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merge into: shimun:cap_button_delay
Branches Tags
shimun:master shimun:master-old shimun:reset-timeout shimun:max_enumeration_issue shimun:hmac-secret-uv shimun:cred_dfs shimun:rgerganov-cred-meta-fix shimun:fix_version_in_build shimun:cbor_safety shimun:backup_improvements shimun:b3.1.1 shimun:aaguid_cert_update shimun:library_refactor shimun:all-contributors/add-Nitrokey shimun:bump3.0.0 shimun:all-contributors/add-ccinelli shimun:simplify_build shimun:move_certs_and_lock_to_data shimun:fido2_on_u2f shimun:redue_bootloader_size shimun:all-contributors/add-jolo1581 shimun:key-backup shimun:ctap2_issues shimun:nfc_conformance shimun:all-contributors/add-oplik0 shimun:ccid shimun:cap_button_delay shimun:all-contributors/add-kimusan shimun:fixb_build shimun:update-udev-docs shimun:nfc_fido2_fixes shimun:documentation_improvements shimun:bump_2.4.3 shimun:fix_cdc_interfaces shimun:cache_button shimun:merlokk-pps_impl shimun:all-contributors/add-szszszsz shimun:windows_hello_error_codes shimun:fix-hmac-secret shimun:fault_tolerance shimun:extapdu shimun:sanitize shimun:persistedkey shimun:fido2-conformance
shimun:8lfp9n2gyxjssac4d2c7n5pcj1ydmg6n shimun:4.0.0 shimun:3.1.3 shimun:3.1.2 shimun:3.1.1 shimun:3.1.0 shimun:3.0.1 shimun:3.0.0 shimun:2.5.3 shimun:2.5.2 shimun:2.5.1 shimun:2.5.0 shimun:2.4.3 shimun:2.4.2 shimun:2.4.1 shimun:2.4.0 shimun:2.3.0 shimun:2.2.2 shimun:2.2.1 shimun:2.2.0 shimun:2.1.0 shimun:2.0.0 shimun:1.1.1 shimun:1.1.0 shimun:1.0.2 shimun:1.0.1 shimun:basic-hacker-build shimun:fido2-cert
...
pull from: shimun:key-backup
Branches Tags
shimun:master shimun:master-old shimun:reset-timeout shimun:max_enumeration_issue shimun:hmac-secret-uv shimun:cred_dfs shimun:rgerganov-cred-meta-fix shimun:fix_version_in_build shimun:cbor_safety shimun:backup_improvements shimun:b3.1.1 shimun:aaguid_cert_update shimun:library_refactor shimun:all-contributors/add-Nitrokey shimun:bump3.0.0 shimun:all-contributors/add-ccinelli shimun:simplify_build shimun:move_certs_and_lock_to_data shimun:fido2_on_u2f shimun:redue_bootloader_size shimun:all-contributors/add-jolo1581 shimun:key-backup shimun:ctap2_issues shimun:nfc_conformance shimun:all-contributors/add-oplik0 shimun:ccid shimun:cap_button_delay shimun:all-contributors/add-kimusan shimun:fixb_build shimun:update-udev-docs shimun:nfc_fido2_fixes shimun:documentation_improvements shimun:bump_2.4.3 shimun:fix_cdc_interfaces shimun:cache_button shimun:merlokk-pps_impl shimun:all-contributors/add-szszszsz shimun:windows_hello_error_codes shimun:fix-hmac-secret shimun:fault_tolerance shimun:extapdu shimun:sanitize shimun:persistedkey shimun:fido2-conformance
shimun:8lfp9n2gyxjssac4d2c7n5pcj1ydmg6n shimun:4.0.0 shimun:3.1.3 shimun:3.1.2 shimun:3.1.1 shimun:3.1.0 shimun:3.0.1 shimun:3.0.0 shimun:2.5.3 shimun:2.5.2 shimun:2.5.1 shimun:2.5.0 shimun:2.4.3 shimun:2.4.2 shimun:2.4.1 shimun:2.4.0 shimun:2.3.0 shimun:2.2.2 shimun:2.2.1 shimun:2.2.0 shimun:2.1.0 shimun:2.0.0 shimun:1.1.1 shimun:1.1.0 shimun:1.0.2 shimun:1.0.1 shimun:basic-hacker-build shimun:fido2-cert

64 Commits
cap_button ... key-backup

Author SHA1 Message Date
Conor Patrick
279ab1b7f0 reduce lines/size 2019-10-08 12:09:20 -04:00
Conor Patrick
e67d05e3c1 fix warnings 2019-10-08 11:58:23 -04:00
Conor Patrick
03e0479f1a typo 2019-10-08 11:52:55 -04:00
Conor Patrick
92aadb3da5 fix pointer 2019-10-08 11:42:17 -04:00
Conor Patrick
1493c6f131 change ctap_atomic_count to increase by user-specified amount 2019-10-08 11:35:35 -04:00
Conor Patrick
ccb3753d2b refactor custom commands and add LOADKEY 2019-10-08 11:34:58 -04:00
Conor Patrick
1427c1d48e add ctap function to overwrite key bytes 2019-10-08 11:34:15 -04:00
Nicolas Stalder
208d26be89 Merge pull request #315 from My1/patch-1 
clone using https instead
 2019-09-26 23:01:42 +02:00
My1
45293fe998 clone using https instead 
not everyone has a github account, wants one or wants to setup ssh keys.
 2019-09-26 16:11:40 +02:00
Conor Patrick
a1a42fec5c Bump stable version to 2.5.3 2019-09-17 17:22:15 +08:00
Conor Patrick
8c256298ae default up to enabled 2019-09-17 00:13:57 +08:00
Conor Patrick
01b928c0ec allow in bootloader as well 2019-09-17 00:13:57 +08:00
Conor Patrick
018a4d394c add get_version command to hid 2019-09-17 00:13:57 +08:00
Conor Patrick
7a75fba6d3 delete old code 2019-09-17 00:13:57 +08:00
Conor Patrick
c61f15a090 allow get_assertion with disabled UP 2019-09-17 00:13:57 +08:00
Conor Patrick
f072561899 properly check the rpId in request 2019-09-17 00:13:57 +08:00
merlokk
6652feb4a2 added CID transfer and NAK-ACK sequence 2019-09-05 23:26:15 +08:00
Nicolas Stalder
fc7ea68d4a Bump STABLE_VERSION to 2.5.2 2019-09-05 00:30:59 +02:00
Nicolas Stalder
cb116efcc9 Merge pull request #303 from StoyanDimitrov/patch-3 
Typo
 2019-09-03 00:48:23 +02:00
Nicolas Stalder
80b9df3e04 Merge pull request #302 from StoyanDimitrov/patch-2 
Highlight command and few file names
 2019-09-03 00:48:08 +02:00
Nicolas Stalder
194ef5edcf Merge pull request #304 from StoyanDimitrov/patch-4 
Fix broken formating
 2019-09-03 00:47:21 +02:00
StoyanDimitrov
006117bb6b Fix broken formating 2019-09-02 20:56:55 +00:00
StoyanDimitrov
75c75fa897 Hilight file name 2019-09-02 20:41:42 +00:00
StoyanDimitrov
2969d09ffa Typo 2019-09-02 20:36:02 +00:00
StoyanDimitrov
b871e10d08 Highlight command and few file names 2019-09-02 20:34:20 +00:00
Conor Patrick
18d39a7047 Merge pull request #240 from Nitrokey/remove-pin-storage 
Replace FIDO2 PIN storage with its hash
 2019-09-02 21:50:44 +08:00
Conor Patrick
a9bbdee35b Merge branch 'master' into remove-pin-storage 2019-09-02 21:45:21 +08:00
Conor Patrick
321bbe3691 Merge pull request #293 from solokeys/ccid 
Ccid
 2019-09-02 21:42:38 +08:00
merlokk
1ce191343f add checking some rare case in iso14443-4 chaining. add NAK checking and aborting the data sending. 2019-08-31 02:12:05 +08:00
Conor Patrick
9041e5903c return SW_WRONG_LENGTH for incorrect lc 2019-08-30 16:37:17 +08:00
allcontributors[bot]
689d471688 docs: update .all-contributorsrc 2019-08-30 01:46:40 +02:00
allcontributors[bot]
8b9e44c3ed docs: update README.md 2019-08-30 01:46:40 +02:00
Conor Patrick
83dd92d9ba Update STABLE_VERSION 2019-08-29 22:05:10 +08:00
Conor Patrick
8bf1921263 dont reference not-enabled ccid 2019-08-24 16:20:52 +08:00
Conor Patrick
3ba9b671fc dont use composit for bootloader 2019-08-24 16:01:44 +08:00
Conor Patrick
69c34f9ca9 Merge branch 'master' into ccid 2019-08-24 15:54:51 +08:00
Conor Patrick
3b4c154fd1 add enable macro for CCID interface 2019-08-24 15:49:02 +08:00
Conor Patrick
ccd9a04146 add ccid log tag 2019-08-24 15:08:14 +08:00
Conor Patrick
bde4c09c21 CCID basics working 2019-08-24 15:06:16 +08:00
merlokk
5d3914bc5e remove delays 2019-08-23 22:25:22 +08:00
Conor Patrick
abe306a649 Merge branch 'master' of github.com:solokeys/solo 2019-08-23 14:53:22 +08:00
Conor Patrick
41ceb78f6c add user presence to flags 2019-08-23 14:48:21 +08:00
Conor Patrick
8e192f2363 do not delay bootloader 2019-08-23 14:41:26 +08:00
Conor Patrick
affc256ca2 add delay to cap button improve reliability 2019-08-23 14:41:26 +08:00
Conor Patrick
32f920e372 compile/crash fixes 2019-08-22 19:52:21 +08:00
Conor Patrick
a5aff478dd Merge branch 'master' into ccid 2019-08-22 17:13:55 +08:00
Szczepan Zalega
a5877f518f Additional assertions and reordering 2019-08-20 12:42:46 +02:00
Szczepan Zalega
5a0cc0d02c Version used STATE data structures 2019-08-20 11:57:32 +02:00
Szczepan Zalega
b452e3dfe4 Correct doc 2019-08-20 11:47:14 +02:00
Szczepan Zalega
7f82233d17 Add missing unit for firmware compilation 2019-08-20 11:38:29 +02:00
Szczepan Zalega
8e3753e711 Add initial STATE migration code (2) 2019-08-20 11:34:51 +02:00
Szczepan Zalega
816ca21f08 Correct writing salted hash 
pinHashEnc is 16 bytes, which is too small to store sha256 result.
 2019-08-20 11:34:48 +02:00
Szczepan Zalega
6c60a37e8a Add initial STATE migration code 2019-08-20 11:34:45 +02:00
Szczepan Zalega
ee351421cb Add missing definition for the simulation to run 2019-08-20 11:34:42 +02:00
Szczepan Zalega
bac576f3a0 Make the state structure backward-compatible. Add version. 2019-08-20 11:34:39 +02:00
Szczepan Zalega
6e637299e5 Add missing declaration, and comment out wallet message 2019-08-20 11:34:35 +02:00
Szczepan Zalega
43b3e93854 Modify state struct 2019-08-20 11:34:32 +02:00
Szczepan Zalega
5a448d636c Add comments 2019-08-20 11:34:29 +02:00
Szczepan Zalega
7be0553377 Replace FIDO2 PIN storage with its hash 2019-08-20 11:34:26 +02:00
Conor Patrick
a51417bf61 fix epout connection 2019-05-31 15:58:13 -04:00
Conor Patrick
ba581db49c delete excess 2019-05-21 20:17:44 -04:00
Conor Patrick
3a5cd786dc enumerates correctly 2019-05-21 20:17:37 -04:00
Conor Patrick
4fad28ea47 compile new class 2019-05-18 21:47:51 -04:00
Conor Patrick
0ff9870612 add interface descriptor 2019-05-18 21:26:18 -04:00
38 changed files with 1064 additions and 701 deletions
Expand all files Collapse all files

9
.all-contributorsrc
View File

@ -178,6 +178,15 @@
"business",
"ideas"
]
},
{
"login": "oplik0",
"name": "Jakub",
"avatar_url": "https://avatars2.githubusercontent.com/u/25460763?v=4",
"profile": "https://github.com/oplik0",
"contributions": [
"bug"
]
}
],
"contributorsPerLine": 7,

2
Makefile
View File

@ -39,7 +39,7 @@ INCLUDES += -I./crypto/cifra/src
CFLAGS += $(INCLUDES)
# for crypto/tiny-AES-c
CFLAGS += -DAES256=1 -DAPP_CONFIG=\"app.h\"
CFLAGS += -DAES256=1 -DAPP_CONFIG=\"app.h\" -DSOLO_EXPERIMENTAL=1
name = main

3
README.md
View File

@ -135,6 +135,7 @@ Thanks goes to these wonderful people ([emoji key](https://allcontributors.org/d
<td align="center"><a href="https://github.com/m3hm00d"><img src="https://avatars1.githubusercontent.com/u/42179593?v=4" width="100px;" alt="f.m3hm00d"/><br /><sub><b>f.m3hm00d</b></sub></a><br /><a href="https://github.com/solokeys/solo/commits?author=m3hm00d" title="Documentation">📖</a></td>
<td align="center"><a href="http://blogs.gnome.org/hughsie/"><img src="https://avatars0.githubusercontent.com/u/151380?v=4" width="100px;" alt="Richard Hughes"/><br /><sub><b>Richard Hughes</b></sub></a><br /><a href="#ideas-hughsie" title="Ideas, Planning, & Feedback">🤔</a> <a href="https://github.com/solokeys/solo/commits?author=hughsie" title="Code">💻</a> <a href="#infra-hughsie" title="Infrastructure (Hosting, Build-Tools, etc)">🚇</a> <a href="#tool-hughsie" title="Tools">🔧</a></td>
<td align="center"><a href="http://www.schulz.dk"><img src="https://avatars1.githubusercontent.com/u/1150049?v=4" width="100px;" alt="Kim Schulz"/><br /><sub><b>Kim Schulz</b></sub></a><br /><a href="#business-kimusan" title="Business development">💼</a> <a href="#ideas-kimusan" title="Ideas, Planning, & Feedback">🤔</a></td>
<td align="center"><a href="https://github.com/oplik0"><img src="https://avatars2.githubusercontent.com/u/25460763?v=4" width="100px;" alt="Jakub"/><br /><sub><b>Jakub</b></sub></a><br /><a href="https://github.com/solokeys/solo/issues?q=author%3Aoplik0" title="Bug reports">🐛</a></td>
</tr>
</table>
@ -168,7 +169,7 @@ You can buy Solo, Solo Tap, and Solo for Hackers at [solokeys.com](https://solok
<br/>
[![License](https://img.shields.io/github/license/solokeys/solo.svg)](https://github.com/solokeys/solo/blob/master/LICENSE)
[![All Contributors](https://img.shields.io/badge/all_contributors-18-orange.svg?style=flat-square)](#contributors)
[![All Contributors](https://img.shields.io/badge/all_contributors-19-orange.svg?style=flat-square)](#contributors)
[![Build Status](https://travis-ci.com/solokeys/solo.svg?branch=master)](https://travis-ci.com/solokeys/solo)
[![Discourse Users](https://img.shields.io/discourse/https/discourse.solokeys.com/users.svg)](https://discourse.solokeys.com)
[![Keybase Chat](https://img.shields.io/badge/chat-on%20keybase-brightgreen.svg)](https://keybase.io/team/solokeys.public)

2
STABLE_VERSION
View File

@ -1 +1 @@
2.4.3
2.5.3

10
docs/solo/customization.md
View File

@ -115,7 +115,7 @@ If the checks succeed, you are ready to program the device attestation key and c
### Programming an attestation key and certificate
Convert the DER format of the device attestation certificate to "C" bytes using our utility script. You may first need to
first install prerequisite python modules (pip install -r tools/requirements.txt).
first install prerequisite python modules (`pip install -r tools/requirements.txt`).
```
python tools/gencert/cbytes.py device_cert.der
@ -123,7 +123,7 @@ python tools/gencert/cbytes.py device_cert.der
Copy the byte string portion into the [`attestation.c` source file of Solo](https://github.com/solokeys/solo/blob/master/targets/stm32l432/src/attestation.c). Overwrite the development or "default" certificate that is already there.
Now [build the Solo firmware](/solo/building), either a secure or hacker build. You will need to produce a bootloader.hex file and a solo.hex file.
Now [build the Solo firmware](/solo/building), either a secure or hacker build. You will need to produce a `bootloader.hex` file and a `solo.hex` file.
Print your attestation key in a hex string format.
@ -131,11 +131,11 @@ Print your attestation key in a hex string format.
python tools/print_x_y.py device_key.pem
```
Merge the bootloader.hex, solo.hex, and attestion key into one firmware file.
Merge the `bootloader.hex`, `solo.hex`, and attestion key into one firmware file.
```
solo mergehex --attestation-key <attestation-key-hex-string> bootloader.hex solo.hex all.hex
```
Now you have a newly create `all.hex` file with a custom attestation key. You can [program this all.hex file
with Solo in DFU mode](/solo/programming#procedure).
Now you have a newly create `all.hex` file with a custom attestation key. You can [program this `all.hex` file
with Solo in DFU mode](/solo/programming#procedure).

