Nintendo Switch Brew

Cryptosystem: Difference between revisions

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== BootROM ==
= BootROM =
The bootrom initializes two keyslots in the hardware engine:
The bootrom initializes two keyslots in the hardware engine:


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The SBK is stored in [[Fuses#FUSE_PRIVATE_KEY|FUSE_PRIVATE_KEY]], which are locked to read out only FFs after the bootrom finishes.
The SBK is stored in [[Fuses#FUSE_PRIVATE_KEY|FUSE_PRIVATE_KEY]], which are locked to read out only FFs after the bootrom finishes.


SBK should be shared amongst all consoles, but we don't know this is the case.
SBK is '''unique''' per console, and not shared among consoles as originally believed.


The SSK is derived on boot via the SBK, the 32-bit console-unique "Device Key", and hardware information stored in fuses.
The SSK is derived on boot via the SBK, the 32-bit console-unique "Device Key", and hardware information stored in fuses.
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   }
   }
   
   
== Falcon coprocessor ==
= Falcon coprocessor =
The falcon processor (TSEC) stores a special console-unique key (that will be referred to as the "tsec key").
The falcon processor (TSEC) generates a special console-unique key (that will be referred to as the "tsec key").


This is presumably stored in fuses that only microcode authenticated by NVidia has access to.
This is presumably using data stored in fuses that only microcode authenticated by NVidia has access to.
 
The tsec key is the source of all per-console entropy, because SSK is not used on retail.
 
== Package1 ==
 
=== Key generation ===


= Package1ldr =
== Key table ==
[1.0.0-3.0.2] During package1ldr:
{| class="wikitable" border="1"
{| class="wikitable" border="1"
|-
|-
Line 64: Line 61:
! Name
! Name
! Set by
! Set by
! Cleared by
! Per-console
! Per-console
! Per-firmware
! Per-firmware
! Introduced in
! Deprecated on
|-
|-
| 11
| 11
| Package1Key
| Package1Key
| [[Package1]]
| [[Package1#Package1ldr|Package1ldr]]
| [[Package1]]
| No
| Yes
|-
| 14
| SecureBootKey
| Bootrom
| Yes
| No
| No
|-
| 15
| SecureStorageKey
| Bootrom
| Yes
| Yes
| [[1.0.0]]
| No
| Never
|}
 
[1.0.0-3.0.2] After package1ldr:
{| class="wikitable" border="1"
|-
! Keyslot
! Name
! Set by
! Per-console
! Per-firmware
|-
|-
| 12
| 12
| MasterKey
| MasterKey
| [[Package1]]
| [[Package1#Package1ldr|Package1ldr]]
| Forever
| No
| No
| Yes, on security updates
| Yes, on security updates
| [[1.0.0]]
| Never
|-
|-
| 13
| 13
| PerConsoleKey
| PerConsoleKey
| [[Package1]]
| [[Package1#Package1ldr|Package1ldr]]
| Forever
| Yes
| Yes
| No
| No
| [[1.0.0]]
|}
| [[4.0.0]]
 
[4.0.0+] After package1ldr (Secure Monitor boot):
{| class="wikitable" border="1"
|-
! Keyslot
! Name
! Set by
! Per-console
! Per-firmware
|-
| 12
| MasterKey
| [[Package1#Package1ldr|Package1ldr]]
| No
| Yes, on security updates
|-
|-
| 13
| 13
| OtherPerConsoleKey
| PerConsoleKeyForFirmwareSpecificPerConsoleKeyGen
| [[Package1]]
| [[Package1#Package1ldr|Package1ldr]]
| ?
| Yes
| Yes
| No
| No
| [[4.0.0]]
| Never
|-
|-
| 14
| 14
| SecureBootKey
| StaticKeyForFirmwareSpecificPerConsoleKeyGen
| Bootrom
| [[Package1#Package1ldr|Package1ldr]]
| [[Package1]]
| No
| No
| Yes, on security updates
|-
| 15
| PerConsoleKey
| [[Package1#Package1ldr|Package1ldr]]
| Yes
| No
| No
| [[1.0.0]]
|}
| Never
 
