Merge branch 'RfidResearchGroup:master' into pm3generic-flash

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Alejandro 2023-01-24 23:02:19 +01:00 committed by GitHub
commit c9fb1f2cc7
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9 changed files with 195 additions and 147 deletions

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@ -1367,3 +1367,5 @@ This project uses the changelog in accordance with [keepchangelog](http://keepac
### Added
- iClass functionality: full simulation of iclass tags, so tags can be simulated with data (not only CSN). Not yet support for write/update, but readers do not seem to enforce update. (@holiman).
- iClass decryption. Proxmark can now decrypt data on an iclass tag, but requires you to have the HID decryption key locally on your computer, as this is not bundled with the sourcecode.
- `hf 15 info` can detect NTAG 5 tags
- `hf 15 info` include an EAS status check on more of the icode tags which support EAS (SLI, SLIX, SLIX-L, and SLIX-S)

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@ -50,12 +50,12 @@ define KNOWN_STANDALONE_DEFINITIONS
| LF_ICEHID | LF HID collector to flashmem |
| (RDV4 only) | |
+----------------------------------------------------------+
| LF_NEXID | LF Nexwatch collector to flashmem |
| (RDV4 only) | |
+----------------------------------------------------------+
| LF_NEDAP_SIM | LF Nedap ID simple simulator |
| | |
+----------------------------------------------------------+
| LF_NEXID | LF Nexwatch collector to flashmem |
| (RDV4 only) | |
+----------------------------------------------------------+
| LF_PROXBRUTE | HID ProxII bruteforce |
| | - Brad Antoniewicz |
+----------------------------------------------------------+
@ -125,8 +125,10 @@ define KNOWN_STANDALONE_DEFINITIONS
endef
STANDALONE_MODES := LF_SKELETON LF_EM4100EMUL LF_EM4100RSWB LF_EM4100RSWW LF_EM4100RWC LF_HIDBRUTE LF_HIDFCBRUTE LF_ICEHID LF_PROXBRUTE LF_PROX2BRUTE LF_SAMYRUN LF_THAREXDE LF_NEXID LF_NEDAP_SIM
STANDALONE_MODES += HF_14ASNIFF HF_14BSNIFF HF_15SNIFF HF_AVEFUL HF_BOG HF_COLIN HF_CRAFTBYTE HF_ICECLASS HF_LEGIC HF_LEGICSIM HF_MATTYRUN HF_MFCSIM HF_MSDSAL HF_TCPRST HF_TMUDFORD HF_YOUNG HF_REBLAY DANKARMULTI
STANDALONE_MODES := LF_SKELETON
STANDALONE_MODES += LF_EM4100EMUL LF_EM4100RSWB LF_EM4100RSWW LF_EM4100RWC LF_HIDBRUTE LF_HIDFCBRUTE LF_ICEHID LF_NEDAP_SIM LF_NEXID LF_PROXBRUTE LF_PROX2BRUTE LF_SAMYRUN LF_THAREXDE
STANDALONE_MODES += HF_14ASNIFF HF_14BSNIFF HF_15SNIFF HF_AVEFUL HF_BOG HF_COLIN HF_CRAFTBYTE HF_ICECLASS HF_LEGIC HF_LEGICSIM HF_MATTYRUN HF_MFCSIM HF_MSDSAL HF_REBLAY HF_TCPRST HF_TMUDFORD HF_YOUNG
