd::aes::sAesIvCtr)); std::cout << " AES-CTR: " << fnd::SimpleTextOutput::arrayToString(ctr.iv, sizeof(fnd::aes::sAesIvCtr), true, "") << std::endl;
} }
if (info.hash_type == nn::hac::nca::HASH_HIERARCHICAL_INTERGRITY) if (info.hash_type == nn::hac::nca::HASH_HIERARCHICAL_INTERGRITY)
{ {
HashTreeMeta& hash_hdr = info.hash_tree_meta; HashTreeMeta& hash_hdr = info.hash_tree_meta;
printf(" HierarchicalIntegrity Header:\n"); std::cout << " HierarchicalIntegrity Header:" << std::endl;
//printf(" TypeId: 0x%x\n", hash_hdr.type_id.get());
//printf(" MasterHashSize: 0x%x\n", hash_hdr.master_hash_size.get());
//printf(" LayerNum: %d\n", hash_hdr.getLayerInfo().size());
for (size_t j = 0; j < hash_hdr.getHashLayerInfo().size(); j++) for (size_t j = 0; j < hash_hdr.getHashLayerInfo().size(); j++)
{ {
printf(" Hash Layer %d:\n", (int)j); std::cout << " Hash Layer " << std::dec << j << ":" << std::endl;
printf(" Offset: 0x%" PRIx64 "\n", (uint64_t)hash_hdr.getHashLayerInfo()[j].offset); std::cout << " Offset: 0x" << std::hex << (uint64_t)hash_hdr.getHashLayerInfo()[j].offset << std::endl;
printf(" Size: 0x%" PRIx64 "\n", (uint64_t)hash_hdr.getHashLayerInfo()[j].size); std::cout << " Size: 0x" << std::hex << (uint64_t)hash_hdr.getHashLayerInfo()[j].size << std::endl;
printf(" BlockSize: 0x%" PRIx32 "\n", (uint32_t)hash_hdr.getHashLayerInfo()[j].block_size); std::cout << " BlockSize: 0x" << std::hex << (uint32_t)hash_hdr.getHashLayerInfo()[j].block_size << std::endl;
} }
printf(" Data Layer:\n"); std::cout << " Data Layer:" << std::endl;
printf(" Offset: 0x%" PRIx64 "\n", (uint64_t)hash_hdr.getDataLayer().offset); std::cout << " Offset: 0x" << std::hex << (uint64_t)hash_hdr.getDataLayer().offset << std::endl;
printf(" Size: 0x%" PRIx64 "\n", (uint64_t)hash_hdr.getDataLayer().size); std::cout << " Size: 0x" << std::hex << (uint64_t)hash_hdr.getDataLayer().size << std::endl;
printf(" BlockSize: 0x%" PRIx32 "\n", (uint32_t)hash_hdr.getDataLayer().block_size); std::cout << " BlockSize: 0x" << std::hex << (uint32_t)hash_hdr.getDataLayer().block_size << std::endl;
for (size_t j = 0; j < hash_hdr.getMasterHashList().size(); j++) for (size_t j = 0; j < hash_hdr.getMasterHashList().size(); j++)
{ {
printf(" Master Hash %d: ", (int)j); std::cout << " Master Hash " << std::dec << j << ": " << fnd::SimpleTextOutput::arrayToString(hash_hdr.getMasterHashList()[j].bytes, sizeof(fnd::sha::sSha256Hash), true, "") << std::endl;
fnd::SimpleTextOutput::hexDump(hash_hdr.getMasterHashList()[j].bytes, sizeof(fnd::sha::sSha256Hash));
} }
} }
else if (info.hash_type == nn::hac::nca::HASH_HIERARCHICAL_SHA256) else if (info.hash_type == nn::hac::nca::HASH_HIERARCHICAL_SHA256)
{ {
HashTreeMeta& hash_hdr = info.hash_tree_meta; HashTreeMeta& hash_hdr = info.hash_tree_meta;
printf(" HierarchicalSha256 Header:\n"); std::cout << " HierarchicalSha256 Header:" << std::endl;
printf(" Master Hash: "); std::cout << " Master Hash: " << fnd::SimpleTextOutput::arrayToString(hash_hdr.getMasterHashList()[0].bytes, sizeof(fnd::sha::sSha256Hash), true, "") << std::endl;
fnd::SimpleTextOutput::hexDump(hash_hdr.getMasterHashList()[0].bytes, sizeof(fnd::sha::sSha256Hash)); std::cout << " HashBlockSize: 0x" << std::hex << (uint32_t)hash_hdr.getDataLayer().block_size << std::endl;
printf(" HashBlockSize: 0x%" PRIx32 "\n", (uint32_t)hash_hdr.getDataLayer().block_size); std::cout << " Hash Layer:" << std::endl;
//printf(" LayerNum: %d\n", hash_hdr.getLayerInfo().size()); std::cout << " Offset: 0x" << std::hex << (uint64_t)hash_hdr.getHashLayerInfo()[0].offset << std::endl;
printf(" Hash Layer:\n"); std::cout << " Size: 0x" << std::hex << (uint64_t)hash_hdr.getHashLayerInfo()[0].size << std::endl;
printf(" Offset: 0x%" PRIx64 "\n", (uint64_t)hash_hdr.getHashLayerInfo()[0].offset); std::cout << " Data Layer:" << std::endl;
printf(" Size: 0x%" PRIx64 "\n", (uint64_t)hash_hdr.getHashLayerInfo()[0].size); std::cout << " Offset: 0x" << std::hex << (uint64_t)hash_hdr.getDataLayer().offset << std::endl;
printf(" Data Layer:\n"); std::cout << " Size: 0x" << std::hex << (uint64_t)hash_hdr.getDataLayer().size << std::endl;
printf(" Offset: 0x%" PRIx64 "\n", (uint64_t)hash_hdr.getDataLayer().offset); }
printf(" Size: 0x%" PRIx64 "\n", (uint64_t)hash_hdr.getDataLayer().size);
}
//else
//{
// printf(" Hash Superblock:\n");
// fnd::SimpleTextOutput::hxdStyleDump(fs_header.hash_superblock, nn::hac::nca::kFsHeaderHashSuperblockLen);
//}
} }
} }
#undef _HEXDUMP_U
#undef _HEXDUMP_L
} }
@ -753,12 +526,12 @@ void NcaProcess::processPartitions()
// if the reader is null, skip // if the reader is null, skip
if (partition.reader == nullptr) if (partition.reader == nullptr)
{ {
printf("[WARNING] NCA Partition %d not readable.", (int)index); std::cout << "[WARNING] NCA Partition " << std::dec << index << " not readable.";
if (partition.fail_reason.empty() == false) if (partition.fail_reason.empty() == false)
{ {
printf(" (%s)", partition.fail_reason.c_str()); std::cout << " (" << partition.fail_reason << ")";
} }
printf("\n"); std::cout << std::endl;
continue; continue;
} }
@ -779,9 +552,7 @@ void NcaProcess::processPartitions()
if (mPartitionPath[index].doExtract) if (mPartitionPath[index].doExtract)
pfs.setExtractPath(mPartitionPath[index].path); pfs.setExtractPath(mPartitionPath[index].path);
//printf("pfs.process(%lx)\n",partition.data_offset);
pfs.process(); pfs.process();
//printf("pfs.process() end\n");
} }
else if (partition.format_type == nn::hac::nca::FORMAT_ROMFS) else if (partition.format_type == nn::hac::nca::FORMAT_ROMFS)
{ {
@ -800,9 +571,233 @@ void NcaProcess::processPartitions()
if (mPartitionPath[index].doExtract) if (mPartitionPath[index].doExtract)
romfs.setExtractPath(mPartitionPath[index].path); romfs.setExtractPath(mPartitionPath[index].path);
//printf("romfs.process(%lx)\n", partition.data_offset);
romfs.process(); romfs.process();
//printf("romfs.process() end\n");
} }
} }
} }
const char* NcaProcess::getFormatVersionStr(nn::hac::NcaHeader::FormatVersion format_ver) const
{
const char* str = nullptr;
switch (format_ver)
{
case (nn::hac::NcaHeader::NCA2_FORMAT):
str = "NCA2";
break;
case (nn::hac::NcaHeader::NCA3_FORMAT):
str = "NCA3";
break;
default:
str = "Unknown";
break;
}
return str;
}
const char* NcaProcess::getDistributionTypeStr(nn::hac::nca::DistributionType dist_type) const
{
const char* str = nullptr;
switch (dist_type)
{
case (nn::hac::nca::DIST_DOWNLOAD):
str = "Download";
break;
case (nn::hac::nca::DIST_GAME_CARD):
str = "Game Card";
break;
default:
str = "Unknown";
break;
}
return str;
}
const char* NcaProcess::getContentTypeStr(nn::hac::nca::ContentType cont_type) const
{
const char* str = nullptr;
switch (cont_type)
{
case (nn::hac::nca::TYPE_PROGRAM):
str = "Program";
break;
case (nn::hac::nca::TYPE_META):
str = "Meta";
break;
case (nn::hac::nca::TYPE_CONTROL):
str = "Control";
break;
case (nn::hac::nca::TYPE_MANUAL):
str = "Manual";
break;
case (nn::hac::nca::TYPE_DATA):
str = "Data";
break;
case (nn::hac::nca::TYPE_PUBLIC_DATA):
str = "PublicData";
break;
default:
str = "Unknown";
break;
}
return str;
}
const char* NcaProcess::getEncryptionTypeStr(nn::hac::nca::EncryptionType enc_type) const
{
const char* str = nullptr;
switch (enc_type)
{
case (nn::hac::nca::CRYPT_AUTO):
str = "Auto";
break;
case (nn::hac::nca::CRYPT_NONE):
str = "None";
break;
case (nn::hac::nca::CRYPT_AESXTS):
str = "AesXts";
break;
case (nn::hac::nca::CRYPT_AESCTR):
str = "AesCtr";
break;
case (nn::hac::nca::CRYPT_AESCTREX):
str = "AesCtrEx";
break;
default:
str = "Unknown";
break;
}
return str;
}
const char* NcaProcess::getHashTypeStr(nn::hac::nca::HashType hash_type) const
{
const char* str = nullptr;
switch (hash_type)
{
case (nn::hac::nca::HASH_AUTO):
str = "Auto";
break;
case (nn::hac::nca::HASH_NONE):
str = "None";
break;
case (nn::hac::nca::HASH_HIERARCHICAL_SHA256):
str = "HierarchicalSha256";
break;
case (nn::hac::nca::HASH_HIERARCHICAL_INTERGRITY):
str = "HierarchicalIntegrity";
break;
default:
str = "Unknown";
break;
}
return str;
}
const char* NcaProcess::getFormatTypeStr(nn::hac::nca::FormatType format_type) const
{
const char* str = nullptr;
switch (format_type)
{
case (nn::hac::nca::FORMAT_ROMFS):
str = "RomFs";
break;
case (nn::hac::nca::FORMAT_PFS0):
str = "PartitionFs";
break;
default:
str = "Unknown";
break;
}
return str;
}
const char* NcaProcess::getKaekIndexStr(nn::hac::nca::KeyAreaEncryptionKeyIndex keak_index) const
{
const char* str = nullptr;
switch (keak_index)
{
case (nn::hac::nca::KAEK_IDX_APPLICATION):
str = "Application";
break;
case (nn::hac::nca::KAEK_IDX_OCEAN):
str = "Ocean";
break;
case (nn::hac::nca::KAEK_IDX_SYSTEM):
str = "System";
break;
default:
str = "Unknown";
break;
}
return str;
}
const char* NcaProcess::getContentTypeForMountStr(nn::hac::nca::ContentType cont_type) const
{
const char* str = nullptr;
switch (cont_type)
{
case (nn::hac::nca::TYPE_PROGRAM):
str = "program";
break;
case (nn::hac::nca::TYPE_META):
str = "meta";
break;
case (nn::hac::nca::TYPE_CONTROL):
str = "control";
break;
case (nn::hac::nca::TYPE_MANUAL):
str = "manual";
break;
case (nn::hac::nca::TYPE_DATA):
str = "data";
break;
case (nn::hac::nca::TYPE_PUBLIC_DATA):
str = "publicData";
break;
default:
str = "";
break;
}
return str;
}
const char* NcaProcess::getProgramPartitionNameStr(size_t i) const
{
const char* str = nullptr;
switch (i)
{
case (nn::hac::nca::PARTITION_CODE):
str = "code";
break;
case (nn::hac::nca::PARTITION_DATA):
str = "data";
break;
case (nn::hac::nca::PARTITION_LOGO):
str = "logo";
break;
default:
str = "";
break;
}
return str;
}

