proxmark3/client/emv/emvjson.c
Oleg Moiseenko 6b882a3918 Fido U2F complete (#716)
* add pkwrite
* asn1print
* asn1dump and CA
* added PrintAndLogEx for merge commits between repo easier than now
* changelog
2018-11-25 16:56:12 +01:00

403 lines
10 KiB
C

//-----------------------------------------------------------------------------
// Copyright (C) 2018 Merlok
//
// This code is licensed to you under the terms of the GNU GPL, version 2 or,
// at your option, any later version. See the LICENSE.txt file for the text of
// the license.
//-----------------------------------------------------------------------------
// EMV json logic
//-----------------------------------------------------------------------------
#include "emvjson.h"
#include <ctype.h>
#include <stdio.h>
#include <stdlib.h>
#include <inttypes.h>
#include <string.h>
#include "util.h"
#include "ui.h"
#include "proxmark3.h"
#include "emv_tags.h"
static const ApplicationDataElm ApplicationData[] = {
{0x82, "AIP"},
{0x94, "AFL"},
{0x5A, "PAN"},
{0x5F34, "PANSeqNo"},
{0x5F24, "ExpirationDate"},
{0x5F25, "EffectiveDate"},
{0x5F28, "IssuerCountryCode"},
{0x50, "ApplicationLabel"},
{0x9F08, "VersionNumber"},
{0x9F42, "CurrencyCode"},
{0x5F2D, "LanguagePreference"},
{0x87, "PriorityIndicator"},
{0x9F36, "ATC"}, //Application Transaction Counter
{0x5F20, "CardholderName"},
{0x9F38, "PDOL"},
{0x8C, "CDOL1"},
{0x8D, "CDOL2"},
{0x9F07, "AUC"}, // Application Usage Control
{0x9F6C, "CTQ"},
{0x8E, "CVMList"},
{0x9F0D, "IACDefault"},
{0x9F0E, "IACDeny"},
{0x9F0F, "IACOnline"},
{0x8F, "CertificationAuthorityPublicKeyIndex"},
{0x9F32, "IssuerPublicKeyExponent"},
{0x92, "IssuerPublicKeyRemainder"},
{0x90, "IssuerPublicKeyCertificate"},
{0x9F47, "ICCPublicKeyExponent"},
{0x9F46, "ICCPublicKeyCertificate"},
{0x00, "end..."}
};
int ApplicationDataLen = sizeof(ApplicationData) / sizeof(ApplicationDataElm);
char* GetApplicationDataName(tlv_tag_t tag) {
for (int i = 0; i < ApplicationDataLen; i++)
if (ApplicationData[i].Tag == tag)
return ApplicationData[i].Name;
return NULL;
}
int JsonSaveJsonObject(json_t *root, char *path, json_t *value) {
json_error_t error;
if (strlen(path) < 1)
return 1;
if (path[0] == '$') {
if (json_path_set(root, path, value, 0, &error)) {
PrintAndLog("ERROR: can't set json path: ", error.text);
return 2;
} else {
return 0;
}
} else {
return json_object_set_new(root, path, value);
}
}
int JsonSaveInt(json_t *root, char *path, int value) {
return JsonSaveJsonObject(root, path, json_integer(value));
}
int JsonSaveStr(json_t *root, char *path, char *value) {
return JsonSaveJsonObject(root, path, json_string(value));
};
int JsonSaveBufAsHexCompact(json_t *elm, char *path, uint8_t *data, size_t datalen) {
char * msg = sprint_hex_inrow(data, datalen);
if (msg && strlen(msg) && msg[strlen(msg) - 1] == ' ')
msg[strlen(msg) - 1] = '\0';
return JsonSaveStr(elm, path, msg);
}
int JsonSaveBufAsHex(json_t *elm, char *path, uint8_t *data, size_t datalen) {
char * msg = sprint_hex(data, datalen);
if (msg && strlen(msg) && msg[strlen(msg) - 1] == ' ')
msg[strlen(msg) - 1] = '\0';
return JsonSaveStr(elm, path, msg);
}
int JsonSaveHex(json_t *elm, char *path, uint64_t data, int datalen) {
uint8_t bdata[8] = {0};
int len = 0;
if (!datalen) {
for (uint64_t u = 0xffffffffffffffff; u; u = u << 8) {
if (!(data & u)) {
break;
}
len++;
}
if (!len)
len = 1;
} else {
len = datalen;
}
num_to_bytes(data, len, bdata);
