docs: update .all-contributorsrc

.all-contributorsrc

@@ -168,6 +168,16 @@
         "infra",
         "tool"
       ]
+    },
+    {
+      "login": "kimusan",
+      "name": "Kim Schulz",
+      "avatar_url": "https://avatars1.githubusercontent.com/u/1150049?v=4",
+      "profile": "http://www.schulz.dk",
+      "contributions": [
+        "business",
+        "ideas"
+      ]
     }
   ],
   "contributorsPerLine": 7,

README.md

@@ -134,6 +134,7 @@ Thanks goes to these wonderful people ([emoji key](https://allcontributors.org/d
     <td align="center"><a href="http://1bitsquared.com"><img src="https://avatars3.githubusercontent.com/u/17334?v=4" width="100px;" alt="Piotr Esden-Tempski"/><br /><sub><b>Piotr Esden-Tempski</b></sub></a><br /><a href="#business-esden" title="Business development">💼</a></td>
     <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>
   </tr>
 </table>
 
@@ -167,7 +168,7 @@ 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-17-orange.svg?style=flat-square)](#contributors)
+[![All Contributors](https://img.shields.io/badge/all_contributors-18-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)

fido2/apdu.c

@@ -13,7 +13,7 @@ int apdu_decode(uint8_t *data, size_t len, APDU_STRUCT *apdu)
 {
     EXT_APDU_HEADER *hapdu = (EXT_APDU_HEADER *)data;
     
-    apdu->cla = hapdu->cla;
+    apdu->cla = hapdu->cla & 0xef; // mask chaining bit if any
     apdu->ins = hapdu->ins;
     apdu->p1 = hapdu->p1;
     apdu->p2 = hapdu->p2;

fido2/apdu.h

@@ -42,6 +42,10 @@ extern int apdu_decode(uint8_t *data, size_t len, APDU_STRUCT *apdu);
 #define APDU_FIDO_U2F_AUTHENTICATE    0x02
 #define APDU_FIDO_U2F_VERSION         0x03
 #define APDU_FIDO_NFCCTAP_MSG         0x10
+#define APDU_FIDO_U2F_VENDOR_FIRST    0xc0    // First vendor defined command
+#define APDU_FIDO_U2F_VENDOR_LAST     0xff    // Last vendor defined command
+#define APDU_SOLO_RESET               0xee
+
 #define APDU_INS_SELECT               0xA4
 #define APDU_INS_READ_BINARY          0xB0
 #define APDU_GET_RESPONSE             0xC0

fido2/ctap.c

@@ -1685,7 +1685,7 @@ uint8_t ctap_request(uint8_t * pkt_raw, int length, CTAP_RESPONSE * resp)
             break;
         default:
             status = CTAP1_ERR_INVALID_COMMAND;
-            printf2(TAG_ERR,"error, invalid cmd: %x\n", cmd);
+            printf2(TAG_ERR,"error, invalid cmd: 0x%02x\n", cmd);
     }
 
 done:

fido2/device.h

@@ -30,6 +30,7 @@ void main_loop_delay();
 
 void heartbeat();
 
+void device_reboot();
 
 void authenticator_read_state(AuthenticatorState * );
 

pc/device.c

@@ -43,7 +43,11 @@ void device_set_status(uint32_t status)
     __device_status = status;
 }
 
-
+void device_reboot() 
+{
+    printf1(TAG_RED, "REBOOT command recieved!\r\n");
+    exit(100);
+}
 
 int udp_server()
 {

targets/stm32l432/src/nfc.c

@@ -15,8 +15,9 @@
 #define IS_IRQ_ACTIVE()         (1  == (LL_GPIO_ReadInputPort(SOLO_AMS_IRQ_PORT) & SOLO_AMS_IRQ_PIN))
 
 // chain buffer for 61XX responses
-static uint8_t resp_chain_buffer[2048] = {0};
-static size_t resp_chain_buffer_len = 0;
+static uint8_t chain_buffer[2048] = {0};
+static size_t chain_buffer_len = 0;
+static bool chain_buffer_tx = false;
 
 uint8_t p14443_block_offset(uint8_t pcb) {
     uint8_t offset = 1;
@@ -298,7 +299,8 @@ void append_get_response(uint8_t *data, size_t rest_len)
 
 void nfc_write_response_chaining(uint8_t req0, uint8_t * data, int len, bool extapdu)
 {
-    resp_chain_buffer_len = 0;
+    chain_buffer_len = 0;
+    chain_buffer_tx = true;
     