View file

@ -105,9 +105,20 @@ private:
fnd::aes::sAesIvCtr aes_ctr; fnd::aes::sAesIvCtr aes_ctr;
} mPartitions[nn::hac::nca::kPartitionNum]; } mPartitions[nn::hac::nca::kPartitionNum];
void importHeader();
void generateNcaBodyEncryptionKeys(); void generateNcaBodyEncryptionKeys();
void generatePartitionConfiguration(); void generatePartitionConfiguration();
void validateNcaSignatures(); void validateNcaSignatures();
void displayHeader(); void displayHeader();
void processPartitions(); void processPartitions();
const char* getFormatVersionStr(nn::hac::NcaHeader::FormatVersion format_ver) const;
const char* getDistributionTypeStr(nn::hac::nca::DistributionType dist_type) const;
const char* getContentTypeStr(nn::hac::nca::ContentType cont_type) const;
const char* getEncryptionTypeStr(nn::hac::nca::EncryptionType enc_type) const;
const char* getHashTypeStr(nn::hac::nca::HashType hash_type) const;
const char* getFormatTypeStr(nn::hac::nca::FormatType format_type) const;
const char* getKaekIndexStr(nn::hac::nca::KeyAreaEncryptionKeyIndex keak_index) const;
const char* getContentTypeForMountStr(nn::hac::nca::ContentType cont_type) const;
const char* getProgramPartitionNameStr(size_t i) const;
}; };

File diff suppressed because it is too large Load diff

View file

@ -32,6 +32,8 @@ private:
nn::hac::NpdmBinary mNpdm; nn::hac::NpdmBinary mNpdm;
void importNpdm();
void validateAcidSignature(const nn::hac::AccessControlInfoDescBinary& acid); void validateAcidSignature(const nn::hac::AccessControlInfoDescBinary& acid);
void validateAciFromAcid(const nn::hac::AccessControlInfoBinary& aci, const nn::hac::AccessControlInfoDescBinary& acid); void validateAciFromAcid(const nn::hac::AccessControlInfoBinary& aci, const nn::hac::AccessControlInfoDescBinary& acid);
@ -41,4 +43,14 @@ private:
void displayFac(const nn::hac::FileSystemAccessControlBinary& fac); void displayFac(const nn::hac::FileSystemAccessControlBinary& fac);
void displaySac(const nn::hac::ServiceAccessControlBinary& sac); void displaySac(const nn::hac::ServiceAccessControlBinary& sac);
void displayKernelCap(const nn::hac::KernelCapabilityBinary& kern); void displayKernelCap(const nn::hac::KernelCapabilityBinary& kern);
const char* getInstructionTypeStr(nn::hac::npdm::InstructionType type) const;
const char* getProcAddressSpaceTypeStr(nn::hac::npdm::ProcAddrSpaceType type) const;
const char* getAcidFlagStr(nn::hac::aci::Flag flag) const;
const char* getMiscFlagStr(nn::hac::MiscFlagsHandler::Flags flag) const;
const char* getFsaRightStr(nn::hac::fac::FsAccessFlag flag) const;
const char* getSaveDataOwnerAccessModeStr(nn::hac::fac::SaveDataOwnerIdAccessType type) const;
const char* getSystemCallStr(byte_t syscall_id) const;
const char* getMemMapPermStr(nn::hac::MemoryMappingHandler::MemoryPerm type) const;
const char* getMemMapTypeStr(nn::hac::MemoryMappingHandler::MappingType type) const;
}; };