STANDALONE_MODES += DANKARMULTI
STANDALONE_MODES_REQ_BT := HF_REBLAY
STANDALONE_MODES_REQ_SMARTCARD :=
STANDALONE_MODES_REQ_FLASH := LF_HIDFCBRUTE LF_ICEHID LF_NEXID LF_THAREXDE HF_BOG HF_COLIN HF_ICECLASS HF_LEGICSIM HF_MFCSIM

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@ -21,6 +21,42 @@ SRC_STANDALONE = placeholder.c
ifneq (,$(findstring WITH_STANDALONE_LF_SKELETON,$(APP_CFLAGS)))
SRC_STANDALONE = lf_skeleton.c
endif
# WITH_STANDALONE_LF_EM4100EMUL
ifneq (,$(findstring WITH_STANDALONE_LF_EM4100EMUL,$(APP_CFLAGS)))
SRC_STANDALONE = lf_em4100emul.c
endif
# WITH_STANDALONE_LF_EM4100RSWB
ifneq (,$(findstring WITH_STANDALONE_LF_EM4100RSWB,$(APP_CFLAGS)))
SRC_STANDALONE = lf_em4100rswb.c
endif
# WITH_STANDALONE_LF_EM4100RSWW
ifneq (,$(findstring WITH_STANDALONE_LF_EM4100RSWW,$(APP_CFLAGS)))
SRC_STANDALONE = lf_em4100rsww.c
endif
# WITH_STANDALONE_LF_EM4100RWC
ifneq (,$(findstring WITH_STANDALONE_LF_EM4100RWC,$(APP_CFLAGS)))
SRC_STANDALONE = lf_em4100rwc.c
endif
# WITH_STANDALONE_LF_HIDBRUTE
ifneq (,$(findstring WITH_STANDALONE_LF_HIDBRUTE,$(APP_CFLAGS)))
SRC_STANDALONE = lf_hidbrute.c
endif
# WITH_STANDALONE_LF_HIDFCBRUTE
ifneq (,$(findstring WITH_STANDALONE_LF_HIDFCBRUTE,$(APP_CFLAGS)))
SRC_STANDALONE = lf_hidfcbrute.c
endif
# WITH_STANDALONE_LF_ICEHID
ifneq (,$(findstring WITH_STANDALONE_LF_ICEHID,$(APP_CFLAGS)))
SRC_STANDALONE = lf_icehid.c
endif
# WITH_STANDALONE_LF_NEDAP_SIM
ifneq (,$(findstring WITH_STANDALONE_LF_NEDAP_SIM,$(APP_CFLAGS)))
SRC_STANDALONE = lf_nedap_sim.c
endif
# WITH_STANDALONE_LF_NEXID
ifneq (,$(findstring WITH_STANDALONE_LF_NEXID,$(APP_CFLAGS)))
SRC_STANDALONE = lf_nexid.c
endif
# WITH_STANDALONE_LF_SAMYRUN
ifneq (,$(findstring WITH_STANDALONE_LF_SAMYRUN,$(APP_CFLAGS)))
SRC_STANDALONE = lf_samyrun.c
@ -33,29 +69,9 @@ endif
ifneq (,$(findstring WITH_STANDALONE_LF_PROX2BRUTE,$(APP_CFLAGS)))
SRC_STANDALONE = lf_prox2brute.c
endif
# WITH_STANDALONE_LF_HIDBRUTE
ifneq (,$(findstring WITH_STANDALONE_LF_HIDBRUTE,$(APP_CFLAGS)))
SRC_STANDALONE = lf_hidbrute.c
endif
# WITH_STANDALONE_LF_HIDFCBRUTE
ifneq (,$(findstring WITH_STANDALONE_LF_HIDFCBRUTE,$(APP_CFLAGS)))
SRC_STANDALONE = lf_hidfcbrute.c
endif
# WITH_STANDALONE_HF_YOUNG
ifneq (,$(findstring WITH_STANDALONE_HF_YOUNG,$(APP_CFLAGS)))
SRC_STANDALONE = hf_young.c
endif
# WITH_STANDALONE_HF_MATTYRUN
ifneq (,$(findstring WITH_STANDALONE_HF_MATTYRUN,$(APP_CFLAGS)))
SRC_STANDALONE = hf_mattyrun.c
endif
# WITH_STANDALONE_HF_COLIN
ifneq (,$(findstring WITH_STANDALONE_HF_COLIN,$(APP_CFLAGS)))