13
docs/solo/nucleo32-board.md
View File

@ -85,14 +85,13 @@ brew install arm-none-eabi-gcc
### Install flashing software
ST provides a CLI flashing tool - `STM32_Programmer_CLI`. It can be downloaded directly from the vendor's site:
1\. Go to [download site URL](https://www.st.com/content/st_com/en/products/development-tools/software-development-tools/stm32-software-development-tools/stm32-programmers/stm32cubeprog.html),
go to bottom page and from STM32CubeProg row select Download button.
2\. Unzip contents of the archive.
3\. Run \*Linux setup
4\. In installation directory go to ./bin - there the ./STM32_Programmer_CLI is located
5\. Add symlink to the STM32 CLI binary to .local/bin. Make sure the latter it is in $PATH.
1. Go to [download site URL](https://www.st.com/content/st_com/en/products/development-tools/software-development-tools/stm32-software-development-tools/stm32-programmers/stm32cubeprog.html), go to bottom page and from STM32CubeProg row select Download button.
2. Unzip contents of the archive.
3. Run \*Linux setup
4. In installation directory go to `./bin` - there the `./STM32_Programmer_CLI` is located
5. Add symlink to the STM32 CLI binary to `.local/bin`. Make sure the latter it is in `$PATH`.
If you're on OsX and installed the STM32CubeProg, you need to add the following to your path:
If you're on MacOS X and installed the STM32CubeProg, you need to add the following to your path:
```bash
# ~/.bash_profile

6
docs/solo/solo-extras.md
View File

@ -3,16 +3,16 @@
## Random number generation
Solo contains a True Random Number Generator (TRNG). A TRNG is a hardware based mechanism
that leverages natural phenomenon to generate random numbers, which is can be better than a traditional
that leverages natural phenomenon to generate random numbers, which can be better than a traditional
RNG that has state and updates deterministically using cryptographic methods.
You can easily access the TRNG stream on Solo using our python tool [solo-python](https://github.com/solokeys/solo-python).
You can easily access the TRNG stream on Solo using our python tool [`solo-python`](https://github.com/solokeys/solo-python).
```
solo key rng raw > random.bin
```
Or you can seed the state of the RNG on your kernel (/dev/random).
Or you can seed the state of the RNG on your kernel (`/dev/random`).
```
solo key rng feedkernel

2
docs/solo/udev.md
View File

@ -18,7 +18,7 @@ Further progress is tracked in: <https://github.com/solokeys/solo/issues/144>.
If you still need to setup a rule, a simple way to do it is:
```
git clone git@github.com:solokeys/solo.git
git clone https://github.com/solokeys/solo.git
cd solo/udev
make setup
```

18
fido2/apdu.c
View File

@ -9,7 +9,7 @@
#include "apdu.h"
int apdu_decode(uint8_t *data, size_t len, APDU_STRUCT *apdu)
uint16_t apdu_decode(uint8_t *data, size_t len, APDU_STRUCT *apdu)
{
EXT_APDU_HEADER *hapdu = (EXT_APDU_HEADER *)data;
@ -62,6 +62,11 @@ int apdu_decode(uint8_t *data, size_t len, APDU_STRUCT *apdu)
if (len >= 7 && b0 == 0)
{
uint16_t extlen = (hapdu->lc[1] << 8) + hapdu->lc[2];
if (len - 7 < extlen)
{
return SW_WRONG_LENGTH;
}
// case 2E (Le) - extended
if (len == 7)
@ -103,9 +108,18 @@ int apdu_decode(uint8_t *data, size_t len, APDU_STRUCT *apdu)
apdu->le = 0x10000;
}
}
else
{
if ((len > 5) && (len - 5 < hapdu->lc[0]))
{
return SW_WRONG_LENGTH;
}
}
if (!apdu->case_type)
return 1;
{
return SW_COND_USE_NOT_SATISFIED;
}
if (apdu->lc)
{

2
fido2/apdu.h
View File

@ -36,7 +36,7 @@ typedef struct
uint8_t case_type;
} __attribute__((packed)) APDU_STRUCT;
extern int apdu_decode(uint8_t *data, size_t len, APDU_STRUCT *apdu);
extern uint16_t apdu_decode(uint8_t *data, size_t len, APDU_STRUCT *apdu);
#define APDU_FIDO_U2F_REGISTER 0x01
#define APDU_FIDO_U2F_AUTHENTICATE 0x02

138
fido2/ctap.c
View File

@ -25,11 +25,11 @@
#include "extensions.h"
#include "device.h"
#include "data_migration.h"
uint8_t PIN_TOKEN[PIN_TOKEN_SIZE];
uint8_t KEY_AGREEMENT_PUB[64];
static uint8_t KEY_AGREEMENT_PRIV[32];
static uint8_t PIN_CODE_HASH[32];
static int8_t PIN_BOOT_ATTEMPTS_LEFT = PIN_BOOT_ATTEMPTS;
AuthenticatorState STATE;
@ -438,7 +438,11 @@ static int ctap2_user_presence_test()
{
device_set_status(CTAPHID_STATUS_UPNEEDED);
int ret = ctap_user_presence_test(CTAP2_UP_DELAY_MS);
if ( ret > 0 )
if ( ret > 1 )
{
return CTAP2_ERR_PROCESSING;
}
else if ( ret > 0 )
{
return CTAP1_ERR_SUCCESS;
}
@ -482,11 +486,19 @@ static int ctap_make_auth_data(struct rpId * rp, CborEncoder * map, uint8_t * au
int but;
but = ctap2_user_presence_test(CTAP2_UP_DELAY_MS);
check_retr(but);
if (CTAP2_ERR_PROCESSING == but)
{
authData->head.flags = (0 << 0); // User presence disabled
}
else
{
check_retr(but);
authData->head.flags = (1 << 0); // User presence
}
device_set_status(CTAPHID_STATUS_PROCESSING);
authData->head.flags = (but << 0);
authData->head.flags |= (ctap_is_pin_set() << 2);
@ -670,7 +682,16 @@ int ctap_authenticate_credential(struct rpId * rp, CTAP_credentialDescriptor * d
switch(desc->type)
{
case PUB_KEY_CRED_PUB_KEY:
make_auth_tag(desc->credential.id.rpIdHash, desc->credential.id.nonce, desc->credential.id.count, tag);
crypto_sha256_init();
crypto_sha256_update(rp->id, rp->size);
crypto_sha256_final(rpIdHash);
printf1(TAG_RED,"rpId: %s\r\n", rp->id); dump_hex1(TAG_RED,rp->id, rp->size);
if (memcmp(desc->credential.id.rpIdHash, rpIdHash, 32) != 0)
{
return 0;
}
make_auth_tag(rpIdHash, desc->credential.id.nonce, desc->credential.id.count, tag);
return (memcmp(desc->credential.id.tag, tag, CREDENTIAL_TAG_SIZE) == 0);
break;
case PUB_KEY_CRED_CTAP1:
@ -734,7 +755,7 @@ uint8_t ctap_make_credential(CborEncoder * encoder, uint8_t * request, int lengt
}
}
if (MC.up)
if (MC.up == 1 || MC.up == 0)
{
return CTAP2_ERR_INVALID_OPTION;
}
@ -1227,8 +1248,9 @@ uint8_t ctap_get_assertion(CborEncoder * encoder, uint8_t * request, int length)
else
#endif
{
device_disable_up(GA.up == 0);
ret = ctap_make_auth_data(&GA.rp, &map, auth_data_buf, &auth_data_buf_sz, NULL);
device_disable_up(false);
check_retr(ret);
((CTAP_authDataHeader *)auth_data_buf)->flags &= ~(1 << 2);
@ -1286,11 +1308,13 @@ uint8_t ctap_update_pin_if_verified(uint8_t * pinEnc, int len, uint8_t * platfor
uint8_t hmac[32];
int ret;
// Validate incoming data packet len
if (len < 64)
{
return CTAP1_ERR_OTHER;
}
// Validate device's state
if (ctap_is_pin_set()) // Check first, prevent SCA
{
if (ctap_device_locked())
@ -1303,6 +1327,7 @@ uint8_t ctap_update_pin_if_verified(uint8_t * pinEnc, int len, uint8_t * platfor
}
}
// calculate shared_secret
crypto_ecc256_shared_secret(platform_pubkey, KEY_AGREEMENT_PRIV, shared_secret);
crypto_sha256_init();
@ -1325,6 +1350,7 @@ uint8_t ctap_update_pin_if_verified(uint8_t * pinEnc, int len, uint8_t * platfor
return CTAP2_ERR_PIN_AUTH_INVALID;
}
// decrypt new PIN with shared secret
crypto_aes256_init(shared_secret, NULL);
while((len & 0xf) != 0) // round up to nearest AES block size multiple
@ -1334,7 +1360,7 @@ uint8_t ctap_update_pin_if_verified(uint8_t * pinEnc, int len, uint8_t * platfor
crypto_aes256_decrypt(pinEnc, len);
// validate new PIN (length)
ret = trailing_zeros(pinEnc, NEW_PIN_ENC_MIN_SIZE - 1);
ret = NEW_PIN_ENC_MIN_SIZE - ret;
@ -1350,6 +1376,8 @@ uint8_t ctap_update_pin_if_verified(uint8_t * pinEnc, int len, uint8_t * platfor
dump_hex1(TAG_CP, pinEnc, ret);
}
// validate device's state, decrypt and compare pinHashEnc (user provided current PIN hash) with stored PIN_CODE_HASH
if (ctap_is_pin_set())
{
if (ctap_device_locked())
@ -1362,7 +1390,14 @@ uint8_t ctap_update_pin_if_verified(uint8_t * pinEnc, int len, uint8_t * platfor
}
crypto_aes256_reset_iv(NULL);
crypto_aes256_decrypt(pinHashEnc, 16);
if (memcmp(pinHashEnc, PIN_CODE_HASH, 16) != 0)
uint8_t pinHashEncSalted[32];
crypto_sha256_init();
crypto_sha256_update(pinHashEnc, 16);
crypto_sha256_update(STATE.PIN_SALT, sizeof(STATE.PIN_SALT));
crypto_sha256_final(pinHashEncSalted);
if (memcmp(pinHashEncSalted, STATE.PIN_CODE_HASH, 16) != 0)
{
ctap_reset_key_agreement();
ctap_decrement_pin_attempts();
@ -1378,6 +1413,7 @@ uint8_t ctap_update_pin_if_verified(uint8_t * pinEnc, int len, uint8_t * platfor
}
}
// set new PIN (update and store PIN_CODE_HASH)
ctap_update_pin(pinEnc, ret);
return 0;
@ -1397,12 +1433,16 @@ uint8_t ctap_add_pin_if_verified(uint8_t * pinTokenEnc, uint8_t * platform_pubke
crypto_aes256_decrypt(pinHashEnc, 16);
if (memcmp(pinHashEnc, PIN_CODE_HASH, 16) != 0)
uint8_t pinHashEncSalted[32];
crypto_sha256_init();
crypto_sha256_update(pinHashEnc, 16);
crypto_sha256_update(STATE.PIN_SALT, sizeof(STATE.PIN_SALT));
crypto_sha256_final(pinHashEncSalted);
if (memcmp(pinHashEncSalted, STATE.PIN_CODE_HASH, 16) != 0)
{
printf2(TAG_ERR,"Pin does not match!\n");
printf2(TAG_ERR,"platform-pin-hash: "); dump_hex1(TAG_ERR, pinHashEnc, 16);
printf2(TAG_ERR,"authentic-pin-hash: "); dump_hex1(TAG_ERR, PIN_CODE_HASH, 16);
printf2(TAG_ERR,"authentic-pin-hash: "); dump_hex1(TAG_ERR, STATE.PIN_CODE_HASH, 16);
printf2(TAG_ERR,"shared-secret: "); dump_hex1(TAG_ERR, shared_secret, 32);
printf2(TAG_ERR,"platform-pubkey: "); dump_hex1(TAG_ERR, platform_pubkey, 64);
printf2(TAG_ERR,"device-pubkey: "); dump_hex1(TAG_ERR, KEY_AGREEMENT_PUB, 64);
@ -1710,8 +1750,29 @@ static void ctap_state_init()
STATE.remaining_tries = PIN_LOCKOUT_ATTEMPTS;
STATE.is_pin_set = 0;
STATE.rk_stored = 0;
STATE.data_version = STATE_VERSION;
ctap_reset_rk();
if (ctap_generate_rng(STATE.PIN_SALT, sizeof(STATE.PIN_SALT)) != 1) {
printf2(TAG_ERR, "Error, rng failed\n");
exit(1);
}
printf1(TAG_STOR, "Generated PIN SALT: ");
dump_hex1(TAG_STOR, STATE.PIN_SALT, sizeof STATE.PIN_SALT);
}
/** Overwrite master secret from external source.
* @param keybytes an array of KEY_SPACE_BYTES length.
*
* This function should only be called from a privilege mode.
*/
void ctap_load_external_keys(uint8_t * keybytes){
memmove(STATE.key_space, keybytes, KEY_SPACE_BYTES);
authenticator_write_state(&STATE, 0);
authenticator_write_state(&STATE, 1);
crypto_load_master_secret(STATE.key_space);
}
void ctap_init()
@ -1744,14 +1805,12 @@ void ctap_init()
}
}
do_migration_if_required(&STATE);
crypto_load_master_secret(STATE.key_space);
if (ctap_is_pin_set())
{
printf1(TAG_STOR,"pin code: \"%s\"\n", STATE.pin_code);
crypto_sha256_init();
crypto_sha256_update(STATE.pin_code, STATE.pin_code_length);
crypto_sha256_final(PIN_CODE_HASH);
printf1(TAG_STOR, "attempts_left: %d\n", STATE.remaining_tries);
}
else
@ -1783,34 +1842,38 @@ uint8_t ctap_is_pin_set()
return STATE.is_pin_set == 1;
}
uint8_t ctap_pin_matches(uint8_t * pin, int len)
{
return memcmp(pin, STATE.pin_code, len) == 0;
}
/**
* Set new PIN, by updating PIN hash. Save state.
* Globals: STATE
* @param pin new PIN (raw)
* @param len pin array length
*/
void ctap_update_pin(uint8_t * pin, int len)
{
if (len > NEW_PIN_ENC_MIN_SIZE || len < 4)
if (len >= NEW_PIN_ENC_MIN_SIZE || len < 4)
{
printf2(TAG_ERR, "Update pin fail length\n");
exit(1);
}
memset(STATE.pin_code, 0, NEW_PIN_ENC_MIN_SIZE);
memmove(STATE.pin_code, pin, len);
STATE.pin_code_length = len;
STATE.pin_code[NEW_PIN_ENC_MIN_SIZE - 1] = 0;
crypto_sha256_init();
crypto_sha256_update(STATE.pin_code, len);
crypto_sha256_final(PIN_CODE_HASH);
crypto_sha256_update(pin, len);
uint8_t intermediateHash[32];
crypto_sha256_final(intermediateHash);
crypto_sha256_init();
crypto_sha256_update(intermediateHash, 16);
memset(intermediateHash, 0, sizeof(intermediateHash));
crypto_sha256_update(STATE.PIN_SALT, sizeof(STATE.PIN_SALT));
crypto_sha256_final(STATE.PIN_CODE_HASH);
STATE.is_pin_set = 1;
authenticator_write_state(&STATE, 1);
authenticator_write_state(&STATE, 0);
printf1(TAG_CTAP, "New pin set: %s\n", STATE.pin_code);
printf1(TAG_CTAP, "New pin set: %s [%d]\n", pin, len);
dump_hex1(TAG_ERR, STATE.PIN_CODE_HASH, sizeof(STATE.PIN_CODE_HASH));
}
uint8_t ctap_decrement_pin_attempts()
@ -1827,9 +1890,7 @@ uint8_t ctap_decrement_pin_attempts()
if (ctap_device_locked())
{
memset(PIN_TOKEN,0,sizeof(PIN_TOKEN));
memset(PIN_CODE_HASH,0,sizeof(PIN_CODE_HASH));
printf1(TAG_CP, "Device locked!\n");
lock_device_permanently();
}
}
else
@ -1985,8 +2046,17 @@ void ctap_reset()
}
ctap_reset_state();
memset(PIN_CODE_HASH,0,sizeof(PIN_CODE_HASH));
ctap_reset_key_agreement();
crypto_load_master_secret(STATE.key_space);
}
void lock_device_permanently() {
memset(PIN_TOKEN, 0, sizeof(PIN_TOKEN));
memset(STATE.PIN_CODE_HASH, 0, sizeof(STATE.PIN_CODE_HASH));
printf1(TAG_CP, "Device locked!\n");
authenticator_write_state(&STATE, 0);
authenticator_write_state(&STATE, 1);
}

