Difference between revisions of "Manual:IP/IPsec"

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<b>Sub-menu:</b> <code>/ip ipsec</code><br />
 
<b>Sub-menu:</b> <code>/ip ipsec</code><br />
 
<b>Package required:</b> <code>security</code><br />
 
<b>Package required:</b> <code>security</code><br />
<b>Standards:</b> <code>RFC 4301</code><br />
 
 
</p>
 
</p>
  
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IpSec protocol suite can be divided in following groups:
+
IPsec protocol suite can be divided in following groups:
 +
* <b>Internet Key Exchange (IKE)</b> protocols. Dynamically generates and distributes cryptographic keys for AH and ESP.
 
* <b>Authentication Header (AH)</b> RFC 4302
 
* <b>Authentication Header (AH)</b> RFC 4302
 
* <b>Encapsulating Security Payload (ESP)</b> RFC 4303
 
* <b>Encapsulating Security Payload (ESP)</b> RFC 4303
* <b>Internet Key Exchange (IKE)</b> protocols. Dynamically generates and distributes cryptographic keys for AH and ESP.
 
  
 
==Internet Key Exchange Protocol (IKE)==
 
==Internet Key Exchange Protocol (IKE)==
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{{Warning | Phase 1 is not re-keyed if DPD is disabled when lifetime expires, only phase 2 is re-keyed. To force phase 1 re-key, enable DPD.}}
 
{{Warning | Phase 1 is not re-keyed if DPD is disabled when lifetime expires, only phase 2 is re-keyed. To force phase 1 re-key, enable DPD.}}
 +
 +
{{Warning | PSK authentication was known to be vulnerable against Offline attacks in "aggressive" mode, however recent discoveries indicate that offline attack is possible also in case of "main" and "ike2" exchange modes. General recommendation is to avoid using PSK authentication method.}}
  
 
IKE can optionally provide a Perfect Forward Secrecy (PFS), which is a property of key exchanges, that, in turn, means for IKE that compromising the long term phase 1 key will not allow to easily gain access to all IPsec data that is protected by SAs established through this phase 1. It means an additional keying material is generated for each phase 2.
 
IKE can optionally provide a Perfect Forward Secrecy (PFS), which is a property of key exchanges, that, in turn, means for IKE that compromising the long term phase 1 key will not allow to easily gain access to all IPsec data that is protected by SAs established through this phase 1. It means an additional keying material is generated for each phase 2.
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<tr><td>Group 16</td><td>4096 bits MODP group</td><td>RFC 3526</td></tr>
 
<tr><td>Group 16</td><td>4096 bits MODP group</td><td>RFC 3526</td></tr>
 
<tr><td>Group 17</td><td>6144 bits MODP group</td><td>RFC 3526</td></tr>
 
<tr><td>Group 17</td><td>6144 bits MODP group</td><td>RFC 3526</td></tr>
 +
<tr><td>Group 18</td><td>8192 bits MODP group</td><td>RFC 3526</td></tr>
 +
<tr><td>Group 19</td><td>256 bits random ECP group</td><td>RFC 5903</td></tr>
 +
<tr><td>Group 20</td><td>384 bits random ECP group</td><td>RFC 5903</td></tr>
 +
<tr><td>Group 21</td><td>521 bits random ECP group</td><td>RFC 5903</td></tr>
 
</table>
 
</table>
  
Line 199: Line 204:
 
<tr>
 
<tr>
 
<th rowspan=2 style="border-right: 2px solid white;">RouterBoard</th>
 
<th rowspan=2 style="border-right: 2px solid white;">RouterBoard</th>
 +
<th colspan=4 style="border-right: 2px solid white;">DES and 3DES</th>
 
<th colspan=4 style="border-right: 2px solid white;">AES-CBC</th>
 
<th colspan=4 style="border-right: 2px solid white;">AES-CBC</th>
 
<th colspan=4 style="border-right: 2px solid white;">AES-CTR</th>
 
<th colspan=4 style="border-right: 2px solid white;">AES-CTR</th>
Line 204: Line 210:
 
</tr>
 
</tr>
 
<tr>
 
<tr>
 +
<th>MD5</th>
 +
<th>SHA1</th>
 +
<th>SHA256</th>
 +
<th style="border-right: 2px solid white;">SHA512</th>
 
<th>MD5</th>
 
<th>MD5</th>
 
<th>SHA1</th>
 
<th>SHA1</th>
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<th>SHA512</th>
 
<th>SHA512</th>
 
</tr>
 
</tr>
<tr><td>[https://mikrotik.com/product/cap_ac RBcAPGi-5acD2nD (cAP ac)] *</td><td>no</td><td>yes</td><td>yes</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td></tr>
+
<tr><td>[https://mikrotik.com/product/cap_ac RBcAPGi-5acD2nD (cAP ac)] *</td>
<tr><td>[https://mikrotik.com/product/hap_ac2 RBD52G-5HacD2HnD (hAP ac<sup>2</sup>)] *</td><td>no</td><td>yes</td><td>yes</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td></tr>
+
<!-- DES and 3DES --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
<tr><td>[https://mikrotik.com/product/ldf_5_ac RBLDFG-5acD (LDF 5 ac)] *</td><td>no</td><td>yes</td><td>yes</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td></tr>
+
<!-- AES-CBC --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>  
<tr><td>[https://mikrotik.com/product/lhg_5_ac RBLHGG-5acD (LHG 5 ac)] *</td><td>no</td><td>yes</td><td>yes</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td></tr>
+
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>  
<tr><td>[https://mikrotik.com/product/lhg_xl_5_ac RBLHGG-5acD-XL (LHG XL 5 ac)] *</td><td>no</td><td>yes</td><td>yes</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td></tr>
+
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr>
<tr><td>[https://mikrotik.com/product/m11g RBM11G]</td><td>yes</td><td>yes</td><td>yes</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td></tr>
+
 
<tr><td>[https://mikrotik.com/product/rbm33g RBM33G]</td><td>yes</td><td>yes</td><td>yes</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td></tr>
+
<tr><td>[https://mikrotik.com/product/hap_ac2 RBD52G-5HacD2HnD (hAP ac<sup>2</sup>)] *</td>
<tr><td>[https://mikrotik.com/product/sxtsq_5_ac RBSXTsqG-5acD (SXTsq 5 ac)] *</td><td>no</td><td>yes</td><td>yes</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td></tr>
+
<!-- DES and 3DES --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
<tr><td>[https://mikrotik.com/product/RB750Gr3 RB750Gr3 (hEX)]</td><td>yes</td><td>yes</td><td>yes</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td></tr>
+
<!-- AES-CBC --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>  
<tr><td>[https://mikrotik.com/product/RB850Gx2 RB850Gx2] **</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td></tr>
+
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>  
<tr><td>[https://mikrotik.com/product/RB1100AHx2 RB1100AHx2]</td><td>yes</td><td>yes</td><td>yes</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td></tr>
+
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr>
<tr><td>[https://mikrotik.com/product/rb1100ahx4 RB1100AHx4]</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td></tr>
+
 