     // if we dont need to break data to parts that need to exchange via GET RESPONSE command (ISO 7816-4 7.1.3)
 	if (len <= 255 || extapdu)
@@ -306,16 +308,16 @@ void nfc_write_response_chaining(uint8_t req0, uint8_t * data, int len, bool ext
         nfc_write_response_chaining_plain(req0, data, len);
     } else {
         size_t pcklen = MIN(253, len);
-        resp_chain_buffer_len = len - pcklen;
-        printf1(TAG_NFC, "61XX chaining %d/%d.\r\n", pcklen, resp_chain_buffer_len);
+        chain_buffer_len = len - pcklen;
+        printf1(TAG_NFC, "61XX chaining %d/%d.\r\n", pcklen, chain_buffer_len);
         
-        memmove(resp_chain_buffer, data, pcklen);
-        append_get_response(&resp_chain_buffer[pcklen], resp_chain_buffer_len);
+        memmove(chain_buffer, data, pcklen);
+        append_get_response(&chain_buffer[pcklen], chain_buffer_len);
        
-        nfc_write_response_chaining_plain(req0, resp_chain_buffer, pcklen + 2); // 2 for 61XX 
+        nfc_write_response_chaining_plain(req0, chain_buffer, pcklen + 2); // 2 for 61XX 
     
         // put the rest data into chain buffer
-        memmove(resp_chain_buffer, &data[pcklen], resp_chain_buffer_len);        
+        memmove(chain_buffer, &data[pcklen], chain_buffer_len);        
     }    
 }
 
@@ -518,50 +520,39 @@ int select_applet(uint8_t * aid, int len)
     return APP_NOTHING;
 }
 
-void nfc_process_iblock(uint8_t * buf, int len)
+void apdu_process(uint8_t buf0, uint8_t *apduptr, APDU_STRUCT *apdu)
 {
     int selected;
     CTAP_RESPONSE ctap_resp;
     int status;
     uint16_t reslen;
 
-    uint8_t block_offset = p14443_block_offset(buf[0]);
-
-    APDU_STRUCT apdu;
-    if (apdu_decode(buf + block_offset, len - block_offset, &apdu)) {
-        printf1(TAG_NFC,"apdu decode error\r\n");
-        nfc_write_response(buf[0], SW_COND_USE_NOT_SATISFIED);
-        return;
-    }
-    printf1(TAG_NFC,"apdu ok. %scase=%02x cla=%02x ins=%02x p1=%02x p2=%02x lc=%d le=%d\r\n", 
-        apdu.extended_apdu ? "[e]":"", apdu.case_type, apdu.cla, apdu.ins, apdu.p1, apdu.p2, apdu.lc, apdu.le);
-
     // check CLA
-    if (apdu.cla != 0x00 && apdu.cla != 0x80) {
-        printf1(TAG_NFC, "Unknown CLA %02x\r\n", apdu.cla);
-        nfc_write_response(buf[0], SW_CLA_INVALID);
+    if (apdu->cla != 0x00 && apdu->cla != 0x80) {
+        printf1(TAG_NFC, "Unknown CLA %02x\r\n", apdu->cla);
+        nfc_write_response(buf0, SW_CLA_INVALID);
         return;
     }
     
     // TODO this needs to be organized better
-    switch(apdu.ins)
+    switch(apdu->ins)
     {
         // ISO 7816. 7.1 GET RESPONSE command
         case APDU_GET_RESPONSE:
-            if (apdu.p1 != 0x00 || apdu.p2 != 0x00)
+            if (apdu->p1 != 0x00 || apdu->p2 != 0x00)
             {
-                nfc_write_response(buf[0], SW_INCORRECT_P1P2);
+                nfc_write_response(buf0, SW_INCORRECT_P1P2);
                 printf1(TAG_NFC, "P1 or P2 error\r\n");
                 return;
             }
             
