Take out non-ticket code from libes into new libpki.

This commit is contained in:
jakcron 2018-08-06 16:59:56 +08:00
parent 43270f2e80
commit 900415f49d
23 changed files with 245 additions and 196 deletions

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@ -13,6 +13,7 @@
"${workspaceRoot}/lib/libcrypto/source/polarssl/libinclude", "${workspaceRoot}/lib/libcrypto/source/polarssl/libinclude",
"${workspaceRoot}/lib/libcompress/include", "${workspaceRoot}/lib/libcompress/include",
"${workspaceRoot}/lib/libes/include", "${workspaceRoot}/lib/libes/include",
"${workspaceRoot}/lib/libpki/include",
"${workspaceRoot}/lib/libfnd/include", "${workspaceRoot}/lib/libfnd/include",
"${workspaceRoot}/lib/libnx/include", "${workspaceRoot}/lib/libnx/include",
"${workspaceRoot}/lib/libnx-hb/include" "${workspaceRoot}/lib/libnx-hb/include"

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@ -13,9 +13,10 @@ Tools & Libraries for NX (Nintendo Switch).
* __libfnd__ - Foundation library. * __libfnd__ - Foundation library.
* __libcrypto__ - Cryptographic functions (AES,SHA,RSA). Wrapper for [mbedTLS](https://github.com/ARMmbed/mbedtls) * __libcrypto__ - Cryptographic functions (AES,SHA,RSA). Wrapper for [mbedTLS](https://github.com/ARMmbed/mbedtls)
* __libcompress__ - Compression algorithms (LZ4). Wrapper for [lz4](https://github.com/lz4/lz4) * __libcompress__ - Compression algorithms (LZ4). Wrapper for [lz4](https://github.com/lz4/lz4)
* __libes__ - Handling of (NX relevant) eShop file type processing. (eTickets, etc) * __libpki__ - Processes Nintendo's proprietary PKI.
* __libnx__ - Handling of NX file types. * __libes__ - Processes Nintendo's eShop file types.
* __libnx-hb__ - Handling of NX (homebrew extensions) file types. * __libnx__ - Processes NX file types.
* __libnx-hb__ - Processes NX file types (homebrew extensions).
# Building # Building

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@ -1,14 +0,0 @@
#pragma once
#include <es/sign.h>
#include <crypto/sha.h>
namespace es
{
namespace sign
{
es::sign::SignatureAlgo getSignatureAlgo(es::sign::SignatureId sign_id);
es::sign::HashAlgo getHashAlgo(es::sign::SignatureId sign_id);
}
}

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@ -1,45 +0,0 @@
#include <es/SignUtils.h>
es::sign::SignatureAlgo es::sign::getSignatureAlgo(es::sign::SignatureId sign_id)
{
SignatureAlgo sign_algo = SIGN_ALGO_RSA4096;
switch (sign_id)
{
case (es::sign::SIGN_ID_RSA4096_SHA1):
case (es::sign::SIGN_ID_RSA4096_SHA256):
sign_algo = SIGN_ALGO_RSA4096;
break;
case (es::sign::SIGN_ID_RSA2048_SHA1):
case (es::sign::SIGN_ID_RSA2048_SHA256):
sign_algo = SIGN_ALGO_RSA2048;
break;
case (es::sign::SIGN_ID_ECDSA240_SHA1):
case (es::sign::SIGN_ID_ECDSA240_SHA256):
sign_algo = SIGN_ALGO_ECDSA240;
break;
};
return sign_algo;
}
es::sign::HashAlgo es::sign::getHashAlgo(es::sign::SignatureId sign_id)
{
HashAlgo hash_algo = HASH_ALGO_SHA1;
switch (sign_id)
{
case (es::sign::SIGN_ID_RSA4096_SHA1):
case (es::sign::SIGN_ID_RSA2048_SHA1):
case (es::sign::SIGN_ID_ECDSA240_SHA1):
hash_algo = HASH_ALGO_SHA1;
break;
case (es::sign::SIGN_ID_RSA4096_SHA256):
case (es::sign::SIGN_ID_RSA2048_SHA256):
case (es::sign::SIGN_ID_ECDSA240_SHA256):
hash_algo = HASH_ALGO_SHA256;
break;
};
return hash_algo;
}

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@ -1,9 +1,9 @@
#pragma once #pragma once
#include <string> #include <string>
#include <fnd/ISerialisable.h> #include <fnd/ISerialisable.h>
#include <es/cert.h> #include <pki/cert.h>
namespace es namespace pki
{ {
class CertificateBody class CertificateBody
: public fnd::ISerialisable : public fnd::ISerialisable
@ -27,7 +27,7 @@ namespace es
const std::string& getIssuer() const; const std::string& getIssuer() const;
void setIssuer(const std::string& issuer); void setIssuer(const std::string& issuer);
es::cert::PublicKeyType getPublicKeyType() const; pki::cert::PublicKeyType getPublicKeyType() const;
void setPublicKeyType(cert::PublicKeyType type); void setPublicKeyType(cert::PublicKeyType type);
const std::string& getSubject() const; const std::string& getSubject() const;

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@ -0,0 +1,14 @@
#pragma once
#include <pki/sign.h>
#include <crypto/sha.h>
namespace pki
{
namespace sign
{
pki::sign::SignatureAlgo getSignatureAlgo(pki::sign::SignatureId sign_id);
pki::sign::HashAlgo getHashAlgo(pki::sign::SignatureId sign_id);
}
}

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@ -1,9 +1,9 @@
#pragma once #pragma once
#include <string> #include <string>
#include <fnd/ISerialisable.h> #include <fnd/ISerialisable.h>
#include <es/sign.h> #include <pki/sign.h>
namespace es namespace pki
{ {
class SignatureBlock class SignatureBlock
: public fnd::ISerialisable : public fnd::ISerialisable
@ -24,8 +24,8 @@ namespace es
// variables // variables
void clear(); void clear();
es::sign::SignatureId getSignType() const; pki::sign::SignatureId getSignType() const;
void setSignType(es::sign::SignatureId type); void setSignType(pki::sign::SignatureId type);
bool isLittleEndian() const; bool isLittleEndian() const;
void setLittleEndian(bool isLE); void setLittleEndian(bool isLE);
@ -41,7 +41,7 @@ namespace es
fnd::Vec<byte_t> mRawBinary; fnd::Vec<byte_t> mRawBinary;
// variables // variables
es::sign::SignatureId mSignType; pki::sign::SignatureId mSignType;
bool mIsLittleEndian; bool mIsLittleEndian;
fnd::Vec<byte_t> mSignature; fnd::Vec<byte_t> mSignature;
}; };