return JsonSaveBufAsHex(elm, path, bdata, len);
}
int JsonSaveTLVValue(json_t *root, char *path, struct tlvdb *tlvdbelm) {
const struct tlv *tlvelm = tlvdb_get_tlv(tlvdbelm);
if (tlvelm)
return JsonSaveBufAsHex(root, path, (uint8_t *)tlvelm->value, tlvelm->len);
else
return 1;
}
int JsonSaveTLVElm(json_t *elm, char *path, struct tlv *tlvelm, bool saveName, bool saveValue, bool saveAppDataLink) {
json_error_t error;
if (strlen(path) < 1 || !tlvelm)
return 1;
if (path[0] == '$') {
json_t *obj = json_path_get(elm, path);
if (!obj) {
obj = json_object();
if (json_is_array(elm)) {
if (json_array_append_new(elm, obj)) {
PrintAndLog("ERROR: can't append array: %s", path);
return 2;
}
} else {
if (json_path_set(elm, path, obj, 0, &error)) {
PrintAndLog("ERROR: can't set json path: ", error.text);
return 2;
}
}
}
if (saveAppDataLink) {
char * AppDataName = GetApplicationDataName(tlvelm->tag);
if (AppDataName)
JsonSaveStr(obj, "appdata", AppDataName);
} else {
char * name = emv_get_tag_name(tlvelm);
if (saveName && name && strlen(name) > 0 && strncmp(name, "Unknown", 7))
JsonSaveStr(obj, "name", emv_get_tag_name(tlvelm));
JsonSaveHex(obj, "tag", tlvelm->tag, 0);
if (saveValue) {
JsonSaveHex(obj, "length", tlvelm->len, 0);
JsonSaveBufAsHex(obj, "value", (uint8_t *)tlvelm->value, tlvelm->len);
};
}
}
return 0;
}
int JsonSaveTLVTreeElm(json_t *elm, char *path, struct tlvdb *tlvdbelm, bool saveName, bool saveValue, bool saveAppDataLink) {
return JsonSaveTLVElm(elm, path, (struct tlv *)tlvdb_get_tlv(tlvdbelm), saveName, saveValue, saveAppDataLink);
}
int JsonSaveTLVTree(json_t *root, json_t *elm, char *path, struct tlvdb *tlvdbelm) {
struct tlvdb *tlvp = tlvdbelm;
while (tlvp) {
const struct tlv * tlvpelm = tlvdb_get_tlv(tlvp);
char * AppDataName = NULL;
if (tlvpelm)
AppDataName = GetApplicationDataName(tlvpelm->tag);
if (AppDataName) {
char appdatalink[200] = {0};
sprintf(appdatalink, "$.ApplicationData.%s", AppDataName);
JsonSaveBufAsHex(root, appdatalink, (uint8_t *)tlvpelm->value, tlvpelm->len);
}
json_t *pelm = json_path_get(elm, path);
if (pelm && json_is_array(pelm)) {
json_t *appendelm = json_object();
json_array_append_new(pelm, appendelm);
JsonSaveTLVTreeElm(appendelm, "$", tlvp, !AppDataName, !tlvdb_elm_get_children(tlvp), AppDataName);
pelm = appendelm;
} else {
JsonSaveTLVTreeElm(elm, path, tlvp, !AppDataName, !tlvdb_elm_get_children(tlvp), AppDataName);
pelm = json_path_get(elm, path);
}
if (tlvdb_elm_get_children(tlvp)) {
// get path element
if(!pelm)
return 1;
// check childs element and add it if not found
json_t *chjson = json_path_get(pelm, "$.Childs");
if (!chjson) {
json_object_set_new(pelm, "Childs", json_array());
chjson = json_path_get(pelm, "$.Childs");
}
// check
if (!json_is_array(chjson)) {
PrintAndLog("E->Internal logic error. `$.Childs` is not an array.");
break;
}
// Recursion
JsonSaveTLVTree(root, chjson, "$", tlvdb_elm_get_children(tlvp));
}
tlvp = tlvdb_elm_get_next(tlvp);
}
return 0;
}
bool HexToBuffer(const char *errormsg, const char *hexvalue, uint8_t * buffer, size_t maxbufferlen, size_t *bufferlen) {
int buflen = 0;
switch(param_gethex_to_eol(hexvalue, 0, buffer, maxbufferlen, &buflen)) {
case 1:
PrintAndLog("%s Invalid HEX value.", errormsg);
return false;
case 2:
PrintAndLog("%s Hex value too large.", errormsg);
return false;
case 3:
PrintAndLog("%s Hex value must have even number of digits.", errormsg);