[4.0.0+] After package1ldr (Secure Monitor runtime):
{| class="wikitable" border="1"
|-
! Keyslot
! Name
! Set by
! Per-console
! Per-firmware
|-
|-
| 14
| 12
| OtherMasterKey
| MasterKey
| [[Package1]]
| [[Package1#Package1ldr|Package1ldr]]
| ?
| No
| No
| Yes, on security updates
| Yes, on security updates
| [[4.0.0]]
|-
| Never
| 13
| FirmwareSpecificPerConsoleKey
| Secure Monitor init
| Yes
| Yes, on security updates
|-
|-
| 15
| 15
| SecureStorageKey
| PerConsoleKey
| [[Package1#Package1ldr|Package1ldr]]
| Yes
| No
|}
 
[6.2.0+] After package1ldr/TSEC Payload (Secure Monitor boot):
{| class="wikitable" border="1"
|-
! Keyslot
! Name
! Set by
! Per-console
! Per-firmware
|-
| 12
| TsecKey
| [[TSEC#Payload|Package1ldr TSEC Firmware]]
| Yes
| No
|-
| 13
| TsecRootKey
| [[TSEC#Payload|Package1ldr TSEC Firmware]]
| No
| Unknown
|-
| 14
| SecureBootKey
| Bootrom
| Bootrom
| [[Package1]]
| Yes
| Yes
| No
| No
| [[1.0.0]]
| Never
|-
|-
| 15
| 15
| PerConsoleKey
| SecureStorageKey
| [[Package1]]
| Bootrom
| Forever
| Yes
| Yes
| No
| No
| [[4.0.0]]
| Never
|}
|}


== Key generation ==
Note: aes_unwrap(wrapped_key, wrap_key) is just another name for a single AES-128 block decryption.
Note: aes_unwrap(wrapped_key, wrap_key) is just another name for a single AES-128 block decryption.


If bit0 of 0x7000FB94 is clear, it will initialize keys like this (probably used for internal development units only):
If bit0 of 0x7000FB94 is clear, it will initialize keys like this (probably used for internal development units only):
   // Final keys:
   // Final keys:
   package1_key    /* slot11 */ = aes_unwrap(f5baeadb.., sbk)
   package1_key    /* slot11 */ = aes_unwrap(f5b1eadb.., sbk)
   master_key      /* slot12 */ = aes_unwrap(bct->pubkey[0] == 0x11 ? aff11423.. : 5e177ee1.., aes_unwrap(5ff9c2d9.., sbk))
   master_key      /* slot12 */ = aes_unwrap(bct->pubkey[0] == 0x11 ? simpleseed_dev0 : simpleseed_dev1, aes_unwrap(5ff9c2d9.., sbk))
   per_console_key /* slot13 */ = aes_unwrap(4f025f0e..., aes_unwrap(6e4a9592.., ssk))
   per_console_key /* slot13 */ = aes_unwrap(4f025f0e..., aes_unwrap(6e4a9592.., ssk))
[4.0.0+] Above method was removed.


Normal key generation looks like this on 1.0.0/2.0.0:
Normal key generation looks like this on 1.0.0/2.0.0:
   keyblob_key /* slot13 */ = aes_unwrap(aes_unwrap(df206f59.., tsec_key /* slot13 */, sbk /* slot14 */)
 
   keyblob_key /* slot13 */ = aes_unwrap(aes_unwrap(wrapped_keyblob_key, tsec_key /* slot13 */), sbk /* slot14 */)
   cmac_key    /* slot11 */ = aes_unwrap(59c7fb6f.., keyblob_key)
   cmac_key    /* slot11 */ = aes_unwrap(59c7fb6f.., keyblob_key)
    