SRC_STANDALONE = vtsend.c hf_colin.c frozen.c nprintf.c
endif
# WITH_STANDALONE_HF_BOG
ifneq (,$(findstring WITH_STANDALONE_HF_BOG,$(APP_CFLAGS)))
SRC_STANDALONE = hf_bog.c
# WITH_STANDALONE_LF_THAREXDE
ifneq (,$(findstring WITH_STANDALONE_LF_THAREXDE,$(APP_CFLAGS)))
SRC_STANDALONE = lf_tharexde.c
endif
# WITH_STANDALONE_HF_14ASNIFF
ifneq (,$(findstring WITH_STANDALONE_HF_14ASNIFF,$(APP_CFLAGS)))
@ -73,33 +89,21 @@ endif
ifneq (,$(findstring WITH_STANDALONE_HF_AVEFUL,$(APP_CFLAGS)))
SRC_STANDALONE = hf_aveful.c
endif
# WITH_STANDALONE_HF_TCPRST
ifneq (,$(findstring WITH_STANDALONE_HF_TCPRST,$(APP_CFLAGS)))
SRC_STANDALONE = hf_tcprst.c
# WITH_STANDALONE_HF_BOG
ifneq (,$(findstring WITH_STANDALONE_HF_BOG,$(APP_CFLAGS)))
SRC_STANDALONE = hf_bog.c
endif
# WITH_STANDALONE_LF_ICEHID
ifneq (,$(findstring WITH_STANDALONE_LF_ICEHID,$(APP_CFLAGS)))
SRC_STANDALONE = lf_icehid.c
# WITH_STANDALONE_HF_COLIN
ifneq (,$(findstring WITH_STANDALONE_HF_COLIN,$(APP_CFLAGS)))
SRC_STANDALONE = vtsend.c hf_colin.c frozen.c nprintf.c
endif
# WITH_STANDALONE_LF_NEXID
ifneq (,$(findstring WITH_STANDALONE_LF_NEXID,$(APP_CFLAGS)))
SRC_STANDALONE = lf_nexid.c
# WITH_STANDALONE_HF_CRAFTBYTE
ifneq (,$(findstring WITH_STANDALONE_HF_CRAFTBYTE,$(APP_CFLAGS)))
SRC_STANDALONE = hf_craftbyte.c
endif
# WITH_STANDALONE_LF_EM4100EMUL
ifneq (,$(findstring WITH_STANDALONE_LF_EM4100EMUL,$(APP_CFLAGS)))
SRC_STANDALONE = lf_em4100emul.c
endif
# WITH_STANDALONE_LF_EM4100RSWB
ifneq (,$(findstring WITH_STANDALONE_LF_EM4100RSWB,$(APP_CFLAGS)))
SRC_STANDALONE = lf_em4100rswb.c
endif
# WITH_STANDALONE_LF_EM4100RSWW
ifneq (,$(findstring WITH_STANDALONE_LF_EM4100RSWW,$(APP_CFLAGS)))
SRC_STANDALONE = lf_em4100rsww.c
endif
# WITH_STANDALONE_LF_EM4100RWC
ifneq (,$(findstring WITH_STANDALONE_LF_EM4100RWC,$(APP_CFLAGS)))
SRC_STANDALONE = lf_em4100rwc.c
# WITH_STANDALONE_HF_ICECLASS
ifneq (,$(findstring WITH_STANDALONE_HF_ICECLASS,$(APP_CFLAGS)))
SRC_STANDALONE = hf_iceclass.c
endif
# WITH_STANDALONE_HF_LEGIC
ifneq (,$(findstring WITH_STANDALONE_HF_LEGIC,$(APP_CFLAGS)))
@ -109,37 +113,33 @@ endif
ifneq (,$(findstring WITH_STANDALONE_HF_LEGICSIM,$(APP_CFLAGS)))
SRC_STANDALONE = hf_legicsim.c
endif
# WITH_STANDALONE_HF_MATTYRUN
ifneq (,$(findstring WITH_STANDALONE_HF_MATTYRUN,$(APP_CFLAGS)))
SRC_STANDALONE = hf_mattyrun.c
endif
# WITH_STANDALONE_HF_MFCSIM
ifneq (,$(findstring WITH_STANDALONE_HF_MFCSIM,$(APP_CFLAGS)))
SRC_STANDALONE = hf_mfcsim.c
endif
# WITH_STANDALONE_HF_MSDSAL
ifneq (,$(findstring WITH_STANDALONE_HF_MSDSAL,$(APP_CFLAGS)))
SRC_STANDALONE = hf_msdsal.c
endif