return false;
}
if (buflen > maxbufferlen) {
PrintAndLog("%s HEX length (%d) more than %d", errormsg, *bufferlen, maxbufferlen);
return false;
}
*bufferlen = buflen;
return true;
}
int JsonLoadStr(json_t *root, char *path, char *value) {
if (!value)
return 1;
json_t *jelm = json_path_get((const json_t *)root, path);
if (!jelm || !json_is_string(jelm))
return 2;
const char * strval = json_string_value(jelm);
if (!strval)
return 1;
memcpy(value, strval, strlen(strval));
return 0;
}
int JsonLoadBufAsHex(json_t *elm, char *path, uint8_t *data, size_t maxbufferlen, size_t *datalen) {
if (datalen)
*datalen = 0;
json_t *jelm = json_path_get((const json_t *)elm, path);
if (!jelm || !json_is_string(jelm))
return 1;
if (!HexToBuffer("ERROR load", json_string_value(jelm), data, maxbufferlen, datalen))
return 2;
return 0;
};
bool ParamLoadFromJson(struct tlvdb *tlv) {
json_t *root;
json_error_t error;
if (!tlv) {
PrintAndLog("ERROR load params: tlv tree is NULL.");
return false;
}
// current path + file name
const char *relfname = "emv/defparams.json";
char fname[strlen(get_my_executable_directory()) + strlen(relfname) + 1];
strcpy(fname, get_my_executable_directory());
strcat(fname, relfname);
root = json_load_file(fname, 0, &error);
if (!root) {
PrintAndLog("Load params: json error on line %d: %s", error.line, error.text);
return false;
}
if (!json_is_array(root)) {
PrintAndLog("Load params: Invalid json format. root must be array.");
return false;
}
PrintAndLog("Load params: json(%d) OK", json_array_size(root));
for(int i = 0; i < json_array_size(root); i++) {
json_t *data, *jtag, *jlength, *jvalue;
data = json_array_get(root, i);
if(!json_is_object(data))
{
PrintAndLog("Load params: data [%d] is not an object", i + 1);
json_decref(root);
return false;
}
jtag = json_object_get(data, "tag");
if(!json_is_string(jtag))
{
PrintAndLog("Load params: data [%d] tag is not a string", i + 1);
json_decref(root);
return false;
}
const char *tlvTag = json_string_value(jtag);
jvalue = json_object_get(data, "value");
if(!json_is_string(jvalue))
{
PrintAndLog("Load params: data [%d] value is not a string", i + 1);
json_decref(root);
return false;
}
const char *tlvValue = json_string_value(jvalue);
jlength = json_object_get(data, "length");
if(!json_is_number(jlength))
{
PrintAndLog("Load params: data [%d] length is not a number", i + 1);
json_decref(root);
return false;
}
int tlvLength = json_integer_value(jlength);
if (tlvLength > 250) {
PrintAndLog("Load params: data [%d] length more than 250", i + 1);
json_decref(root);
return false;
}
PrintAndLog("TLV param: %s[%d]=%s", tlvTag, tlvLength, tlvValue);
uint8_t buf[251] = {0};
size_t buflen = 0;
// here max length must be 4, but now tlv_tag_t is 2-byte var. so let it be 2 by now... TODO: needs refactoring tlv_tag_t...
if (!HexToBuffer("TLV Error type:", tlvTag, buf, 2, &buflen)) {
json_decref(root);
return false;
}
tlv_tag_t tag = 0;
for (int i = 0; i < buflen; i++) {
tag = (tag << 8) + buf[i];
}
if (!HexToBuffer("TLV Error value:", tlvValue, buf, sizeof(buf) - 1, &buflen)) {
json_decref(root);
return false;
}
if (buflen != tlvLength) {
PrintAndLog("Load params: data [%d] length of HEX must(%d) be identical to length in TLV param(%d)", i + 1, buflen, tlvLength);
json_decref(root);
return false;
}
tlvdb_change_or_add_node(tlv, tag, tlvLength, (const unsigned char *)buf);
}
json_decref(root);
return true;
}