             // too many bytes needs. 0x00 and 0x100 - any length
-            if (apdu.le != 0 && apdu.le != 0x100 && apdu.le > resp_chain_buffer_len)
+            if (apdu->le != 0 && apdu->le != 0x100 && apdu->le > chain_buffer_len)
             {
                 uint16_t wlresp = SW_WRONG_LENGTH;  // here can be 6700, 6C00, 6FXX. but the most standard way - 67XX or 6700
-                if (resp_chain_buffer_len <= 0xff)
-                    wlresp += resp_chain_buffer_len & 0xff;
-                nfc_write_response(buf[0], wlresp);
+                if (chain_buffer_len <= 0xff)
+                    wlresp += chain_buffer_len & 0xff;
+                nfc_write_response(buf0, wlresp);
                 printf1(TAG_NFC, "buffer length less than requesteds\r\n");
                 return;
             }
@@ -569,28 +560,28 @@ void nfc_process_iblock(uint8_t * buf, int len)
             // create temporary packet
             uint8_t pck[255] = {0};
             size_t pcklen = 253;
-            if (apdu.le)
-                pcklen = apdu.le;
-            if (pcklen > resp_chain_buffer_len)
-                pcklen = resp_chain_buffer_len;
+            if (apdu->le)
+                pcklen = apdu->le;
+            if (pcklen > chain_buffer_len)
+                pcklen = chain_buffer_len;
 
-            printf1(TAG_NFC, "GET RESPONSE. pck len: %d buffer len: %d\r\n", pcklen, resp_chain_buffer_len); 
+            printf1(TAG_NFC, "GET RESPONSE. pck len: %d buffer len: %d\r\n", pcklen, chain_buffer_len); 
             
             // create packet and add 61XX there if we have another portion(s) of data
-            memmove(pck, resp_chain_buffer, pcklen);
+            memmove(pck, chain_buffer, pcklen);
             size_t dlen = 0;
-            if (resp_chain_buffer_len - pcklen)
+            if (chain_buffer_len - pcklen)
             {
-                append_get_response(&pck[pcklen], resp_chain_buffer_len - pcklen);
+                append_get_response(&pck[pcklen], chain_buffer_len - pcklen);
                 dlen = 2;
             }
 
             // send
-            nfc_write_response_chaining_plain(buf[0], pck, pcklen + dlen); // dlen for 61XX
+            nfc_write_response_chaining_plain(buf0, pck, pcklen + dlen); // dlen for 61XX
             
             // shift the buffer
-            resp_chain_buffer_len -= pcklen;
-            memmove(resp_chain_buffer, &resp_chain_buffer[pcklen], resp_chain_buffer_len);
+            chain_buffer_len -= pcklen;
+            memmove(chain_buffer, &chain_buffer[pcklen], chain_buffer_len);
         break;
         
         case APDU_INS_SELECT:
@@ -608,49 +599,49 @@ void nfc_process_iblock(uint8_t * buf, int len)
             // }
             // else
             {
-                selected = select_applet(apdu.data, apdu.lc);
+                selected = select_applet(apdu->data, apdu->lc);
                 if (selected == APP_FIDO)
                 {
-					nfc_write_response_ex(buf[0], (uint8_t *)"U2F_V2", 6, SW_SUCCESS);
+					nfc_write_response_ex(buf0, (uint8_t *)"U2F_V2", 6, SW_SUCCESS);
 					printf1(TAG_NFC, "FIDO applet selected.\r\n");
                }
                else if (selected != APP_NOTHING)
                {
-                   nfc_write_response(buf[0], SW_SUCCESS);
+                   nfc_write_response(buf0, SW_SUCCESS);
                    printf1(TAG_NFC, "SELECTED %d\r\n", selected);
                }
                 else
                 {
-					nfc_write_response(buf[0], SW_FILE_NOT_FOUND);
-                    printf1(TAG_NFC, "NOT selected "); dump_hex1(TAG_NFC, apdu.data, apdu.lc);
+					nfc_write_response(buf0, SW_FILE_NOT_FOUND);
+                    printf1(TAG_NFC, "NOT selected "); dump_hex1(TAG_NFC, apdu->data, apdu->lc);
                 }
             }
         break;
 
         case APDU_FIDO_U2F_VERSION:
 			if (NFC_STATE.selected_applet != APP_FIDO) {
-				nfc_write_response(buf[0], SW_INS_INVALID);
+				nfc_write_response(buf0, SW_INS_INVALID);
 				break;
 			}
 
 			printf1(TAG_NFC, "U2F GetVersion command.\r\n");
 