3
fido2/ctap.h
View File

@ -359,5 +359,8 @@ uint16_t ctap_key_len(uint8_t index);
extern uint8_t PIN_TOKEN[PIN_TOKEN_SIZE];
extern uint8_t KEY_AGREEMENT_PUB[64];
void lock_device_permanently();
void ctap_load_external_keys(uint8_t * keybytes);
#endif

2
fido2/ctap_parse.c
View File

@ -715,6 +715,7 @@ uint8_t ctap_parse_make_credential(CTAP_makeCredential * MC, CborEncoder * encod
CborValue it,map;
memset(MC, 0, sizeof(CTAP_makeCredential));
MC->up = 0xff;
ret = cbor_parser_init(request, length, CborValidateCanonicalFormat, &parser, &it);
check_retr(ret);
@ -1010,6 +1011,7 @@ uint8_t ctap_parse_get_assertion(CTAP_getAssertion * GA, uint8_t * request, int
memset(GA, 0, sizeof(CTAP_getAssertion));
GA->creds = getAssertionState.creds; // Save stack memory
GA->up = 0xff;
ret = cbor_parser_init(request, length, CborValidateCanonicalFormat, &parser, &it);
check_ret(ret);

341
fido2/ctaphid.c
View File

@ -16,6 +16,7 @@
#include "util.h"
#include "log.h"
#include "extensions.h"
#include "version.h"
// move custom SHA512 command out,
// and the following headers too
@ -538,11 +539,14 @@ extern void _check_ret(CborError ret, int line, const char * filename);
#define check_hardcore(r) _check_ret(r,__LINE__, __FILE__);\
if ((r) != CborNoError) exit(1);
uint8_t ctaphid_custom_command(int len, CTAP_RESPONSE * ctap_resp, CTAPHID_WRITE_BUFFER * wb);
uint8_t ctaphid_handle_packet(uint8_t * pkt_raw)
{
uint8_t cmd;
uint8_t cmd = 0;
uint32_t cid;
int len;
int len = 0;
#ifndef DISABLE_CTAPHID_CBOR
int status;
#endif
@ -552,6 +556,10 @@ uint8_t ctaphid_handle_packet(uint8_t * pkt_raw)
CTAP_RESPONSE ctap_resp;
int bufstatus = ctaphid_buffer_packet(pkt_raw, &cmd, &cid, &len);
ctaphid_write_buffer_init(&wb);
wb.cid = cid;
wb.cmd = cmd;
if (bufstatus == HID_IGNORE)
{
@ -587,9 +595,6 @@ uint8_t ctaphid_handle_packet(uint8_t * pkt_raw)
case CTAPHID_PING:
printf1(TAG_HID,"CTAPHID_PING\n");
ctaphid_write_buffer_init(&wb);
wb.cid = cid;
wb.cmd = CTAPHID_PING;
wb.bcnt = len;
timestamp();
ctaphid_write(&wb, ctap_buffer, len);
@ -602,13 +607,9 @@ uint8_t ctaphid_handle_packet(uint8_t * pkt_raw)
case CTAPHID_WINK:
printf1(TAG_HID,"CTAPHID_WINK\n");
ctaphid_write_buffer_init(&wb);
device_wink();
wb.cid = cid;
wb.cmd = CTAPHID_WINK;
ctaphid_write(&wb,NULL,0);
break;
@ -633,9 +634,6 @@ uint8_t ctaphid_handle_packet(uint8_t * pkt_raw)
ctap_response_init(&ctap_resp);
status = ctap_request(ctap_buffer, len, &ctap_resp);
ctaphid_write_buffer_init(&wb);
wb.cid = cid;
wb.cmd = CTAPHID_CBOR;
wb.bcnt = (ctap_resp.length+1);
@ -666,9 +664,6 @@ uint8_t ctaphid_handle_packet(uint8_t * pkt_raw)
ctap_response_init(&ctap_resp);
u2f_request((struct u2f_request_apdu*)ctap_buffer, &ctap_resp);
ctaphid_write_buffer_init(&wb);
wb.cid = cid;
wb.cmd = CTAPHID_MSG;
wb.bcnt = (ctap_resp.length);
ctaphid_write(&wb, ctap_resp.data, ctap_resp.length);
@ -679,209 +674,14 @@ uint8_t ctaphid_handle_packet(uint8_t * pkt_raw)
printf1(TAG_HID,"CTAPHID_CANCEL\n");
is_busy = 0;
break;
#if defined(IS_BOOTLOADER)
case CTAPHID_BOOT:
printf1(TAG_HID,"CTAPHID_BOOT\n");
ctap_response_init(&ctap_resp);
u2f_set_writeback_buffer(&ctap_resp);
is_busy = bootloader_bridge(len, ctap_buffer);
ctaphid_write_buffer_init(&wb);
wb.cid = cid;
wb.cmd = CTAPHID_BOOT;
wb.bcnt = (ctap_resp.length + 1);
ctaphid_write(&wb, &is_busy, 1);
ctaphid_write(&wb, ctap_resp.data, ctap_resp.length);
ctaphid_write(&wb, NULL, 0);
is_busy = 0;
break;
#endif
#if defined(SOLO_HACKER)
case CTAPHID_ENTERBOOT:
printf1(TAG_HID,"CTAPHID_ENTERBOOT\n");
boot_solo_bootloader();
ctaphid_write_buffer_init(&wb);
wb.cid = cid;
wb.cmd = CTAPHID_ENTERBOOT;
wb.bcnt = 0;
ctaphid_write(&wb, NULL, 0);
is_busy = 0;
break;
case CTAPHID_ENTERSTBOOT:
printf1(TAG_HID,"CTAPHID_ENTERBOOT\n");
boot_st_bootloader();
break;
#endif
#if !defined(IS_BOOTLOADER)
case CTAPHID_GETRNG:
printf1(TAG_HID,"CTAPHID_GETRNG\n");
ctap_response_init(&ctap_resp);
ctaphid_write_buffer_init(&wb);
wb.cid = cid;
wb.cmd = CTAPHID_GETRNG;
wb.bcnt = ctap_buffer[0];
if (!wb.bcnt)
wb.bcnt = 57;
memset(ctap_buffer,0,wb.bcnt);
ctap_generate_rng(ctap_buffer, wb.bcnt);
ctaphid_write(&wb, &ctap_buffer, wb.bcnt);
ctaphid_write(&wb, NULL, 0);
is_busy = 0;
break;
#endif
#if defined(SOLO_HACKER) && (DEBUG_LEVEL > 0) && (!IS_BOOTLOADER == 1)
case CTAPHID_PROBE:
/*
* Expects CBOR-serialized data of the form
* {"subcommand": "hash_type", "data": b"the_data"}
* with hash_type in SHA256, SHA512
*/
// some random logging
printf1(TAG_HID,"CTAPHID_PROBE\n");
// initialise CTAP response object
ctap_response_init(&ctap_resp);
// initialise write buffer
ctaphid_write_buffer_init(&wb);
wb.cid = cid;
wb.cmd = CTAPHID_PROBE;
// prepare parsing (or halt)
int ret;
CborParser parser;
CborValue it, map;
ret = cbor_parser_init(
ctap_buffer, (size_t) buffer_len(),
// strictly speaking, CTAP is not RFC canonical...
CborValidateCanonicalFormat,
&parser, &it);
check_hardcore(ret);
CborType type = cbor_value_get_type(&it);
if (type != CborMapType) exit(1);
ret = cbor_value_enter_container(&it,&map);
check_hardcore(ret);
size_t map_length = 0;
ret = cbor_value_get_map_length(&it, &map_length);
if (map_length != 2) exit(1);
// parse subcommand (or halt)
CborValue val;
ret = cbor_value_map_find_value(&it, "subcommand", &val);
check_hardcore(ret);
if (!cbor_value_is_text_string(&val))
exit(1);
int sha_version = 0;
bool found = false;
if (!found) {
ret = cbor_value_text_string_equals(
&val, "SHA256", &found);
check_hardcore(ret);
if (found)
sha_version = 256;
}
if (!found) {
ret = cbor_value_text_string_equals(
&val, "SHA512", &found);
check_hardcore(ret);
if (found)
sha_version = 512;
}
if (sha_version == 0)
exit(1);
// parse data (or halt)
ret = cbor_value_map_find_value(&it, "data", &val);
check_hardcore(ret);
if (!cbor_value_is_byte_string(&val))
exit(1);
size_t data_length = 0;
ret = cbor_value_calculate_string_length(&val, &data_length);
check_hardcore(ret);
if (data_length > 6*1024)
exit(1);
unsigned char data[6*1024];
ret = cbor_value_copy_byte_string (
&val, &data[0], &data_length, &val);
check_hardcore(ret);
// execute subcommand
if (sha_version == 256) {
// calculate hash
crypto_sha256_init();
crypto_sha256_update(data, data_length);
crypto_sha256_final(ctap_buffer);
// write output
wb.bcnt = CF_SHA256_HASHSZ; // 32 bytes
ctaphid_write(&wb, &ctap_buffer, CF_SHA256_HASHSZ);
}
if (sha_version == 512) {
// calculate hash
crypto_sha512_init();
crypto_sha512_update(data, data_length);
crypto_sha512_final(ctap_buffer);
// write output
wb.bcnt = CF_SHA512_HASHSZ; // 64 bytes
ctaphid_write(&wb, &ctap_buffer, CF_SHA512_HASHSZ);
}
// finalize
ctaphid_write(&wb, NULL, 0);
is_busy = 0;
break;
/*
case CTAPHID_SHA256:
// some random logging
printf1(TAG_HID,"CTAPHID_SHA256\n");
// initialise CTAP response object
ctap_response_init(&ctap_resp);
// initialise write buffer
ctaphid_write_buffer_init(&wb);
wb.cid = cid;
wb.cmd = CTAPHID_SHA256;
wb.bcnt = CF_SHA256_HASHSZ; // 32 bytes
// calculate hash
crypto_sha256_init();
crypto_sha256_update(ctap_buffer, buffer_len());
crypto_sha256_final(ctap_buffer);
// copy to output
ctaphid_write(&wb, &ctap_buffer, CF_SHA256_HASHSZ);
ctaphid_write(&wb, NULL, 0);
is_busy = 0;
break;
case CTAPHID_SHA512:
// some random logging
printf1(TAG_HID,"CTAPHID_SHA512\n");
// initialise CTAP response object
ctap_response_init(&ctap_resp);
// initialise write buffer
ctaphid_write_buffer_init(&wb);
wb.cid = cid;
wb.cmd = CTAPHID_SHA512;
wb.bcnt = CF_SHA512_HASHSZ; // 64 bytes
// calculate hash
crypto_sha512_init();
crypto_sha512_update(ctap_buffer, buffer_len());
crypto_sha512_final(ctap_buffer);
// copy to output
ctaphid_write(&wb, &ctap_buffer, CF_SHA512_HASHSZ);
ctaphid_write(&wb, NULL, 0);
is_busy = 0;
break;
*/
#endif
default:
printf2(TAG_ERR,"error, unimplemented HID cmd: %02x\r\n", buffer_cmd());
ctaphid_send_error(cid, CTAP1_ERR_INVALID_COMMAND);
break;
if (ctaphid_custom_command(len, &ctap_resp, &wb) != 0){
is_busy = 0;
}else{
printf2(TAG_ERR, "error, unimplemented HID cmd: %02x\r\n", buffer_cmd());
ctaphid_send_error(cid, CTAP1_ERR_INVALID_COMMAND);
}
}
cid_del(cid);
buffer_reset();
@ -891,3 +691,112 @@ uint8_t ctaphid_handle_packet(uint8_t * pkt_raw)
else return 0;
}
uint8_t ctaphid_custom_command(int len, CTAP_RESPONSE * ctap_resp, CTAPHID_WRITE_BUFFER * wb)
{
ctap_response_init(ctap_resp);
#if !defined(IS_BOOTLOADER) && (defined(SOLO_HACKER) || defined(SOLO_EXPERIMENTAL))
uint32_t param;
#endif
#if defined(IS_BOOTLOADER)
uint8_t is_busy;
#endif
switch(wb->cmd)
{
#if defined(IS_BOOTLOADER)
case CTAPHID_BOOT:
printf1(TAG_HID,"CTAPHID_BOOT\n");
u2f_set_writeback_buffer(ctap_resp);
is_busy = bootloader_bridge(len, ctap_buffer);
ctaphid_write(wb, &is_busy, 1);
ctaphid_write(wb, ctap_resp->data, ctap_resp->length);
ctaphid_write(wb, NULL, 0);
return 1;
#endif
#if defined(SOLO_HACKER)
case CTAPHID_ENTERBOOT:
printf1(TAG_HID,"CTAPHID_ENTERBOOT\n");
boot_solo_bootloader();
wb->bcnt = 0;
ctaphid_write(wb, NULL, 0);
return 1;
case CTAPHID_ENTERSTBOOT:
printf1(TAG_HID,"CTAPHID_ENTERBOOT\n");
boot_st_bootloader();
return 1;
#endif
#if !defined(IS_BOOTLOADER)
case CTAPHID_GETRNG:
printf1(TAG_HID,"CTAPHID_GETRNG\n");
wb->bcnt = ctap_buffer[0];
if (!wb->bcnt)
wb->bcnt = 57;
memset(ctap_buffer,0,wb->bcnt);
ctap_generate_rng(ctap_buffer, wb->bcnt);
ctaphid_write(wb, ctap_buffer, wb->bcnt);
ctaphid_write(wb, NULL, 0);
return 1;
break;
#endif
case CTAPHID_GETVERSION:
printf1(TAG_HID,"CTAPHID_GETVERSION\n");
wb->bcnt = 3;
ctap_buffer[0] = SOLO_VERSION_MAJ;
ctap_buffer[1] = SOLO_VERSION_MIN;
ctap_buffer[2] = SOLO_VERSION_PATCH;
ctaphid_write(wb, ctap_buffer, 3);
ctaphid_write(wb, NULL, 0);
return 1;
break;
#if !defined(IS_BOOTLOADER) && (defined(SOLO_HACKER) || defined(SOLO_EXPERIMENTAL))
case CTAPHID_LOADKEY:
/**
* Load external key. Useful for enabling backups.
* bytes: 4 96
* payload: | counter_increase (BE) | master_key |
*
* Counter should be increased by a large amount, e.g. (0x10000000)
* to outdo any previously lost/broken keys.
*/
printf1(TAG_HID,"CTAPHID_LOADKEY\n");
if (len != 100)
{
printf2(TAG_ERR,"Error, invalid length.\n");
ctaphid_send_error(wb->cid, CTAP1_ERR_INVALID_LENGTH);
return 1;
}
// Ask for THREE button presses
if (ctap_user_presence_test(8000) > 0)
if (ctap_user_presence_test(8000) > 0)
if (ctap_user_presence_test(8000) > 0)
{
ctap_load_external_keys(ctap_buffer + 4);
param = ctap_buffer[3];
param |= ctap_buffer[2] << 8;
param |= ctap_buffer[1] << 16;
param |= ctap_buffer[0] << 24;
ctap_atomic_count(param);
wb->bcnt = 0;
ctaphid_write(wb, NULL, 0);
return 1;
}
printf2(TAG_ERR, "Error, invalid length.\n");
ctaphid_send_error(wb->cid, CTAP2_ERR_OPERATION_DENIED);
return 1;
#endif
}
return 0;
}

