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nxdumptool/source/cert.h
Pablo Curiel e77c72b0db Some changes.
* gamecard: added more comments, modified gamecardGetBundledFirmwareUpdateVersion() to fill a VersionType1 pointer instead of a u32, fallback to manually reading the gamecard certificate if fsDeviceOperatorGetGameCardDeviceCertificate() fails, updated GameCardFwVersion enum.

* title: tweaked conditions for some functions.

* usb: explicitly defined values for previously omitted struct members while initializing USB comms, imported libusb structs to make it easier to work with the USB BOS, added a few more comments and changed around some code.

* utils: tweaked the illegal filesystem character array to remove some chars that are actually allowed.
2021-02-12 16:35:23 -04:00

243 lines
9.9 KiB
C

/*
* cert.h
*
* Copyright (c) 2020-2021, DarkMatterCore <pabloacurielz@gmail.com>.
*
* This file is part of nxdumptool (https://github.com/DarkMatterCore/nxdumptool).
*
* nxdumptool is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* nxdumptool is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#ifndef __CERT_H__
#define __CERT_H__
#include "signature.h"
#define SIGNED_CERT_MAX_SIZE sizeof(CertSigRsa4096PubKeyRsa4096)
#define SIGNED_CERT_MIN_SIZE sizeof(CertSigHmac160PubKeyEcc480)
typedef enum {
CertType_None = 0,
CertType_SigRsa4096_PubKeyRsa4096 = 1,
CertType_SigRsa4096_PubKeyRsa2048 = 2,
CertType_SigRsa4096_PubKeyEcc480 = 3,
CertType_SigRsa2048_PubKeyRsa4096 = 4,
CertType_SigRsa2048_PubKeyRsa2048 = 5,
CertType_SigRsa2048_PubKeyEcc480 = 6,
CertType_SigEcc480_PubKeyRsa4096 = 7,
CertType_SigEcc480_PubKeyRsa2048 = 8,
CertType_SigEcc480_PubKeyEcc480 = 9,
CertType_SigHmac160_PubKeyRsa4096 = 10,
CertType_SigHmac160_PubKeyRsa2048 = 11,
CertType_SigHmac160_PubKeyEcc480 = 12
} CertType;
/// Always stored using big endian byte order.
typedef enum {
CertPubKeyType_Rsa4096 = 0,
CertPubKeyType_Rsa2048 = 1,
CertPubKeyType_Ecc480 = 2
} CertPubKeyType;
/// Placed after the certificate signature block.
typedef struct {
char issuer[0x40];
u32 pub_key_type; ///< CertPubKeyType. Stored using big endian byte order.
char name[0x40];
u32 date; ///< Stored using big endian byte order.
} CertCommonBlock;
typedef struct {
u8 public_key[0x200];
u32 public_exponent;
u8 padding[0x34];
} CertPublicKeyBlockRsa4096;
typedef struct {
u8 public_key[0x100];
u32 public_exponent;
u8 padding[0x34];
} CertPublicKeyBlockRsa2048;
typedef struct {
u8 public_key[0x3C];
u8 padding[0x3C];
} CertPublicKeyBlockEcc480;
typedef struct {
SignatureBlockRsa4096 sig_block; ///< sig_type field is stored using big endian byte order.
CertCommonBlock cert_common_block; ///< pub_key_type field must be CertPubKeyType_Rsa4096.
CertPublicKeyBlockRsa4096 pub_key_block;
} CertSigRsa4096PubKeyRsa4096;
typedef struct {
SignatureBlockRsa4096 sig_block; ///< sig_type field is stored using big endian byte order.
CertCommonBlock cert_common_block; ///< pub_key_type field must be CertPubKeyType_Rsa2048.
CertPublicKeyBlockRsa2048 pub_key_block;
} CertSigRsa4096PubKeyRsa2048;
typedef struct {
SignatureBlockRsa4096 sig_block; ///< sig_type field is stored using big endian byte order.