-			u2f_request_nfc(&buf[block_offset], apdu.data, apdu.lc, &ctap_resp);
-            nfc_write_response_chaining(buf[0], ctap_resp.data, ctap_resp.length, apdu.extended_apdu);
+			u2f_request_nfc(apduptr, apdu->data, apdu->lc, &ctap_resp);
+            nfc_write_response_chaining(buf0, ctap_resp.data, ctap_resp.length, apdu->extended_apdu);
         break;
 
         case APDU_FIDO_U2F_REGISTER:
 			if (NFC_STATE.selected_applet != APP_FIDO) {
-				nfc_write_response(buf[0], SW_INS_INVALID);
+				nfc_write_response(buf0, SW_INS_INVALID);
 				break;
 			}
 
 			printf1(TAG_NFC, "U2F Register command.\r\n");
 
-			if (apdu.lc != 64)
+			if (apdu->lc != 64)
 			{
-				printf1(TAG_NFC, "U2F Register request length error. len=%d.\r\n", apdu.lc);
-				nfc_write_response(buf[0], SW_WRONG_LENGTH);
+				printf1(TAG_NFC, "U2F Register request length error. len=%d.\r\n", apdu->lc);
+				nfc_write_response(buf0, SW_WRONG_LENGTH);
 				return;
 			}
 
@@ -661,49 +652,49 @@ void nfc_process_iblock(uint8_t * buf, int len)
             // SystemClock_Config_LF32();
             // delay(300);
             if (device_is_nfc() == NFC_IS_ACTIVE) device_set_clock_rate(DEVICE_LOW_POWER_FAST);
-			u2f_request_nfc(&buf[block_offset], apdu.data, apdu.lc, &ctap_resp);
+			u2f_request_nfc(apduptr, apdu->data, apdu->lc, &ctap_resp);
             if (device_is_nfc() == NFC_IS_ACTIVE)  device_set_clock_rate(DEVICE_LOW_POWER_IDLE);
 			// if (!WTX_off())
 			// 	return;
 
 			printf1(TAG_NFC, "U2F resp len: %d\r\n", ctap_resp.length);
             printf1(TAG_NFC,"U2F Register P2 took %d\r\n", timestamp());
-            nfc_write_response_chaining(buf[0], ctap_resp.data, ctap_resp.length, apdu.extended_apdu);
+            nfc_write_response_chaining(buf0, ctap_resp.data, ctap_resp.length, apdu->extended_apdu);
 
             printf1(TAG_NFC,"U2F Register answered %d (took %d)\r\n", millis(), timestamp());
        break;
 
         case APDU_FIDO_U2F_AUTHENTICATE:
 			if (NFC_STATE.selected_applet != APP_FIDO) {
-				nfc_write_response(buf[0], SW_INS_INVALID);
+				nfc_write_response(buf0, SW_INS_INVALID);
 				break;
 			}
 
 			printf1(TAG_NFC, "U2F Authenticate command.\r\n");
 
-			if (apdu.lc != 64 + 1 + apdu.data[64])
+			if (apdu->lc != 64 + 1 + apdu->data[64])
 			{
 				delay(5);
-				printf1(TAG_NFC, "U2F Authenticate request length error. len=%d keyhlen=%d.\r\n", apdu.lc, apdu.data[64]);
-				nfc_write_response(buf[0], SW_WRONG_LENGTH);
+				printf1(TAG_NFC, "U2F Authenticate request length error. len=%d keyhlen=%d.\r\n", apdu->lc, apdu->data[64]);
+				nfc_write_response(buf0, SW_WRONG_LENGTH);
 				return;
 			}
 
 			timestamp();
 			// WTX_on(WTX_TIME_DEFAULT);
-			u2f_request_nfc(&buf[block_offset], apdu.data, apdu.lc, &ctap_resp);
+			u2f_request_nfc(apduptr, apdu->data, apdu->lc, &ctap_resp);
 			// if (!WTX_off())
 			// 	return;
 