2
fido2/ctaphid.h
View File

@ -28,6 +28,8 @@
#define CTAPHID_ENTERBOOT (TYPE_INIT | 0x51)
#define CTAPHID_ENTERSTBOOT (TYPE_INIT | 0x52)
#define CTAPHID_GETRNG (TYPE_INIT | 0x60)
#define CTAPHID_GETVERSION (TYPE_INIT | 0x61)
#define CTAPHID_LOADKEY (TYPE_INIT | 0x62)
// reserved for debug, not implemented except for HACKER and DEBUG_LEVEl > 0
#define CTAPHID_PROBE (TYPE_INIT | 0x70)

91
fido2/data_migration.c Normal file
View File

@ -0,0 +1,91 @@
// Copyright 2019 SoloKeys Developers
//
// Licensed under the Apache License, Version 2.0, <LICENSE-APACHE or
// http://apache.org/licenses/LICENSE-2.0> or the MIT license <LICENSE-MIT or
// http://opensource.org/licenses/MIT>, at your option. This file may not be
// copied, modified, or distributed except according to those terms.
#include "data_migration.h"
#include "log.h"
#include "device.h"
#include "crypto.h"
// TODO move from macro to function/assert for better readability?
#define check(x) assert(state_prev_0xff->x == state_tmp_ptr->x);
#define check_buf(x) assert(memcmp(state_prev_0xff->x, state_tmp_ptr->x, sizeof(state_tmp_ptr->x)) == 0);
bool migrate_from_FF_to_01(AuthenticatorState_0xFF* state_prev_0xff, AuthenticatorState_0x01* state_tmp_ptr){
// Calculate PIN hash, and replace PIN raw storage with it; add version to structure
// other ingredients do not change
if (state_tmp_ptr->data_version != 0xFF)
return false;
static_assert(sizeof(AuthenticatorState_0xFF) <= sizeof(AuthenticatorState_0x01), "New state structure is smaller, than current one, which is not handled");
if (ctap_generate_rng(state_tmp_ptr->PIN_SALT, sizeof(state_tmp_ptr->PIN_SALT)) != 1) {
printf2(TAG_ERR, "Error, rng failed\n");
return false;
}
if (state_prev_0xff->is_pin_set){
crypto_sha256_init();
crypto_sha256_update(state_prev_0xff->pin_code, state_prev_0xff->pin_code_length);
uint8_t intermediateHash[32];
crypto_sha256_final(intermediateHash);
crypto_sha256_init();
crypto_sha256_update(intermediateHash, 16);
memset(intermediateHash, 0, sizeof(intermediateHash));
crypto_sha256_update(state_tmp_ptr->PIN_SALT, sizeof(state_tmp_ptr->PIN_SALT));
crypto_sha256_final(state_tmp_ptr->PIN_CODE_HASH);
}
assert(state_tmp_ptr->_reserved == state_prev_0xff->pin_code_length);
state_tmp_ptr->_reserved = 0xFF;
state_tmp_ptr->data_version = 1;
check(is_initialized);
check(is_pin_set);
check(remaining_tries);
check(rk_stored);
check_buf(key_lens);
check_buf(key_space);
assert(state_tmp_ptr->data_version != 0xFF);
return true;
}
void save_migrated_state(AuthenticatorState *state_tmp_ptr) {
memmove(&STATE, state_tmp_ptr, sizeof(AuthenticatorState));
authenticator_write_state(state_tmp_ptr, 0);
authenticator_write_state(state_tmp_ptr, 1);
}
void do_migration_if_required(AuthenticatorState* state_current){
// Currently handles only state structures with the same size, or bigger
// FIXME rework to raw buffers with fixed size to allow state structure size decrease
if(!state_current->is_initialized)
return;
AuthenticatorState state_tmp;
AuthenticatorState state_previous;
authenticator_read_state(&state_previous);
authenticator_read_state(&state_tmp);
if(state_current->data_version == 0xFF){
printf2(TAG_ERR, "Running migration\n");
bool success = migrate_from_FF_to_01((AuthenticatorState_0xFF *) &state_previous, &state_tmp);
if (!success){
printf2(TAG_ERR, "Failed migration from 0xFF to 1\n");
// FIXME discuss migration failure behavior
goto return_cleanup;
}
dump_hex1(TAG_ERR, (void*)&state_tmp, sizeof(state_tmp));
dump_hex1(TAG_ERR, (void*)&state_previous, sizeof(state_previous));
save_migrated_state(&state_tmp);
}
assert(state_current->data_version == STATE_VERSION);
return_cleanup:
memset(&state_tmp, 0, sizeof(AuthenticatorState));
memset(&state_previous, 0, sizeof(AuthenticatorState));
}

15
fido2/data_migration.h Normal file
View File

@ -0,0 +1,15 @@
// Copyright 2019 SoloKeys Developers
//
// Licensed under the Apache License, Version 2.0, <LICENSE-APACHE or
// http://apache.org/licenses/LICENSE-2.0> or the MIT license <LICENSE-MIT or
// http://opensource.org/licenses/MIT>, at your option. This file may not be
// copied, modified, or distributed except according to those terms.
#ifndef FIDO2_PR_DATA_MIGRATION_H
#define FIDO2_PR_DATA_MIGRATION_H
#include "storage.h"
void do_migration_if_required(AuthenticatorState* state_current);
#endif //FIDO2_PR_DATA_MIGRATION_H

8
fido2/device.h
View File

@ -53,7 +53,7 @@ void device_set_status(uint32_t status);
int device_is_button_pressed();
// Test for user presence
// Return 1 for user is present, 0 user not present, -1 if cancel is requested.
// Return 2 for disabled, 1 for user is present, 0 user not present, -1 if cancel is requested.
int ctap_user_presence_test(uint32_t delay);
// Generate @num bytes of random numbers to @dest
@ -61,8 +61,8 @@ int ctap_user_presence_test(uint32_t delay);
int ctap_generate_rng(uint8_t * dst, size_t num);
// Increment atomic counter and return it.
// Must support two counters, @sel selects counter0 or counter1.
uint32_t ctap_atomic_count(int sel);
// @param amount the amount to increase the counter by.
uint32_t ctap_atomic_count(uint32_t amount);
// Verify the user
// return 1 if user is verified, 0 if not
@ -106,7 +106,7 @@ void device_set_clock_rate(DEVICE_CLOCK_RATE param);
#define NFC_IS_AVAILABLE 2
int device_is_nfc();
void request_from_nfc(bool request_active);
void device_disable_up(bool request_active);
void device_init_button();

2
fido2/extensions/wallet.c
View File

@ -95,7 +95,7 @@ int8_t wallet_pin(uint8_t subcmd, uint8_t * pinAuth, uint8_t * arg1, uint8_t * a
if (ret != 0)
return ret;
printf1(TAG_WALLET,"Success. Pin = %s\n", STATE.pin_code);
// printf1(TAG_WALLET,"Success. Pin = %s\n", STATE.pin_code);
break;
case CP_cmdChangePin:

1
fido2/log.c
View File

@ -50,6 +50,7 @@ struct logtag tagtable[] = {
{TAG_EXT,"EXT"},
{TAG_NFC,"NFC"},
{TAG_NFC_APDU, "NAPDU"},
{TAG_CCID, "CCID"},
};

1
fido2/log.h
View File

@ -44,6 +44,7 @@ typedef enum
TAG_EXT = (1 << 18),
TAG_NFC = (1 << 19),
TAG_NFC_APDU = (1 << 20),
TAG_CCID = (1 << 21),
TAG_NO_TAG = (1UL << 30),
TAG_FILENO = (1UL << 31)

1
fido2/main.c
View File

@ -46,6 +46,7 @@ int main(int argc, char *argv[])
TAG_GREEN|
TAG_RED|
TAG_EXT|
TAG_CCID|
TAG_ERR
);

29
fido2/storage.h
View File

@ -11,6 +11,9 @@
#define KEY_SPACE_BYTES 128
#define MAX_KEYS (1)
#define PIN_SALT_LEN (32)
#define STATE_VERSION (1)
#define BACKUP_MARKER 0x5A
#define INITIALIZED_MARKER 0xA5
@ -19,20 +22,40 @@
#define ERR_KEY_SPACE_TAKEN (-2)
#define ERR_KEY_SPACE_EMPTY (-2)
typedef struct
{
// Pin information
uint8_t is_initialized;
uint8_t is_pin_set;
uint8_t pin_code[NEW_PIN_ENC_MIN_SIZE];
int pin_code_length;
int8_t remaining_tries;
uint16_t rk_stored;
uint16_t key_lens[MAX_KEYS];
uint8_t key_space[KEY_SPACE_BYTES];
} AuthenticatorState_0xFF;
typedef struct
{
// Pin information
uint8_t is_initialized;
uint8_t is_pin_set;
uint8_t pin_code[NEW_PIN_ENC_MIN_SIZE];
int pin_code_length;
uint8_t PIN_CODE_HASH[32];
uint8_t PIN_SALT[PIN_SALT_LEN];
int _reserved;
int8_t remaining_tries;
uint16_t rk_stored;
uint16_t key_lens[MAX_KEYS];
uint8_t key_space[KEY_SPACE_BYTES];
} AuthenticatorState;
uint8_t data_version;
} AuthenticatorState_0x01;
typedef AuthenticatorState_0x01 AuthenticatorState;
typedef struct

4
fido2/u2f.c
View File

@ -118,9 +118,9 @@ void u2f_request_nfc(uint8_t * header, uint8_t * data, int datalen, CTAP_RESPONS
if (!header)
return;
request_from_nfc(true); // disable presence test
device_disable_up(true); // disable presence test
u2f_request_ex((APDU_HEADER *)header, data, datalen, resp);
request_from_nfc(false); // enable presence test
device_disable_up(false); // enable presence test
}
void u2f_request(struct u2f_request_apdu* req, CTAP_RESPONSE * resp)

25
pc/device.c
View File

@ -26,6 +26,7 @@
#define RK_NUM 50
bool use_udp = true;
static bool _up_disabled = false;
struct ResidentKeyStore {
CTAP_residentKey rks[RK_NUM];
@ -299,6 +300,10 @@ void ctaphid_write_block(uint8_t * data)
int ctap_user_presence_test(uint32_t d)
{
if (_up_disabled)
{
return 2;
}
return 1;
}
@ -308,20 +313,11 @@ int ctap_user_verification(uint8_t arg)
}
uint32_t ctap_atomic_count(int sel)
uint32_t ctap_atomic_count(uint32_t amount)
{
static uint32_t counter1 = 25;
/*return 713;*/
if (sel == 0)
{
printf1(TAG_RED,"counter1: %d\n", counter1);
return counter1++;
}
else
{
printf2(TAG_ERR,"counter2 not imple\n");
exit(1);
}
counter1 += amount;
return counter1;
}
int ctap_generate_rng(uint8_t * dst, size_t num)
@ -633,6 +629,11 @@ int device_is_nfc()
return 0;
}
void device_disable_up(bool disable)
{
_up_disabled = disable;
}
void device_set_clock_rate(DEVICE_CLOCK_RATE param)
{