<tr><td>[https://mikrotik.com/product/RB1200 RB1200] ***</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>no</td><td>no</td><td>no</td><td>no</td></tr>
+
<tr><td>[https://mikrotik.com/product/disc_lite5_ac RBDiscG-5acD (DISC Lite5 ac)] *</td>
<tr><td>CCR series</td><td>yes</td><td>yes</td><td>yes</td><td>no</td><td>yes</td><td>yes</td><td>yes</td><td>no</td><td>no</td><td>no</td><td>no</td><td>no</td></tr>
+
<!-- DES and 3DES --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
<tr><td>x86 (AES-NI) ***</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td><td>yes</td></tr>
+
<!-- AES-CBC --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>  
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr>
 +
 
 +
<tr><td>[https://mikrotik.com/product/ldf_5_ac RBLDFG-5acD (LDF 5 ac)] *</td>
 +
<!-- DES and 3DES --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>  
 +
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr>
 +
 
 +
<tr><td>[https://mikrotik.com/product/lhg_5_ac RBLHGG-5acD (LHG 5 ac)] *</td>
 +
<!-- DES and 3DES --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>  
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr>
 +
 
 +
<tr><td>[https://mikrotik.com/product/lhg_xl_5_ac RBLHGG-5acD-XL (LHG XL 5 ac)] *</td>
 +
<!-- DES and 3DES --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>  
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr>
 +
 
 +
<tr><td>[https://mikrotik.com/product/wireless_wire_dish RBLHGG-60ad (Wireless Wire Dish)] *</td>
 +
<!-- DES and 3DES --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>  
 +
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>  
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr>
 +
 
 +
<tr><td>[https://mikrotik.com/product/m11g RBM11G] ****</td>
 +
<!-- DES and 3DES --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td>  
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr>
 +
 
 +
<tr><td>[https://mikrotik.com/product/rbm33g RBM33G] ****</td>
 +
<!-- DES and 3DES --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr>
 +
 
 +
<tr><td>[https://mikrotik.com/product/sxtsq_5_ac RBSXTsqG-5acD (SXTsq 5 ac)] *</td>
 +
<!-- DES and 3DES --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr>
 +
 
 +
<tr><td>[https://mikrotik.com/product/wap_60g RBwAPG-60ad (wAP 60G)] *</td>
 +
<!-- DES and 3DES --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr> 
 +
 
 +
<tr><td>[https://mikrotik.com/product/wap_60g_ap RBwAPG-60ad-A (wAP 60G AP)] *</td>
 +
<!-- DES and 3DES --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr> 
 +
 
 +
<tr><td>[https://mikrotik.com/product/rb450gx4 RB450Gx4] *</td>
 +
<!-- DES and 3DES --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr> 
 +
 
 +
<tr><td>[https://mikrotik.com/product/RB750Gr3 RB750Gr3 (hEX)] ****</td>
 +
<!-- DES and 3DES --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr> 
 +
 
 +
<tr><td>[https://mikrotik.com/product/hex_s RB760iGS (hEX S)] ****</td>
 +
<!-- DES and 3DES --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr> 
 +
 
 +
<tr><td>[https://mikrotik.com/product/RB850Gx2 RB850Gx2] **</td>
 +
<!-- DES and 3DES --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td>
 +
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr> 
 +
 
 +
<tr><td>[https://mikrotik.com/product/RB1100AHx2 RB1100AHx2]</td>
 +
<!-- DES and 3DES --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td>
 +
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr>
 +
 
 +
<tr><td>[https://mikrotik.com/product/rb1100ahx4 RB1100AHx4] and [https://mikrotik.com/product/RB1100Dx4 RB1100AHx4 Dude Edition]</td>
 +
<!-- DES and 3DES --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td>
 +
<!-- AES-CBC --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td>
 +
<!-- AES-CTR --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td>
 +
<!-- AES-GCM --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td></tr>
 +
 
 +
<tr><td>[https://mikrotik.com/product/RB1200 RB1200] ***</td>
 +
<!-- DES and 3DES --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td>
 +
<!-- AES-CTR --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td>
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr>
 +
 
 +
<tr><td>[https://mikrotik.com/product/RB3011UiAS-RM RB3011UiAS-RM] *</td>
 +
<!-- DES and 3DES --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CTR --><td style="background-color:lightpink">no</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr> 
 +
 
 +
<tr><td>[https://mikrotik.com/product/rb4011igs_rm RB4011iGS+RM] and [https://mikrotik.com/product/rb4011igs_5hacq2hnd_in RB4011iGS+5HacQ2HnD-IN]</td>
 +
<!-- DES and 3DES --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td>
 +
<!-- AES-CBC --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td>
 +
<!-- AES-CTR --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td>
 +
<!-- AES-GCM --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td></tr>
 +
 
 +
<tr><td>Cloud Core Router series</td>
 +
<!-- DES and 3DES --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CTR --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-GCM --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td></tr>
 +
 
 +
<tr><td>x86 (AES-NI) ***</td>
 +
<!-- DES and 3DES --><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td><td style="background-color:lightpink">no</td>
 +
<!-- AES-CBC --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td>
 +
<!-- AES-CTR --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td>
 +
<!-- AES-GCM --><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td><td style="background-color:lightgreen">yes</td></tr>
 
</table>
 
</table>
  
Line 239: Line 371:
  
 
<nowiki>***</nowiki> AES-CBC and AES-CTR only encryption is accelerated, hashing done in software
 
<nowiki>***</nowiki> AES-CBC and AES-CTR only encryption is accelerated, hashing done in software
 +
 +
<nowiki>****</nowiki> DES is not supported, only 3DES and AES-CBC
  
 
IPsec throughput results of various encryption and hash algorithm combinations are published on [https://mikrotik.com/product/ MikroTik products page]. When testing throughput, please follow the guidelines available in the  [[Manual:Tools/Traffic_Generator#IpSec_tunnel_performance_test|Traffic Generator manual page]]
 
IPsec throughput results of various encryption and hash algorithm combinations are published on [https://mikrotik.com/product/ MikroTik products page]. When testing throughput, please follow the guidelines available in the  [[Manual:Tools/Traffic_Generator#IpSec_tunnel_performance_test|Traffic Generator manual page]]
Line 248: Line 382:
 
Policy table is used to determine whether security settings should be applied to a packet.
 