    
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   // Final keys:
   // Final keys:
   package1_key    /* slot11 */ = keyblob[0x80:0x90]
   package1_key    /* slot11 */ = keyblob[0x80:0x90]
   master_key      /* slot12 */ = aes_unwrap(is_debug ? 0542a0fd.. : d8a2410a.., keyblob+0x20)
   master_key      /* slot12 */ = aes_unwrap(bct->pubkey[0] == 0x4f ? normalseed_dev : normalseed_retail, keyblob+0x20)
   per_console_key /* slot13 */ = aes_unwrap(4f025f0e.., keyblob_key)
   per_console_key /* slot13 */ = aes_unwrap(4f025f0e.., keyblob_key)
.. and on 3.0.0, they moved keyslots around a little to generate the same per-console key as 1.0.0:
  old_keyblob_key /* slot10 */ = aes_unwrap(aes_unwrap(df206f59.., tsec_key /* slot13 */), sbk /* slot14 */)
  keyblob_key    /* slot13 */ = aes_unwrap(aes_unwrap(wrapped_keyblob_key, tsec_key /* slot13 */), sbk /* slot14 */)
  cmac_key        /* slot11 */ = aes_unwrap(59c7fb6f.., keyblob_key)
 
  if aes_cmac(buf=keyblob+0x10, len=0xA0, cmac_key) != keyblob[0:0x10]:
    panic()
 
  aes_ctr_decrypt(buf=keyblob+0x20, len=0x90, iv=keyblob+0x10 key=keyblob_key)
 
  // Final keys:
  package1_key    /* slot11 */ = keyblob[0x80:0x90]
  master_key      /* slot12 */ = aes_unwrap(bct->pubkey[0] == 0x4f ? normalseed_dev : normalseed_retail, keyblob+0x20)
  per_console_key /* slot13 */ = aes_unwrap(4f025f0e.., old_keyblob_key)
.. and on 4.0.0 it was further moved around:
  keyblob_key    /* slot13 */ = aes_unwrap(aes_unwrap(wrapped_keyblob_key, tsec_key /* slot13 */), sbk /* slot14 */)
  cmac_key        /* slot11 */ = aes_unwrap(59c7fb6f.., keyblob_key)
 
  if aes_cmac(buf=keyblob+0x10, len=0xA0, cmac_key) != keyblob[0:0x10]:
    panic()
 
  aes_ctr_decrypt(buf=keyblob+0x20, len=0x90, iv=keyblob+0x10 key=keyblob_key)
 
  // Final keys:
  package1_key        /* slot11 */ = keyblob[0x80:0x90]
  master_key          /* slot12 */ = aes_unwrap(normalseed_retail, keyblob+0x20)
  new_master_key      /* slot14 */ = aes_unwrap(2dc1f48d.., keyblob+0x20)
  new_per_console_key /* slot13 */ = aes_unwrap(0c9109db.., old_keyblob_key)
  per_console_key    /* slot15 */ = aes_unwrap(4f025f0e.., old_keyblob_key)
.. and on 6.2.0, they moved key generation out of package1ldr, and into the Secure Monitor's boot section:
  clear_keyslots_other_than_12_13_and_14()
 
  old_keyblob_key /* slot15 */ = aes_unwrap(aes_unwrap(df206f59.., tsec_key /* slot12 */), sbk /* slot14 */)
  /* Previously, master_kek was stored at keyblob+0x20) */
  master_kek      /* slot13 */ = aes_unwrap(374b7729.. /* probably firmware specific */, tsec_root_key /* slot13 */)
 
  clear_keyslot(12)
 
  // Final keys:
  new_master_key      /* slot12 */ = aes_unwrap(2dc1f48d.., master_kek)       
  master_key          /* slot13 */ = aes_unwrap(normalseed_retail, master_kek)
  new_per_console_key /* slot14 */ = aes_unwrap(0c9109db.., old_keyblob_key)
  per_console_key    /* slot15 */ = aes_unwrap(4f025f0e.., old_keyblob_key)


SBK and SSK keyslots are cleared after keys have been generated.
SBK and SSK keyslots are cleared after keys have been generated.
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This means that if you have an attack on the bootloader, you need to re-preform it every time they move to a new keyblob.
This means that if you have an attack on the bootloader, you need to re-preform it every time they move to a new keyblob.