1
targets/stm32l432/build/application.mk
View File

@ -10,6 +10,7 @@ SRC += $(DRIVER_LIBS) $(USB_LIB)
SRC += ../../fido2/apdu.c ../../fido2/util.c ../../fido2/u2f.c ../../fido2/test_power.c
SRC += ../../fido2/stubs.c ../../fido2/log.c ../../fido2/ctaphid.c ../../fido2/ctap.c
SRC += ../../fido2/ctap_parse.c ../../fido2/main.c
SRC += ../../fido2/data_migration.c
SRC += ../../fido2/extensions/extensions.c ../../fido2/extensions/solo.c
SRC += ../../fido2/extensions/wallet.c

3
targets/stm32l432/build/common.mk
View File

@ -10,7 +10,8 @@ DRIVER_LIBS := lib/stm32l4xx_hal_pcd.c lib/stm32l4xx_hal_pcd_ex.c lib/stm32l4xx_
USB_LIB := lib/usbd/usbd_cdc.c lib/usbd/usbd_cdc_if.c lib/usbd/usbd_composite.c \
lib/usbd/usbd_conf.c lib/usbd/usbd_core.c lib/usbd/usbd_ioreq.c \
lib/usbd/usbd_ctlreq.c lib/usbd/usbd_desc.c lib/usbd/usbd_hid.c
lib/usbd/usbd_ctlreq.c lib/usbd/usbd_desc.c lib/usbd/usbd_hid.c \
lib/usbd/usbd_ccid.c
VERSION:=$(shell git describe --abbrev=0 )
VERSION_FULL:=$(shell git describe)

319
targets/stm32l432/lib/usbd/usbd_ccid.c Normal file
View File

@ -0,0 +1,319 @@
#include <stdint.h>
#include "usbd_ccid.h"
#include "usbd_ctlreq.h"
#include "usbd_conf.h"
#include "usbd_core.h"
#include "log.h"
static uint8_t USBD_CCID_Init (USBD_HandleTypeDef *pdev,
uint8_t cfgidx);
static uint8_t USBD_CCID_DeInit (USBD_HandleTypeDef *pdev,
uint8_t cfgidx);
static uint8_t USBD_CCID_Setup (USBD_HandleTypeDef *pdev,
USBD_SetupReqTypedef *req);
static uint8_t USBD_CCID_DataIn (USBD_HandleTypeDef *pdev,
uint8_t epnum);
static uint8_t USBD_CCID_DataOut (USBD_HandleTypeDef *pdev,
uint8_t epnum);
static uint8_t USBD_CCID_EP0_RxReady (USBD_HandleTypeDef *pdev);
USBD_ClassTypeDef USBD_CCID =
{
USBD_CCID_Init,
USBD_CCID_DeInit,
USBD_CCID_Setup,
NULL, /* EP0_TxSent, */
USBD_CCID_EP0_RxReady,
USBD_CCID_DataIn,
USBD_CCID_DataOut,
NULL,
NULL,
NULL,
NULL,
NULL,
NULL,
NULL,
};
static uint8_t ccidmsg_buf[CCID_DATA_PACKET_SIZE];
static uint8_t USBD_CCID_Init (USBD_HandleTypeDef *pdev, uint8_t cfgidx)
{
uint8_t ret = 0U;
USBD_CCID_HandleTypeDef *hcdc;
//Y
USBD_LL_OpenEP(pdev, CCID_IN_EP, USBD_EP_TYPE_BULK,
CCID_DATA_PACKET_SIZE);
USBD_LL_OpenEP(pdev, CCID_OUT_EP, USBD_EP_TYPE_BULK,
CCID_DATA_PACKET_SIZE);
pdev->ep_in[CCID_IN_EP & 0xFU].is_used = 1U;
pdev->ep_out[CCID_OUT_EP & 0xFU].is_used = 1U;
USBD_LL_OpenEP(pdev, CCID_CMD_EP, USBD_EP_TYPE_INTR, CCID_DATA_PACKET_SIZE);
pdev->ep_in[CCID_CMD_EP & 0xFU].is_used = 1U;
// dump_pma_header("ccid.c");
static USBD_CCID_HandleTypeDef mem;
pdev->pClassData = &mem;
hcdc = (USBD_CCID_HandleTypeDef*) pdev->pClassData;
// init transfer states
hcdc->TxState = 0U;
hcdc->RxState = 0U;
USBD_LL_PrepareReceive(&Solo_USBD_Device, CCID_OUT_EP, ccidmsg_buf,
CCID_DATA_PACKET_SIZE);
return ret;
}
static uint8_t USBD_CCID_DeInit (USBD_HandleTypeDef *pdev, uint8_t cfgidx)
{
uint8_t ret = 0U;
//N
USBD_LL_CloseEP(pdev, CCID_IN_EP);
pdev->ep_in[CCID_IN_EP & 0xFU].is_used = 0U;
USBD_LL_CloseEP(pdev, CCID_OUT_EP);
pdev->ep_out[CCID_OUT_EP & 0xFU].is_used = 0U;
USBD_LL_CloseEP(pdev, CCID_CMD_EP);
pdev->ep_in[CCID_CMD_EP & 0xFU].is_used = 0U;
/* DeInit physical Interface components */
if(pdev->pClassData != NULL)
{
pdev->pClassData = NULL;
}
return ret;
}
/**
* @brief USBD_CDC_Setup
* Handle the CDC specific requests
* @param pdev: instance
* @param req: usb requests
* @retval status
*/
static uint8_t USBD_CCID_Setup (USBD_HandleTypeDef *pdev,
USBD_SetupReqTypedef *req)
{
USBD_CCID_HandleTypeDef *hcdc = (USBD_CCID_HandleTypeDef*) pdev->pClassData;
uint8_t ifalt = 0U;
uint16_t status_info = 0U;
uint8_t ret = USBD_OK;
//N
switch (req->bmRequest & USB_REQ_TYPE_MASK)
{
case USB_REQ_TYPE_CLASS :
if (req->wLength)
{
if (req->bmRequest & 0x80U)
{
USBD_CtlSendData (pdev, (uint8_t *)(void *)hcdc->data, req->wLength);
}
else
{
hcdc->CmdOpCode = req->bRequest;
hcdc->CmdLength = (uint8_t)req->wLength;
USBD_CtlPrepareRx (pdev, (uint8_t *)(void *)hcdc->data, req->wLength);
}
}
else
{
}
break;
case USB_REQ_TYPE_STANDARD:
switch (req->bRequest)
{
case USB_REQ_GET_STATUS:
if (pdev->dev_state == USBD_STATE_CONFIGURED)
{
USBD_CtlSendData (pdev, (uint8_t *)(void *)&status_info, 2U);
}
else
{
USBD_CtlError (pdev, req);
ret = USBD_FAIL;
}
break;
case USB_REQ_GET_INTERFACE:
if (pdev->dev_state == USBD_STATE_CONFIGURED)
{
USBD_CtlSendData (pdev, &ifalt, 1U);
}
else
{
USBD_CtlError (pdev, req);
ret = USBD_FAIL;
}
break;
case USB_REQ_SET_INTERFACE:
if (pdev->dev_state != USBD_STATE_CONFIGURED)
{
USBD_CtlError (pdev, req);
ret = USBD_FAIL;
}
break;
case USB_REQ_GET_DESCRIPTOR:
break;
default:
USBD_CtlError (pdev, req);
ret = USBD_FAIL;
break;
}
break;
default:
USBD_CtlError (pdev, req);
ret = USBD_FAIL;
break;
}
return ret;
}
/**
* @brief USBD_CDC_DataIn
* Data sent on non-control IN endpoint
* @param pdev: device instance
* @param epnum: endpoint number
* @retval status
*/
static uint8_t USBD_CCID_DataOut (USBD_HandleTypeDef *pdev, uint8_t epnum)
{
return USBD_OK;
}
static uint8_t USBD_CCID_DataIn (USBD_HandleTypeDef *pdev, uint8_t epnum)
{
USBD_CCID_HandleTypeDef *hcdc = (USBD_CCID_HandleTypeDef*)pdev->pClassData;
hcdc->TxState = 0U;
return USBD_OK;
}
uint8_t USBD_CCID_TransmitPacket(uint8_t * msg, int len)
{
/* Update the packet total length */
Solo_USBD_Device.ep_in[CCID_IN_EP & 0xFU].total_length = len;
while (PCD_GET_EP_TX_STATUS(USB, CCID_IN_EP & 0x0f) == USB_EP_TX_VALID)
;
/* Transmit next packet */
USBD_LL_Transmit(&Solo_USBD_Device, CCID_IN_EP, msg,
len);
printf1(TAG_CCID,"<< ");
dump_hex1(TAG_CCID, msg, len);
return USBD_OK;
}
void ccid_send_status(CCID_HEADER * c, uint8_t status)
{
uint8_t msg[CCID_HEADER_SIZE];
memset(msg,0,sizeof(msg));
msg[0] = CCID_SLOT_STATUS_RES;
msg[6] = c->seq;
msg[7] = status;
USBD_CCID_TransmitPacket(msg, sizeof(msg));
}
void ccid_send_data_block(CCID_HEADER * c, uint8_t status)
{
uint8_t msg[CCID_HEADER_SIZE];
memset(msg,0,sizeof(msg));
msg[0] = CCID_DATA_BLOCK_RES;
msg[6] = c->seq;
msg[7] = status;
USBD_CCID_TransmitPacket(msg, sizeof(msg));
}
void handle_ccid(uint8_t * msg, int len)
{
CCID_HEADER * h = (CCID_HEADER *) msg;
switch(h->type)
{
case CCID_SLOT_STATUS:
ccid_send_status(h, CCID_STATUS_ON);
break;
case CCID_POWER_ON:
ccid_send_data_block(h, CCID_STATUS_ON);
break;
case CCID_POWER_OFF:
ccid_send_status(h, CCID_STATUS_OFF);
break;
default:
ccid_send_status(h, CCID_STATUS_ON);
break;
}
}
/**
* @brief USBD_CDC_DataOut
* Data received on non-control Out endpoint
* @param pdev: device instance
* @param epnum: endpoint number
* @retval status
*/
uint8_t usb_ccid_recieve_callback(USBD_HandleTypeDef *pdev, uint8_t epnum)
{
USBD_CCID_HandleTypeDef *hcdc = (USBD_CCID_HandleTypeDef*) pdev->pClassData;
/* Get the received data length */
hcdc->RxLength = USBD_LL_GetRxDataSize (pdev, epnum);
printf1(TAG_CCID, ">> ");
dump_hex1(TAG_CCID, ccidmsg_buf, hcdc->RxLength);
handle_ccid(ccidmsg_buf, hcdc->RxLength);
USBD_LL_PrepareReceive(&Solo_USBD_Device, CCID_OUT_EP, ccidmsg_buf,
CCID_DATA_PACKET_SIZE);
return USBD_OK;
}
/**
* @brief USBD_CDC_EP0_RxReady
* Handle EP0 Rx Ready event
* @param pdev: device instance
* @retval status
*/
static uint8_t USBD_CCID_EP0_RxReady (USBD_HandleTypeDef *pdev)
{
return USBD_OK;
}

58
targets/stm32l432/lib/usbd/usbd_ccid.h Normal file
View File

@ -0,0 +1,58 @@
#ifndef _USBD_H_
#define _USBD_H_
#include "usbd_ioreq.h"
#define CCID_HEADER_SIZE 10
typedef struct
{
uint8_t type;
uint32_t len;
uint8_t slot;
uint8_t seq;
uint8_t rsvd;
uint16_t param;
} __attribute__((packed)) CCID_HEADER;
#define CCID_IN_EP 0x86U /* EP1 for data IN */
#define CCID_OUT_EP 0x04U /* EP1 for data OUT */
#define CCID_CMD_EP 0x85U /* EP2 for CDC commands */
#define CCID_DATA_PACKET_SIZE 64
#define CCID_SET_PARAMS 0x61
#define CCID_POWER_ON 0x62
#define CCID_POWER_OFF 0x63
#define CCID_SLOT_STATUS 0x65
#define CCID_SECURE 0x69
#define CCID_GET_PARAMS 0x6C
#define CCID_RESET_PARAMS 0x6D
#define CCID_XFR_BLOCK 0x6F
#define CCID_STATUS_ON 0x00
#define CCID_STATUS_OFF 0x02
#define CCID_DATA_BLOCK_RES 0x80
#define CCID_SLOT_STATUS_RES 0x81
#define CCID_PARAMS_RES 0x82
extern USBD_ClassTypeDef USBD_CCID;
typedef struct
{
uint32_t data[CCID_DATA_PACKET_SIZE / 4U];
uint8_t CmdOpCode;
uint8_t CmdLength;
uint8_t *RxBuffer;
uint8_t *TxBuffer;
uint32_t RxLength;
uint32_t TxLength;
__IO uint32_t TxState;
__IO uint32_t RxState;
}
USBD_CCID_HandleTypeDef;
uint8_t usb_ccid_recieve_callback(USBD_HandleTypeDef *pdev, uint8_t epnum);
#endif