Policy table is used to determine whether security settings should be applied to a packet.
  
{{Warning | policy order is important starting form v6.40. Now it works similar as firewall filters where policies are executed from top to bottom (<var>priority</var> parameter is removed).}}
 
  
 +
'''Properties'''
  
 
{{Mr-arg-table-h
 
{{Mr-arg-table-h
Line 261: Line 395:
 
|default=encrypt
 
|default=encrypt
 
|desc=Specifies what to do with packet matched by the policy.
 
|desc=Specifies what to do with packet matched by the policy.
* <var>none</var> - pass the packet unchanged
+
* <var>none</var> - pass the packet unchanged.
* <var>discard</var> - drop the packet  
+
* <var>discard</var> - drop the packet.
* <var>encrypt</var> - apply transformations specified in this policy and it's SA  
+
* <var>encrypt</var> - apply transformations specified in this policy and it's SA.
 
}}
 
}}
  
Line 270: Line 404:
 
|type=string
 
|type=string
 
|default=
 
|default=
|desc=Short description of the policy
+
|desc=Short description of the policy.
 
}}
 
}}
  
Line 291: Line 425:
 
|type=integer:0..65535 {{!}} any
 
|type=integer:0..65535 {{!}} any
 
|default=any
 
|default=any
|desc=Destination port to be matched in packets. If set to '''any''' all ports will be matched
+
|desc=Destination port to be matched in packets. If set to <var>any</var> all ports will be matched.
 
}}
 
}}
  
Line 298: Line 432:
 
|type=string
 
|type=string
 
|default=default
 
|default=default
|desc=Name of the [[#Policy_Group | policy group]] to which this template is assigned.
+
|desc=Name of the [[#Groups | policy group]] to which this template is assigned.
 
}}
 
}}
  
Line 306: Line 440:
 
|type=ah {{!}} esp
 
|type=ah {{!}} esp
 
|default=esp
 
|default=esp
|desc=Specifies what combination  of Authentication Header and Encapsulating Security Payload protocols you want to apply to matched traffic
+
|desc=Specifies what combination  of Authentication Header and Encapsulating Security Payload protocols you want to apply to matched traffic.
 
}}
 
}}
  
Line 314: Line 448:
 
|default=require
 
|default=require
 
|desc=Specifies what to do if some of the SAs for this policy cannot be found:
 
|desc=Specifies what to do if some of the SAs for this policy cannot be found:
* <var>use</var> - skip this transform, do not drop packet and do not acquire SA from IKE daemon
+
* <var>use</var> - skip this transform, do not drop packet and do not acquire SA from IKE daemon;
* <var>require</var> - drop packet and acquire SA  
+
* <var>require</var> - drop packet and acquire SA;
 
* <var>unique</var> - drop packet and acquire a unique SA that is only used with this particular policy. It is used in setups where multiple clients can sit behind one public IP address (clients behind NAT).
 
* <var>unique</var> - drop packet and acquire a unique SA that is only used with this particular policy. It is used in setups where multiple clients can sit behind one public IP address (clients behind NAT).
}}
 
 
{{Mr-arg-table
 
|arg=manual-sa
 
|type=string {{!}} none
 
|default=none
 
|desc=Name of the [[#Manual SA|manual SA]] template
 
 
}}
 
}}
  
Line 330: Line 457:
 
|type=string
 
|type=string
 
|default=default
 
|default=default
|desc=Name of the [[#Proposal settings|proposal template]] that will be sent by IKE daemon to establish SAs for this policy.
+
|desc=Name of the [[#Policy_Proposals|proposal template]] that will be sent by IKE daemon to establish SAs for this policy.
 
}}
 
}}
  
Line 358: Line 485:
 
|type=ip/ipv6 prefix
 
|type=ip/ipv6 prefix
 
|default=0.0.0.0/32
 
|default=0.0.0.0/32
|desc=Source IP prefix
+
|desc=Source address to be matched in packets.
 
}}
 
}}
  
Line 365: Line 492:
 
|type=any {{!}} integer:0..65535
 
|type=any {{!}} integer:0..65535
 
|default=any
 
|default=any
|desc=Source Port of the packet
+
|desc=Source port to be matched in packets. If set to <var>any</var> all ports will be matched.
 
}}
 
}}
  
Line 372: Line 499:
 
|type=yes {{!}} no
 
|type=yes {{!}} no
 
|default=no
 
|default=no
|desc=Creates a template and assigns it to specified [[#Policy_Group | policy group]]
+
|desc=Creates a template and assigns it to specified [[#Groups | policy group]].
 
Following parameters are used by template:
 
Following parameters are used by template:
* src-address, dst-address - Requested subnet must match in both directions(for example 0.0.0.0/0 to allow all)
+
* <var>group</var> - name of the [[#Groups | policy group]] to which this template is assigned;
* protocol - protocol to match, if set to all, then any protocol is accepted
+
* <var>src-address</var>, <var>dst-address</var> - Requested subnet must match in both directions(for example 0.0.0.0/0 to allow all);
* proposal - SA parameters used for this template
+
* <var>protocol</var> - protocol to match, if set to all, then any protocol is accepted;
* level - useful when 'unique' is required in setups with multiple clients behind NAT.
+
* <var>proposal</var> - SA parameters used for this template;
 +
* <var>level</var> - useful when <var>unique</var> is required in setups with multiple clients behind NAT.
 
}}
 
}}
  
Line 384: Line 512:
 
|type=yes {{!}} no
 
|type=yes {{!}} no
 
|default=no
 
|default=no
|desc=Specifies whether to use tunnel mode
+
|desc=Specifies whether to use tunnel mode.
 
}}
 
}}
  
  
{{Note |
+
'''Read only properties'''
All packets are IPIP encapsulated in tunnel mode, and their new IP header's src-address and dst-address are set to sa-src-address and sa-dst-address values of this policy. If you do not use tunnel mode (id est you use transport mode), then only packets whose source and destination addresses are the same as sa-src-address and sa-dst-address can be processed by this policy. Transport mode can only work with packets that originate at and are destined for IPsec peers (hosts that established security associations). To encrypt traffic between networks (or a network and a host) you have to use tunnel mode.
+
 
 +
{{Mr-arg-table-h
 +
|prop=Property
 +
|desc=Description
 
}}
 
}}
  
 +
{{Mr-arg-ro-table
 +
|arg=active
 +
|type=yes {{!}} no
 +
|desc=Whether this policy is currently in use.
 +
}}
  
===Policy Stats===
+
{{Mr-arg-ro-table
 +
|arg=default
 +
|type=yes {{!}} no
 +
|desc=Whether this is a default system entry.
 +
}}
  
Read-only parameters
+
{{Mr-arg-ro-table
 +
|arg=dynamic
 +
|type=yes {{!}} no
 +
|desc=Whether this is a dynamically added or generated entry.
 +
}}
  
{{Mr-arg-table-h
+
{{Mr-arg-ro-table
|prop=Property
+
|arg=invalid
|desc=Description
+
|type=yes {{!}} no
 +
|desc=Whether this policy is invalid - possible cause is duplicate policy with the same <var>src-address</var> and <var>dst-address</var>.
 