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@ -1,9 +1,9 @@
#pragma once #pragma once
#include <string> #include <string>
#include <fnd/ISerialisable.h> #include <fnd/ISerialisable.h>
#include <es/SignatureBlock.h> #include <pki/SignatureBlock.h>
namespace es namespace pki
{ {
template <class T> template <class T>
class SignedData class SignedData
@ -25,7 +25,7 @@ namespace es
// variables // variables
void clear(); void clear();
const es::SignatureBlock& getSignature() const; const pki::SignatureBlock& getSignature() const;
void setSignature(const SignatureBlock& signature); void setSignature(const SignatureBlock& signature);
const T& getBody() const; const T& getBody() const;
@ -111,7 +111,7 @@ namespace es
} }
template <class T> template <class T>
inline const es::SignatureBlock& SignedData<T>::getSignature() const inline const pki::SignatureBlock& SignedData<T>::getSignature() const
{ {
return mSignature; return mSignature;
} }

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@ -5,7 +5,7 @@
#include <crypto/rsa.h> #include <crypto/rsa.h>
#include <crypto/ecdsa.h> #include <crypto/ecdsa.h>
namespace es namespace pki
{ {
namespace cert namespace cert
{ {

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@ -5,7 +5,7 @@
#include <crypto/rsa.h> #include <crypto/rsa.h>
#include <crypto/ecdsa.h> #include <crypto/ecdsa.h>
namespace es namespace pki
{ {
namespace sign namespace sign
{ {

47
lib/libpki/makefile Normal file
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@ -0,0 +1,47 @@
# Sources
SRC_DIR = source
OBJS = $(foreach dir,$(SRC_DIR),$(subst .cpp,.o,$(wildcard $(dir)/*.cpp))) $(foreach dir,$(SRC_DIR),$(subst .c,.o,$(wildcard $(dir)/*.c)))
# External dependencies
DEPENDS = fnd crypto
LIB_DIR = ..
INCS = -I"include" $(foreach dep,$(DEPENDS), -I"$(LIB_DIR)/lib$(dep)/include")
# Compiler Settings
CXXFLAGS = -std=c++11 $(INCS) -D__STDC_FORMAT_MACROS -Wall -Wno-unused-value
CFLAGS = -std=c11 $(INCS) -Wall -Wno-unused-value
ARFLAGS = cr -o
ifeq ($(OS),Windows_NT)
# Windows Only Flags/Libs
CC = x86_64-w64-mingw32-gcc
CXX = x86_64-w64-mingw32-g++
CFLAGS += -Wno-unused-but-set-variable
CXXFLAGS += -Wno-unused-but-set-variable
else
UNAME = $(shell uname -s)
ifeq ($(UNAME), Darwin)
# MacOS Only Flags/Libs
CFLAGS += -Wno-unused-private-field
CXXFLAGS += -Wno-unused-private-field
ARFLAGS = rc
else
# *nix Only Flags/Libs
CFLAGS += -Wno-unused-but-set-variable
CXXFLAGS += -Wno-unused-but-set-variable
endif
endif
# Output
OUTPUT = $(shell basename $(CURDIR)).a
main: build
rebuild: clean build
build: $(OBJS)
ar $(ARFLAGS) $(OUTPUT) $(OBJS)
clean:
rm -rf $(OUTPUT) $(OBJS)