View file

@ -1,3 +1,5 @@
#include <iostream>
#include <iomanip>
#include <fnd/SimpleTextOutput.h> #include <fnd/SimpleTextOutput.h>
#include <fnd/Vec.h> #include <fnd/Vec.h>
#include <fnd/lz4.h> #include <fnd/lz4.h>
@ -23,11 +25,6 @@ NroProcess::~NroProcess()
void NroProcess::process() void NroProcess::process()
{ {
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
importHeader(); importHeader();
importCodeSegments(); importCodeSegments();
@ -99,6 +96,12 @@ const RoMetadataProcess& NroProcess::getRoMetadataProcess() const
void NroProcess::importHeader() void NroProcess::importHeader()
{ {
fnd::Vec<byte_t> scratch; fnd::Vec<byte_t> scratch;
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
if (mFile->size() < sizeof(nn::hac::sNroHeader)) if (mFile->size() < sizeof(nn::hac::sNroHeader))
{ {
throw fnd::Exception(kModuleName, "Corrupt NRO: file too small"); throw fnd::Exception(kModuleName, "Corrupt NRO: file too small");
@ -134,41 +137,34 @@ void NroProcess::importCodeSegments()
void NroProcess::displayHeader() void NroProcess::displayHeader()
{ {
#define _HEXDUMP_L(var, len) do { for (size_t a__a__A = 0; a__a__A < len; a__a__A++) printf("%02x", var[a__a__A]); } while(0) std::cout << "[NRO Header]" << std::endl;
printf("[NRO Header]\n"); std::cout << " RoCrt: " << fnd::SimpleTextOutput::arrayToString(mHdr.getRoCrt().data, nn::hac::nro::kRoCrtSize, false, "") << std::endl;
printf(" RoCrt: "); std::cout << " ModuleId: " << fnd::SimpleTextOutput::arrayToString(mHdr.getModuleId().data, nn::hac::nro::kModuleIdSize, false, "") << std::endl;
_HEXDUMP_L(mHdr.getRoCrt().data, nn::hac::nro::kRoCrtSize); std::cout << " NroSize: 0x" << std::hex << mHdr.getNroSize() << std::endl;
printf("\n"); std::cout << " Program Sections:" << std::endl;
printf(" ModuleId: "); std::cout << " .text:" << std::endl;
_HEXDUMP_L(mHdr.getModuleId().data, nn::hac::nro::kModuleIdSize); std::cout << " Offset: 0x" << std::hex << mHdr.getTextInfo().memory_offset << std::endl;
printf("\n"); std::cout << " Size: 0x" << std::hex << mHdr.getTextInfo().size << std::endl;
printf(" NroSize: 0x%" PRIx32 "\n", mHdr.getNroSize()); std::cout << " .ro:" << std::endl;
printf(" Program Sections:\n"); std::cout << " Offset: 0x" << std::hex << mHdr.getRoInfo().memory_offset << std::endl;
printf(" .text:\n"); std::cout << " Size: 0x" << std::hex << mHdr.getRoInfo().size << std::endl;
printf(" Offset: 0x%" PRIx32 "\n", mHdr.getTextInfo().memory_offset);
printf(" Size: 0x%" PRIx32 "\n", mHdr.getTextInfo().size);
printf(" .ro:\n");
printf(" Offset: 0x%" PRIx32 "\n", mHdr.getRoInfo().memory_offset);
printf(" Size: 0x%" PRIx32 "\n", mHdr.getRoInfo().size);
if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED)) if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{ {
printf(" .api_info:\n"); std::cout << " .api_info:" << std::endl;
printf(" Offset: 0x%" PRIx32 "\n", mHdr.getRoEmbeddedInfo().memory_offset); std::cout << " Offset: 0x" << std::hex << mHdr.getRoEmbeddedInfo().memory_offset << std::endl;
printf(" Size: 0x%" PRIx32 "\n", mHdr.getRoEmbeddedInfo().size); std::cout << " Size: 0x" << std::hex << mHdr.getRoEmbeddedInfo().size << std::endl;
printf(" .dynstr:\n"); std::cout << " .dynstr:" << std::endl;
printf(" Offset: 0x%" PRIx32 "\n", mHdr.getRoDynStrInfo().memory_offset); std::cout << " Offset: 0x" << std::hex << mHdr.getRoDynStrInfo().memory_offset << std::endl;
printf(" Size: 0x%" PRIx32 "\n", mHdr.getRoDynStrInfo().size); std::cout << " Size: 0x" << std::hex << mHdr.getRoDynStrInfo().size << std::endl;
printf(" .dynsym:\n"); std::cout << " .dynsym:" << std::endl;
printf(" Offset: 0x%" PRIx32 "\n", mHdr.getRoDynSymInfo().memory_offset); std::cout << " Offset: 0x" << std::hex << mHdr.getRoDynSymInfo().memory_offset << std::endl;
printf(" Size: 0x%" PRIx32 "\n", mHdr.getRoDynSymInfo().size); std::cout << " Size: 0x" << std::hex << mHdr.getRoDynSymInfo().size << std::endl;
} }
printf(" .data:\n"); std::cout << " .data:" << std::endl;
printf(" Offset: 0x%" PRIx32 "\n", mHdr.getDataInfo().memory_offset); std::cout << " Offset: 0x" << std::hex << mHdr.getDataInfo().memory_offset << std::endl;
printf(" Size: 0x%" PRIx32 "\n", mHdr.getDataInfo().size); std::cout << " Size: 0x" << std::hex << mHdr.getDataInfo().size << std::endl;
printf(" .bss:\n"); std::cout << " .bss:" << std::endl;
printf(" Size: 0x%" PRIx32 "\n", mHdr.getBssSize()); std::cout << " Size: 0x" << std::hex << mHdr.getBssSize() << std::endl;
#undef _HEXDUMP_L
} }
void NroProcess::processRoMeta() void NroProcess::processRoMeta()

View file

@ -1,3 +1,5 @@
#include <iostream>
#include <iomanip>
#include <fnd/SimpleTextOutput.h> #include <fnd/SimpleTextOutput.h>
#include <fnd/Vec.h> #include <fnd/Vec.h>
#include <fnd/lz4.h> #include <fnd/lz4.h>
@ -22,11 +24,6 @@ NsoProcess::~NsoProcess()
void NsoProcess::process() void NsoProcess::process()
{ {
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
importHeader(); importHeader();
importCodeSegments(); importCodeSegments();
if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC)) if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC))
@ -74,6 +71,12 @@ const RoMetadataProcess& NsoProcess::getRoMetadataProcess() const
void NsoProcess::importHeader() void NsoProcess::importHeader()
{ {
fnd::Vec<byte_t> scratch; fnd::Vec<byte_t> scratch;
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
if (mFile->size() < sizeof(nn::hac::sNsoHeader)) if (mFile->size() < sizeof(nn::hac::sNsoHeader))
{ {
throw fnd::Exception(kModuleName, "Corrupt NSO: file too small"); throw fnd::Exception(kModuleName, "Corrupt NSO: file too small");
@ -172,72 +175,61 @@ void NsoProcess::importCodeSegments()
void NsoProcess::displayNsoHeader() void NsoProcess::displayNsoHeader()
{ {
#define _HEXDUMP_L(var, len) do { for (size_t a__a__A = 0; a__a__A < len; a__a__A++) printf("%02x", var[a__a__A]); } while(0) std::cout << "[NSO Header]" << std::endl;
std::cout << " ModuleId: " << fnd::SimpleTextOutput::arrayToString(mHdr.getModuleId().data, nn::hac::nso::kModuleIdSize, false, "") << std::endl;
printf("[NSO Header]\n");
printf(" ModuleId: ");
_HEXDUMP_L(mHdr.getModuleId().data, nn::hac::nso::kModuleIdSize);
printf("\n");
if (_HAS_BIT(mCliOutputMode, OUTPUT_LAYOUT)) if (_HAS_BIT(mCliOutputMode, OUTPUT_LAYOUT))
{ {
printf(" Program Segments:\n"); std::cout << " Program Segments:" << std::endl;
printf(" .module_name:\n"); std::cout << " .module_name:" << std::endl;
printf(" FileOffset: 0x%" PRIx32 "\n", mHdr.getModuleNameInfo().offset); std::cout << " FileOffset: 0x" << std::hex << mHdr.getModuleNameInfo().offset << std::endl;
printf(" FileSize: 0x%" PRIx32 "\n", mHdr.getModuleNameInfo().size); std::cout << " FileSize: 0x" << std::hex << mHdr.getModuleNameInfo().size << std::endl;
printf(" .text:\n"); std::cout << " .text:" << std::endl;
printf(" FileOffset: 0x%" PRIx32 "\n", mHdr.getTextSegmentInfo().file_layout.offset); std::cout << " FileOffset: 0x" << std::hex << mHdr.getTextSegmentInfo().file_layout.offset << std::endl;
printf(" FileSize: 0x%" PRIx32 "%s\n", mHdr.getTextSegmentInfo().file_layout.size, mHdr.getTextSegmentInfo().is_compressed? " (COMPRESSED)" : ""); std::cout << " FileSize: 0x" << std::hex << mHdr.getTextSegmentInfo().file_layout.size << (mHdr.getTextSegmentInfo().is_compressed? " (COMPRESSED)" : "") << std::endl;
printf(" .ro:\n"); std::cout << " .ro:" << std::endl;
printf(" FileOffset: 0x%" PRIx32 "\n", mHdr.getRoSegmentInfo().file_layout.offset); std::cout << " FileOffset: 0x" << std::hex << mHdr.getRoSegmentInfo().file_layout.offset << std::endl;
printf(" FileSize: 0x%" PRIx32 "%s\n", mHdr.getRoSegmentInfo().file_layout.size, mHdr.getRoSegmentInfo().is_compressed? " (COMPRESSED)" : ""); std::cout << " FileSize: 0x" << std::hex << mHdr.getRoSegmentInfo().file_layout.size << (mHdr.getRoSegmentInfo().is_compressed? " (COMPRESSED)" : "") << std::endl;
printf(" .data:\n"); std::cout << " .data:" << std::endl;
printf(" FileOffset: 0x%" PRIx32 "\n", mHdr.getDataSegmentInfo().file_layout.offset); std::cout << " FileOffset: 0x" << std::hex << mHdr.getDataSegmentInfo().file_layout.offset << std::endl;
printf(" FileSize: 0x%" PRIx32 "%s\n", mHdr.getDataSegmentInfo().file_layout.size, mHdr.getDataSegmentInfo().is_compressed? " (COMPRESSED)" : ""); std::cout << " FileSize: 0x" << std::hex << mHdr.getDataSegmentInfo().file_layout.size << (mHdr.getDataSegmentInfo().is_compressed? " (COMPRESSED)" : "") << std::endl;
} }
printf(" Program Sections:\n"); std::cout << " Program Sections:" << std::endl;
printf(" .text:\n"); std::cout << " .text:" << std::endl;
printf(" MemoryOffset: 0x%" PRIx32 "\n", mHdr.getTextSegmentInfo().memory_layout.offset); std::cout << " MemoryOffset: 0x" << std::hex << mHdr.getTextSegmentInfo().memory_layout.offset << std::endl;
printf(" MemorySize: 0x%" PRIx32 "\n", mHdr.getTextSegmentInfo().memory_layout.size); std::cout << " MemorySize: 0x" << std::hex << mHdr.getTextSegmentInfo().memory_layout.size << std::endl;
if (mHdr.getTextSegmentInfo().is_hashed && _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED)) if (mHdr.getTextSegmentInfo().is_hashed && _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{ {
printf(" Hash: "); std::cout << " Hash: " << fnd::SimpleTextOutput::arrayToString(mHdr.getTextSegmentInfo().hash.bytes, 32, false, "") << std::endl;
_HEXDUMP_L(mHdr.getTextSegmentInfo().hash.bytes, 32);
printf("\n");
} }
printf(" .ro:\n"); std::cout << " .ro:" << std::endl;
printf(" MemoryOffset: 0x%" PRIx32 "\n", mHdr.getRoSegmentInfo().memory_layout.offset); std::cout << " MemoryOffset: 0x" << std::hex << mHdr.getRoSegmentInfo().memory_layout.offset << std::endl;
printf(" MemorySize: 0x%" PRIx32 "\n", mHdr.getRoSegmentInfo().memory_layout.size); std::cout << " MemorySize: 0x" << std::hex << mHdr.getRoSegmentInfo().memory_layout.size << std::endl;
if (mHdr.getRoSegmentInfo().is_hashed && _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED)) if (mHdr.getRoSegmentInfo().is_hashed && _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{ {
printf(" Hash: "); std::cout << " Hash: " << fnd::SimpleTextOutput::arrayToString(mHdr.getRoSegmentInfo().hash.bytes, 32, false, "") << std::endl;
_HEXDUMP_L(mHdr.getRoSegmentInfo().hash.bytes, 32);
printf("\n");
} }
if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED)) if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{ {
printf(" .api_info:\n"); std::cout << " .api_info:" << std::endl;
printf(" MemoryOffset: 0x%" PRIx32 "\n", mHdr.getRoEmbeddedInfo().offset); std::cout << " MemoryOffset: 0x" << std::hex << mHdr.getRoEmbeddedInfo().offset << std::endl;
printf(" MemorySize: 0x%" PRIx32 "\n", mHdr.getRoEmbeddedInfo().size); std::cout << " MemorySize: 0x" << std::hex << mHdr.getRoEmbeddedInfo().size << std::endl;
printf(" .dynstr:\n"); std::cout << " .dynstr:" << std::endl;
printf(" MemoryOffset: 0x%" PRIx32 "\n", mHdr.getRoDynStrInfo().offset); std::cout << " MemoryOffset: 0x" << std::hex << mHdr.getRoDynStrInfo().offset << std::endl;
printf(" MemorySize: 0x%" PRIx32 "\n", mHdr.getRoDynStrInfo().size); std::cout << " MemorySize: 0x" << std::hex << mHdr.getRoDynStrInfo().size << std::endl;
printf(" .dynsym:\n"); std::cout << " .dynsym:" << std::endl;
printf(" MemoryOffset: 0x%" PRIx32 "\n", mHdr.getRoDynSymInfo().offset); std::cout << " MemoryOffset: 0x" << std::hex << mHdr.getRoDynSymInfo().offset << std::endl;
printf(" MemorySize: 0x%" PRIx32 "\n", mHdr.getRoDynSymInfo().size); std::cout << " MemorySize: 0x" << std::hex << mHdr.getRoDynSymInfo().size << std::endl;
} }
printf(" .data:\n"); std::cout << " .data:" << std::endl;
printf(" MemoryOffset: 0x%" PRIx32 "\n", mHdr.getDataSegmentInfo().memory_layout.offset); std::cout << " MemoryOffset: 0x" << std::hex << mHdr.getDataSegmentInfo().memory_layout.offset << std::endl;
printf(" MemorySize: 0x%" PRIx32 "\n", mHdr.getDataSegmentInfo().memory_layout.size); std::cout << " MemorySize: 0x" << std::hex << mHdr.getDataSegmentInfo().memory_layout.size << std::endl;
if (mHdr.getDataSegmentInfo().is_hashed && _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED)) if (mHdr.getDataSegmentInfo().is_hashed && _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{ {
printf(" Hash: "); std::cout << " Hash: " << fnd::SimpleTextOutput::arrayToString(mHdr.getDataSegmentInfo().hash.bytes, 32, false, "") << std::endl;
_HEXDUMP_L(mHdr.getDataSegmentInfo().hash.bytes, 32);
printf("\n");
} }
printf(" .bss:\n"); std::cout << " .bss:" << std::endl;
printf(" MemorySize: 0x%" PRIx32 "\n", mHdr.getBssSize()); std::cout << " MemorySize: 0x" << std::hex << mHdr.getBssSize() << std::endl;
#undef _HEXDUMP_L
} }
void NsoProcess::processRoMeta() void NsoProcess::processRoMeta()