 			printf1(TAG_NFC, "U2F resp len: %d\r\n", ctap_resp.length);
             printf1(TAG_NFC,"U2F Authenticate processing %d (took %d)\r\n", millis(), timestamp());
-			nfc_write_response_chaining(buf[0], ctap_resp.data, ctap_resp.length, apdu.extended_apdu);
+			nfc_write_response_chaining(buf0, ctap_resp.data, ctap_resp.length, apdu->extended_apdu);
             printf1(TAG_NFC,"U2F Authenticate answered %d (took %d)\r\n", millis(), timestamp);
         break;
 
         case APDU_FIDO_NFCCTAP_MSG:
 			if (NFC_STATE.selected_applet != APP_FIDO) {
-				nfc_write_response(buf[0], SW_INS_INVALID);
+				nfc_write_response(buf0, SW_INS_INVALID);
 				return;
 			}
 
@@ -712,7 +703,10 @@ void nfc_process_iblock(uint8_t * buf, int len)
 			// WTX_on(WTX_TIME_DEFAULT);
             request_from_nfc(true);
             ctap_response_init(&ctap_resp);
-            status = ctap_request(apdu.data, apdu.lc, &ctap_resp);
+            delay(1);
+            printf1(TAG_NFC,"[%d] ", apdu->lc);
+            dump_hex1(TAG_NFC, apdu->data, apdu->lc);
+            status = ctap_request(apdu->data, apdu->lc, &ctap_resp);
             request_from_nfc(false);
 			// if (!WTX_off())
 			// 	return;
@@ -731,42 +725,102 @@ void nfc_process_iblock(uint8_t * buf, int len)
 			ctap_resp.data[ctap_resp.length - 1] = SW_SUCCESS & 0xff;
 
             printf1(TAG_NFC,"CTAP processing %d (took %d)\r\n", millis(), timestamp());
-			nfc_write_response_chaining(buf[0], ctap_resp.data, ctap_resp.length, apdu.extended_apdu);
+			nfc_write_response_chaining(buf0, ctap_resp.data, ctap_resp.length, apdu->extended_apdu);
             printf1(TAG_NFC,"CTAP answered %d (took %d)\r\n", millis(), timestamp());
         break;
 
         case APDU_INS_READ_BINARY:
             // response length
-            reslen = apdu.le & 0xffff; 
+            reslen = apdu->le & 0xffff; 
             switch(NFC_STATE.selected_applet)
             {
                 case APP_CAPABILITY_CONTAINER:
                     printf1(TAG_NFC,"APP_CAPABILITY_CONTAINER\r\n");
                     if (reslen == 0 || reslen > sizeof(NFC_CC))
                         reslen = sizeof(NFC_CC);
-                    nfc_write_response_ex(buf[0], (uint8_t *)&NFC_CC, reslen, SW_SUCCESS);
+                    nfc_write_response_ex(buf0, (uint8_t *)&NFC_CC, reslen, SW_SUCCESS);
                     ams_wait_for_tx(10);
                 break;
                 case APP_NDEF_TAG:
                     printf1(TAG_NFC,"APP_NDEF_TAG\r\n");
                     if (reslen == 0 || reslen > sizeof(NDEF_SAMPLE) - 1)
                         reslen = sizeof(NDEF_SAMPLE) - 1;
-                    nfc_write_response_ex(buf[0], NDEF_SAMPLE, reslen, SW_SUCCESS);
+                    nfc_write_response_ex(buf0, NDEF_SAMPLE, reslen, SW_SUCCESS);
                     ams_wait_for_tx(10);
                 break;
                 default:
-                    nfc_write_response(buf[0], SW_FILE_NOT_FOUND);
+                    nfc_write_response(buf0, SW_FILE_NOT_FOUND);
                     printf1(TAG_ERR, "No binary applet selected!\r\n");
                     return;
                 break;
             }
         break;
         