}}
 
}}
  
Line 405: Line 550:
 
|arg=ph2-count
 
|arg=ph2-count
 
|type=integer
 
|type=integer
|desc=Number of active phase2 sessions associated with the policy.
+
|desc=Number of active phase 2 sessions associated with the policy.
 
}}
 
}}
  
Line 417: Line 562:
 
|arg=priority
 
|arg=priority
 
|type=
 
|type=
|desc=Shows kernel priority
+
|desc=Shows kernel priority.
 
}}
 
}}
  
  
Additionally you can get policy stats with command <b><code>/ip ipsec policy print stats</code></b> will show current status of the policy. Additional read-only parameters will be printed.
+
{{Warning | policy order is important starting form v6.40. Now it works similar as firewall filters where policies are executed from top to bottom (<var>priority</var> parameter is removed).}}
 +
 
 +
{{Note |
 +
All packets are IPIP encapsulated in tunnel mode, and their new IP header's src-address and dst-address are set to sa-src-address and sa-dst-address values of this policy. If you do not use tunnel mode (id est you use transport mode), then only packets whose source and destination addresses are the same as sa-src-address and sa-dst-address can be processed by this policy. Transport mode can only work with packets that originate at and are destined for IPsec peers (hosts that established security associations). To encrypt traffic between networks (or a network and a host) you have to use tunnel mode.
 +
}}
 +
 
 +
===Statistics===
 +
<p id="shbox"><b>Sub-menu:</b> <code>/ip ipsec statistics</code></p>
 +
 
 +
 
 +
This menu shows various IPsec statistics and errors.
 +
 
 +
 
 +
'''Read only properties'''
  
 
{{Mr-arg-table-h
 
{{Mr-arg-table-h
Line 429: Line 587:
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=in-accepted
+
|arg=in-errors
 
|type=integer
 
|type=integer
|desc=How many incoming packets were passed by the policy without an attempt to decrypt.
+
|desc=All inbound errors that are not matched by other counters.
 
}}
 
}}
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=in-dropped
+
|arg=in-buffer-errors
 
|type=integer
 
|type=integer
|desc=How many incoming packets were dropped by the policy without an attempt to decrypt
+
|desc=No free buffer.
 
}}
 
}}
 +
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=in-transformed
+
|arg=in-header-errors
 
|type=integer
 
|type=integer
|desc=How many incoming packets were decrypted (ESP) and/or verified (AH) by the policy
+
|desc=Header error.
 
}}
 
}}
 +
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=out-accepted
+
|arg=in-no-states
 
|type=integer
 
|type=integer
|desc=How many outgoing packets were passed by the policy without an attempt to encrypt.
+
|desc=No state is found i.e. either inbound SPI, address, or IPsec protocol at SA is wrong.
}}  
+
}}
 +
 
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=out-dropped
+
|arg=in-state-protocol-errors
 
|type=integer
 
|type=integer
|desc=How many outgoing packets were dropped by the policy without an attempt to encrypt.
+
|desc=Transformation protocol specific error, for example SA key is wrong or hardware accelerator is unable to handle amount of packets.
}}
 
 
 
{{Mr-arg-ro-table-end
 
|arg=out-transformed
 
|type=integer
 
|desc=How many outgoing packets were encrypted (ESP) and/or verified (AH) by the policy.
 
 
}}
 
}}
  
===Groups===
 
<p id="shbox"><b>Sub-menu:</b> <code>/ip ipsec policy group</code></p>
 
  
 +
{{Mr-arg-ro-table
 +
|arg=in-state-mode-errors
 +
|type=integer
 +
|desc=Transformation mode specific error.
 +
}}
  
In this menu it is possible to create additional policy groups used by policy templates.
 
  
 +
{{Mr-arg-ro-table
 +
|arg=in-state-sequence-errors
 +
|type=integer
 +
|desc=Sequence number is out of window.
 +
}}
  
'''Properties'''
 
  
{{Mr-arg-table-h
+
{{Mr-arg-ro-table
|prop=Property
+
|arg=in-state-expired
|desc=Description
+
|type=integer
 +
|desc=State is expired.
 
}}
 
}}
  
{{Mr-arg-table
+
{{Mr-arg-ro-table
|arg=name
+
|arg=in-state-mismatches
|type=string
+
|type=integer
|default=
+
|desc=State has mismatched option, for example UDP encapsulation type is mismatched.
|desc=
 
 
}}
 
}}
  
{{Mr-arg-table-end
+
{{Mr-arg-ro-table
|arg=comment
+
|arg=in-state-invalid
|type=string
+
|type=integer
|default=
+
|desc=State is invalid.
|desc=
 
 
}}
 
}}
  
===Statistics===
+
{{Mr-arg-ro-table
<p id="shbox"><b>Sub-menu:</b> <code>/ip ipsec statistics</code></p>
+
|arg=in-template-mismatches
 
+
|type=integer
 
+
|desc=No matching template for states, e.g. inbound SAs are correct but SP rule is wrong. Possible cause is mismatched sa-source or sa-destination address.
This menu shows various IPsec statistics and errors.
 
 
 
 
 
'''Read only properties'''
 
 
 
{{Mr-arg-table-h
 
|prop=Property
 
|desc=Description
 
 
}}
 
}}
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=in-errors
+
|arg=in-no-policies
 
|type=integer
 
|type=integer
|desc=All inbound errors that are not matched by other counters.
+
|desc=No policy is found for states, e.g. inbound SAs are correct but no SP is found.
 
}}
 
}}
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=in-buffer-errors
+
|arg=in-policy-blocked
 
|type=integer
 
|type=integer
|desc=No free buffer.
+
|desc=Policy discards.
 
}}
 
}}
 
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=in-header-errors
+
|arg=in-policy-errors
 
|type=integer
 
|type=integer
|desc=Header error.
+
|desc=Policy errors.
 
}}
 
}}
 
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=in-no-states
+
|arg=out-errors
 
|type=integer
 
|type=integer
|desc=No state is found i.e. either inbound SPI, address, or IPsec protocol at SA is wrong.
+
|desc=All outbound errors that are not matched by other counters.
 