345
targets/stm32l432/lib/usbd/usbd_cdc.c
View File

@ -195,302 +195,9 @@ USBD_ClassTypeDef USBD_CDC =
NULL,
NULL,
NULL,
// USBD_CDC_GetHSCfgDesc,
// USBD_CDC_GetFSCfgDesc,
// USBD_CDC_GetOtherSpeedCfgDesc,
// USBD_CDC_GetDeviceQualifierDescriptor,
};
/* USB CDC device Configuration Descriptor */
__ALIGN_BEGIN uint8_t USBD_CDC_CfgHSDesc[USB_CDC_CONFIG_DESC_SIZ] __ALIGN_END =
{
/*Configuration Descriptor*/
0x09, /* bLength: Configuration Descriptor size */
USB_DESC_TYPE_CONFIGURATION, /* bDescriptorType: Configuration */
USB_CDC_CONFIG_DESC_SIZ, /* wTotalLength:no of returned bytes */
0x00,
0x02, /* bNumInterfaces: 2 interface */
0x01, /* bConfigurationValue: Configuration value */
0x00, /* iConfiguration: Index of string descriptor describing the configuration */
0xC0, /* bmAttributes: self powered */
0x32, /* MaxPower 0 mA */
/*---------------------------------------------------------------------------*/
/*Interface Descriptor */
0x09, /* bLength: Interface Descriptor size */
USB_DESC_TYPE_INTERFACE, /* bDescriptorType: Interface */
/* Interface descriptor type */
0x00, /* bInterfaceNumber: Number of Interface */
0x00, /* bAlternateSetting: Alternate setting */
0x01, /* bNumEndpoints: One endpoints used */
0x02, /* bInterfaceClass: Communication Interface Class */
0x02, /* bInterfaceSubClass: Abstract Control Model */
0x01, /* bInterfaceProtocol: Common AT commands */
0x00, /* iInterface: */
/*Header Functional Descriptor*/
0x05, /* bLength: Endpoint Descriptor size */
0x24, /* bDescriptorType: CS_INTERFACE */
0x00, /* bDescriptorSubtype: Header Func Desc */
0x10, /* bcdCDC: spec release number */
0x01,
/*Call Management Functional Descriptor*/
0x05, /* bFunctionLength */
0x24, /* bDescriptorType: CS_INTERFACE */
0x01, /* bDescriptorSubtype: Call Management Func Desc */
0x00, /* bmCapabilities: D0+D1 */
0x01, /* bDataInterface: 1 */
/*ACM Functional Descriptor*/
0x04, /* bFunctionLength */
0x24, /* bDescriptorType: CS_INTERFACE */
0x02, /* bDescriptorSubtype: Abstract Control Management desc */
0x02, /* bmCapabilities */
/*Union Functional Descriptor*/
0x05, /* bFunctionLength */
0x24, /* bDescriptorType: CS_INTERFACE */
0x06, /* bDescriptorSubtype: Union func desc */
0x00, /* bMasterInterface: Communication class interface */
0x01, /* bSlaveInterface0: Data Class Interface */
/*Endpoint 2 Descriptor*/
0x07, /* bLength: Endpoint Descriptor size */
USB_DESC_TYPE_ENDPOINT, /* bDescriptorType: Endpoint */
CDC_CMD_EP, /* bEndpointAddress */
0x03, /* bmAttributes: Interrupt */
LOBYTE(CDC_CMD_PACKET_SIZE), /* wMaxPacketSize: */
HIBYTE(CDC_CMD_PACKET_SIZE),
CDC_HS_BINTERVAL, /* bInterval: */
/*---------------------------------------------------------------------------*/
/*Data class interface descriptor*/
0x09, /* bLength: Endpoint Descriptor size */
USB_DESC_TYPE_INTERFACE, /* bDescriptorType: */
0x01, /* bInterfaceNumber: Number of Interface */
0x00, /* bAlternateSetting: Alternate setting */
0x02, /* bNumEndpoints: Two endpoints used */
0x0A, /* bInterfaceClass: CDC */
0x00, /* bInterfaceSubClass: */
0x00, /* bInterfaceProtocol: */
0x00, /* iInterface: */
/*Endpoint OUT Descriptor*/
0x07, /* bLength: Endpoint Descriptor size */
USB_DESC_TYPE_ENDPOINT, /* bDescriptorType: Endpoint */
CDC_OUT_EP, /* bEndpointAddress */
0x02, /* bmAttributes: Bulk */
LOBYTE(CDC_DATA_HS_MAX_PACKET_SIZE), /* wMaxPacketSize: */
HIBYTE(CDC_DATA_HS_MAX_PACKET_SIZE),
0x00, /* bInterval: ignore for Bulk transfer */
/*Endpoint IN Descriptor*/
0x07, /* bLength: Endpoint Descriptor size */
USB_DESC_TYPE_ENDPOINT, /* bDescriptorType: Endpoint */
CDC_IN_EP, /* bEndpointAddress */
0x02, /* bmAttributes: Bulk */
LOBYTE(CDC_DATA_HS_MAX_PACKET_SIZE), /* wMaxPacketSize: */
HIBYTE(CDC_DATA_HS_MAX_PACKET_SIZE),
0x00 /* bInterval: ignore for Bulk transfer */
} ;
/* USB CDC device Configuration Descriptor */
__ALIGN_BEGIN uint8_t USBD_CDC_CfgFSDesc[USB_CDC_CONFIG_DESC_SIZ] __ALIGN_END =
{
/*Configuration Descriptor*/
0x09, /* bLength: Configuration Descriptor size */
USB_DESC_TYPE_CONFIGURATION, /* bDescriptorType: Configuration */
USB_CDC_CONFIG_DESC_SIZ, /* wTotalLength:no of returned bytes */
0x00,
0x02, /* bNumInterfaces: 2 interface */
0x01, /* bConfigurationValue: Configuration value */
0x00, /* iConfiguration: Index of string descriptor describing the configuration */
0xC0, /* bmAttributes: self powered */
0x32, /* MaxPower 0 mA */
/*---------------------------------------------------------------------------*/
/*Interface Descriptor */
0x09, /* bLength: Interface Descriptor size */
USB_DESC_TYPE_INTERFACE, /* bDescriptorType: Interface */
/* Interface descriptor type */
0x00, /* bInterfaceNumber: Number of Interface */
0x00, /* bAlternateSetting: Alternate setting */
0x01, /* bNumEndpoints: One endpoints used */
0x02, /* bInterfaceClass: Communication Interface Class */
0x02, /* bInterfaceSubClass: Abstract Control Model */
0x01, /* bInterfaceProtocol: Common AT commands */
0x00, /* iInterface: */
/*Header Functional Descriptor*/
0x05, /* bLength: Endpoint Descriptor size */
0x24, /* bDescriptorType: CS_INTERFACE */
0x00, /* bDescriptorSubtype: Header Func Desc */
0x10, /* bcdCDC: spec release number */
0x01,
/*Call Management Functional Descriptor*/
0x05, /* bFunctionLength */
0x24, /* bDescriptorType: CS_INTERFACE */
0x01, /* bDescriptorSubtype: Call Management Func Desc */
0x00, /* bmCapabilities: D0+D1 */
0x01, /* bDataInterface: 1 */
/*ACM Functional Descriptor*/
0x04, /* bFunctionLength */
0x24, /* bDescriptorType: CS_INTERFACE */
0x02, /* bDescriptorSubtype: Abstract Control Management desc */
0x02, /* bmCapabilities */
/*Union Functional Descriptor*/
0x05, /* bFunctionLength */
0x24, /* bDescriptorType: CS_INTERFACE */
0x06, /* bDescriptorSubtype: Union func desc */
0x00, /* bMasterInterface: Communication class interface */
0x01, /* bSlaveInterface0: Data Class Interface */
/*Endpoint 2 Descriptor*/
0x07, /* bLength: Endpoint Descriptor size */
USB_DESC_TYPE_ENDPOINT, /* bDescriptorType: Endpoint */
CDC_CMD_EP, /* bEndpointAddress */
0x03, /* bmAttributes: Interrupt */
LOBYTE(CDC_CMD_PACKET_SIZE), /* wMaxPacketSize: */
HIBYTE(CDC_CMD_PACKET_SIZE),
CDC_FS_BINTERVAL, /* bInterval: */
/*---------------------------------------------------------------------------*/
/*Data class interface descriptor*/
0x09, /* bLength: Endpoint Descriptor size */
USB_DESC_TYPE_INTERFACE, /* bDescriptorType: */
0x01, /* bInterfaceNumber: Number of Interface */
0x00, /* bAlternateSetting: Alternate setting */
0x02, /* bNumEndpoints: Two endpoints used */
0x0A, /* bInterfaceClass: CDC */
0x00, /* bInterfaceSubClass: */
0x00, /* bInterfaceProtocol: */
0x00, /* iInterface: */
/*Endpoint OUT Descriptor*/
0x07, /* bLength: Endpoint Descriptor size */
USB_DESC_TYPE_ENDPOINT, /* bDescriptorType: Endpoint */
CDC_OUT_EP, /* bEndpointAddress */
0x02, /* bmAttributes: Bulk */
LOBYTE(CDC_DATA_FS_MAX_PACKET_SIZE), /* wMaxPacketSize: */
HIBYTE(CDC_DATA_FS_MAX_PACKET_SIZE),
0x00, /* bInterval: ignore for Bulk transfer */
/*Endpoint IN Descriptor*/
0x07, /* bLength: Endpoint Descriptor size */
USB_DESC_TYPE_ENDPOINT, /* bDescriptorType: Endpoint */
CDC_IN_EP, /* bEndpointAddress */
0x02, /* bmAttributes: Bulk */
LOBYTE(CDC_DATA_FS_MAX_PACKET_SIZE), /* wMaxPacketSize: */
HIBYTE(CDC_DATA_FS_MAX_PACKET_SIZE),
0x00 /* bInterval: ignore for Bulk transfer */
} ;
__ALIGN_BEGIN uint8_t USBD_CDC_OtherSpeedCfgDesc[USB_CDC_CONFIG_DESC_SIZ] __ALIGN_END =
{
0x09, /* bLength: Configuation Descriptor size */
USB_DESC_TYPE_OTHER_SPEED_CONFIGURATION,
USB_CDC_CONFIG_DESC_SIZ,
0x00,
0x02, /* bNumInterfaces: 2 interfaces */
0x01, /* bConfigurationValue: */
0x04, /* iConfiguration: */
0xC0, /* bmAttributes: */
0x32, /* MaxPower 100 mA */
/*Interface Descriptor */
0x09, /* bLength: Interface Descriptor size */
USB_DESC_TYPE_INTERFACE, /* bDescriptorType: Interface */
/* Interface descriptor type */
0x00, /* bInterfaceNumber: Number of Interface */
0x00, /* bAlternateSetting: Alternate setting */
0x01, /* bNumEndpoints: One endpoints used */
0x02, /* bInterfaceClass: Communication Interface Class */
0x02, /* bInterfaceSubClass: Abstract Control Model */
0x01, /* bInterfaceProtocol: Common AT commands */
0x00, /* iInterface: */
/*Header Functional Descriptor*/
0x05, /* bLength: Endpoint Descriptor size */
0x24, /* bDescriptorType: CS_INTERFACE */
0x00, /* bDescriptorSubtype: Header Func Desc */
0x10, /* bcdCDC: spec release number */
0x01,
/*Call Management Functional Descriptor*/
0x05, /* bFunctionLength */
0x24, /* bDescriptorType: CS_INTERFACE */
0x01, /* bDescriptorSubtype: Call Management Func Desc */
0x00, /* bmCapabilities: D0+D1 */
0x01, /* bDataInterface: 1 */
/*ACM Functional Descriptor*/
0x04, /* bFunctionLength */
0x24, /* bDescriptorType: CS_INTERFACE */
0x02, /* bDescriptorSubtype: Abstract Control Management desc */
0x02, /* bmCapabilities */
/*Union Functional Descriptor*/
0x05, /* bFunctionLength */
0x24, /* bDescriptorType: CS_INTERFACE */
0x06, /* bDescriptorSubtype: Union func desc */
0x00, /* bMasterInterface: Communication class interface */
0x01, /* bSlaveInterface0: Data Class Interface */
/*Endpoint 2 Descriptor*/
0x07, /* bLength: Endpoint Descriptor size */
USB_DESC_TYPE_ENDPOINT , /* bDescriptorType: Endpoint */
CDC_CMD_EP, /* bEndpointAddress */
0x03, /* bmAttributes: Interrupt */
LOBYTE(CDC_CMD_PACKET_SIZE), /* wMaxPacketSize: */
HIBYTE(CDC_CMD_PACKET_SIZE),
CDC_FS_BINTERVAL, /* bInterval: */
/*---------------------------------------------------------------------------*/
/*Data class interface descriptor*/
0x09, /* bLength: Endpoint Descriptor size */
USB_DESC_TYPE_INTERFACE, /* bDescriptorType: */
0x01, /* bInterfaceNumber: Number of Interface */
0x00, /* bAlternateSetting: Alternate setting */
0x02, /* bNumEndpoints: Two endpoints used */
0x0A, /* bInterfaceClass: CDC */
0x00, /* bInterfaceSubClass: */
0x00, /* bInterfaceProtocol: */
0x00, /* iInterface: */
/*Endpoint OUT Descriptor*/
0x07, /* bLength: Endpoint Descriptor size */
USB_DESC_TYPE_ENDPOINT, /* bDescriptorType: Endpoint */
CDC_OUT_EP, /* bEndpointAddress */
0x02, /* bmAttributes: Bulk */
0x40, /* wMaxPacketSize: */
0x00,
0x00, /* bInterval: ignore for Bulk transfer */
/*Endpoint IN Descriptor*/
0x07, /* bLength: Endpoint Descriptor size */
USB_DESC_TYPE_ENDPOINT, /* bDescriptorType: Endpoint */
CDC_IN_EP, /* bEndpointAddress */
0x02, /* bmAttributes: Bulk */
0x40, /* wMaxPacketSize: */
0x00,
0x00 /* bInterval */
};
/**
* @}
*/
/** @defgroup USBD_CDC_Private_Functions
* @{
*/
/**
* @brief USBD_CDC_Init
@ -782,45 +489,7 @@ static uint8_t USBD_CDC_EP0_RxReady (USBD_HandleTypeDef *pdev)
return USBD_OK;
}
/**
* @brief USBD_CDC_GetFSCfgDesc
* Return configuration descriptor
* @param speed : current device speed
* @param length : pointer data length
* @retval pointer to descriptor buffer
*/
/*static uint8_t *USBD_CDC_GetFSCfgDesc (uint16_t *length)
{
*length = sizeof (USBD_CDC_CfgFSDesc);
return USBD_CDC_CfgFSDesc;
}
*/
/**
* @brief USBD_CDC_GetHSCfgDesc
* Return configuration descriptor
* @param speed : current device speed
* @param length : pointer data length
* @retval pointer to descriptor buffer
*/
/*static uint8_t *USBD_CDC_GetHSCfgDesc (uint16_t *length)
{
*length = sizeof (USBD_CDC_CfgHSDesc);
return USBD_CDC_CfgHSDesc;
}
*/
/**
* @brief USBD_CDC_GetCfgDesc
* Return configuration descriptor
* @param speed : current device speed
* @param length : pointer data length
* @retval pointer to descriptor buffer
*/
/*static uint8_t *USBD_CDC_GetOtherSpeedCfgDesc (uint16_t *length)
{
*length = sizeof (USBD_CDC_OtherSpeedCfgDesc);
return USBD_CDC_OtherSpeedCfgDesc;
}
*/
/**
* @brief DeviceQualifierDescriptor
* return Device Qualifier descriptor
@ -939,22 +608,10 @@ uint8_t USBD_CDC_ReceivePacket(USBD_HandleTypeDef *pdev)
/* Suspend or Resume USB Out process */
if(pdev->pClassData != NULL)
{
if(pdev->dev_speed == USBD_SPEED_HIGH )
{
/* Prepare Out endpoint to receive next packet */
USBD_LL_PrepareReceive(pdev,
CDC_OUT_EP,
hcdc->RxBuffer,
CDC_DATA_HS_OUT_PACKET_SIZE);
}
else
{
/* Prepare Out endpoint to receive next packet */
USBD_LL_PrepareReceive(pdev,
CDC_OUT_EP,
hcdc->RxBuffer,
CDC_DATA_FS_OUT_PACKET_SIZE);
}
return USBD_OK;
}
else