# WITH_STANDALONE_HF_ICECLASS
ifneq (,$(findstring WITH_STANDALONE_HF_ICECLASS,$(APP_CFLAGS)))
SRC_STANDALONE = hf_iceclass.c
# WITH_STANDALONE_HF_REBLAY
ifneq (,$(findstring WITH_STANDALONE_HF_REBLAY,$(APP_CFLAGS)))
SRC_STANDALONE = hf_reblay.c
endif
# WITH_STANDALONE_LF_THAREXDE
ifneq (,$(findstring WITH_STANDALONE_LF_THAREXDE,$(APP_CFLAGS)))
SRC_STANDALONE = lf_tharexde.c
endif
# WITH_STANDALONE_HF_CRAFTBYTE
ifneq (,$(findstring WITH_STANDALONE_HF_CRAFTBYTE,$(APP_CFLAGS)))
SRC_STANDALONE = hf_craftbyte.c
# WITH_STANDALONE_HF_TCPRST
ifneq (,$(findstring WITH_STANDALONE_HF_TCPRST,$(APP_CFLAGS)))
SRC_STANDALONE = hf_tcprst.c
endif
# WITH_STANDALONE_HF_TMUDFORD
ifneq (,$(findstring WITH_STANDALONE_HF_TMUDFORD,$(APP_CFLAGS)))
SRC_STANDALONE = hf_tmudford.c
endif
# WITH_STANDALONE_HF_REBLAY
ifneq (,$(findstring WITH_STANDALONE_HF_REBLAY,$(APP_CFLAGS)))
SRC_STANDALONE = hf_reblay.c
endif
# WITH_STANDALONE_HF_MFCSIM
ifneq (,$(findstring WITH_STANDALONE_HF_MFCSIM,$(APP_CFLAGS)))
SRC_STANDALONE = hf_mfcsim.c
endif
# WITH_STANDALONE_LF_NEDAP_SIM
ifneq (,$(findstring WITH_STANDALONE_LF_NEDAP_SIM,$(APP_CFLAGS)))
SRC_STANDALONE = lf_nedap_sim.c
# WITH_STANDALONE_HF_YOUNG
ifneq (,$(findstring WITH_STANDALONE_HF_YOUNG,$(APP_CFLAGS)))
SRC_STANDALONE = hf_young.c
endif
ifneq (,$(findstring WITH_STANDALONE_DANKARMULTI,$(APP_CFLAGS)))

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@ -1,5 +1,5 @@
//-----------------------------------------------------------------------------
// Copyright (C) Brad Antoniewicz 2011
// Copyright (C) Yann Gascuel 2023
// Copyright (C) Proxmark3 contributors. See AUTHORS.md for details.
//
// This program is free software: you can redistribute it and/or modify

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@ -100,6 +100,8 @@ STANDALONE_MODES_REQ_FLASH :=
STANDALONE_MODES_REQ_BT :=
```
Please respect alphabetic order!
## Update MAKEFILE.INC
^[Top](#top)
@ -117,6 +119,8 @@ ifneq (,$(findstring WITH_STANDALONE_LF_FOO,$(APP_CFLAGS)))
endif
```
Please respect alphabetic order!
## Adding identification string of your mode
^[Top](#top)
@ -174,9 +178,11 @@ Once you're ready to share your mode, please
* add a line in CHANGELOG.md
* add your mode in the modes table in `doc/md/Use_of_Proxmark/4_Advanced-compilation-parameters.md`
* add your mode in `tools/build_all_firmwares.sh`
* add your mode in `tools/build_all_firmwares.sh` such that it reflects `armsrc/Standalone/Makefile.hal` list of firmwares to build.
and submit your PR.
Please respect alphabetic order of standalone modes everywhere!
Then submit your PR.