View file

@ -1,3 +1,5 @@
#include <iostream>
#include <iomanip>
#include <fnd/SimpleFile.h> #include <fnd/SimpleFile.h>
#include <fnd/io.h> #include <fnd/io.h>
#include "PfsProcess.h" #include "PfsProcess.h"
@ -25,26 +27,7 @@ PfsProcess::~PfsProcess()
void PfsProcess::process() void PfsProcess::process()
{ {
fnd::Vec<byte_t> scratch; importHeader();
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
// open minimum header to get full header size
scratch.alloc(sizeof(nn::hac::sPfsHeader));
mFile->read(scratch.data(), 0, scratch.size());
if (validateHeaderMagic(((nn::hac::sPfsHeader*)scratch.data())) == false)
{
throw fnd::Exception(kModuleName, "Corrupt Header");
}
size_t pfsHeaderSize = determineHeaderSize(((nn::hac::sPfsHeader*)scratch.data()));
// open minimum header to get full header size
scratch.alloc(pfsHeaderSize);
mFile->read(scratch.data(), 0, scratch.size());
mPfs.fromBytes(scratch.data(), scratch.size());
if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC)) if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC))
{ {
@ -95,33 +78,65 @@ const nn::hac::PfsHeader& PfsProcess::getPfsHeader() const
return mPfs; return mPfs;
} }
void PfsProcess::importHeader()
{
fnd::Vec<byte_t> scratch;
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
// open minimum header to get full header size
scratch.alloc(sizeof(nn::hac::sPfsHeader));
mFile->read(scratch.data(), 0, scratch.size());
if (validateHeaderMagic(((nn::hac::sPfsHeader*)scratch.data())) == false)
{
throw fnd::Exception(kModuleName, "Corrupt Header");
}
size_t pfsHeaderSize = determineHeaderSize(((nn::hac::sPfsHeader*)scratch.data()));
// open minimum header to get full header size
scratch.alloc(pfsHeaderSize);
mFile->read(scratch.data(), 0, scratch.size());
mPfs.fromBytes(scratch.data(), scratch.size());
}
void PfsProcess::displayHeader() void PfsProcess::displayHeader()
{ {
printf("[PartitionFS]\n"); std::cout << "[PartitionFS]" << std::endl;
printf(" Type: %s\n", mPfs.getFsType() == mPfs.TYPE_PFS0? "PFS0" : "HFS0"); std::cout << " Type: " << getFsTypeStr(mPfs.getFsType()) << std::endl;
printf(" FileNum: %" PRId64 "\n", (uint64_t)mPfs.getFileList().size()); std::cout << " FileNum: " << std::dec << mPfs.getFileList().size() << std::endl;
if (mMountName.empty() == false) if (mMountName.empty() == false)
printf(" MountPoint: %s%s\n", mMountName.c_str(), mMountName.at(mMountName.length()-1) != '/' ? "/" : ""); {
std::cout << " MountPoint: " << mMountName;
if (mMountName.at(mMountName.length()-1) != '/')
std::cout << "/";
std::cout << std::endl;
}
} }
void PfsProcess::displayFs() void PfsProcess::displayFs()
{ {
for (size_t i = 0; i < mPfs.getFileList().size(); i++) for (size_t i = 0; i < mPfs.getFileList().size(); i++)
{ {
printf(" %s", mPfs.getFileList()[i].name.c_str()); const nn::hac::PfsHeader::sFile& file = mPfs.getFileList()[i];
std::cout << " " << file.name;
if (_HAS_BIT(mCliOutputMode, OUTPUT_LAYOUT)) if (_HAS_BIT(mCliOutputMode, OUTPUT_LAYOUT))
{ {
if (mPfs.getFsType() == mPfs.TYPE_PFS0) switch (mPfs.getFsType())
printf(" (offset=0x%" PRIx64 ", size=0x%" PRIx64 ")\n", (uint64_t)mPfs.getFileList()[i].offset, (uint64_t)mPfs.getFileList()[i].size);
else
printf(" (offset=0x%" PRIx64 ", size=0x%" PRIx64 ", hash_protected_size=0x%" PRIx64 ")\n", (uint64_t)mPfs.getFileList()[i].offset, (uint64_t)mPfs.getFileList()[i].size, (uint64_t)mPfs.getFileList()[i].hash_protected_size);
}
else
{ {
printf("\n"); case (nn::hac::PfsHeader::TYPE_PFS0):
std::cout << std::hex << " (offset=0x" << file.offset << ", size=0x" << file.size << ")";
break;
case (nn::hac::PfsHeader::TYPE_HFS0):
std::cout << std::hex << " (offset=0x" << file.offset << ", size=0x" << file.size << ", hash_protected_size=0x" << file.hash_protected_size << ")";
break;
} }
} }
std::cout << std::endl;
}
} }
size_t PfsProcess::determineHeaderSize(const nn::hac::sPfsHeader* hdr) size_t PfsProcess::determineHeaderSize(const nn::hac::sPfsHeader* hdr)
@ -187,3 +202,23 @@ void PfsProcess::extractFs()
outFile.close(); outFile.close();
} }
} }
const char* PfsProcess::getFsTypeStr(nn::hac::PfsHeader::FsType type) const
{
const char* str = nullptr;
switch (type)
{
case (nn::hac::PfsHeader::TYPE_PFS0):
str = "PFS0";
break;
case (nn::hac::PfsHeader::TYPE_HFS0):
str = "HFS0";
break;
default:
str = "Unknown";
break;
}
return str;
}