}}
 
}}
 
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=in-state-protocol-errors
+
|arg=out-bundle-errors
 
|type=integer
 
|type=integer
|desc=Transformation protocol specific error, for example SA key is wrong or hardware accelerator is unable to handle amount of packets.
+
|desc=Bundle generation error.
 
}}
 
}}
 
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=in-state-mode-errors
+
|arg=out-bundle-check-errors
 
|type=integer
 
|type=integer
|desc=Transformation mode specific error.
+
|desc=Bundle check error.
 
}}
 
}}
 
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=in-state-sequence-errors
+
|arg=out-no-states
 
|type=integer
 
|type=integer
|desc=Sequence number is out of window.
+
|desc=No state is found.
 
}}
 
}}
 
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=in-state-expired
+
|arg=out-state-protocol-errors
 
|type=integer
 
|type=integer
|desc=State is expired.
+
|desc=Transformation protocol specific error.
 
}}
 
}}
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=in-state-mismatches
+
|arg=out-state-mode-errors
 
|type=integer
 
|type=integer
|desc=State has mismatched option, for example UDP encapsulation type is mismatched.  
+
|desc=Transformation mode specific error.
 
}}
 
}}
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=in-state-invalid
+
|arg=out-state-sequence-errors
 
|type=integer
 
|type=integer
|desc=State is invalid.
+
|desc=Sequence errors, for example sequence number overflow.
 
}}
 
}}
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=in-template-mismatches
+
|arg=out-state-expired
 
|type=integer
 
|type=integer
|desc=No matching template for states, e.g. inbound SAs are correct but SP rule is wrong. Possible cause is mismatched sa-source or sa-destination address.
+
|desc=State is expired.
 
}}
 
}}
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=in-no-policies
+
|arg=out-policy-blocked
 
|type=integer
 
|type=integer
|desc=No policy is found for states, e.g. inbound SAs are correct but no SP is found.
+
|desc=Policy discards.
 
}}
 
}}
  
 
{{Mr-arg-ro-table
 
{{Mr-arg-ro-table
|arg=in-policy-blocked
+
|arg=out-policy-dead
 
|type=integer
 
|type=integer
|desc=Policy discards.
+
|desc=Policy is dead.
 
}}
 
}}
  
{{Mr-arg-ro-table
+
{{Mr-arg-ro-table-end
|arg=in-policy-errors
+
|arg=out-policy-errors
 
|type=integer
 
|type=integer
|desc=Policy errors.
+
|desc=Policy error.
 
}}
 
}}
  
{{Mr-arg-ro-table
+
==Policy Proposals==
|arg=out-errors
+
<p id="shbox"><b>Sub-menu:</b> <code>/ip ipsec proposal</code></p>
|type=integer
+
 
|desc=All outbound errors that are not matched by other counters.
+
 
}}
+
Proposal information that will be sent by IKE daemons to establish SAs for certain policy.
  
{{Mr-arg-ro-table
 
|arg=out-bundle-errors
 
|type=integer
 
|desc=Bundle generation error.
 
}}
 
  
{{Mr-arg-ro-table
+
'''Properties'''
|arg=out-bundle-check-errors
 
|type=integer
 
|desc=Bundle check error.
 
}}
 
  
{{Mr-arg-ro-table
+
{{Mr-arg-table-h
|arg=out-no-states
+
|prop=Property
|type=integer
+
|desc=Description
|desc=No state is found.
 
 
}}
 
}}
  
{{Mr-arg-ro-table
+
{{Mr-arg-table
|arg=out-state-protocol-errors
+
|arg=auth-algorithms
|type=integer
+
|type=md5{{!}}null{{!}}sha1{{!}}sha256{{!}}sha512
|desc=Transformation protocol specific error.
+
|default=sha1
 +
|desc=Allowed algorithms for authorization. SHA (Secure Hash Algorithm) is stronger, but slower. MD5 uses 128-bit key, sha1-160bit key.
 
}}
 
}}
  
{{Mr-arg-ro-table
+
{{Mr-arg-table
|arg=out-state-mode-errors
+
|arg=comment
|type=integer
+
|type=string
|desc=Transformation mode specific error.
+
|default=
 +
|desc=
 
}}
 
}}
  
{{Mr-arg-ro-table
+
{{Mr-arg-table
|arg=out-state-sequence-errors
+
|arg=disabled
|type=integer
+
|type=yes {{!}} no
|desc=Sequence errors, for example sequence number overflow.
+
|default=no
 +
|desc=Whether item is disabled.
 
}}
 
}}
  
{{Mr-arg-ro-table
+
{{Mr-arg-table
|arg=out-state-expired
+
|arg=enc-algorithms
|type=integer
+
|type=null{{!}}des{{!}}3des{{!}}aes-128-cbc{{!}}aes-128-cbc{{!}}aes-128gcm{{!}}aes-192-cbc{{!}}aes-192-ctr{{!}}aes-192-gcm{{!}}aes-256-cbc{{!}}aes-256-ctr{{!}}aes-256-gcm{{!}}blowfish{{!}}camellia-128{{!}}camellia-192{{!}}camellia-256{{!}}twofish
|desc=State is expired.
+
|default=aes-256-cbc,aes-192-cbc,aes-128-cbc
 +
|desc=Allowed algorithms and key lengths to use for SAs.
 
}}
 
}}
  
{{Mr-arg-ro-table
+
{{Mr-arg-table
|arg=out-policy-blocked
+
|arg=lifetime
|type=integer
+
|type=time
|desc=Policy discards.
+
|default=30m
 +
|desc=How long to use SA before throwing it out.
 
}}
 
}}
  
{{Mr-arg-ro-table
+
{{Mr-arg-table
|arg=out-policy-dead
+
|arg=name
|type=integer
+
|type=string
|desc=Policy is dead.
+
|default=
 +
|desc=
 
}}
 
}}
  
{{Mr-arg-ro-table-end
+
{{Mr-arg-table-end
|arg=out-policy-errors
+
|arg=pfs-group
|type=integer
+
|type=ec2n155 {{!}} ec2n185 {{!}} ecp256 {{!}} ecp384 {{!}} ecp521 {{!}} modp768 {{!}} modp1024 {{!}} modp1536 {{!}} modp2048 {{!}} modp3072 {{!}} modp4096 {{!}} modp6144 {{!}} modp8192 {{!}} none
|desc=Policy error.
+
|default=modp1024
 +
|desc=Diffie-Helman group used for Perfect Forward Secrecy.
 