+        case  APDU_SOLO_RESET:
+            if (apdu->lc == 4 && !memcmp(apdu->data, "\x12\x56\xab\xf0", 4)) {
+                printf1(TAG_NFC, "Reset...\r\n");
+                delay(10);
+                device_reboot();
+                while(1);
+            } else {
+                printf1(TAG_NFC, "Reset FAIL\r\n");
+                nfc_write_response(buf0, SW_INS_INVALID);
+            }
+        break;
+        
         default:
-            printf1(TAG_NFC, "Unknown INS %02x\r\n", apdu.ins);
-			nfc_write_response(buf[0], SW_INS_INVALID);
+            printf1(TAG_NFC, "Unknown INS %02x\r\n", apdu->ins);
+			nfc_write_response(buf0, SW_INS_INVALID);
         break;
     }
+}
+
+void nfc_process_iblock(uint8_t * buf, int len)
+{
+    uint8_t block_offset = p14443_block_offset(buf[0]);
+    
+    // clear tx chain buffer if we have some other command than GET RESPONSE
+    if (chain_buffer_tx && buf[block_offset + 1] != APDU_GET_RESPONSE) {
+        chain_buffer_len = 0;
+        chain_buffer_tx = false;
+    }
+    
+    APDU_STRUCT apdu;
+    if (apdu_decode(buf + block_offset, len - block_offset, &apdu)) {
+        printf1(TAG_NFC,"apdu decode error\r\n");
+        nfc_write_response(buf[0], SW_COND_USE_NOT_SATISFIED);
+        return;
+    }
+    printf1(TAG_NFC,"apdu ok. %scase=%02x cla=%02x ins=%02x p1=%02x p2=%02x lc=%d le=%d\r\n", 
+        apdu.extended_apdu ? "[e]":"", apdu.case_type, apdu.cla, apdu.ins, apdu.p1, apdu.p2, apdu.lc, apdu.le);
+
+    // APDU level chaining. ISO7816-4, 5.1.1. class byte
+    if (!chain_buffer_tx && buf[block_offset] & 0x10) {
+        
+        if (chain_buffer_len + len > sizeof(chain_buffer)) {
+            nfc_write_response(buf[0], SW_WRONG_LENGTH);
+            return;
+        }
+        
+        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;
+    }
+    
+    // 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!
+        printf1(TAG_NFC, "APDU chaining merge. %d/%d\r\n", chain_buffer_len, apdu.lc);
+    }
+
+    
+    apdu_process(buf[0], &buf[block_offset], &apdu);
     
     printf1(TAG_NFC,"prev.Iblock: ");
 	dump_hex1(TAG_NFC, buf, len);
@@ -803,7 +857,7 @@ void nfc_process_block(uint8_t * buf, unsigned int len)
         uint8_t block_offset = p14443_block_offset(buf[0]);
 		if (buf[0] & 0x10)
 		{
-			printf1(TAG_NFC_APDU, "NFC_CMD_IBLOCK chaining blen=%d len=%d\r\n", ibuflen, len);
+			printf1(TAG_NFC_APDU, "NFC_CMD_IBLOCK chaining blen=%d len=%d offs=%d\r\n", ibuflen, len, block_offset);
 			if (ibuflen + len > sizeof(ibuf))
 			{
 				printf1(TAG_NFC, "I block memory error! must have %d but have only %d\r\n", ibuflen + len, sizeof(ibuf));
@@ -836,14 +890,15 @@ void nfc_process_block(uint8_t * buf, unsigned int len)
 				memmove(ibuf, buf, block_offset);
 				ibuflen += block_offset;
 
-				printf1(TAG_NFC_APDU, "NFC_CMD_IBLOCK chaining last block. blen=%d len=%d\r\n", ibuflen, len);
+				printf1(TAG_NFC_APDU, "NFC_CMD_IBLOCK chaining last block. blen=%d len=%d offset=%d\r\n", ibuflen, len, block_offset);
 
 				printf1(TAG_NFC_APDU,"i> ");
 				dump_hex1(TAG_NFC_APDU, buf, len);
 
 				nfc_process_iblock(ibuf, ibuflen);
 			} else {
-				nfc_process_iblock(buf, len);
+                memcpy(ibuf, buf, len); // because buf only 32b
+				nfc_process_iblock(ibuf, len);
 			}
 			clear_ibuf();
 		}