View file

@ -44,10 +44,13 @@ private:
nn::hac::PfsHeader mPfs; nn::hac::PfsHeader mPfs;
void importHeader();
void displayHeader(); void displayHeader();
void displayFs(); void displayFs();
size_t determineHeaderSize(const nn::hac::sPfsHeader* hdr); size_t determineHeaderSize(const nn::hac::sPfsHeader* hdr);
bool validateHeaderMagic(const nn::hac::sPfsHeader* hdr); bool validateHeaderMagic(const nn::hac::sPfsHeader* hdr);
void validateHfs(); void validateHfs();
void extractFs(); void extractFs();
const char* getFsTypeStr(nn::hac::PfsHeader::FsType type) const;
}; };

View file

@ -1,6 +1,5 @@
#include <iostream> #include <iostream>
#include <iomanip> #include <iomanip>
#include <fnd/SimpleTextOutput.h> #include <fnd/SimpleTextOutput.h>
#include <nn/pki/SignUtils.h> #include <nn/pki/SignUtils.h>
#include "OffsetAdjustedIFile.h" #include "OffsetAdjustedIFile.h"
@ -25,12 +24,8 @@ PkiCertProcess::~PkiCertProcess()
void PkiCertProcess::process() void PkiCertProcess::process()
{ {
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
importCerts(); importCerts();
if (mVerify) if (mVerify)
validateCerts(); validateCerts();
@ -63,6 +58,11 @@ void PkiCertProcess::importCerts()
{ {
fnd::Vec<byte_t> scratch; fnd::Vec<byte_t> scratch;
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
scratch.alloc(mFile->size()); scratch.alloc(mFile->size());
mFile->read(scratch.data(), 0, scratch.size()); mFile->read(scratch.data(), 0, scratch.size());
@ -100,15 +100,11 @@ void PkiCertProcess::displayCerts()
void PkiCertProcess::displayCert(const nn::pki::SignedData<nn::pki::CertificateBody>& cert) void PkiCertProcess::displayCert(const nn::pki::SignedData<nn::pki::CertificateBody>& cert)
{ {
#define _SPLIT_VER(ver) ( (ver>>26) & 0x3f), ( (ver>>20) & 0x3f), ( (ver>>16) & 0xf), (ver & 0xffff)
#define _HEXDUMP_U(var, len) do { for (size_t a__a__A = 0; a__a__A < len; a__a__A++) printf("%02X", var[a__a__A]); } while(0)
#define _HEXDUMP_L(var, len) do { for (size_t a__a__A = 0; a__a__A < len; a__a__A++) printf("%02x", var[a__a__A]); } while(0)
std::cout << "[NNPKI Certificate]" << std::endl; std::cout << "[NNPKI Certificate]" << std::endl;
std::cout << " SignType " << getSignTypeStr(cert.getSignature().getSignType()); std::cout << " SignType " << getSignTypeStr(cert.getSignature().getSignType());
if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED)) if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
std::cout << " (0x" << std::hex << cert.getSignature().getSignType() << ") (" << getEndiannessStr(cert.getSignature().isLittleEndian()); std::cout << " (0x" << std::hex << cert.getSignature().getSignType() << ") (" << getEndiannessStr(cert.getSignature().isLittleEndian()) << ")";
std::cout << std::endl; std::cout << std::endl;
std::cout << " Issuer: " << cert.getBody().getIssuer() << std::endl; std::cout << " Issuer: " << cert.getBody().getIssuer() << std::endl;
@ -130,9 +126,9 @@ void PkiCertProcess::displayCert(const nn::pki::SignedData<nn::pki::CertificateB
else if (cert.getBody().getPublicKeyType() == nn::pki::cert::RSA2048) else if (cert.getBody().getPublicKeyType() == nn::pki::cert::RSA2048)
{ {
std::cout << " PublicKey:" << std::endl; std::cout << " PublicKey:" << std::endl;
std::cout << " Public Exponent:" << std::endl;
fnd::SimpleTextOutput::hexDump(cert.getBody().getRsa2048PublicKey().modulus, getHexDumpLen(fnd::rsa::kRsa2048Size), 0x10, 6);
std::cout << " Modulus:" << std::endl; std::cout << " Modulus:" << std::endl;
fnd::SimpleTextOutput::hexDump(cert.getBody().getRsa2048PublicKey().modulus, getHexDumpLen(fnd::rsa::kRsa2048Size), 0x10, 6);
std::cout << " Public Exponent:" << std::endl;
fnd::SimpleTextOutput::hexDump(cert.getBody().getRsa2048PublicKey().public_exponent, fnd::rsa::kRsaPublicExponentSize, 0x10, 6); fnd::SimpleTextOutput::hexDump(cert.getBody().getRsa2048PublicKey().public_exponent, fnd::rsa::kRsaPublicExponentSize, 0x10, 6);
} }
else if (cert.getBody().getPublicKeyType() == nn::pki::cert::ECDSA240) else if (cert.getBody().getPublicKeyType() == nn::pki::cert::ECDSA240)
@ -143,12 +139,6 @@ void PkiCertProcess::displayCert(const nn::pki::SignedData<nn::pki::CertificateB
std::cout << " S:" << std::endl; std::cout << " S:" << std::endl;
fnd::SimpleTextOutput::hexDump(cert.getBody().getEcdsa240PublicKey().s, getHexDumpLen(fnd::ecdsa::kEcdsa240Size), 0x10, 6); fnd::SimpleTextOutput::hexDump(cert.getBody().getEcdsa240PublicKey().s, getHexDumpLen(fnd::ecdsa::kEcdsa240Size), 0x10, 6);
} }
#undef _HEXDUMP_L
#undef _HEXDUMP_U
#undef _SPLIT_VER
} }
size_t PkiCertProcess::getHexDumpLen(size_t max_size) const size_t PkiCertProcess::getHexDumpLen(size_t max_size) const

View file

@ -1,8 +1,8 @@
#include "PkiValidator.h"
#include <iostream> #include <iostream>
#include <iomanip> #include <iomanip>
#include <sstream> #include <sstream>
#include <nn/pki/SignUtils.h> #include <nn/pki/SignUtils.h>
#include "PkiValidator.h"
PkiValidator::PkiValidator() PkiValidator::PkiValidator()
{ {