}}
 
}}
  
==Peers==
 
<p id="shbox"><b>Sub-menu:</b> <code>/ip ipsec peer</code></p>
 
  
 
+
'''Read only properties'''
Peer configuration settings are used to establish connections between IKE daemons. This connection then will be used to negotiate keys and algorithms for SAs. Exchange mode is the only unique identifier between the peers, meaning that there can be multiple peer configurations with the same <var>remote-address</var> as long as different <var>exchange-mode</var> is used.
 
 
 
 
 
'''Properties'''
 
  
 
{{Mr-arg-table-h
 
{{Mr-arg-table-h
Line 676: Line 813:
 
}}
 
}}
  
{{Mr-arg-table
+
{{Mr-arg-ro-table-end
|arg=address
+
|arg=default
|type=IP/IPv6 Prefix
+
|type=yes {{!}} no
|default=0.0.0.0/0
+
|default=
|desc=If remote peer's address matches this prefix, then the peer configuration is used in authentication and establishment of '''Phase 1'''. If several peer's addresses match several configuration entries, the most specific one (i.e. the one with largest netmask) will be used.
+
|desc=Whether this is a default system entry.
 
}}
 
}}
  
{{Mr-arg-table
+
==Groups==
|arg=auth-method
+
<p id="shbox"><b>Sub-menu:</b> <code>/ip ipsec policy group</code></p>
|type=eap-radius {{!}} pre-shared-key {{!}} pre-shared-key-xauth {{!}} rsa-signature {{!}} rsa-key {{!}} rsa-signature-hybrid
+
 
|default=pre-shared-key
+
 
|desc=Authentication method:
+
In this menu it is possible to create additional policy groups used by policy templates.
* <var>eap-radius</var> - IKEv2 EAP RADIUS passthrough authentication for responder (RFC 3579). Server certificate in this case is required. If server certificate is not specified then only clients supporting EAP-only (RFC 5998) will be able to connect. Note that EAP method should be compatible with EAP-only.
+
 
* <var>pre-shared-key</var> - authenticate by a password (secret) string shared between the peers
+
 
* <var>rsa-signature</var> - authenticate using a pair of RSA certificates
+
'''Properties'''
* <var>rsa-key</var> - authenticate using a RSA key imported in [[#Keys | Ipsec key]] menu.
 
* <var>pre-shared-key-xauth</var> - mutual PSK authentication + xauth username/password. <var>passive</var> parameter identifies server/client side
 
* <var>rsa-signature-hybrid</var> - responder certificate authentication with initiator Xauth. <var>passive</var> parameter identifies server/client side
 
  
 +
{{Mr-arg-table-h
 +
|prop=Property
 +
|desc=Description
 
}}
 
}}
  
 
{{Mr-arg-table
 
{{Mr-arg-table
|arg=certificate
+
|arg=name
 
|type=string
 
|type=string
 
|default=
 
|default=
|desc=Name of a certificate listed in [[M:System/Certificates | certificate table]] (signing packets; the certificate must have private key). Applicable if RSA signature authentication method (auth-method=rsa-signature) is used.
+
|desc=
 
}}
 
}}
  
{{Mr-arg-table
+
{{Mr-arg-table-end
 
|arg=comment
 
|arg=comment
 
|type=string
 
|type=string
 
|default=
 
|default=
|desc=Short description of the peer.
+
|desc=
 
}}
 
}}
  
{{Mr-arg-table
+
==Peers==
|arg=compatibility-options
+
<p id="shbox"><b>Sub-menu:</b> <code>/ip ipsec peer</code></p>
|type=skip-peer-id-validation
+
 
|default=
+
 
|desc=Compatibility options to work with peers not following RFC guidelines.
+
Peer configuration settings are used to establish connections between IKE daemons. This connection then will be used to negotiate keys and algorithms for SAs. Exchange mode is the only unique identifier between the peers, meaning that there can be multiple peer configurations with the same <var>remote-address</var> as long as different <var>exchange-mode</var> is used.
 +
 
 +
 
 +
'''Properties'''
 +
 
 +
{{Mr-arg-table-h
 +
|prop=Property
 +
|desc=Description
 
}}
 
}}
  
 
{{Mr-arg-table
 
{{Mr-arg-table
|arg=dh-group
+
|arg=address
|type=ec2n155  {{!}} ec2n185  {{!}} modp1024  {{!}} modp1536  {{!}} modp2048  {{!}} modp3072  {{!}} modp4096  {{!}} modp6144  {{!}} modp768
+
|type=IP/IPv6 Prefix
|default=modp1024
+
|default=0.0.0.0/0
|desc=[[#Diffie-Hellman Groups | Diffie-Hellman group]] (cipher strength)
+
|desc=If remote peer's address matches this prefix, then the peer configuration is used in authentication and establishment of '''Phase 1'''. If several peer's addresses match several configuration entries, the most specific one (i.e. the one with largest netmask) will be used.
 
}}
 
}}
  
 
{{Mr-arg-table
 
{{Mr-arg-table
|arg=disabled
+
|arg=auth-method
|type=yes {{!}} no
+
|type=eap-radius {{!}} pre-shared-key {{!}} pre-shared-key-xauth {{!}} rsa-signature {{!}} rsa-key {{!}} rsa-signature-hybrid
|default=no
+
|default=pre-shared-key
|desc=Whether peer is used to match remote peer's prefix.
+
|desc=Authentication method:
 +
* <var>eap-radius</var> - IKEv2 EAP RADIUS passthrough authentication for responder (RFC 3579). Server certificate in this case is required. If server certificate is not specified then only clients supporting EAP-only (RFC 5998) will be able to connect. Note that EAP method should be compatible with EAP-only.
 +
* <var>pre-shared-key</var> - authenticate by a password (secret) string shared between the peers (not recommended since Offline attack on PSK is possible)
 +
* <var>rsa-signature</var> - authenticate using a pair of RSA certificates
 +
* <var>rsa-key</var> - authenticate using a RSA key imported in [[#Keys | Ipsec key]] menu.
 +
* <var>pre-shared-key-xauth</var> - mutual PSK authentication + xauth username/password. <var>passive</var> parameter identifies server/client side
 +
* <var>rsa-signature-hybrid</var> - responder certificate authentication with initiator Xauth. <var>passive</var> parameter identifies server/client side
 +
 
 
}}
 
}}
  
 
{{Mr-arg-table
 
{{Mr-arg-table
|arg=dpd-interval
+
|arg=certificate
|type=time {{!}} disable-dpd
+
|type=string
|default=2m
+
|default=
|desc=Dead peer detection interval. If set to <var>disable-dpd</var>, dead peer detection will not be used.
+
|desc=Name of a certificate listed in [[M:System/Certificates | certificate table]] (signing packets; the certificate must have private key). Applicable if RSA signature authentication method (auth-method=rsa-signature) is used.
 