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@ -1,16 +1,16 @@
#include <es/CertificateBody.h> #include <pki/CertificateBody.h>
es::CertificateBody::CertificateBody() pki::CertificateBody::CertificateBody()
{ {
clear(); clear();
} }
es::CertificateBody::CertificateBody(const CertificateBody& other) pki::CertificateBody::CertificateBody(const CertificateBody& other)
{ {
*this = other; *this = other;
} }
void es::CertificateBody::operator=(const CertificateBody& other) void pki::CertificateBody::operator=(const CertificateBody& other)
{ {
mRawBinary = other.mRawBinary; mRawBinary = other.mRawBinary;
mIssuer = other.mIssuer; mIssuer = other.mIssuer;
@ -22,7 +22,7 @@ void es::CertificateBody::operator=(const CertificateBody& other)
mEcdsa240PublicKey = other.mEcdsa240PublicKey; mEcdsa240PublicKey = other.mEcdsa240PublicKey;
} }
bool es::CertificateBody::operator==(const CertificateBody& other) const bool pki::CertificateBody::operator==(const CertificateBody& other) const
{ {
return (mIssuer == other.mIssuer) \ return (mIssuer == other.mIssuer) \
&& (mSubject == other.mSubject) \ && (mSubject == other.mSubject) \
@ -33,12 +33,12 @@ bool es::CertificateBody::operator==(const CertificateBody& other) const
&& (mEcdsa240PublicKey == other.mEcdsa240PublicKey); && (mEcdsa240PublicKey == other.mEcdsa240PublicKey);
} }
bool es::CertificateBody::operator!=(const CertificateBody& other) const bool pki::CertificateBody::operator!=(const CertificateBody& other) const
{ {
return !(*this == other); return !(*this == other);
} }
void es::CertificateBody::toBytes() void pki::CertificateBody::toBytes()
{ {
// get public key size // get public key size
size_t pubkeySize = 0; size_t pubkeySize = 0;
@ -86,7 +86,7 @@ void es::CertificateBody::toBytes()
} }
} }
void es::CertificateBody::fromBytes(const byte_t* src, size_t size) void pki::CertificateBody::fromBytes(const byte_t* src, size_t size)
{ {
clear(); clear();
@ -155,13 +155,13 @@ void es::CertificateBody::fromBytes(const byte_t* src, size_t size)
} }
} }
const fnd::Vec<byte_t>& es::CertificateBody::getBytes() const const fnd::Vec<byte_t>& pki::CertificateBody::getBytes() const
{ {
return mRawBinary; return mRawBinary;
} }
void es::CertificateBody::clear() void pki::CertificateBody::clear()
{ {
mIssuer.clear(); mIssuer.clear();
mSubject.clear(); mSubject.clear();
@ -173,12 +173,12 @@ void es::CertificateBody::clear()
memset(&mEcdsa240PublicKey, 0, sizeof(crypto::ecdsa::sEcdsa240Point)); memset(&mEcdsa240PublicKey, 0, sizeof(crypto::ecdsa::sEcdsa240Point));
} }
const std::string& es::CertificateBody::getIssuer() const const std::string& pki::CertificateBody::getIssuer() const
{ {
return mIssuer; return mIssuer;
} }
void es::CertificateBody::setIssuer(const std::string& issuer) void pki::CertificateBody::setIssuer(const std::string& issuer)
{ {
if (issuer.size() > cert::kIssuerSize) if (issuer.size() > cert::kIssuerSize)
{ {
@ -188,22 +188,22 @@ void es::CertificateBody::setIssuer(const std::string& issuer)
mIssuer = issuer; mIssuer = issuer;
} }
es::cert::PublicKeyType es::CertificateBody::getPublicKeyType() const pki::cert::PublicKeyType pki::CertificateBody::getPublicKeyType() const
{ {
return mPublicKeyType; return mPublicKeyType;
} }
void es::CertificateBody::setPublicKeyType(cert::PublicKeyType type) void pki::CertificateBody::setPublicKeyType(cert::PublicKeyType type)
{ {
mPublicKeyType = type; mPublicKeyType = type;
} }
const std::string& es::CertificateBody::getSubject() const const std::string& pki::CertificateBody::getSubject() const
{ {
return mSubject; return mSubject;
} }
void es::CertificateBody::setSubject(const std::string& subject) void pki::CertificateBody::setSubject(const std::string& subject)
{ {
if (subject.size() > cert::kSubjectSize) if (subject.size() > cert::kSubjectSize)
{ {
@ -213,42 +213,42 @@ void es::CertificateBody::setSubject(const std::string& subject)
mSubject = subject; mSubject = subject;
} }
uint32_t es::CertificateBody::getCertId() const uint32_t pki::CertificateBody::getCertId() const
{ {
return mCertId; return mCertId;
} }
void es::CertificateBody::setCertId(uint32_t id) void pki::CertificateBody::setCertId(uint32_t id)
{ {
mCertId = id; mCertId = id;
} }
const crypto::rsa::sRsa4096Key& es::CertificateBody::getRsa4098PublicKey() const const crypto::rsa::sRsa4096Key& pki::CertificateBody::getRsa4098PublicKey() const
{ {
return mRsa4096PublicKey; return mRsa4096PublicKey;
} }
void es::CertificateBody::setRsa4098PublicKey(const crypto::rsa::sRsa4096Key& key) void pki::CertificateBody::setRsa4098PublicKey(const crypto::rsa::sRsa4096Key& key)
{ {
mRsa4096PublicKey = key; mRsa4096PublicKey = key;
} }
const crypto::rsa::sRsa2048Key& es::CertificateBody::getRsa2048PublicKey() const const crypto::rsa::sRsa2048Key& pki::CertificateBody::getRsa2048PublicKey() const
{ {
return mRsa2048PublicKey; return mRsa2048PublicKey;
} }
void es::CertificateBody::setRsa2048PublicKey(const crypto::rsa::sRsa2048Key& key) void pki::CertificateBody::setRsa2048PublicKey(const crypto::rsa::sRsa2048Key& key)
{ {
mRsa2048PublicKey = key; mRsa2048PublicKey = key;
} }
const crypto::ecdsa::sEcdsa240Point& es::CertificateBody::getEcdsa240PublicKey() const const crypto::ecdsa::sEcdsa240Point& pki::CertificateBody::getEcdsa240PublicKey() const
{ {
return mEcdsa240PublicKey; return mEcdsa240PublicKey;
} }
void es::CertificateBody::setEcdsa240PublicKey(const crypto::ecdsa::sEcdsa240Point& key) void pki::CertificateBody::setEcdsa240PublicKey(const crypto::ecdsa::sEcdsa240Point& key)
{ {
mEcdsa240PublicKey = key; mEcdsa240PublicKey = key;
} }

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@ -0,0 +1,45 @@
#include <pki/SignUtils.h>
pki::sign::SignatureAlgo pki::sign::getSignatureAlgo(pki::sign::SignatureId sign_id)
{
SignatureAlgo sign_algo = SIGN_ALGO_RSA4096;
switch (sign_id)
{
case (pki::sign::SIGN_ID_RSA4096_SHA1):
case (pki::sign::SIGN_ID_RSA4096_SHA256):
sign_algo = SIGN_ALGO_RSA4096;
break;
case (pki::sign::SIGN_ID_RSA2048_SHA1):
case (pki::sign::SIGN_ID_RSA2048_SHA256):
sign_algo = SIGN_ALGO_RSA2048;
break;
case (pki::sign::SIGN_ID_ECDSA240_SHA1):
case (pki::sign::SIGN_ID_ECDSA240_SHA256):
sign_algo = SIGN_ALGO_ECDSA240;
break;
};
return sign_algo;
}
pki::sign::HashAlgo pki::sign::getHashAlgo(pki::sign::SignatureId sign_id)
{
HashAlgo hash_algo = HASH_ALGO_SHA1;
switch (sign_id)
{
case (pki::sign::SIGN_ID_RSA4096_SHA1):
case (pki::sign::SIGN_ID_RSA2048_SHA1):
case (pki::sign::SIGN_ID_ECDSA240_SHA1):
hash_algo = HASH_ALGO_SHA1;
break;
case (pki::sign::SIGN_ID_RSA4096_SHA256):
case (pki::sign::SIGN_ID_RSA2048_SHA256):
case (pki::sign::SIGN_ID_ECDSA240_SHA256):
hash_algo = HASH_ALGO_SHA256;
break;
};
return hash_algo;
}