CertCommonBlock cert_common_block; ///< pub_key_type field must be CertPubKeyType_Ecc480.
CertPublicKeyBlockEcc480 pub_key_block;
} CertSigRsa4096PubKeyEcc480;
typedef struct {
SignatureBlockRsa2048 sig_block; ///< sig_type field is stored using big endian byte order.
CertCommonBlock cert_common_block; ///< pub_key_type field must be CertPubKeyType_Rsa4096.
CertPublicKeyBlockRsa4096 pub_key_block;
} CertSigRsa2048PubKeyRsa4096;
typedef struct {
SignatureBlockRsa2048 sig_block; ///< sig_type field is stored using big endian byte order.
CertCommonBlock cert_common_block; ///< pub_key_type field must be CertPubKeyType_Rsa2048.
CertPublicKeyBlockRsa2048 pub_key_block;
} CertSigRsa2048PubKeyRsa2048;
typedef struct {
SignatureBlockRsa2048 sig_block; ///< sig_type field is stored using big endian byte order.
CertCommonBlock cert_common_block; ///< pub_key_type field must be CertPubKeyType_Ecc480.
CertPublicKeyBlockEcc480 pub_key_block;
} CertSigRsa2048PubKeyEcc480;
typedef struct {
SignatureBlockEcc480 sig_block; ///< sig_type field is stored using big endian byte order.
CertCommonBlock cert_common_block; ///< pub_key_type field must be CertPubKeyType_Rsa4096.
CertPublicKeyBlockRsa4096 pub_key_block;
} CertSigEcc480PubKeyRsa4096;
typedef struct {
SignatureBlockEcc480 sig_block; ///< sig_type field is stored using big endian byte order.
CertCommonBlock cert_common_block; ///< pub_key_type field must be CertPubKeyType_Rsa2048.
CertPublicKeyBlockRsa2048 pub_key_block;
} CertSigEcc480PubKeyRsa2048;
typedef struct {
SignatureBlockEcc480 sig_block; ///< sig_type field is stored using big endian byte order.
CertCommonBlock cert_common_block; ///< pub_key_type field must be CertPubKeyType_Ecc480.
CertPublicKeyBlockEcc480 pub_key_block;
} CertSigEcc480PubKeyEcc480;
typedef struct {
SignatureBlockHmac160 sig_block; ///< sig_type field is stored using big endian byte order.
CertCommonBlock cert_common_block; ///< pub_key_type field must be CertPubKeyType_Rsa4096.
CertPublicKeyBlockRsa4096 pub_key_block;
} CertSigHmac160PubKeyRsa4096;
typedef struct {
SignatureBlockHmac160 sig_block; ///< sig_type field is stored using big endian byte order.
CertCommonBlock cert_common_block; ///< pub_key_type field must be CertPubKeyType_Rsa2048.
CertPublicKeyBlockRsa2048 pub_key_block;
} CertSigHmac160PubKeyRsa2048;
typedef struct {
SignatureBlockHmac160 sig_block; ///< sig_type field is stored using big endian byte order.
CertCommonBlock cert_common_block; ///< pub_key_type field must be CertPubKeyType_Ecc480.
CertPublicKeyBlockEcc480 pub_key_block;
} CertSigHmac160PubKeyEcc480;
/// Used to store certificate type, size and raw data.
typedef struct {
u8 type; ///< CertType.
u64 size; ///< Raw certificate size.
u8 data[SIGNED_CERT_MAX_SIZE]; ///< Raw certificate data.
} Certificate;
/// Used to store two or more certificates.
typedef struct {
u32 count;
Certificate *certs;
} CertificateChain;
/// Retrieves a certificate by its name (e.g. "CA00000003", "XS00000020", etc.).
bool certRetrieveCertificateByName(Certificate *dst, const char *name);
/// Retrieves a certificate chain by a full signature issuer string (e.g. "Root-CA00000003-XS00000020").
bool certRetrieveCertificateChainBySignatureIssuer(CertificateChain *dst, const char *issuer);