152
targets/stm32l432/lib/usbd/usbd_composite.c
View File

@ -2,7 +2,9 @@
#include "usbd_desc.h"
#include "usbd_hid.h"
#include "usbd_cdc.h"
#include "usbd_ccid.h"
#include "usbd_ctlreq.h"
#include "app.h"
static uint8_t USBD_Composite_Init (USBD_HandleTypeDef *pdev, uint8_t cfgidx);
@ -26,18 +28,33 @@ static uint8_t *USBD_Composite_GetOtherSpeedCfgDesc (uint16_t *length);
static uint8_t *USBD_Composite_GetDeviceQualifierDescriptor (uint16_t *length);
#define NUM_CLASSES 2
#define NUM_INTERFACES 3
#if NUM_INTERFACES>1
#define COMPOSITE_CDC_HID_DESCRIPTOR_SIZE (90 + 8+9 + 4)
#ifdef ENABLE_CCID
#define CCID_SIZE 84
#define CCID_NUM_INTERFACE 1
#else
#define COMPOSITE_CDC_HID_DESCRIPTOR_SIZE (41)
#define CCID_NUM_INTERFACE 0
#define CCID_SIZE 0
#endif
#if DEBUG_LEVEL > 0
#define CDC_SIZE (49 + 8 + 9 + 4)
#define CDC_NUM_INTERFACE 2
#else
#define CDC_SIZE 0
#define CDC_NUM_INTERFACE 0
#endif
#define HID_SIZE 41
#define COMPOSITE_CDC_HID_DESCRIPTOR_SIZE (HID_SIZE + CDC_SIZE + CCID_SIZE)
#define NUM_INTERFACES (1 + CDC_NUM_INTERFACE + CCID_NUM_INTERFACE)
#define NUM_CLASSES 3
#define HID_INTF_NUM 0
#define CDC_MASTER_INTF_NUM 1
#define CDC_SLAVE_INTF_NUM 2
#define CDC_SLAVE_INTF_NUM 2
#define CCID_INTF_NUM 3
__ALIGN_BEGIN uint8_t COMPOSITE_CDC_HID_DESCRIPTOR[COMPOSITE_CDC_HID_DESCRIPTOR_SIZE] __ALIGN_END =
{
/*Configuration Descriptor*/
@ -94,7 +111,7 @@ __ALIGN_BEGIN uint8_t COMPOSITE_CDC_HID_DESCRIPTOR[COMPOSITE_CDC_HID_DESCRIPTOR_
0x00,
HID_BINTERVAL, /*bInterval: Polling Interval */
#if NUM_INTERFACES > 1
#if DEBUG_LEVEL > 0
/* */
/* CDC */
@ -191,6 +208,83 @@ __ALIGN_BEGIN uint8_t COMPOSITE_CDC_HID_DESCRIPTOR[COMPOSITE_CDC_HID_DESCRIPTOR_
0x09,
0x04,
#endif
#ifdef ENABLE_CCID
/* CCID Interface Descriptor */
9, /* bLength: Interface Descriptor size */
USB_DESC_TYPE_INTERFACE, /* bDescriptorType: Interface */
CCID_INTF_NUM, /* bInterfaceNumber: CCID Interface */
0, /* Alternate setting for this interface */
3, /* bNumEndpoints: Bulk-IN, Bulk-OUT, Intr-IN */
0x0B, /* CCID class */
0x00, /* CCID subclass */
0x00, /* CCID protocol */
0, /* string index for interface */
/* ICC Descriptor */
54, /* bLength: */
0x21, /* bDescriptorType: USBDESCR_ICC */
0x10, 0x01, /* bcdCCID: revision 1.1 (of CCID) */
0, /* bMaxSlotIndex: */
1, /* bVoltageSupport: 5V-only */
0x02, 0, 0, 0, /* dwProtocols: T=1 */
0xa0, 0x0f, 0, 0, /* dwDefaultClock: 4000 */
0xa0, 0x0f, 0, 0, /* dwMaximumClock: 4000 */
0, /* bNumClockSupported: 0x00 */
0x80, 0x25, 0, 0, /* dwDataRate: 9600 */
0x80, 0x25, 0, 0, /* dwMaxDataRate: 9600 */
0, /* bNumDataRateSupported: 0x00 */
0xfe, 0, 0, 0, /* dwMaxIFSD: 254 */
0, 0, 0, 0, /* dwSynchProtocols: 0 */
0, 0, 0, 0, /* dwMechanical: 0 */
0x7a, 0x04, 0x02, 0x00, /* dwFeatures:
* Short and extended APDU level: 0x40000 ----
* Short APDU level : 0x20000 *
* (ICCD?) : 0x00800 ----
* Automatic IFSD : 0x00400 *
* NAD value other than 0x00 : 0x00200
* Can set ICC in clock stop : 0x00100
* Automatic PPS CUR : 0x00080
* Automatic PPS PROP : 0x00040 *
* Auto baud rate change : 0x00020 *
* Auto clock change : 0x00010 *
* Auto voltage selection : 0x00008 *
* Auto activaction of ICC : 0x00004
* Automatic conf. based on ATR : 0x00002 *
*/
0x0f, 0x01, 0, 0, /* dwMaxCCIDMessageLength: 271 */
0xff, /* bClassGetResponse: 0xff */
0x00, /* bClassEnvelope: 0 */
0, 0, /* wLCDLayout: 0 */
0, /* bPinSupport: No PIN pad */
1, /* bMaxCCIDBusySlots: 1 */
/*Endpoint IN1 Descriptor*/
7, /* bLength: Endpoint Descriptor size */
USB_DESC_TYPE_ENDPOINT, /* bDescriptorType: Endpoint */
CCID_IN_EP, /* bEndpointAddress: (IN1) */
0x02, /* bmAttributes: Bulk */
CCID_DATA_PACKET_SIZE, 0x00, /* wMaxPacketSize: */
0x00, /* bInterval */
/*Endpoint OUT1 Descriptor*/
7, /* bLength: Endpoint Descriptor size */
USB_DESC_TYPE_ENDPOINT, /* bDescriptorType: Endpoint */
CCID_OUT_EP, /* bEndpointAddress: (OUT1) */
0x02, /* bmAttributes: Bulk */
CCID_DATA_PACKET_SIZE, 0x00, /* wMaxPacketSize: */
0x00, /* bInterval */
/*Endpoint IN2 Descriptor*/
7, /* bLength: Endpoint Descriptor size */
USB_DESC_TYPE_ENDPOINT, /* bDescriptorType: Endpoint */
CCID_CMD_EP, /* bEndpointAddress: (IN2) */
0x03, /* bmAttributes: Interrupt */
CCID_DATA_PACKET_SIZE, 0x00, /* wMaxPacketSize: 4 */
0xFF, /* bInterval (255ms) */
#endif
};
USBD_ClassTypeDef USBD_Composite =
@ -211,15 +305,21 @@ USBD_ClassTypeDef USBD_Composite =
USBD_Composite_GetDeviceQualifierDescriptor,
};
static USBD_ClassTypeDef *USBD_Classes[MAX_CLASSES];
static USBD_ClassTypeDef * USBD_Classes[MAX_CLASSES];
int in_endpoint_to_class[MAX_ENDPOINTS];
int out_endpoint_to_class[MAX_ENDPOINTS];
void USBD_Composite_Set_Classes(USBD_ClassTypeDef *hid_class, USBD_ClassTypeDef *cdc_class) {
void USBD_Composite_Set_Classes(USBD_ClassTypeDef *hid_class, USBD_ClassTypeDef *ccid_class, USBD_ClassTypeDef *cdc_class) {
memset(USBD_Classes, 0 , sizeof(USBD_Classes));
USBD_Classes[0] = hid_class;
USBD_Classes[1] = cdc_class;
#ifdef ENABLE_CCID
USBD_Classes[1] = ccid_class;
#endif
#if DEBUG_LEVEL > 0
USBD_Classes[2] = cdc_class;
#endif
}
static USBD_ClassTypeDef * getClass(uint8_t index)
@ -228,9 +328,15 @@ static USBD_ClassTypeDef * getClass(uint8_t index)
{
case HID_INTF_NUM:
return USBD_Classes[0];
#ifdef ENABLE_CCID
case CCID_INTF_NUM:
return USBD_Classes[1];
#endif
#if DEBUG_LEVEL > 0
case CDC_MASTER_INTF_NUM:
case CDC_SLAVE_INTF_NUM:
return USBD_Classes[1];
return USBD_Classes[2];
#endif
}
return NULL;
}
@ -238,18 +344,18 @@ static USBD_ClassTypeDef * getClass(uint8_t index)
static uint8_t USBD_Composite_Init (USBD_HandleTypeDef *pdev, uint8_t cfgidx) {
int i;
for(i = 0; i < NUM_CLASSES; i++) {
if (USBD_Classes[i]->Init(pdev, cfgidx) != USBD_OK) {
if (USBD_Classes[i] != NULL && USBD_Classes[i]->Init(pdev, cfgidx) != USBD_OK) {
return USBD_FAIL;
}
}
//N
return USBD_OK;
}
static uint8_t USBD_Composite_DeInit (USBD_HandleTypeDef *pdev, uint8_t cfgidx) {
int i;
for(i = 0; i < NUM_CLASSES; i++) {
if (USBD_Classes[i]->DeInit(pdev, cfgidx) != USBD_OK) {
if (USBD_Classes[i] != NULL && USBD_Classes[i]->DeInit(pdev, cfgidx) != USBD_OK) {
return USBD_FAIL;
}
}
@ -275,7 +381,7 @@ static uint8_t USBD_Composite_Setup (USBD_HandleTypeDef *pdev, USBD_SetupReqType
case USB_REQ_GET_DESCRIPTOR :
for(i = 0; i < NUM_CLASSES; i++) {
if (USBD_Classes[i]->Setup(pdev, req) != USBD_OK) {
if (USBD_Classes[i] != NULL && USBD_Classes[i]->Setup(pdev, req) != USBD_OK) {
return USBD_FAIL;
}
}
@ -298,6 +404,8 @@ static uint8_t USBD_Composite_DataIn (USBD_HandleTypeDef *pdev, uint8_t epnum) {
i = in_endpoint_to_class[epnum];
if (USBD_Classes[i] == NULL) return USBD_FAIL;
return USBD_Classes[i]->DataIn(pdev, epnum);
}
@ -306,6 +414,8 @@ static uint8_t USBD_Composite_DataOut (USBD_HandleTypeDef *pdev, uint8_t epnum)
i = out_endpoint_to_class[epnum];
if (USBD_Classes[i] == NULL) return USBD_FAIL;
return USBD_Classes[i]->DataOut(pdev, epnum);
}
@ -313,7 +423,7 @@ static uint8_t USBD_Composite_DataOut (USBD_HandleTypeDef *pdev, uint8_t epnum)
static uint8_t USBD_Composite_EP0_RxReady (USBD_HandleTypeDef *pdev) {
int i;
for(i = 0; i < NUM_CLASSES; i++) {
if (USBD_Classes[i]->EP0_RxReady != NULL) {
if (USBD_Classes[i] != NULL && USBD_Classes[i]->EP0_RxReady != NULL) {
if (USBD_Classes[i]->EP0_RxReady(pdev) != USBD_OK) {
return USBD_FAIL;
}
@ -323,16 +433,19 @@ static uint8_t USBD_Composite_EP0_RxReady (USBD_HandleTypeDef *pdev) {
}
static uint8_t *USBD_Composite_GetFSCfgDesc (uint16_t *length) {
//Y
*length = COMPOSITE_CDC_HID_DESCRIPTOR_SIZE;
return COMPOSITE_CDC_HID_DESCRIPTOR;
}
static uint8_t *USBD_Composite_GetHSCfgDesc (uint16_t *length) {
//N
*length = COMPOSITE_CDC_HID_DESCRIPTOR_SIZE;
return COMPOSITE_CDC_HID_DESCRIPTOR;
}
static uint8_t *USBD_Composite_GetOtherSpeedCfgDesc (uint16_t *length) {
*length = COMPOSITE_CDC_HID_DESCRIPTOR_SIZE;
return COMPOSITE_CDC_HID_DESCRIPTOR;
}
@ -353,6 +466,7 @@ __ALIGN_BEGIN static uint8_t USBD_Composite_DeviceQualifierDesc[USB_LEN_DEV_QUAL
};
uint8_t *USBD_Composite_GetDeviceQualifierDescriptor (uint16_t *length) {
*length = sizeof (USBD_Composite_DeviceQualifierDesc);
return USBD_Composite_DeviceQualifierDesc;
//N
*length = sizeof (USBD_Composite_DeviceQualifierDesc);
return USBD_Composite_DeviceQualifierDesc;
}

2
targets/stm32l432/lib/usbd/usbd_composite.h
View File

@ -17,7 +17,7 @@ extern int in_endpoint_to_class[MAX_ENDPOINTS];
extern int out_endpoint_to_class[MAX_ENDPOINTS];
void USBD_Composite_Set_Classes(USBD_ClassTypeDef *class0, USBD_ClassTypeDef *class1);
void USBD_Composite_Set_Classes(USBD_ClassTypeDef *class0, USBD_ClassTypeDef *class1, USBD_ClassTypeDef *class2);
#ifdef __cplusplus
}

28
targets/stm32l432/lib/usbd/usbd_conf.c
View File

@ -50,6 +50,9 @@
#include "stm32l4xx_hal.h"
#include "usbd_core.h"
#include "usbd_hid.h"
#include "usbd_cdc.h"
#include "usbd_ccid.h"
#include "log.h"
void SystemClock_Config(void);
@ -117,9 +120,14 @@ void HAL_PCD_DataOutStageCallback(PCD_HandleTypeDef *hpcd, uint8_t epnum)
USBD_LL_DataOutStage((USBD_HandleTypeDef*)hpcd->pData, epnum, hpcd->OUT_ep[epnum].xfer_buff);
switch(epnum)
{
case HID_ENDPOINT:
case HID_EPOUT_ADDR:
usb_hid_recieve_callback(epnum);
break;
#ifdef ENABLE_CCID
case CCID_OUT_EP:
usb_ccid_recieve_callback((USBD_HandleTypeDef*)hpcd->pData, epnum);
break;
#endif
}
}
@ -218,7 +226,6 @@ void HAL_PCD_DisconnectCallback(PCD_HandleTypeDef *hpcd)
{
USBD_LL_DevDisconnected((USBD_HandleTypeDef*)hpcd->pData);
}
/**
* @brief Initializes the low level portion of the device driver.
* @param pdev: Device handle
@ -252,14 +259,20 @@ USBD_StatusTypeDef USBD_LL_Init(USBD_HandleTypeDef *pdev)
HAL_PCDEx_PMAConfig((PCD_HandleTypeDef*)pdev->pData , 0x80 , PCD_SNG_BUF, 0x58);
// HID
HAL_PCDEx_PMAConfig((PCD_HandleTypeDef*)pdev->pData , 0x01 , PCD_SNG_BUF, 0x98);
HAL_PCDEx_PMAConfig((PCD_HandleTypeDef*)pdev->pData , 0x81 , PCD_SNG_BUF, 0xd8);
HAL_PCDEx_PMAConfig((PCD_HandleTypeDef*)pdev->pData , HID_EPOUT_ADDR , PCD_SNG_BUF, 0x98);
HAL_PCDEx_PMAConfig((PCD_HandleTypeDef*)pdev->pData , HID_EPIN_ADDR , PCD_SNG_BUF, 0xd8);
// CCID
HAL_PCDEx_PMAConfig((PCD_HandleTypeDef*)pdev->pData , CCID_OUT_EP , PCD_SNG_BUF, 0xd8 + 64); // data OUT
HAL_PCDEx_PMAConfig((PCD_HandleTypeDef*)pdev->pData , CCID_IN_EP , PCD_SNG_BUF, 0xd8 + 64*2); // data IN
HAL_PCDEx_PMAConfig((PCD_HandleTypeDef*)pdev->pData , CCID_CMD_EP , PCD_SNG_BUF, 0xd8 + 64*3); // commands
// CDC / uart
HAL_PCDEx_PMAConfig((PCD_HandleTypeDef*)pdev->pData , 0x02 , PCD_SNG_BUF, 0xd8 + 64); // data OUT
HAL_PCDEx_PMAConfig((PCD_HandleTypeDef*)pdev->pData , 0x82 , PCD_SNG_BUF, 0xd8 + 64*2); // data IN
HAL_PCDEx_PMAConfig((PCD_HandleTypeDef*)pdev->pData , 0x83 , PCD_SNG_BUF, 0xd8 + 64*3); // commands
HAL_PCDEx_PMAConfig((PCD_HandleTypeDef*)pdev->pData , CDC_CMD_EP , PCD_SNG_BUF, 0xd8 + 64*4); // commands
HAL_PCDEx_PMAConfig((PCD_HandleTypeDef*)pdev->pData , CDC_OUT_EP , PCD_SNG_BUF, 0xd8 + 64*5); // data OUT
HAL_PCDEx_PMAConfig((PCD_HandleTypeDef*)pdev->pData , CDC_IN_EP , PCD_SNG_BUF, 0xd8 + 64*6); // data IN
// dump_pma_header("usbd_conf");
return USBD_OK;
}
@ -310,6 +323,7 @@ USBD_StatusTypeDef USBD_LL_OpenEP(USBD_HandleTypeDef *pdev,
uint8_t ep_type,
uint16_t ep_mps)
{
// printf1(TAG_RED,"LL_Open. ep: %x, %x\r\n", ep_addr, ep_type);
HAL_PCD_EP_Open((PCD_HandleTypeDef*) pdev->pData,
ep_addr,
ep_mps,