}}
 
}}
  
 
{{Mr-arg-table
 
{{Mr-arg-table
|arg=dpd-maximum-failures
+
|arg=comment
|type=integer: 1..100
+
|type=string
|default=5
+
|default=
|desc=Maximum count of failures until peer is considered to be dead. Applicable if DPD is enabled.
+
|desc=Short description of the peer.
 
}}
 
}}
  
 
{{Mr-arg-table
 
{{Mr-arg-table
|arg=enc-algorithm
+
|arg=compatibility-options
|type=3des {{!}} aes-128 {{!}} aes-192 {{!}} aes-256 {{!}} blowfish {{!}} camellia-128 {{!}} camellia-192 {{!}} camellia-256 {{!}} des
+
|type=skip-peer-id-validation
|default=aes-128
+
|default=
|desc=List of encryption algorithms that will be used by the peer.
+
|desc=Compatibility options to work with peers not following RFC guidelines.
 +
}}
 +
 
 +
{{Mr-arg-table
 +
|arg=disabled
 +
|type=yes {{!}} no
 +
|default=no
 +
|desc=Whether peer is used to match remote peer's prefix.
 
}}
 
}}
  
Line 758: Line 916:
 
|default=main
 
|default=main
 
|desc=Different ISAKMP phase 1 exchange modes according to RFC 2408. Do not use other modes then main unless you know what you are doing.
 
|desc=Different ISAKMP phase 1 exchange modes according to RFC 2408. Do not use other modes then main unless you know what you are doing.
'''main-l2tp''' mode relaxes rfc2409 section 5.4, to allow pre-shared-key authentication in main mode. <var>ike2</var> mode enables Ikev2 RFC 7296. Parameters that are ignored by Ikev2 <var>proposal-check</var>, <var>compatibility-options</var>, <var>lifebytes</var>, <var>dpd-maximum-failures</var>.
+
'''main-l2tp''' mode relaxes rfc2409 section 5.4, to allow pre-shared-key authentication in main mode. <var>ike2</var> mode enables Ikev2 RFC 7296. Parameters that are ignored by Ikev2 <var>proposal-check</var>, <var>compatibility-options</var>, <var>lifebytes</var>, <var>dpd-maximum-failures</var>, <var>nat-traversal</var>.
 
}}
 
}}
  
Line 769: Line 927:
 
* <var>port-override</var> -- generate policies and force policy to use '''any''' port (old behavior)
 
* <var>port-override</var> -- generate policies and force policy to use '''any''' port (old behavior)
 
* <var>port-strict</var> -- use ports from peer's proposal, which should match peer's policy
 
* <var>port-strict</var> -- use ports from peer's proposal, which should match peer's policy
}}
 
 
{{Mr-arg-table
 
|arg=hash-algorithm
 
|type=md5 {{!}} sha1 {{!}} sha256 {{!}} sha512
 
|default=sha1
 
|desc=Hashing algorithm. SHA (Secure Hash Algorithm) is stronger, but slower. MD5 uses 128-bit key, sha1-160bit key.
 
 
}}
 
}}
  
Line 786: Line 937:
  
 
{{Mr-arg-table
 
{{Mr-arg-table
|arg=lifebytes
+
|arg=local-address
|type=Integer: 0..4294967295
+
|type=IP/IPv6 Address
|default=0
+
|default=
|desc=Phase 1 lifebytes is used only as administrative value which is added to proposal. Used in cases if remote peer requires specific lifebytes value to establish phase 1.
+
|desc=Routers local address on which Phase 1 should be bounded to.
 
}}
 
}}
  
 
{{Mr-arg-table
 
{{Mr-arg-table
|arg=lifetime
+
|arg=mode-config
|type=time
+
|type=none {{!}} request-only {{!}} string
|default=1d
 
|desc=Phase 1 lifetime: specifies how long the SA will be valid.
 
}}
 
 
 
{{Mr-arg-table
 
|arg=local-address
 
|type=IP/IPv6 Address
 
|default=
 
|desc=Routers local address on which Phase 1 should be bounded to.
 
}}
 
 
 
{{Mr-arg-table
 
|arg=mode-config
 
|type=none {{!}} request-only {{!}} string
 
 
|default=none
 
|default=none
 
|desc=Name of the mode config parameters from [[#Mode_Config | <code>mode-config</code> menu]]. When parameter is set mode-config is enabled.  
 
|desc=Name of the mode config parameters from [[#Mode_Config | <code>mode-config</code> menu]]. When parameter is set mode-config is enabled.  
Line 826: Line 963:
 
* '''key-id''' - Use the specified key-id for the identity
 
* '''key-id''' - Use the specified key-id for the identity
  
}}
 
 
{{Mr-arg-table
 
|arg=nat-traversal
 
|type=yes {{!}} no
 
|default=no
 
|desc=Use Linux NAT-T mechanism to solve IPsec incompatibility with NAT routers inbetween IPsec peers. This can only be used with ESP protocol (AH is not supported by design, as it signs the complete packet, including IP header, which is changed by NAT, rendering AH signature invalid). The method encapsulates IPsec ESP traffic into UDP streams in order to overcome some minor issues that made ESP incompatible with NAT.
 
 
}}
 
}}
  
Line 864: Line 994:
  
 
{{Mr-arg-table
 
{{Mr-arg-table
|arg=proposal-check
+
|arg=profile
|type=claim {{!}} exact {{!}} obey {{!}} strict
+
|type=string
|default=obey
+
|default=default
|desc=Phase 2 lifetime check logic:
+
|desc=Name of the [[#Peer_Profiles|profile template]] that will be used during IKE negotiation.
* <var>claim</var> - take shortest of proposed and configured lifetimes and notify initiator about it
 
* <var>exact</var> -  require lifetimes to be the same
 
* <var>obey</var> -  accept whatever is sent by an initiator
 
* <var>strict</var> -  if proposed lifetime is longer than the default then reject proposal otherwise accept proposed lifetime
 
 
}}
 
}}
  
Line 939: Line 1,065:
 
IPSec phases information is erased, when /ip ipsec peer configuration is modified on the fly, however packets are being encrypted/decrypted because of installed-sa (for example remote-peers information is erased, when peer configuration is modified.}}
 
IPSec phases information is erased, when /ip ipsec peer configuration is modified on the fly, however packets are being encrypted/decrypted because of installed-sa (for example remote-peers information is erased, when peer configuration is modified.}}
  
==Remote Peers==
+
==Peer Profiles==
<p id="shbox"><b>Sub-menu:</b> <code>/ip ipsec remote-peers</code></p>
 
  
 +
Peer profiles defines a set of parameters that will be used for IKE negotiation during Phase 1. These parameters may be common with other peer configurations.
  