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@ -1,16 +1,16 @@
#include <es/SignatureBlock.h> #include <pki/SignatureBlock.h>
es::SignatureBlock::SignatureBlock() pki::SignatureBlock::SignatureBlock()
{ {
clear(); clear();
} }
es::SignatureBlock::SignatureBlock(const SignatureBlock& other) pki::SignatureBlock::SignatureBlock(const SignatureBlock& other)
{ {
*this = other; *this = other;
} }
void es::SignatureBlock::operator=(const SignatureBlock& other) void pki::SignatureBlock::operator=(const SignatureBlock& other)
{ {
mRawBinary = other.mRawBinary; mRawBinary = other.mRawBinary;
mSignType = other.mSignType; mSignType = other.mSignType;
@ -18,19 +18,19 @@ void es::SignatureBlock::operator=(const SignatureBlock& other)
mSignature = other.mSignature; mSignature = other.mSignature;
} }
bool es::SignatureBlock::operator==(const SignatureBlock& other) const bool pki::SignatureBlock::operator==(const SignatureBlock& other) const
{ {
return (mSignType == other.mSignType) \ return (mSignType == other.mSignType) \
&& (mIsLittleEndian == other.mIsLittleEndian) \ && (mIsLittleEndian == other.mIsLittleEndian) \
&& (mSignature == other.mSignature); && (mSignature == other.mSignature);
} }
bool es::SignatureBlock::operator!=(const SignatureBlock& other) const bool pki::SignatureBlock::operator!=(const SignatureBlock& other) const
{ {
return !(*this == other); return !(*this == other);
} }
void es::SignatureBlock::toBytes() void pki::SignatureBlock::toBytes()
{ {
size_t totalSize = 0; size_t totalSize = 0;
size_t sigSize = 0; size_t sigSize = 0;
@ -68,7 +68,7 @@ void es::SignatureBlock::toBytes()
memcpy(mRawBinary.data() + 4, mSignature.data(), sigSize); memcpy(mRawBinary.data() + 4, mSignature.data(), sigSize);
} }
void es::SignatureBlock::fromBytes(const byte_t* src, size_t size) void pki::SignatureBlock::fromBytes(const byte_t* src, size_t size)
{ {
clear(); clear();
@ -138,12 +138,12 @@ void es::SignatureBlock::fromBytes(const byte_t* src, size_t size)
memcpy(mSignature.data(), mRawBinary.data() + 4, sigSize); memcpy(mSignature.data(), mRawBinary.data() + 4, sigSize);
} }
const fnd::Vec<byte_t>& es::SignatureBlock::getBytes() const const fnd::Vec<byte_t>& pki::SignatureBlock::getBytes() const
{ {
return mRawBinary; return mRawBinary;
} }
void es::SignatureBlock::clear() void pki::SignatureBlock::clear()
{ {
mRawBinary.clear(); mRawBinary.clear();
mSignType = sign::SIGN_ID_RSA4096_SHA1; mSignType = sign::SIGN_ID_RSA4096_SHA1;
@ -151,32 +151,32 @@ void es::SignatureBlock::clear()
mSignature.clear(); mSignature.clear();
} }
es::sign::SignatureId es::SignatureBlock::getSignType() const pki::sign::SignatureId pki::SignatureBlock::getSignType() const
{ {
return mSignType; return mSignType;
} }
void es::SignatureBlock::setSignType(es::sign::SignatureId type) void pki::SignatureBlock::setSignType(pki::sign::SignatureId type)
{ {
mSignType = type; mSignType = type;
} }
bool es::SignatureBlock::isLittleEndian() const bool pki::SignatureBlock::isLittleEndian() const
{ {
return mIsLittleEndian; return mIsLittleEndian;
} }
void es::SignatureBlock::setLittleEndian(bool isLE) void pki::SignatureBlock::setLittleEndian(bool isLE)
{ {
mIsLittleEndian = isLE; mIsLittleEndian = isLE;
} }
const fnd::Vec<byte_t>& es::SignatureBlock::getSignature() const const fnd::Vec<byte_t>& pki::SignatureBlock::getSignature() const
{ {
return mSignature; return mSignature;
} }
void es::SignatureBlock::setSignature(const fnd::Vec<byte_t>& signature) void pki::SignatureBlock::setSignature(const fnd::Vec<byte_t>& signature)
{ {
mSignature = signature; mSignature = signature;
} }

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@ -1,4 +1,4 @@
LIBS = libfnd libcrypto libcompress libes libnx libnx-hb LIBS = libfnd libcrypto libcompress libes libpki libnx libnx-hb
main: build main: build
rebuild: clean build rebuild: clean build

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@ -3,7 +3,7 @@ SRC_DIR = source
OBJS = $(foreach dir,$(SRC_DIR),$(subst .cpp,.o,$(wildcard $(dir)/*.cpp))) $(foreach dir,$(SRC_DIR),$(subst .c,.o,$(wildcard $(dir)/*.c))) OBJS = $(foreach dir,$(SRC_DIR),$(subst .cpp,.o,$(wildcard $(dir)/*.cpp))) $(foreach dir,$(SRC_DIR),$(subst .c,.o,$(wildcard $(dir)/*.c)))
# External dependencies # External dependencies
DEPENDS = nx-hb nx es crypto compress fnd DEPENDS = nx-hb nx es pki crypto compress fnd
LIB_DIR = ../../lib LIB_DIR = ../../lib
LIBS = $(foreach dep,$(DEPENDS), -L"$(LIB_DIR)/lib$(dep)" -l$(dep)) LIBS = $(foreach dep,$(DEPENDS), -L"$(LIB_DIR)/lib$(dep)" -l$(dep))
INCS = $(foreach dep,$(DEPENDS), -I"$(LIB_DIR)/lib$(dep)/include") INCS = $(foreach dep,$(DEPENDS), -I"$(LIB_DIR)/lib$(dep)/include")