Dumping the SBK and TSEC key of any single system should be enough to derive all key material on the system.
Dumping the SBK and TSEC key of any single system should be enough to derive all key material on the system, prior to 6.2.0.


The key-derivation is described in more detail [[Package1#Key_generation|here]].
The key-derivation is described in more detail [[Package1#Key_generation|here]].


==== Table of used keyblobs ====
=== Keyblob ===
There are 32 keyblobs written to NAND at factory, with each keyblob encrypted with a console-unique key derived from the console's SBK, the console's tsec key, and a constant specific to each keyblob.
 
Despite being encrypted with console unique keys, though, the decrypted keyblob contents are shared for all consoles.
 
Used keyblobs are as follows:


{| class="wikitable" border="1"
{| class="wikitable" border="1"
Line 199: Line 316:
| 1
| 1
|-
|-
| 4.0.0
| 4.0.0-4.1.0
| 4
| 4
| 1
|-
| 5.0.0-5.1.0
| 5
| 1
|-
| 6.0.0-6.1.0
| 6
| 1
| 1
|}
|}


== Bootloader stage 1 ==
Starting from 6.2.0, key generation no longer uses keyblobs.
It is currently unknown what key generation the stage 2 bootloader does.
 
=== Seeds ===
  normalseed_retail = d8a2410a...
 
  [1.0.0] wrapped_keyblob_key = df206f59...
  [1.0.0] simpleseed_dev0  = aff11423...
  [1.0.0] simpleseed_dev1  = 5e177ee1...
  [1.0.0] normalseed_dev    = 0542a0fd...
 
  [3.0.0] wrapped_keyblob_key = 0c25615d... 
  [3.0.0] simpleseed_dev0  = de00216a...
  [3.0.0] simpleseed_dev1  = 2db7c0a1...
  [3.0.0] normalseed_dev    = 678c5a03...
 
  [3.0.1] wrapped_keyblob_key = 337685ee... 
  [3.0.1] simpleseed_dev0  = e045f5ba...
  [3.0.1] simpleseed_dev1  = 84d92e0d...
  [3.0.1] normalseed_dev    = cd88155b...
 
  [4.0.0] wrapped_keyblob_key = 2d1f4880...
 
=== Versions ===
The key generation system has historically been revised several times. Each version is bound to a specific BCT public key and can be identified by its first byte as follows:
 
{| class="wikitable" border="1"
|-
! Version
! BCT public key's first byte
! Description
|-
| K1
| 0x11
| Erista prototype development
|-
| K2
| 0xFB
| Erista prototype development
|-
| K3
| 0x4F
| Erista prototype development
|-
| K4
|
| Erista prototype retail
|-
| K5
| 0x37
| Erista development
|-
| K6
| 0xF7
| Erista retail
|-
| M1
| 0x19
| Mariko prototype development
|-
| M2
| 0xC3
| Mariko development
|-
| M3
| 0xDD
| Mariko prototype retail (pre-6.0.0)
|-
| M4
| 0x9B
| Mariko retail
|}
 
= Secure Monitor Init =
On all versions, the key to decrypt [[Package2]] is generated by decrypting a constant seed with the master key. The key is erased after use. 
 
Additionally, starting from 4.0.0, the Secure Monitor init will decrypt another constant seed successively with a special per console key and a special static key passed by package1loader, to generate the firmware specific per-console key. The operation will erase these special keys passed by package1loader.  


== Secure Monitor ==
= Secure Monitor =
The secure monitor performs some runtime cryptographic operations. See [[SMC]] for what operations it provides.
The secure monitor performs some runtime cryptographic operations. See [[SMC]] for what operations it provides.
Retrieved from "https://switchbrew.org/wiki/Cryptosystem"