/// Returns a pointer to a dynamically allocated buffer that contains the raw contents from the certificate chain matching the input signature issuer. It must be freed by the user.
/// NULL is returned if an error occurs.
u8 *certGenerateRawCertificateChainBySignatureIssuer(const char *issuer, u64 *out_size);
/// Returns a pointer to a dynamically allocated buffer that contains the raw contents from the certificate chain matching the input Rights ID (stored in the inserted gamecard).
/// It must be freed by the user.
/// NULL is returned if an error occurs.
u8 *certRetrieveRawCertificateChainFromGameCardByRightsId(const FsRightsId *id, u64 *out_size);
/// Helper inline functions.
NX_INLINE void certFreeCertificateChain(CertificateChain *chain)
{
if (!chain) return;
if (chain->certs) free(chain->certs);
memset(chain, 0, sizeof(CertificateChain));
}
NX_INLINE CertCommonBlock *certGetCommonBlock(void *buf)
{
return (CertCommonBlock*)signatureGetPayload(buf, true);
}
NX_INLINE bool certIsValidPublicKeyType(u32 type)
{
return (type == CertPubKeyType_Rsa4096 || type == CertPubKeyType_Rsa2048 || type == CertPubKeyType_Ecc480);
}
NX_INLINE u8 *certGetPublicKey(CertCommonBlock *cert_common_block)
{
return ((cert_common_block != NULL && certIsValidPublicKeyType(__builtin_bswap32(cert_common_block->pub_key_type))) ? ((u8*)cert_common_block + sizeof(CertCommonBlock)) : NULL);
}
NX_INLINE u64 certGetPublicKeySize(u32 type)
{
return (u64)(type == CertPubKeyType_Rsa4096 ? MEMBER_SIZE(CertPublicKeyBlockRsa4096, public_key) : \
(type == CertPubKeyType_Rsa2048 ? MEMBER_SIZE(CertPublicKeyBlockRsa2048, public_key) : \
(type == CertPubKeyType_Ecc480 ? MEMBER_SIZE(CertPublicKeyBlockEcc480, public_key) : 0)));
}
NX_INLINE u64 certGetPublicKeyBlockSize(u32 type)
{
return (u64)(type == CertPubKeyType_Rsa4096 ? sizeof(CertPublicKeyBlockRsa4096) : \
(type == CertPubKeyType_Rsa2048 ? sizeof(CertPublicKeyBlockRsa2048) : \
(type == CertPubKeyType_Ecc480 ? sizeof(CertPublicKeyBlockEcc480) : 0)));
}
NX_INLINE u32 certGetPublicExponent(CertCommonBlock *cert_common_block)
{
u8 *public_key = certGetPublicKey(cert_common_block);
return ((cert_common_block != NULL && public_key != NULL) ? __builtin_bswap32(*((u32*)(public_key + certGetPublicKeySize(__builtin_bswap32(cert_common_block->pub_key_type))))) : 0);
}
NX_INLINE bool certIsValidCertificate(void *buf)
{
CertCommonBlock *cert_common_block = certGetCommonBlock(buf);
return (cert_common_block != NULL && certIsValidPublicKeyType(__builtin_bswap32(cert_common_block->pub_key_type)));
}
NX_INLINE u64 certGetSignedCertificateSize(void *buf)
{
if (!certIsValidCertificate(buf)) return 0;
CertCommonBlock *cert_common_block = certGetCommonBlock(buf);
return (signatureGetBlockSize(signatureGetSigType(buf, true)) + (u64)sizeof(CertCommonBlock) + certGetPublicKeyBlockSize(__builtin_bswap32(cert_common_block->pub_key_type)));
}
NX_INLINE u64 certGetSignedCertificateHashAreaSize(void *buf)
{
if (!certIsValidCertificate(buf)) return 0;
CertCommonBlock *cert_common_block = certGetCommonBlock(buf);
return ((u64)sizeof(CertCommonBlock) + certGetPublicKeyBlockSize(__builtin_bswap32(cert_common_block->pub_key_type)));
}
#endif /* __CERT_H__ */