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@ -2,7 +2,7 @@
#include <iomanip> #include <iomanip>
#include <fnd/SimpleTextOutput.h> #include <fnd/SimpleTextOutput.h>
#include <es/SignUtils.h> #include <pki/SignUtils.h>
#include "OffsetAdjustedIFile.h" #include "OffsetAdjustedIFile.h"
#include "EsCertProcess.h" #include "EsCertProcess.h"
#include "PkiValidator.h" #include "PkiValidator.h"
@ -66,7 +66,7 @@ void EsCertProcess::importCerts()
scratch.alloc(mFile->size()); scratch.alloc(mFile->size());
mFile->read(scratch.data(), 0, scratch.size()); mFile->read(scratch.data(), 0, scratch.size());
es::SignedData<es::CertificateBody> cert; pki::SignedData<pki::CertificateBody> cert;
for (size_t f_pos = 0; f_pos < scratch.size(); f_pos += cert.getBytes().size()) for (size_t f_pos = 0; f_pos < scratch.size(); f_pos += cert.getBytes().size())
{ {
cert.fromBytes(scratch.data() + f_pos, scratch.size() - f_pos); cert.fromBytes(scratch.data() + f_pos, scratch.size() - f_pos);
@ -98,7 +98,7 @@ void EsCertProcess::displayCerts()
} }
} }
void EsCertProcess::displayCert(const es::SignedData<es::CertificateBody>& cert) void EsCertProcess::displayCert(const pki::SignedData<pki::CertificateBody>& cert)
{ {
#define _SPLIT_VER(ver) ( (ver>>26) & 0x3f), ( (ver>>20) & 0x3f), ( (ver>>16) & 0xf), (ver & 0xffff) #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_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)
@ -119,7 +119,7 @@ void EsCertProcess::displayCert(const es::SignedData<es::CertificateBody>& cert)
std::cout << std::endl; std::cout << std::endl;
std::cout << " CertID: 0x" << std::hex << cert.getBody().getCertId() << std::endl; std::cout << " CertID: 0x" << std::hex << cert.getBody().getCertId() << std::endl;
if (cert.getBody().getPublicKeyType() == es::cert::RSA4096) if (cert.getBody().getPublicKeyType() == pki::cert::RSA4096)
{ {
std::cout << " PublicKey:" << std::endl; std::cout << " PublicKey:" << std::endl;
std::cout << " Modulus:" << std::endl; std::cout << " Modulus:" << std::endl;
@ -127,7 +127,7 @@ void EsCertProcess::displayCert(const es::SignedData<es::CertificateBody>& cert)
std::cout << " Public Exponent:" << std::endl; std::cout << " Public Exponent:" << std::endl;
fnd::SimpleTextOutput::hexDump(cert.getBody().getRsa4098PublicKey().public_exponent, crypto::rsa::kRsaPublicExponentSize, 0x10, 6); fnd::SimpleTextOutput::hexDump(cert.getBody().getRsa4098PublicKey().public_exponent, crypto::rsa::kRsaPublicExponentSize, 0x10, 6);
} }
else if (cert.getBody().getPublicKeyType() == es::cert::RSA2048) else if (cert.getBody().getPublicKeyType() == pki::cert::RSA2048)
{ {
std::cout << " PublicKey:" << std::endl; std::cout << " PublicKey:" << std::endl;
std::cout << " Public Exponent:" << std::endl; std::cout << " Public Exponent:" << std::endl;
@ -135,7 +135,7 @@ void EsCertProcess::displayCert(const es::SignedData<es::CertificateBody>& cert)
std::cout << " Modulus:" << std::endl; std::cout << " Modulus:" << std::endl;
fnd::SimpleTextOutput::hexDump(cert.getBody().getRsa2048PublicKey().public_exponent, crypto::rsa::kRsaPublicExponentSize, 0x10, 6); fnd::SimpleTextOutput::hexDump(cert.getBody().getRsa2048PublicKey().public_exponent, crypto::rsa::kRsaPublicExponentSize, 0x10, 6);
} }
else if (cert.getBody().getPublicKeyType() == es::cert::ECDSA240) else if (cert.getBody().getPublicKeyType() == pki::cert::ECDSA240)
{ {
std::cout << " PublicKey:" << std::endl; std::cout << " PublicKey:" << std::endl;
std::cout << " R:" << std::endl; std::cout << " R:" << std::endl;
@ -151,27 +151,27 @@ void EsCertProcess::displayCert(const es::SignedData<es::CertificateBody>& cert)
#undef _SPLIT_VER #undef _SPLIT_VER
} }
const char* EsCertProcess::getSignTypeStr(es::sign::SignatureId type) const const char* EsCertProcess::getSignTypeStr(pki::sign::SignatureId type) const
{ {
const char* str; const char* str;
switch (type) switch (type)
{ {
case (es::sign::SIGN_ID_RSA4096_SHA1): case (pki::sign::SIGN_ID_RSA4096_SHA1):
str = "RSA4096-SHA1"; str = "RSA4096-SHA1";
break; break;
case (es::sign::SIGN_ID_RSA2048_SHA1): case (pki::sign::SIGN_ID_RSA2048_SHA1):
str = "RSA2048-SHA1"; str = "RSA2048-SHA1";
break; break;
case (es::sign::SIGN_ID_ECDSA240_SHA1): case (pki::sign::SIGN_ID_ECDSA240_SHA1):
str = "ECDSA240-SHA1"; str = "ECDSA240-SHA1";
break; break;
case (es::sign::SIGN_ID_RSA4096_SHA256): case (pki::sign::SIGN_ID_RSA4096_SHA256):
str = "RSA4096-SHA256"; str = "RSA4096-SHA256";
break; break;
case (es::sign::SIGN_ID_RSA2048_SHA256): case (pki::sign::SIGN_ID_RSA2048_SHA256):
str = "RSA2048-SHA256"; str = "RSA2048-SHA256";
break; break;
case (es::sign::SIGN_ID_ECDSA240_SHA256): case (pki::sign::SIGN_ID_ECDSA240_SHA256):
str = "ECDSA240-SHA256"; str = "ECDSA240-SHA256";
break; break;
default: default:
@ -186,18 +186,18 @@ const char* EsCertProcess::getEndiannessStr(bool isLittleEndian) const
return isLittleEndian ? "LittleEndian" : "BigEndian"; return isLittleEndian ? "LittleEndian" : "BigEndian";
} }
const char* EsCertProcess::getPublicKeyTypeStr(es::cert::PublicKeyType type) const const char* EsCertProcess::getPublicKeyTypeStr(pki::cert::PublicKeyType type) const
{ {
const char* str; const char* str;
switch (type) switch (type)
{ {
case (es::cert::RSA4096): case (pki::cert::RSA4096):
str = "RSA4096"; str = "RSA4096";
break; break;
case (es::cert::RSA2048): case (pki::cert::RSA2048):
str = "RSA2048"; str = "RSA2048";
break; break;
case (es::cert::ECDSA240): case (pki::cert::ECDSA240):
str = "ECDSA240"; str = "ECDSA240";
break; break;
default: default:

View file

@ -4,8 +4,8 @@
#include <fnd/IFile.h> #include <fnd/IFile.h>
#include <fnd/List.h> #include <fnd/List.h>
#include <fnd/Vec.h> #include <fnd/Vec.h>
#include <es/SignedData.h> #include <pki/SignedData.h>
#include <es/CertificateBody.h> #include <pki/CertificateBody.h>
#include "nstool.h" #include "nstool.h"
class EsCertProcess class EsCertProcess
@ -30,15 +30,15 @@ private:
CliOutputMode mCliOutputMode; CliOutputMode mCliOutputMode;
bool mVerify; bool mVerify;
fnd::List<es::SignedData<es::CertificateBody>> mCert; fnd::List<pki::SignedData<pki::CertificateBody>> mCert;
void importCerts(); void importCerts();
void validateCerts(); void validateCerts();
void displayCerts(); void displayCerts();
void displayCert(const es::SignedData<es::CertificateBody>& cert); void displayCert(const pki::SignedData<pki::CertificateBody>& cert);
const char* getSignTypeStr(es::sign::SignatureId type) const; const char* getSignTypeStr(pki::sign::SignatureId type) const;
const char* getEndiannessStr(bool isLittleEndian) const; const char* getEndiannessStr(bool isLittleEndian) const;
const char* getPublicKeyTypeStr(es::cert::PublicKeyType type) const; const char* getPublicKeyTypeStr(pki::cert::PublicKeyType type) const;
}; };