Once approved, add also your mode in https://github.com/RfidResearchGroup/proxmark3/wiki/Standalone-mode

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@ -294,6 +294,7 @@ set (TARGET_SOURCES
${PM3_ROOT}/client/src/cmdhfseos.c
${PM3_ROOT}/client/src/cmdhfst.c
${PM3_ROOT}/client/src/cmdhfst25ta.c
${PM3_ROOT}/client/src/cmdhftesla.c
${PM3_ROOT}/client/src/cmdhftexkom.c
${PM3_ROOT}/client/src/cmdhfthinfilm.c
${PM3_ROOT}/client/src/cmdhftopaz.c

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@ -99,6 +99,7 @@ static const productName_t uidmapping[] = {
//I-Code SLIX-L [IC id = 03 + bit36 set to 1]
{ 0xE004000000000000LL, 16, "NXP Semiconductors Germany (Philips)" },
{ 0xE004010000000000LL, 24, "NXP(Philips); IC SL2 ICS20/ICS21(SLI) ICS2002/ICS2102(SLIX) ICS2602(SLIX2)" },
{ 0xE004011800000000LL, 0xFFFFFF1800000000LL, "NXP(Philips); IC NTP53x2/NTP5210/NTA5332(NTAG 5)" },
{ 0xE004010000000000LL, 0xFFFFFF1800000000LL, "NXP(Philips); IC SL2 ICS20/ICS21(SLI)" },
{ 0xE004011000000000LL, 0xFFFFFF1800000000LL, "NXP(Philips); IC SL2 ICS2002/ICS2102(SLIX)" },
{ 0xE004010800000000LL, 0xFFFFFF1800000000LL, "NXP(Philips); IC SL2 ICS2602(SLIX2)" },
@ -651,6 +652,95 @@ static int CmdHF15Samples(const char *Cmd) {
return PM3_SUCCESS;
}
static int NxpTestEAS(uint8_t *uid)
{
uint8_t fast = 1;
uint8_t reply = 1;
PacketResponseNG resp;
uint16_t reqlen = 0;
uint8_t req[PM3_CMD_DATA_SIZE] = {0};
req[reqlen++] |= ISO15_REQ_SUBCARRIER_SINGLE | ISO15_REQ_DATARATE_HIGH | ISO15_REQ_NONINVENTORY | ISO15_REQ_ADDRESS;
req[reqlen++] = ISO15693_EAS_ALARM;
req[reqlen++] = 0x04; // IC manufacturer code
memcpy(req + 3, uid, 8); // add UID
reqlen += 8;
AddCrc15(req, reqlen);
reqlen += 2;
clearCommandBuffer();
SendCommandMIX(CMD_HF_ISO15693_COMMAND, reqlen, fast, reply, req, reqlen);
if (WaitForResponseTimeout(CMD_HF_ISO15693_COMMAND, &resp, 2000) == false) {
PrintAndLogEx(WARNING, "iso15693 timeout");
} else {
PrintAndLogEx(NORMAL, "");
if (resp.length < 2) {
PrintAndLogEx(INFO, " EAS (Electronic Article Surveillance) is not active");
} else {
uint8_t * recv = resp.data.asBytes;
if (!(recv[0] & ISO15_RES_ERROR)) {
PrintAndLogEx(INFO, " EAS (Electronic Article Surveillance) is active.");
PrintAndLogEx(INFO, " EAS sequence: %s", sprint_hex(recv + 1, 32));
}
}
}
return PM3_SUCCESS;
}
static int NxpCheckSig(uint8_t *uid) {
uint8_t fast = 1;
uint8_t reply = 1;
PacketResponseNG resp;
uint16_t reqlen = 0;
uint8_t req[PM3_CMD_DATA_SIZE] = {0};
// Check if we can also read the signature
req[reqlen++] |= ISO15_REQ_SUBCARRIER_SINGLE | ISO15_REQ_DATARATE_HIGH | ISO15_REQ_NONINVENTORY | ISO15_REQ_ADDRESS;
req[reqlen++] = ISO15693_READ_SIGNATURE;
req[reqlen++] = 0x04; // IC manufacturer code
memcpy(req + 3, uid, 8); // add UID
reqlen += 8;
AddCrc15(req, reqlen);
reqlen += 2;
clearCommandBuffer();
SendCommandMIX(CMD_HF_ISO15693_COMMAND, reqlen, fast, reply, req, reqlen);
if (WaitForResponseTimeout(CMD_HF_ISO15693_COMMAND, &resp, 2000) == false) {