View file

@ -1,4 +1,6 @@
#include <sstream> #include <sstream>
#include <iostream>
#include <iomanip>
#include <fnd/types.h> #include <fnd/types.h>
#include "RoMetadataProcess.h" #include "RoMetadataProcess.h"
@ -23,12 +25,8 @@ RoMetadataProcess::RoMetadataProcess() :
void RoMetadataProcess::process() void RoMetadataProcess::process()
{ {
if (mRoBlob.size() == 0)
{
throw fnd::Exception(kModuleName, "No ro binary set.");
}
importApiList(); importApiList();
if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC)) if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC))
displayRoMetaData(); displayRoMetaData();
} }
@ -101,6 +99,11 @@ const fnd::List<ElfSymbolParser::sElfSymbol>& RoMetadataProcess::getSymbolList()
void RoMetadataProcess::importApiList() void RoMetadataProcess::importApiList()
{ {
if (mRoBlob.size() == 0)
{
throw fnd::Exception(kModuleName, "No ro binary set.");
}
if (mApiInfo.size > 0) if (mApiInfo.size > 0)
{ {
std::stringstream list_stream(std::string((char*)mRoBlob.data() + mApiInfo.offset, mApiInfo.size)); std::stringstream list_stream(std::string((char*)mRoBlob.data() + mApiInfo.offset, mApiInfo.size));
@ -133,43 +136,43 @@ void RoMetadataProcess::displayRoMetaData()
if (api_num > 0 && (mListApi || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))) if (api_num > 0 && (mListApi || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED)))
{ {
printf("[SDK API List]\n"); std::cout << "[SDK API List]" << std::endl;
if (mSdkVerApiList.size() > 0) if (mSdkVerApiList.size() > 0)
{ {
printf(" Sdk Revision: %s\n", mSdkVerApiList[0].getModuleName().c_str()); std::cout << " Sdk Revision: " << mSdkVerApiList[0].getModuleName() << std::endl;
} }
if (mPublicApiList.size() > 0) if (mPublicApiList.size() > 0)
{ {
printf(" Public APIs:\n"); std::cout << " Public APIs:" << std::endl;
for (size_t i = 0; i < mPublicApiList.size(); i++) for (size_t i = 0; i < mPublicApiList.size(); i++)
{ {
printf(" %s (vender: %s)\n", mPublicApiList[i].getModuleName().c_str(), mPublicApiList[i].getVenderName().c_str()); std::cout << " " << mPublicApiList[i].getModuleName() << " (vender: " << mPublicApiList[i].getVenderName() << ")" << std::endl;
} }
} }
if (mDebugApiList.size() > 0) if (mDebugApiList.size() > 0)
{ {
printf(" Debug APIs:\n"); std::cout << " Debug APIs:" << std::endl;
for (size_t i = 0; i < mDebugApiList.size(); i++) for (size_t i = 0; i < mDebugApiList.size(); i++)
{ {
printf(" %s (vender: %s)\n", mDebugApiList[i].getModuleName().c_str(), mDebugApiList[i].getVenderName().c_str()); std::cout << " " << mDebugApiList[i].getModuleName() << " (vender: " << mDebugApiList[i].getVenderName() << ")" << std::endl;
} }
} }
if (mPrivateApiList.size() > 0) if (mPrivateApiList.size() > 0)
{ {
printf(" Private APIs:\n"); std::cout << " Private APIs:" << std::endl;
for (size_t i = 0; i < mPrivateApiList.size(); i++) for (size_t i = 0; i < mPrivateApiList.size(); i++)
{ {
printf(" %s (vender: %s)\n", mPrivateApiList[i].getModuleName().c_str(), mPrivateApiList[i].getVenderName().c_str()); std::cout << " " << mPrivateApiList[i].getModuleName() << " (vender: " << mPrivateApiList[i].getVenderName() << ")" << std::endl;
} }
} }
} }
if (mSymbolList.getSymbolList().size() > 0 && (mListSymbols || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))) if (mSymbolList.getSymbolList().size() > 0 && (mListSymbols || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED)))
{ {
printf("[Symbol List]\n"); std::cout << "[Symbol List]" << std::endl;
for (size_t i = 0; i < mSymbolList.getSymbolList().size(); i++) for (size_t i = 0; i < mSymbolList.getSymbolList().size(); i++)
{ {
const ElfSymbolParser::sElfSymbol& symbol = mSymbolList.getSymbolList()[i]; const ElfSymbolParser::sElfSymbol& symbol = mSymbolList.getSymbolList()[i];
printf(" %s [SHN=%s (%04x)][STT=%s][STB=%s]\n", symbol.name.c_str(), getSectionIndexStr(symbol.shn_index), symbol.shn_index, getSymbolTypeStr(symbol.symbol_type), getSymbolBindingStr(symbol.symbol_binding)); std::cout << " " << symbol.name << " [SHN=" << getSectionIndexStr(symbol.shn_index) << " (" << std::hex << std::setw(4) << std::setfill('0') << symbol.shn_index << ")][STT=" << getSymbolTypeStr(symbol.symbol_type) << "][STB=" << getSymbolBindingStr(symbol.symbol_binding) << "]" << std::endl;
} }
} }
} }

View file

@ -1,3 +1,5 @@
#include <iostream>
#include <iomanip>
#include <fnd/SimpleTextOutput.h> #include <fnd/SimpleTextOutput.h>
#include <fnd/SimpleFile.h> #include <fnd/SimpleFile.h>
#include <fnd/io.h> #include <fnd/io.h>
@ -30,18 +32,15 @@ RomfsProcess::~RomfsProcess()
void RomfsProcess::process() void RomfsProcess::process()
{ {
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
resolveRomfs(); resolveRomfs();
if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC)) if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC))
{ {
displayHeader(); displayHeader();
if (mListFs || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED)) if (mListFs || _HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
displayFs(); displayFs();
} }
if (mExtract) if (mExtract)
extractFs(); extractFs();
} }
@ -87,19 +86,19 @@ void RomfsProcess::printTab(size_t tab) const
{ {
for (size_t i = 0; i < tab; i++) for (size_t i = 0; i < tab; i++)
{ {
printf(" "); std::cout << " ";
} }
} }
void RomfsProcess::displayFile(const sFile& file, size_t tab) const void RomfsProcess::displayFile(const sFile& file, size_t tab) const
{ {
printTab(tab); printTab(tab);
printf("%s", file.name.c_str()); std::cout << file.name;
if (_HAS_BIT(mCliOutputMode, OUTPUT_LAYOUT)) if (_HAS_BIT(mCliOutputMode, OUTPUT_LAYOUT))
{ {
printf(" (offset=0x%" PRIx64 ", size=0x%" PRIx64 ")", file.offset, file.size); std::cout << std::hex << " (offset=0x" << file.offset << ", size=0x" << file.size << ")";
} }
putchar('\n'); std::cout << std::endl;
} }
void RomfsProcess::displayDir(const sDirectory& dir, size_t tab) const void RomfsProcess::displayDir(const sDirectory& dir, size_t tab) const
@ -107,7 +106,7 @@ void RomfsProcess::displayDir(const sDirectory& dir, size_t tab) const
if (dir.name.empty() == false) if (dir.name.empty() == false)
{ {
printTab(tab); printTab(tab);
printf("%s\n", dir.name.c_str()); std::cout << dir.name << std::endl;
} }
for (size_t i = 0; i < dir.dir_list.size(); i++) for (size_t i = 0; i < dir.dir_list.size(); i++)
@ -122,11 +121,16 @@ void RomfsProcess::displayDir(const sDirectory& dir, size_t tab) const
void RomfsProcess::displayHeader() void RomfsProcess::displayHeader()
{ {
printf("[RomFS]\n"); std::cout << "[RomFS]" << std::endl;
printf(" DirNum: %" PRId64 "\n", (uint64_t)mDirNum); std::cout << " DirNum: " << std::dec << mDirNum << std::endl;
printf(" FileNum: %" PRId64 "\n", (uint64_t)mFileNum); std::cout << " FileNum: " << std::dec << mFileNum << std::endl;
if (mMountName.empty() == false) if (mMountName.empty() == false)
printf(" MountPoint: %s%s\n", mMountName.c_str(), mMountName.at(mMountName.length()-1) != '/' ? "/" : ""); {
std::cout << " MountPoint: " << mMountName;
if (mMountName.at(mMountName.length()-1) != '/')
std::cout << "/";
std::cout << std::endl;
}
} }
void RomfsProcess::displayFs() void RomfsProcess::displayFs()
@ -156,7 +160,7 @@ void RomfsProcess::extractDir(const std::string& path, const sDirectory& dir)
fnd::io::appendToPath(file_path, dir.file_list[i].name); fnd::io::appendToPath(file_path, dir.file_list[i].name);
if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC)) if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC))
printf("extract=[%s]\n", file_path.c_str()); std::cout << "extract=[" << file_path << "]" << std::endl;
outFile.open(file_path, outFile.Create); outFile.open(file_path, outFile.Create);
mFile->seek(dir.file_list[i].offset); mFile->seek(dir.file_list[i].offset);
@ -254,6 +258,11 @@ void RomfsProcess::importDirectory(uint32_t dir_offset, sDirectory& dir)
void RomfsProcess::resolveRomfs() void RomfsProcess::resolveRomfs()
{ {
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
// read header // read header
mFile->read((byte_t*)&mHdr, 0, sizeof(nn::hac::sRomfsHeader)); mFile->read((byte_t*)&mHdr, 0, sizeof(nn::hac::sRomfsHeader));