View file

@ -132,22 +132,22 @@ const char* EsTikProcess::getSignTypeStr(uint32_t type) const
const char* str = nullptr; const char* str = nullptr;
switch(type) switch(type)
{ {
case (es::sign::SIGN_ID_RSA4096_SHA1): case (pki::sign::SIGN_ID_RSA4096_SHA1):
str = "RSA4096-SHA1"; str = "RSA4096-SHA1";
break; break;
case (es::sign::SIGN_ID_RSA2048_SHA1): case (pki::sign::SIGN_ID_RSA2048_SHA1):
str = "RSA2048-SHA1"; str = "RSA2048-SHA1";
break; break;
case (es::sign::SIGN_ID_ECDSA240_SHA1): case (pki::sign::SIGN_ID_ECDSA240_SHA1):
str = "ECDSA240-SHA1"; str = "ECDSA240-SHA1";
break; break;
case (es::sign::SIGN_ID_RSA4096_SHA256): case (pki::sign::SIGN_ID_RSA4096_SHA256):
str = "RSA4096-SHA256"; str = "RSA4096-SHA256";
break; break;
case (es::sign::SIGN_ID_RSA2048_SHA256): case (pki::sign::SIGN_ID_RSA2048_SHA256):
str = "RSA2048-SHA256"; str = "RSA2048-SHA256";
break; break;
case (es::sign::SIGN_ID_ECDSA240_SHA256): case (pki::sign::SIGN_ID_ECDSA240_SHA256):
str = "ECDSA240-SHA256"; str = "ECDSA240-SHA256";
break; break;
default: default:

View file

@ -3,7 +3,7 @@
#include <fnd/types.h> #include <fnd/types.h>
#include <fnd/IFile.h> #include <fnd/IFile.h>
#include <fnd/Vec.h> #include <fnd/Vec.h>
#include <es/SignedData.h> #include <pki/SignedData.h>
#include <es/TicketBody_V2.h> #include <es/TicketBody_V2.h>
#include "nstool.h" #include "nstool.h"
@ -29,7 +29,7 @@ private:
CliOutputMode mCliOutputMode; CliOutputMode mCliOutputMode;
bool mVerify; bool mVerify;
es::SignedData<es::TicketBody_V2> mTik; pki::SignedData<es::TicketBody_V2> mTik;
void displayTicket(); void displayTicket();
const char* getSignTypeStr(uint32_t type) const; const char* getSignTypeStr(uint32_t type) const;