PrintAndLogEx(WARNING, "iso15693 timeout");
DropField();
return PM3_ETIMEOUT;
}
DropField();
if (resp.length < 2) {
PrintAndLogEx(WARNING, "iso15693 card doesn't answer to READ SIGNATURE command");
return PM3_EWRONGANSWER;
}
uint8_t *recv = resp.data.asBytes;
if ((recv[0] & ISO15_RES_ERROR) == ISO15_RES_ERROR) {
PrintAndLogEx(ERR, "iso15693 card returned error %i: %s", recv[0], TagErrorStr(recv[0]));
return PM3_EWRONGANSWER;
}
uint8_t signature[32] = {0x00};
memcpy(signature, recv + 1, 32);
nxp_15693_print_signature(uid, signature);
return PM3_SUCCESS;
}
// Get NXP system information from SLIX2 tag/VICC
static int NxpSysInfo(uint8_t *uid) {
@ -732,77 +822,11 @@ static int NxpSysInfo(uint8_t *uid) {
PrintAndLogEx(INFO, " * Additional 32 bits feature flags are%s transmitted", ((recv[5] & 0x80) ? "" : " not"));
if (support_easmode) {
reqlen = 0;
req[reqlen++] |= ISO15_REQ_SUBCARRIER_SINGLE | ISO15_REQ_DATARATE_HIGH | ISO15_REQ_NONINVENTORY | ISO15_REQ_ADDRESS;
req[reqlen++] = ISO15693_EAS_ALARM;
req[reqlen++] = 0x04; // IC manufacturer code
memcpy(req + 3, uid, 8); // add UID
reqlen += 8;
AddCrc15(req, reqlen);
reqlen += 2;
clearCommandBuffer();
SendCommandMIX(CMD_HF_ISO15693_COMMAND, reqlen, fast, reply, req, reqlen);
if (WaitForResponseTimeout(CMD_HF_ISO15693_COMMAND, &resp, 2000) == false) {
PrintAndLogEx(WARNING, "iso15693 timeout");
} else {
PrintAndLogEx(NORMAL, "");
if (resp.length < 2) {
PrintAndLogEx(INFO, " EAS (Electronic Article Surveillance) is not active");
} else {
recv = resp.data.asBytes;
if (!(recv[0] & ISO15_RES_ERROR)) {
PrintAndLogEx(INFO, " EAS (Electronic Article Surveillance) is active.");
PrintAndLogEx(INFO, " EAS sequence: %s", sprint_hex(recv + 1, 32));
}
}
}
NxpTestEAS(uid);
}
if (support_signature) {
// Check if we can also read the signature
reqlen = 0;
req[reqlen++] |= ISO15_REQ_SUBCARRIER_SINGLE | ISO15_REQ_DATARATE_HIGH | ISO15_REQ_NONINVENTORY | ISO15_REQ_ADDRESS;
req[reqlen++] = ISO15693_READ_SIGNATURE;
req[reqlen++] = 0x04; // IC manufacturer code
memcpy(req + 3, uid, 8); // add UID
reqlen += 8;
AddCrc15(req, reqlen);
reqlen += 2;
clearCommandBuffer();
SendCommandMIX(CMD_HF_ISO15693_COMMAND, reqlen, fast, reply, req, reqlen);
if (WaitForResponseTimeout(CMD_HF_ISO15693_COMMAND, &resp, 2000) == false) {
PrintAndLogEx(WARNING, "iso15693 timeout");
DropField();
return PM3_ETIMEOUT;
}
DropField();
if (resp.length < 2) {
PrintAndLogEx(WARNING, "iso15693 card doesn't answer to READ SIGNATURE command");
return PM3_EWRONGANSWER;
}
recv = resp.data.asBytes;
if ((recv[0] & ISO15_RES_ERROR) == ISO15_RES_ERROR) {
PrintAndLogEx(ERR, "iso15693 card returned error %i: %s", recv[0], TagErrorStr(recv[0]));
return PM3_EWRONGANSWER;
}
uint8_t signature[32] = {0x00};
memcpy(signature, recv + 1, 32);
nxp_15693_print_signature(uid, signature);
NxpCheckSig(uid);
}
return PM3_SUCCESS;
@ -945,6 +969,16 @@ static int CmdHF15Info(const char *Cmd) {
PrintAndLogEx(DEBUG, "SLIX2 Detected, getting NXP System Info");