View file

@ -1,3 +1,5 @@
#include <iostream>
#include <iomanip>
#include <fnd/SimpleTextOutput.h> #include <fnd/SimpleTextOutput.h>
#include <nn/hac/XciUtils.h> #include <nn/hac/XciUtils.h>
#include "OffsetAdjustedIFile.h" #include "OffsetAdjustedIFile.h"
@ -25,28 +27,11 @@ XciProcess::~XciProcess()
void XciProcess::process() void XciProcess::process()
{ {
fnd::Vec<byte_t> scratch; importHeader();
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
// read header page
mFile->read((byte_t*)&mHdrPage, 0, sizeof(nn::hac::sXciHeaderPage));
// allocate memory for and decrypt sXciHeader
scratch.alloc(sizeof(nn::hac::sXciHeader));
nn::hac::XciUtils::decryptXciHeader((const byte_t*)&mHdrPage.header, scratch.data(), mKeyset->xci.header_key.key);
// validate header signature // validate header signature
if (mVerify) if (mVerify)
{
validateXciSignature(); validateXciSignature();
}
// deserialise header
mHdr.fromBytes(scratch.data(), scratch.size());
// display header // display header
if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC)) if (_HAS_BIT(mCliOutputMode, OUTPUT_BASIC))
@ -90,93 +75,114 @@ void XciProcess::setListFs(bool list_fs)
mListFs = list_fs; mListFs = list_fs;
} }
void XciProcess::importHeader()
{
fnd::Vec<byte_t> scratch;
if (mFile == nullptr)
{
throw fnd::Exception(kModuleName, "No file reader set.");
}
// read header page
mFile->read((byte_t*)&mHdrPage, 0, sizeof(nn::hac::sXciHeaderPage));
// allocate memory for and decrypt sXciHeader
scratch.alloc(sizeof(nn::hac::sXciHeader));
nn::hac::XciUtils::decryptXciHeader((const byte_t*)&mHdrPage.header, scratch.data(), mKeyset->xci.header_key.key);
// deserialise header
mHdr.fromBytes(scratch.data(), scratch.size());
}
void XciProcess::displayHeader() void XciProcess::displayHeader()
{ {
printf("[XCI Header]\n"); std::cout << "[XCI Header]" << std::endl;
printf(" CardHeaderVersion: %d\n", mHdr.getCardHeaderVersion()); std::cout << " CardHeaderVersion: " << std::dec << (uint32_t)mHdr.getCardHeaderVersion() << std::endl;
printf(" RomSize: %s", getRomSizeStr(mHdr.getRomSizeType())); std::cout << " RomSize: " << getRomSizeStr(mHdr.getRomSizeType());
if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED)) if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
printf(" (0x%x)", mHdr.getRomSizeType()); std::cout << " (0x" << std::hex << (uint32_t)mHdr.getRomSizeType() << ")";
printf("\n"); std::cout << std::endl;
printf(" PackageId: 0x%" PRIx64 "\n", mHdr.getPackageId()); std::cout << " PackageId: 0x" << std::hex << std::setw(16) << std::setfill('0') << mHdr.getPackageId() << std::endl;
printf(" Flags: 0x%x\n", mHdr.getFlags()); std::cout << " Flags: 0x" << std::dec << (uint32_t)mHdr.getFlags() << std::endl;
if (mHdr.getFlags() != 0) if (mHdr.getFlags() != 0)
{ {
for (uint32_t i = 0; i < 8; i++) for (uint32_t i = 0; i < 8; i++)
{ {
if (_HAS_BIT(mHdr.getFlags(), i)) if (_HAS_BIT(mHdr.getFlags(), i))
{ {
printf(" %s\n", getHeaderFlagStr(i)); std::cout << " " << getHeaderFlagStr(i) << std::endl;
} }
} }
} }
if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED)) if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{ {
printf(" InitialData:\n"); std::cout << " InitialData:" << std::endl;
printf(" KekIndex: %d\n", mHdr.getKekIndex()); std::cout << " KekIndex: " << std::dec << (uint32_t)mHdr.getKekIndex() << std::endl;
printf(" TitleKeyDecIndex: %d\n", mHdr.getTitleKeyDecIndex()); std::cout << " TitleKeyDecIndex: " << std::dec << (uint32_t)mHdr.getTitleKeyDecIndex() << std::endl;
printf(" Hash:\n"); std::cout << " Hash:" << std::endl;
fnd::SimpleTextOutput::hexDump(mHdr.getInitialDataHash().bytes, sizeof(mHdr.getInitialDataHash().bytes), 0x10, 6); std::cout << " " << fnd::SimpleTextOutput::arrayToString(mHdr.getInitialDataHash().bytes, 0x10, true, "") << std::endl;
std::cout << " " << fnd::SimpleTextOutput::arrayToString(mHdr.getInitialDataHash().bytes+0x10, 0x10, true, "") << std::endl;
} }
if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED)) if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{ {
printf(" Enc Header AES-IV:\n"); std::cout << " Extended Header AES-IV:" << std::endl;
fnd::SimpleTextOutput::hexDump(mHdr.getAesCbcIv().iv, sizeof(mHdr.getAesCbcIv().iv), 0x10, 4); std::cout << " " << fnd::SimpleTextOutput::arrayToString(mHdr.getAesCbcIv().iv, sizeof(mHdr.getAesCbcIv().iv), true, "") << std::endl;
} }
printf(" SelSec: 0x%x\n", mHdr.getSelSec()); std::cout << " SelSec: 0x" << std::hex << mHdr.getSelSec() << std::endl;
printf(" SelT1Key: 0x%x\n", mHdr.getSelT1Key()); std::cout << " SelT1Key: 0x" << std::hex << mHdr.getSelT1Key() << std::endl;
printf(" SelKey: 0x%x\n", mHdr.getSelKey()); std::cout << " SelKey: 0x" << std::hex << mHdr.getSelKey() << std::endl;
if (_HAS_BIT(mCliOutputMode, OUTPUT_LAYOUT)) if (_HAS_BIT(mCliOutputMode, OUTPUT_LAYOUT))
{ {
printf(" RomAreaStartPage: 0x%0x", mHdr.getRomAreaStartPage()); std::cout << " RomAreaStartPage: 0x" << std::hex << mHdr.getRomAreaStartPage();
if (mHdr.getRomAreaStartPage() != (uint32_t)(-1)) if (mHdr.getRomAreaStartPage() != (uint32_t)(-1))
printf(" (0x%" PRIx64 ")", nn::hac::XciUtils::blockToAddr(mHdr.getRomAreaStartPage())); std::cout << " (0x" << std::hex << nn::hac::XciUtils::blockToAddr(mHdr.getRomAreaStartPage()) << ")";
printf("\n"); std::cout << std::endl;
printf(" BackupAreaStartPage: 0x%0x", mHdr.getBackupAreaStartPage()); std::cout << " BackupAreaStartPage: 0x" << std::hex << mHdr.getBackupAreaStartPage();
if (mHdr.getBackupAreaStartPage() != (uint32_t)(-1)) if (mHdr.getBackupAreaStartPage() != (uint32_t)(-1))
printf(" (0x%" PRIx64 ")", nn::hac::XciUtils::blockToAddr(mHdr.getBackupAreaStartPage())); std::cout << " (0x" << std::hex << nn::hac::XciUtils::blockToAddr(mHdr.getBackupAreaStartPage()) << ")";
printf("\n"); std::cout << std::endl;
printf(" ValidDataEndPage: 0x%x", mHdr.getValidDataEndPage()); std::cout << " ValidDataEndPage: 0x" << std::hex << mHdr.getValidDataEndPage();
if (mHdr.getValidDataEndPage() != (uint32_t)(-1)) if (mHdr.getValidDataEndPage() != (uint32_t)(-1))
printf(" (0x%" PRIx64 ")", nn::hac::XciUtils::blockToAddr(mHdr.getValidDataEndPage())); std::cout << " (0x" << std::hex << nn::hac::XciUtils::blockToAddr(mHdr.getValidDataEndPage()) << ")";
printf("\n"); std::cout << std::endl;
printf(" LimArea: 0x%x", mHdr.getLimAreaPage()); std::cout << " LimArea: 0x" << std::hex << mHdr.getLimAreaPage();
if (mHdr.getLimAreaPage() != (uint32_t)(-1)) if (mHdr.getLimAreaPage() != (uint32_t)(-1))
printf(" (0x%" PRIx64 ")", nn::hac::XciUtils::blockToAddr(mHdr.getLimAreaPage())); std::cout << " (0x" << std::hex << nn::hac::XciUtils::blockToAddr(mHdr.getLimAreaPage()) << ")";
printf("\n"); std::cout << std::endl;
printf(" PartitionFs Header:\n"); std::cout << " PartitionFs Header:" << std::endl;
printf(" Offset: 0x%" PRIx64 "\n", mHdr.getPartitionFsAddress()); std::cout << " Offset: 0x" << std::hex << mHdr.getPartitionFsAddress() << std::endl;
printf(" Size: 0x%" PRIx64 "\n", mHdr.getPartitionFsSize()); std::cout << " Size: 0x" << std::hex << mHdr.getPartitionFsSize() << std::endl;
if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED)) if (_HAS_BIT(mCliOutputMode, OUTPUT_EXTENDED))
{ {