View file

@ -2,7 +2,7 @@
#include <iostream> #include <iostream>
#include <iomanip> #include <iomanip>
#include <sstream> #include <sstream>
#include <es/SignUtils.h> #include <pki/SignUtils.h>
PkiValidator::PkiValidator() PkiValidator::PkiValidator()
{ {
@ -12,7 +12,7 @@ PkiValidator::PkiValidator()
void PkiValidator::setRootKey(const crypto::rsa::sRsa4096Key& root_key) void PkiValidator::setRootKey(const crypto::rsa::sRsa4096Key& root_key)
{ {
// save a copy of the certificate bank // save a copy of the certificate bank
fnd::List<es::SignedData<es::CertificateBody>> old_certs = mCertificateBank; fnd::List<pki::SignedData<pki::CertificateBody>> old_certs = mCertificateBank;
// clear the certificate bank // clear the certificate bank
mCertificateBank.clear(); mCertificateBank.clear();
@ -27,7 +27,7 @@ void PkiValidator::setRootKey(const crypto::rsa::sRsa4096Key& root_key)
} }
} }
void PkiValidator::addCertificates(const fnd::List<es::SignedData<es::CertificateBody>>& certs) void PkiValidator::addCertificates(const fnd::List<pki::SignedData<pki::CertificateBody>>& certs)
{ {
for (size_t i = 0; i < certs.size(); i++) for (size_t i = 0; i < certs.size(); i++)
{ {
@ -35,11 +35,11 @@ void PkiValidator::addCertificates(const fnd::List<es::SignedData<es::Certificat
} }
} }
void PkiValidator::addCertificate(const es::SignedData<es::CertificateBody>& cert) void PkiValidator::addCertificate(const pki::SignedData<pki::CertificateBody>& cert)
{ {
std::string cert_ident; std::string cert_ident;
es::sign::SignatureAlgo cert_sign_algo; pki::sign::SignatureAlgo cert_sign_algo;
es::sign::HashAlgo cert_hash_algo; pki::sign::HashAlgo cert_hash_algo;
fnd::Vec<byte_t> cert_hash; fnd::Vec<byte_t> cert_hash;
try try
@ -51,17 +51,17 @@ void PkiValidator::addCertificate(const es::SignedData<es::CertificateBody>& cer
throw fnd::Exception(kModuleName, "Certificate already exists"); throw fnd::Exception(kModuleName, "Certificate already exists");
} }
cert_sign_algo = es::sign::getSignatureAlgo(cert.getSignature().getSignType()); cert_sign_algo = pki::sign::getSignatureAlgo(cert.getSignature().getSignType());
cert_hash_algo = es::sign::getHashAlgo(cert.getSignature().getSignType()); cert_hash_algo = pki::sign::getHashAlgo(cert.getSignature().getSignType());
// get cert hash // get cert hash
switch (cert_hash_algo) switch (cert_hash_algo)
{ {
case (es::sign::HASH_ALGO_SHA1): case (pki::sign::HASH_ALGO_SHA1):
cert_hash.alloc(crypto::sha::kSha1HashLen); cert_hash.alloc(crypto::sha::kSha1HashLen);
crypto::sha::Sha1(cert.getBody().getBytes().data(), cert.getBody().getBytes().size(), cert_hash.data()); crypto::sha::Sha1(cert.getBody().getBytes().data(), cert.getBody().getBytes().size(), cert_hash.data());
break; break;
case (es::sign::HASH_ALGO_SHA256): case (pki::sign::HASH_ALGO_SHA256):
cert_hash.alloc(crypto::sha::kSha256HashLen); cert_hash.alloc(crypto::sha::kSha256HashLen);
crypto::sha::Sha256(cert.getBody().getBytes().data(), cert.getBody().getBytes().size(), cert_hash.data()); crypto::sha::Sha256(cert.getBody().getBytes().data(), cert.getBody().getBytes().size(), cert_hash.data());
break; break;
@ -86,19 +86,19 @@ void PkiValidator::clearCertificates()
mCertificateBank.clear(); mCertificateBank.clear();
} }
void PkiValidator::validateSignature(const std::string& issuer, es::sign::SignatureId signature_id, const fnd::Vec<byte_t>& signature, const fnd::Vec<byte_t>& hash) const void PkiValidator::validateSignature(const std::string& issuer, pki::sign::SignatureId signature_id, const fnd::Vec<byte_t>& signature, const fnd::Vec<byte_t>& hash) const
{ {
es::sign::SignatureAlgo sign_algo = es::sign::getSignatureAlgo(signature_id); pki::sign::SignatureAlgo sign_algo = pki::sign::getSignatureAlgo(signature_id);
es::sign::HashAlgo hash_algo = es::sign::getHashAlgo(signature_id); pki::sign::HashAlgo hash_algo = pki::sign::getHashAlgo(signature_id);
// validate signature // validate signature
int sig_validate_res = -1; int sig_validate_res = -1;
// special case if signed by Root // special case if signed by Root
if (issuer == es::sign::kRootIssuerStr) if (issuer == pki::sign::kRootIssuerStr)
{ {
if (sign_algo != es::sign::SIGN_ALGO_RSA4096) if (sign_algo != pki::sign::SIGN_ALGO_RSA4096)
{ {
throw fnd::Exception(kModuleName, "Issued by Root, but does not have a RSA4096 signature"); throw fnd::Exception(kModuleName, "Issued by Root, but does not have a RSA4096 signature");
} }
@ -107,18 +107,18 @@ void PkiValidator::validateSignature(const std::string& issuer, es::sign::Signat
else else
{ {
// try to find issuer cert // try to find issuer cert
const es::CertificateBody& issuer_cert = getCert(issuer).getBody(); const pki::CertificateBody& issuer_cert = getCert(issuer).getBody();
es::cert::PublicKeyType issuer_pubk_type = issuer_cert.getPublicKeyType(); pki::cert::PublicKeyType issuer_pubk_type = issuer_cert.getPublicKeyType();
if (issuer_pubk_type == es::cert::RSA4096 && sign_algo == es::sign::SIGN_ALGO_RSA4096) if (issuer_pubk_type == pki::cert::RSA4096 && sign_algo == pki::sign::SIGN_ALGO_RSA4096)
{ {
sig_validate_res = crypto::rsa::pkcs::rsaVerify(issuer_cert.getRsa4098PublicKey(), getCryptoHashAlgoFromEsSignHashAlgo(hash_algo), hash.data(), signature.data()); sig_validate_res = crypto::rsa::pkcs::rsaVerify(issuer_cert.getRsa4098PublicKey(), getCryptoHashAlgoFromEsSignHashAlgo(hash_algo), hash.data(), signature.data());
} }
else if (issuer_pubk_type == es::cert::RSA2048 && sign_algo == es::sign::SIGN_ALGO_RSA2048) else if (issuer_pubk_type == pki::cert::RSA2048 && sign_algo == pki::sign::SIGN_ALGO_RSA2048)
{ {
sig_validate_res = crypto::rsa::pkcs::rsaVerify(issuer_cert.getRsa2048PublicKey(), getCryptoHashAlgoFromEsSignHashAlgo(hash_algo), hash.data(), signature.data()); sig_validate_res = crypto::rsa::pkcs::rsaVerify(issuer_cert.getRsa2048PublicKey(), getCryptoHashAlgoFromEsSignHashAlgo(hash_algo), hash.data(), signature.data());
} }
else if (issuer_pubk_type == es::cert::ECDSA240 && sign_algo == es::sign::SIGN_ALGO_ECDSA240) else if (issuer_pubk_type == pki::cert::ECDSA240 && sign_algo == pki::sign::SIGN_ALGO_ECDSA240)
{ {
throw fnd::Exception(kModuleName, "ECDSA signatures are not supported"); throw fnd::Exception(kModuleName, "ECDSA signatures are not supported");
} }
@ -136,14 +136,14 @@ void PkiValidator::validateSignature(const std::string& issuer, es::sign::Signat
} }
void PkiValidator::makeCertIdent(const es::SignedData<es::CertificateBody>& cert, std::string& ident) const void PkiValidator::makeCertIdent(const pki::SignedData<pki::CertificateBody>& cert, std::string& ident) const
{ {
makeCertIdent(cert.getBody().getIssuer(), cert.getBody().getSubject(), ident); makeCertIdent(cert.getBody().getIssuer(), cert.getBody().getSubject(), ident);
} }
void PkiValidator::makeCertIdent(const std::string& issuer, const std::string& subject, std::string& ident) const void PkiValidator::makeCertIdent(const std::string& issuer, const std::string& subject, std::string& ident) const
{ {
ident = issuer + es::sign::kIdentDelimiter + subject; ident = issuer + pki::sign::kIdentDelimiter + subject;
ident = ident.substr(0, _MIN(ident.length(),64)); ident = ident.substr(0, _MIN(ident.length(),64));
} }
@ -164,7 +164,7 @@ bool PkiValidator::doesCertExist(const std::string& ident) const
return exists; return exists;
} }
const es::SignedData<es::CertificateBody>& PkiValidator::getCert(const std::string& ident) const const pki::SignedData<pki::CertificateBody>& PkiValidator::getCert(const std::string& ident) const
{ {
std::string full_cert_name; std::string full_cert_name;
for (size_t i = 0; i < mCertificateBank.size(); i++) for (size_t i = 0; i < mCertificateBank.size(); i++)
@ -179,16 +179,16 @@ const es::SignedData<es::CertificateBody>& PkiValidator::getCert(const std::stri
throw fnd::Exception(kModuleName, "Issuer certificate does not exist"); throw fnd::Exception(kModuleName, "Issuer certificate does not exist");
} }
crypto::sha::HashType PkiValidator::getCryptoHashAlgoFromEsSignHashAlgo(es::sign::HashAlgo hash_algo) const crypto::sha::HashType PkiValidator::getCryptoHashAlgoFromEsSignHashAlgo(pki::sign::HashAlgo hash_algo) const
{ {
crypto::sha::HashType hash_type = crypto::sha::HASH_SHA1; crypto::sha::HashType hash_type = crypto::sha::HASH_SHA1;
switch (hash_algo) switch (hash_algo)
{ {
case (es::sign::HASH_ALGO_SHA1): case (pki::sign::HASH_ALGO_SHA1):
hash_type = crypto::sha::HASH_SHA1; hash_type = crypto::sha::HASH_SHA1;
break; break;
case (es::sign::HASH_ALGO_SHA256): case (pki::sign::HASH_ALGO_SHA256):
hash_type = crypto::sha::HASH_SHA256; hash_type = crypto::sha::HASH_SHA256;
break; break;
}; };