return NxpSysInfo(uid);
}
else if(data[8] == 0x04 && data[7] == 0x01 && nxp_version == 0x18) //If it is an NTAG 5
{
PrintAndLogEx(DEBUG, "NTAG 5 Detected, getting NXP System Info");
return NxpSysInfo(uid);
}
else if(data[8] == 0x04 && (data[7] == 0x01 || data[7] == 0x02 || data[7] == 0x03)) //If SLI, SLIX, SLIX-l, or SLIX-S check EAS status
{
PrintAndLogEx(DEBUG, "SLI, SLIX, SLIX-L, or SLIX-S Detected checking EAS status");
return NxpTestEAS(uid);
}
PrintAndLogEx(NORMAL, "");
return PM3_SUCCESS;

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@ -111,6 +111,7 @@ Here are the supported values you can assign to `STANDALONE` in `Makefile.platfo
| LF_NEDAP_SIM | LF Nedap ID simulator
| LF_NEXID | Nexwatch credentials detection mode - jrjgjk & Zolorah
| LF_PROXBRUTE | HID ProxII bruteforce - Brad Antoniewicz
| LF_PROX2BRUTE | HID ProxII bruteforce v2 - Yann Gascuel
| LF_SAMYRUN (def)| HID26 read/clone/sim - Samy Kamkar
| LF_SKELETON | standalone mode skeleton - Iceman1001
| LF_THAREXDE | LF EM4x50 simulator/read standalone mode - tharexde
@ -119,8 +120,8 @@ Here are the supported values you can assign to `STANDALONE` in `Makefile.platfo
| HF_15SNIFF | 15693 sniff storing to flashmem - Glaser
| HF_AVEFUL | MIFARE Ultralight read/simulation - Ave Ozkal
| HF_BOG | 14a sniff with ULC/ULEV1/NTAG auth storing in flashmem - Bogito
| HF_CRAFTBYTE | UID stealer - Emulates scanned 14a UID - Anze Jensterle
| HF_COLIN | Mifare ultra fast sniff/sim/clone - Colin Brigato
| HF_CRAFTBYTE | UID stealer - Emulates scanned 14a UID - Anze Jensterle
| HF_ICECLASS | iCLASS 4-1 mode sim/read & dump/loclass/glitch & config to flashmem - Iceman1001
| HF_LEGIC | HF Legic Prime Read/Store/Sim standalone - uhei
| HF_LEGICSIM | HF Legic Prime Simulate standalone - uhei

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@ -30,8 +30,10 @@ mkdir -p "$DEST"
mv bootrom/obj/bootrom.elf "$DEST/PM3BOOTROM.elf"
# cf armsrc/Standalone/Makefile.hal
STANDALONE_MODES=(LF_SKELETON LF_EM4100EMUL LF_EM4100RSWB LF_EM4100RSWW LF_EM4100RWC LF_HIDBRUTE LF_HIDFCBRUTE LF_ICEHID LF_PROXBRUTE LF_SAMYRUN LF_THAREXDE LF_NEXID LF_NEDAP_SIM)
STANDALONE_MODES+=(HF_14ASNIFF HF_14BSNIFF HF_15SNIFF HF_AVEFUL HF_BOG HF_COLIN HF_CRAFTBYTE HF_ICECLASS HF_LEGIC HF_LEGICSIM HF_MATTYRUN HF_MFCSIM HF_MSDSAL HF_TCPRST HF_TMUDFORD HF_YOUNG HF_REBLAY DANKARMULTI)
STANDALONE_MODES=(LF_SKELETON)
STANDALONE_MODES+=(LF_EM4100EMUL LF_EM4100RSWB LF_EM4100RSWW LF_EM4100RWC LF_HIDBRUTE LF_HIDFCBRUTE LF_ICEHID LF_NEDAP_SIM LF_NEXID LF_PROXBRUTE LF_PROX2BRUTE LF_SAMYRUN LF_THAREXDE)
STANDALONE_MODES+=(HF_14ASNIFF HF_14BSNIFF HF_15SNIFF HF_AVEFUL HF_BOG HF_COLIN HF_CRAFTBYTE HF_ICECLASS HF_LEGIC HF_LEGICSIM HF_MATTYRUN HF_MFCSIM HF_MSDSAL HF_REBLAY HF_TCPRST HF_TMUDFORD HF_YOUNG)
STANDALONE_MODES+=(DANKARMULTI)
STANDALONE_MODES_REQ_BT=(HF_REBLAY)
STANDALONE_MODES_REQ_SMARTCARD=()
STANDALONE_MODES_REQ_FLASH=(LF_HIDFCBRUTE LF_ICEHID LF_NEXID LF_THAREXDE HF_BOG HF_COLIN HF_ICECLASS HF_LEGICSIM HF_MFCSIM)