printf(" Hash:\n"); std::cout << " Hash:" << std::endl;
fnd::SimpleTextOutput::hexDump(mHdr.getPartitionFsHash().bytes, sizeof(mHdr.getPartitionFsHash().bytes), 0x10, 6); std::cout << " " << fnd::SimpleTextOutput::arrayToString(mHdr.getPartitionFsHash().bytes, 0x10, true, "") << std::endl;
std::cout << " " << fnd::SimpleTextOutput::arrayToString(mHdr.getPartitionFsHash().bytes+0x10, 0x10, true, "") << std::endl;
} }
} }
if (mHdr.getFwVerMinor() != 0) if (mHdr.getFwVerMinor() != 0)
{ {
printf("[XCI Extended Header]\n"); std::cout << "[XCI Extended Header]" << std::endl;
printf(" FwVersion: v%d.%d\n", mHdr.getFwVerMajor(), mHdr.getFwVerMinor()); std::cout << " FwVersion: v" << std::dec << mHdr.getFwVerMajor() << "." << mHdr.getFwVerMinor() << std::endl;
printf(" AccCtrl1: 0x%x\n", mHdr.getAccCtrl1()); std::cout << " AccCtrl1: 0x" << std::hex << mHdr.getAccCtrl1() << std::endl;
printf(" CardClockRate: %s\n", getCardClockRate(mHdr.getAccCtrl1())); std::cout << " CardClockRate: " << getCardClockRate(mHdr.getAccCtrl1()) << std::endl;
printf(" Wait1TimeRead: 0x%x\n", mHdr.getWait1TimeRead()); std::cout << " Wait1TimeRead: 0x" << std::hex << mHdr.getWait1TimeRead() << std::endl;
printf(" Wait2TimeRead: 0x%x\n", mHdr.getWait2TimeRead()); std::cout << " Wait2TimeRead: 0x" << std::hex << mHdr.getWait2TimeRead() << std::endl;
printf(" Wait1TimeWrite: 0x%x\n", mHdr.getWait1TimeWrite()); std::cout << " Wait1TimeWrite: 0x" << std::hex << mHdr.getWait1TimeWrite() << std::endl;
printf(" Wait2TimeWrite: 0x%x\n", mHdr.getWait2TimeWrite()); std::cout << " Wait2TimeWrite: 0x" << std::hex << mHdr.getWait2TimeWrite() << std::endl;
printf(" FwMode: 0x%x\n", mHdr.getFwMode()); std::cout << " FwMode: 0x" << std::hex << mHdr.getFwMode() << std::endl;
printf(" Update Partition Info:\n"); std::cout << " Update Partition Info:" << std::endl;
#define _SPLIT_VER(ver) ( (ver>>26) & 0x3f), ( (ver>>20) & 0x3f), ( (ver>>16) & 0xf), (ver & 0xffff) #define _SPLIT_VER(ver) std::dec << ((ver>>26) & 0x3f) << "." << ((ver>>20) & 0x3f) << "." << ((ver>>16) & 0xf) << "." << (ver & 0xffff)
printf(" CUP Version: v%" PRId32 " (%d.%d.%d.%d)\n", mHdr.getUppVersion(), _SPLIT_VER(mHdr.getUppVersion())); std::cout << " CUP Version: v" << std::dec << mHdr.getUppVersion() << " (" << _SPLIT_VER(mHdr.getUppVersion()) << ")" << std::endl;
#undef _SPLIT_VER #undef _SPLIT_VER
printf(" CUP TitleId: %016" PRIx64 "\n", mHdr.getUppId()); std::cout << " CUP TitleId: 0x" << std::hex << std::setw(16) << std::setfill('0') << mHdr.getUppId() << std::endl;
printf(" Partition Hash: "); std::cout << " Partition Hash: " << fnd::SimpleTextOutput::arrayToString(mHdr.getUppHash(), 8, true, "") << std::endl;
fnd::SimpleTextOutput::hexDump(mHdr.getUppHash(), 8);
} }
} }
@ -196,7 +202,7 @@ void XciProcess::validateXciSignature()
fnd::sha::Sha256((byte_t*)&mHdrPage.header, sizeof(nn::hac::sXciHeader), calc_hash.bytes); fnd::sha::Sha256((byte_t*)&mHdrPage.header, sizeof(nn::hac::sXciHeader), calc_hash.bytes);
if (fnd::rsa::pkcs::rsaVerify(mKeyset->xci.header_sign_key, fnd::sha::HASH_SHA256, calc_hash.bytes, mHdrPage.signature) != 0) if (fnd::rsa::pkcs::rsaVerify(mKeyset->xci.header_sign_key, fnd::sha::HASH_SHA256, calc_hash.bytes, mHdrPage.signature) != 0)
{ {
printf("[WARNING] XCI Header Signature: FAIL \n"); std::cout << "[WARNING] XCI Header Signature: FAIL" << std::endl;
} }
} }
@ -204,7 +210,7 @@ void XciProcess::processRootPfs()
{ {
if (mVerify && validateRegionOfFile(mHdr.getPartitionFsAddress(), mHdr.getPartitionFsSize(), mHdr.getPartitionFsHash().bytes) == false) if (mVerify && validateRegionOfFile(mHdr.getPartitionFsAddress(), mHdr.getPartitionFsSize(), mHdr.getPartitionFsHash().bytes) == false)
{ {
printf("[WARNING] XCI Root HFS0: FAIL (bad hash)\n"); std::cout << "[WARNING] XCI Root HFS0: FAIL (bad hash)" << std::endl;
} }
mRootPfs.setInputFile(new OffsetAdjustedIFile(mFile, SHARED_IFILE, mHdr.getPartitionFsAddress(), mHdr.getPartitionFsSize()), OWN_IFILE); mRootPfs.setInputFile(new OffsetAdjustedIFile(mFile, SHARED_IFILE, mHdr.getPartitionFsAddress(), mHdr.getPartitionFsSize()), OWN_IFILE);
mRootPfs.setListFs(mListFs); mRootPfs.setListFs(mListFs);
@ -222,7 +228,7 @@ void XciProcess::processPartitionPfs()
// this must be validated here because only the size of the root partiton header is known at verification time // this must be validated here because only the size of the root partiton header is known at verification time
if (mVerify && validateRegionOfFile(mHdr.getPartitionFsAddress() + rootPartitions[i].offset, rootPartitions[i].hash_protected_size, rootPartitions[i].hash.bytes) == false) if (mVerify && validateRegionOfFile(mHdr.getPartitionFsAddress() + rootPartitions[i].offset, rootPartitions[i].hash_protected_size, rootPartitions[i].hash.bytes) == false)
{ {
printf("[WARNING] XCI %s Partition HFS0: FAIL (bad hash)\n", rootPartitions[i].name.c_str()); std::cout << "[WARNING] XCI " << rootPartitions[i].name << " Partition HFS0: FAIL (bad hash)" << std::endl;
} }
PfsProcess tmp; PfsProcess tmp;
@ -240,7 +246,8 @@ void XciProcess::processPartitionPfs()
const char* XciProcess::getRomSizeStr(byte_t rom_size) const const char* XciProcess::getRomSizeStr(byte_t rom_size) const
{ {
const char* str = "unknown"; const char* str = nullptr;
switch (rom_size) switch (rom_size)
{ {
case (nn::hac::xci::ROM_SIZE_1GB): case (nn::hac::xci::ROM_SIZE_1GB):
@ -261,13 +268,18 @@ const char* XciProcess::getRomSizeStr(byte_t rom_size) const
case (nn::hac::xci::ROM_SIZE_32GB): case (nn::hac::xci::ROM_SIZE_32GB):
str = "32GB"; str = "32GB";
break; break;
default:
str = "Unknown";
break;
} }
return str; return str;
} }
const char* XciProcess::getHeaderFlagStr(byte_t flag) const const char* XciProcess::getHeaderFlagStr(byte_t flag) const
{ {
const char* str = "unknown"; const char* str = nullptr;
switch (flag) switch (flag)
{ {
case (nn::hac::xci::FLAG_AUTOBOOT): case (nn::hac::xci::FLAG_AUTOBOOT):
@ -279,14 +291,19 @@ const char* XciProcess::getHeaderFlagStr(byte_t flag) const
case (nn::hac::xci::FLAG_REPAIR_TOOL): case (nn::hac::xci::FLAG_REPAIR_TOOL):
str = "RepairTool"; str = "RepairTool";
break; break;
default:
str = "Unknown";
break;
} }
return str; return str;
} }
const char* XciProcess::getCardClockRate(uint32_t acc_ctrl_1) const const char* XciProcess::getCardClockRate(uint32_t acc_ctrl_1) const
{ {
const char* str = "unknown"; const char* str = nullptr;
switch (acc_ctrl_1) switch (acc_ctrl_1)
{ {
case (nn::hac::xci::CLOCK_RATE_25): case (nn::hac::xci::CLOCK_RATE_25):
@ -295,7 +312,10 @@ const char* XciProcess::getCardClockRate(uint32_t acc_ctrl_1) const
case (nn::hac::xci::CLOCK_RATE_50): case (nn::hac::xci::CLOCK_RATE_50):
str = "50 MHz"; str = "50 MHz";
break; break;
default:
str = "Unknown";
break;
} }
return str; return str;
} }

View file

@ -62,6 +62,7 @@ private:
PfsProcess mRootPfs; PfsProcess mRootPfs;
fnd::List<sExtractInfo> mExtractInfo; fnd::List<sExtractInfo> mExtractInfo;
void importHeader();
void displayHeader(); void displayHeader();
bool validateRegionOfFile(size_t offset, size_t len, const byte_t* test_hash); bool validateRegionOfFile(size_t offset, size_t len, const byte_t* test_hash);
void validateXciSignature(); void validateXciSignature();