View file

@ -3,8 +3,8 @@
#include <fnd/List.h> #include <fnd/List.h>
#include <fnd/Vec.h> #include <fnd/Vec.h>
#include <crypto/rsa.h> #include <crypto/rsa.h>
#include <es/SignedData.h> #include <pki/SignedData.h>
#include <es/CertificateBody.h> #include <pki/CertificateBody.h>
#include <string> #include <string>
class PkiValidator class PkiValidator
@ -13,22 +13,22 @@ public:
PkiValidator(); PkiValidator();
void setRootKey(const crypto::rsa::sRsa4096Key& root_key); void setRootKey(const crypto::rsa::sRsa4096Key& root_key);
void addCertificates(const fnd::List<es::SignedData<es::CertificateBody>>& certs); void addCertificates(const fnd::List<pki::SignedData<pki::CertificateBody>>& certs);
void addCertificate(const es::SignedData<es::CertificateBody>& cert); void addCertificate(const pki::SignedData<pki::CertificateBody>& cert);
void clearCertificates(); void clearCertificates();
void validateSignature(const std::string& issuer, es::sign::SignatureId signature_id, const fnd::Vec<byte_t>& signature, const fnd::Vec<byte_t>& hash) const; void validateSignature(const std::string& issuer, pki::sign::SignatureId signature_id, const fnd::Vec<byte_t>& signature, const fnd::Vec<byte_t>& hash) const;
private: private:
const std::string kModuleName = "NNPkiValidator"; const std::string kModuleName = "NNPkiValidator";
crypto::rsa::sRsa4096Key mRootKey; crypto::rsa::sRsa4096Key mRootKey;
fnd::List<es::SignedData<es::CertificateBody>> mCertificateBank; fnd::List<pki::SignedData<pki::CertificateBody>> mCertificateBank;
void makeCertIdent(const es::SignedData<es::CertificateBody>& cert, std::string& ident) const; void makeCertIdent(const pki::SignedData<pki::CertificateBody>& cert, std::string& ident) const;
void makeCertIdent(const std::string& issuer, const std::string& subject, std::string& ident) const; void makeCertIdent(const std::string& issuer, const std::string& subject, std::string& ident) const;
bool doesCertExist(const std::string& ident) const; bool doesCertExist(const std::string& ident) const;
const es::SignedData<es::CertificateBody>& getCert(const std::string& ident) const; const pki::SignedData<pki::CertificateBody>& getCert(const std::string& ident) const;
crypto::sha::HashType getCryptoHashAlgoFromEsSignHashAlgo(es::sign::HashAlgo hash_algo) const; crypto::sha::HashType getCryptoHashAlgoFromEsSignHashAlgo(pki::sign::HashAlgo hash_algo) const;
}; };

View file

@ -22,7 +22,7 @@
#include <nx/nso.h> #include <nx/nso.h>
#include <nx/nro.h> #include <nx/nro.h>
#include <nx/aset.h> #include <nx/aset.h>
#include <es/SignatureBlock.h> #include <pki/SignatureBlock.h>
UserSettings::UserSettings() UserSettings::UserSettings()
{} {}
@ -756,10 +756,10 @@ FileType UserSettings::determineFileTypeFromFile(const std::string& path)
// test nso // test nso
else if (_ASSERT_SIZE(sizeof(nx::sNroHeader)) && _TYPE_PTR(nx::sNroHeader)->st_magic.get() == nx::nro::kNroStructMagic) else if (_ASSERT_SIZE(sizeof(nx::sNroHeader)) && _TYPE_PTR(nx::sNroHeader)->st_magic.get() == nx::nro::kNroStructMagic)
file_type = FILE_NRO; file_type = FILE_NRO;
// test es certificate // test pki certificate
else if (determineValidEsCertFromSample(scratch)) else if (determineValidEsCertFromSample(scratch))
file_type = FILE_ES_CERT; file_type = FILE_ES_CERT;
// test es ticket // test ticket
else if (determineValidEsTikFromSample(scratch)) else if (determineValidEsTikFromSample(scratch))
file_type = FILE_ES_TIK; file_type = FILE_ES_TIK;
// test hb asset // test hb asset
@ -866,7 +866,7 @@ bool UserSettings::determineValidNacpFromSample(const fnd::Vec<byte_t>& sample)
bool UserSettings::determineValidEsCertFromSample(const fnd::Vec<byte_t>& sample) const bool UserSettings::determineValidEsCertFromSample(const fnd::Vec<byte_t>& sample) const
{ {
es::SignatureBlock sign; pki::SignatureBlock sign;
try try
{ {
@ -880,7 +880,7 @@ bool UserSettings::determineValidEsCertFromSample(const fnd::Vec<byte_t>& sample
if (sign.isLittleEndian() == true) if (sign.isLittleEndian() == true)
return false; return false;
if (sign.getSignType() != es::sign::SIGN_ID_RSA4096_SHA256 && sign.getSignType() != es::sign::SIGN_ID_RSA2048_SHA256 && sign.getSignType() != es::sign::SIGN_ID_ECDSA240_SHA256) if (sign.getSignType() != pki::sign::SIGN_ID_RSA4096_SHA256 && sign.getSignType() != pki::sign::SIGN_ID_RSA2048_SHA256 && sign.getSignType() != pki::sign::SIGN_ID_ECDSA240_SHA256)
return false; return false;
return true; return true;
@ -888,7 +888,7 @@ bool UserSettings::determineValidEsCertFromSample(const fnd::Vec<byte_t>& sample
bool UserSettings::determineValidEsTikFromSample(const fnd::Vec<byte_t>& sample) const bool UserSettings::determineValidEsTikFromSample(const fnd::Vec<byte_t>& sample) const
{ {
es::SignatureBlock sign; pki::SignatureBlock sign;
try try
{ {
@ -902,7 +902,7 @@ bool UserSettings::determineValidEsTikFromSample(const fnd::Vec<byte_t>& sample)
if (sign.isLittleEndian() == false) if (sign.isLittleEndian() == false)
return false; return false;
if (sign.getSignType() != es::sign::SIGN_ID_RSA2048_SHA256) if (sign.getSignType() != pki::sign::SIGN_ID_RSA2048_SHA256)
return false; return false;
return true; return true;