4
targets/stm32l432/src/app.h
View File

@ -12,9 +12,13 @@
#define DEBUG_UART USART1
#ifndef DEBUG_LEVEL
// Enable the CDC ACM USB interface & debug logs (DEBUG_LEVEL > 0)
#define DEBUG_LEVEL 0
#endif
// Enable the CCID USB interface
// #define ENABLE_CCID
#define NON_BLOCK_PRINTING 0

40
targets/stm32l432/src/device.c
View File

@ -45,7 +45,7 @@ uint32_t __last_update = 0;
extern PCD_HandleTypeDef hpcd;
static int _NFC_status = 0;
static bool isLowFreq = 0;
static bool _RequestComeFromNFC = false;
static bool _up_disabled = false;
// #define IS_BUTTON_PRESSED() (0 == (LL_GPIO_ReadInputPort(SOLO_BUTTON_PORT) & SOLO_BUTTON_PIN))
static int is_physical_button_pressed()
@ -55,7 +55,16 @@ static int is_physical_button_pressed()
static int is_touch_button_pressed()
{
return tsc_read_button(0) || tsc_read_button(1);
int is_pressed = (tsc_read_button(0) || tsc_read_button(1));
#ifndef IS_BOOTLOADER
if (is_pressed)
{
// delay for debounce, and longer than polling timer period.
delay(95);
return (tsc_read_button(0) || tsc_read_button(1));
}
#endif
return is_pressed;
}
int (*IS_BUTTON_PRESSED)() = is_physical_button_pressed;
@ -66,7 +75,7 @@ static void edge_detect_touch_button()
uint8_t current_touch = 0;
if (is_touch_button_pressed == IS_BUTTON_PRESSED)
{
current_touch = IS_BUTTON_PRESSED();
current_touch = (tsc_read_button(0) || tsc_read_button(1));
// 1 sample per 25 ms
if ((millis() - __last_button_bounce_time) > 25)
@ -83,8 +92,8 @@ static void edge_detect_touch_button()
}
void request_from_nfc(bool request_active) {
_RequestComeFromNFC = request_active;
void device_disable_up(bool disable) {
_up_disabled = disable;
}
// Timer6 overflow handler. happens every ~90ms.
@ -153,7 +162,6 @@ void device_set_status(uint32_t status)
int device_is_button_pressed()
{
return IS_BUTTON_PRESSED();
}
@ -399,7 +407,7 @@ void authenticator_write_state(AuthenticatorState * a, int backup)
}
}
uint32_t ctap_atomic_count(int sel)
uint32_t ctap_atomic_count(uint32_t amount)
{
int offset = 0;
uint32_t * ptr = (uint32_t *)flash_addr(COUNTER1_PAGE);
@ -414,10 +422,12 @@ uint32_t ctap_atomic_count(int sel)
uint32_t lastc = 0;
if (sel != 0)
if (amount == 0)
{
printf2(TAG_ERR,"counter2 not imple\n");
exit(1);
// Use a random count [1-16].
uint8_t rng[1];
ctap_generate_rng(rng, 1);
amount = (rng[0] & 0x0f) + 1;
}
for (offset = 0; offset < PAGE_SIZE/4; offset += 2) // wear-level the flash
@ -450,7 +460,7 @@ uint32_t ctap_atomic_count(int sel)
return lastc;
}
lastc++;
lastc += amount;
if (lastc/256 > erases)
{
@ -574,11 +584,17 @@ static int wait_for_button_release(uint32_t wait)
int ctap_user_presence_test(uint32_t up_delay)
{
int ret;
if (device_is_nfc() == NFC_IS_ACTIVE || _RequestComeFromNFC)
if (device_is_nfc() == NFC_IS_ACTIVE)
{
return 1;
}
if (_up_disabled)
{
return 2;
}
#if SKIP_BUTTON_CHECK_WITH_DELAY
int i=500;
while(i--)

19
targets/stm32l432/src/init.c
View File

@ -28,6 +28,7 @@
#include "usbd_desc.h"
#include "usbd_hid.h"
#include "usbd_cdc.h"
#include "usbd_ccid.h"
#include "usbd_composite.h"
#include "usbd_cdc_if.h"
#include "device.h"
@ -705,26 +706,26 @@ void init_usb()
// Enable USB Clock
SET_BIT(RCC->APB1ENR1, RCC_APB1ENR1_USBFSEN);
#if DEBUG_LEVEL > 0
USBD_Composite_Set_Classes(&USBD_HID, &USBD_CDC);
#ifndef IS_BOOTLOADER
USBD_Composite_Set_Classes(&USBD_HID, &USBD_CCID, &USBD_CDC);
in_endpoint_to_class[HID_EPIN_ADDR & 0x7F] = 0;
out_endpoint_to_class[HID_EPOUT_ADDR & 0x7F] = 0;
in_endpoint_to_class[CDC_IN_EP & 0x7F] = 1;
out_endpoint_to_class[CDC_OUT_EP & 0x7F] = 1;
in_endpoint_to_class[CCID_IN_EP & 0x7F] = 1;
out_endpoint_to_class[CCID_OUT_EP & 0x7F] = 1;
in_endpoint_to_class[CDC_IN_EP & 0x7F] = 2;
out_endpoint_to_class[CDC_OUT_EP & 0x7F] = 2;
USBD_Init(&Solo_USBD_Device, &Solo_Desc, 0);
USBD_RegisterClass(&Solo_USBD_Device, &USBD_Composite);
// USBD_RegisterClass(&Solo_USBD_Device, &USBD_HID);
//
// USBD_RegisterClass(&Solo_USBD_Device, &USBD_CDC);
#if DEBUG_LEVEL > 0
USBD_CDC_RegisterInterface(&Solo_USBD_Device, &USBD_Interface_fops_FS);
#endif
#else
USBD_Init(&Solo_USBD_Device, &Solo_Desc, 0);
USBD_RegisterClass(&Solo_USBD_Device, &USBD_HID);
#endif
USBD_Start(&Solo_USBD_Device);
}

58
targets/stm32l432/src/nfc.c
View File

@ -18,6 +18,18 @@
static uint8_t chain_buffer[2048] = {0};
static size_t chain_buffer_len = 0;
static bool chain_buffer_tx = false;
static uint8_t current_cid = 0;
// forward declarations
void rblock_acknowledge(uint8_t req0, bool ack);
uint8_t p14443_have_cid(uint8_t pcb) {
// CID
if (pcb & 0x08)
return true;
else
return false;
}
uint8_t p14443_block_offset(uint8_t pcb) {
uint8_t offset = 1;
@ -191,7 +203,7 @@ bool nfc_write_response_ex(uint8_t req0, uint8_t * data, uint8_t len, uint16_t r
return false;
res[0] = NFC_CMD_IBLOCK | (req0 & 0x0f);
res[1] = 0;
res[1] = current_cid;
res[2] = 0;
uint8_t block_offset = p14443_block_offset(req0);
@ -228,6 +240,8 @@ void nfc_write_response_chaining_plain(uint8_t req0, uint8_t * data, int len)
{
uint8_t res[32] = {0};
res[0] = iBlock;
res[1] = current_cid;
res[2] = 0;
if (len && data)
memcpy(&res[block_offset], data, len);
nfc_write_frame(res, len + block_offset);
@ -237,7 +251,7 @@ void nfc_write_response_chaining_plain(uint8_t req0, uint8_t * data, int len)
// transmit I block
int vlen = MIN(32 - block_offset, len - sendlen);
res[0] = iBlock;
res[1] = 0;
res[1] = current_cid;
res[2] = 0;
memcpy(&res[block_offset], &data[sendlen], vlen);
@ -268,6 +282,20 @@ void nfc_write_response_chaining_plain(uint8_t req0, uint8_t * data, int len)
printf1(TAG_NFC, "R block RX timeout %d/%d.\r\n",sendlen,len);
break;
}
if (!IS_RBLOCK(recbuf[0]))
{
printf1(TAG_NFC, "R block RX error. Not a R block(0x%02x) %d/%d.\r\n", recbuf[0], sendlen, len);
break;
}
// NAK check
if (recbuf[0] & NFC_CMD_RBLOCK_ACK)
{
rblock_acknowledge(recbuf[0], true);
printf1(TAG_NFC, "R block RX error. NAK received. %d/%d.\r\n", recbuf[0], sendlen, len);
break;
}
uint8_t rblock_offset = p14443_block_offset(recbuf[0]);
if (reclen != rblock_offset)
@ -466,7 +494,9 @@ void rblock_acknowledge(uint8_t req0, bool ack)
NFC_STATE.block_num = !NFC_STATE.block_num;
buf[0] = NFC_CMD_RBLOCK | (req0 & 0x0f);
if (ack)
buf[1] = current_cid;
// iso14443-4:2001 page 16. ACK, if bit is set to 0, NAK, if bit is set to 1
if (!ack)
buf[0] |= NFC_CMD_RBLOCK_ACK;
nfc_write_frame(buf, block_offset);
@ -701,10 +731,10 @@ void apdu_process(uint8_t buf0, uint8_t *apduptr, APDU_STRUCT *apdu)
printf1(TAG_NFC, "FIDO2 CTAP message. %d\r\n", timestamp());
// WTX_on(WTX_TIME_DEFAULT);
request_from_nfc(true);
device_disable_up(true);
ctap_response_init(&ctap_resp);
status = ctap_request(apdu->data, apdu->lc, &ctap_resp);
request_from_nfc(false);
device_disable_up(false);
// if (!WTX_off())
// return;
@ -784,9 +814,10 @@ void nfc_process_iblock(uint8_t * buf, int len)
}
APDU_STRUCT apdu;
if (apdu_decode(buf + block_offset, len - block_offset, &apdu)) {
uint16_t ret = apdu_decode(buf + block_offset, len - block_offset, &apdu);
if (ret != 0) {
printf1(TAG_NFC,"apdu decode error\r\n");
nfc_write_response(buf[0], SW_COND_USE_NOT_SATISFIED);
nfc_write_response(buf[0], ret);
return;
}
printf1(TAG_NFC,"apdu ok. %scase=%02x cla=%02x ins=%02x p1=%02x p2=%02x lc=%d le=%d\r\n",
@ -802,7 +833,6 @@ void nfc_process_iblock(uint8_t * buf, int len)
memmove(&chain_buffer[chain_buffer_len], apdu.data, apdu.lc);
chain_buffer_len += apdu.lc;
delay(1);
nfc_write_response(buf[0], SW_SUCCESS);
printf1(TAG_NFC, "APDU chaining ok. %d/%d\r\n", apdu.lc, chain_buffer_len);
return;
@ -810,7 +840,6 @@ void nfc_process_iblock(uint8_t * buf, int len)
// if we have ISO 7816 APDU chain - move there all the data
if (!chain_buffer_tx && chain_buffer_len > 0) {
delay(1);
memmove(&apdu.data[chain_buffer_len], apdu.data, apdu.lc);
memmove(apdu.data, chain_buffer, chain_buffer_len);
apdu.lc += chain_buffer_len; // here apdu struct does not match with memory!
@ -853,6 +882,8 @@ void nfc_process_block(uint8_t * buf, unsigned int len)
else if (IS_IBLOCK(buf[0]))
{
uint8_t block_offset = p14443_block_offset(buf[0]);
if (p14443_have_cid(buf[0]))
current_cid = buf[1];
if (buf[0] & 0x10)
{
printf1(TAG_NFC_APDU, "NFC_CMD_IBLOCK chaining blen=%d len=%d offs=%d\r\n", ibuflen, len, block_offset);
@ -903,7 +934,9 @@ void nfc_process_block(uint8_t * buf, unsigned int len)
}
else if (IS_RBLOCK(buf[0]))
{
rblock_acknowledge(buf[0], false);
if (p14443_have_cid(buf[0]))
current_cid = buf[1];
rblock_acknowledge(buf[0], true);
printf1(TAG_NFC, "NFC_CMD_RBLOCK\r\n");
}
else if (IS_SBLOCK(buf[0]))
@ -912,7 +945,10 @@ void nfc_process_block(uint8_t * buf, unsigned int len)
if ((buf[0] & NFC_SBLOCK_DESELECT) == 0)
{
printf1(TAG_NFC, "NFC_CMD_SBLOCK, DESELECTED\r\n");
nfc_write_frame(buf, 1);
uint8_t block_offset = p14443_block_offset(buf[0]);
if (p14443_have_cid(buf[0]))
current_cid = buf[1];
nfc_write_frame(buf, block_offset);
ams_wait_for_tx(2);
ams_write_command(AMS_CMD_SLEEP);
nfc_state_init();

6
targets/stm32l432/src/nfc.h
View File

@ -34,9 +34,9 @@ typedef struct
#define IS_PPSS_CMD(x) (((x) & 0xf0) == NFC_CMD_PPSS)
#define NFC_CMD_IBLOCK 0x00
#define IS_IBLOCK(x) ( (((x) & 0xc0) == NFC_CMD_IBLOCK) && (((x) & 0x02) == 0x02) )
#define NFC_CMD_RBLOCK 0x80
#define NFC_CMD_RBLOCK_ACK 0x20
#define IS_RBLOCK(x) ( (((x) & 0xc0) == NFC_CMD_RBLOCK) && (((x) & 0x02) == 0x02) )
#define NFC_CMD_RBLOCK 0xa0
#define NFC_CMD_RBLOCK_ACK 0x10
#define IS_RBLOCK(x) ( (((x) & 0xe0) == NFC_CMD_RBLOCK) && (((x) & 0x02) == 0x02) )
#define NFC_CMD_SBLOCK 0xc0
#define IS_SBLOCK(x) ( (((x) & 0xc0) == NFC_CMD_SBLOCK) && (((x) & 0x02) == 0x02) )