This menu provides various statistics about remote peers that currently have established phase 1 connection.
+
'''Properties'''
 
 
 
 
'''Read only properties'''
 
  
 
{{Mr-arg-table-h
 
{{Mr-arg-table-h
Line 953: Line 1,076:
 
}}
 
}}
  
{{Mr-arg-ro-table
+
{{Mr-arg-table
|arg=dynamic-address
+
|arg=dh-group
|type=ip/ipv6 address
+
|type=ec2n155  {{!}} ec2n185  {{!}} modp1024  {{!}} modp1536  {{!}} modp2048  {{!}} modp3072  {{!}} modp4096  {{!}} modp6144  {{!}} modp768
|desc=Dynamically assigned IP address by [[#Mode_configs | Mode config]]
+
|default=modp1024
 +
|desc=[[#Diffie-Hellman Groups | Diffie-Hellman group]] (cipher strength)
 
}}
 
}}
  
{{Mr-arg-ro-table
+
{{Mr-arg-table
|arg=last-seen
+
|arg=dpd-interval
|type=time
+
|type=time {{!}} disable-dpd
|desc=Duration since last message received by this peer.
+
|default=2m
 +
|desc=Dead peer detection interval. If set to <var>disable-dpd</var>, dead peer detection will not be used.
 
}}
 
}}
  
{{Mr-arg-ro-table
+
{{Mr-arg-table
|arg=local-address
+
|arg=dpd-maximum-failures
|type=ip/ipv6 address
+
|type=integer: 1..100
|desc=Local address on the router used by this peer.
+
|default=5
 +
|desc=Maximum count of failures until peer is considered to be dead. Applicable if DPD is enabled.
 
}}
 
}}
  
{{Mr-arg-ro-table
+
{{Mr-arg-table
|arg=natt-peer
+
|arg=enc-algorithm
|type=yes {{!}} no
+
|type=3des {{!}} aes-128 {{!}} aes-192 {{!}} aes-256 {{!}} blowfish {{!}} camellia-128 {{!}} camellia-192 {{!}} camellia-256 {{!}} des
|desc=Whether NAT-T is used for this peer.
+
|default=aes-128
 +
|desc=List of encryption algorithms that will be used by the peer.
 
}}
 
}}
  
{{Mr-arg-ro-table
+
{{Mr-arg-table
|arg=remote-address
+
|arg=hash-algorithm
|type=ip/ipv6 address
+
|type=md5 {{!}} sha1 {{!}} sha256 {{!}} sha512
|desc=Remote peer's ip/ipv6 address.
+
|default=sha1
 +
|desc=Hashing algorithm. SHA (Secure Hash Algorithm) is stronger, but slower. MD5 uses 128-bit key, sha1-160bit key.
 
}}
 
}}
  
{{Mr-arg-ro-table
+
{{Mr-arg-table
|arg=responder
+
|arg=lifebytes
|type=yes {{!}} no
+
|type=Integer: 0..4294967295
|desc=Whether the connection is initiated by remote peer.
+
|default=0
 +
|desc=Phase 1 lifebytes is used only as administrative value which is added to proposal. Used in cases if remote peer requires specific lifebytes value to establish phase 1.
 
}}
 
}}
  
{{Mr-arg-ro-table
+
{{Mr-arg-table
|arg=side
+
|arg=lifetime
|type=initiator {{!}} responder
+
|type=time
|desc=Shows which side initiated the Phase1 negotiation.
+
|default=1d
 +
|desc=Phase 1 lifetime: specifies how long the SA will be valid.
 
}}
 
}}
  
{{Mr-arg-ro-table
+
{{Mr-arg-table
|arg=state
+
|arg=name
 
|type=string
 
|type=string
|desc=State of phase 1 negotiation with the peer. For example when phase1 and phase 2 are negotiated it will show state "established".
+
|default=
 +
|desc=
 
}}
 
}}
  
{{Mr-arg-ro-table-end
+
{{Mr-arg-table
|arg=uptime
+
|arg=nat-traversal
|type=time
+
|type=yes {{!}} no
|desc=How long peers are in established state.
+
|default=yes
 +
|desc=Use Linux NAT-T mechanism to solve IPsec incompatibility with NAT routers inbetween IPsec peers. This can only be used with ESP protocol (AH is not supported by design, as it signs the complete packet, including IP header, which is changed by NAT, rendering AH signature invalid). The method encapsulates IPsec ESP traffic into UDP streams in order to overcome some minor issues that made ESP incompatible with NAT.
 
}}
 
}}
  
 
+
{{Mr-arg-table-end
'''Commands'''
+
|arg=proposal-check
 
+
|type=claim {{!}} exact {{!}} obey {{!}} strict
{{Mr-arg-table-h
+
|default=obey
|prop=Property
+
|desc=Phase 2 lifetime check logic:
|desc=Description
+
* <var>claim</var> - take shortest of proposed and configured lifetimes and notify initiator about it
 +
* <var>exact</var> -  require lifetimes to be the same
 +
* <var>obey</var> -  accept whatever is sent by an initiator
 +
* <var>strict</var> -  if proposed lifetime is longer than the default then reject proposal otherwise accept proposed lifetime
 
}}
 
}}
  
{{Mr-arg-ro-table-end
+
==Remote Peers==
|arg=kill-connections
+
<p id="shbox"><b>Sub-menu:</b> <code>/ip ipsec remote-peers</code></p>
|type=
 
|desc=Manually disconnects all remote peers.
 
}}
 
  
==Mode configs==
 
<p id="shbox"><b>Sub-menu:</b> <code>/ip ipsec mode-config</code></p>
 
  
 +
This menu provides various statistics about remote peers that currently have established phase 1 connection.
  
ISAKMP and IKEv2 configuration attributes are configured in this menu.
 
  
 
+
'''Read only properties'''
'''Properties'''
 
  
 
{{Mr-arg-table-h
 
{{Mr-arg-table-h
Line 1,035: Line 1,164:
 
}}
 
}}
  
{{Mr-arg-table
+
{{Mr-arg-ro-table
|arg=address-pool
+
|arg=dynamic-address
|type=none {{!}} string
+
|type=ip/ipv6 address
|default=
+
|desc=Dynamically assigned IP address by [[#Mode_configs | Mode config]]
|desc=Name of the address pool from which responder will try to assign address if mode-config is enabled.
 
 
}}
 
}}
  
{{Mr-arg-table
+
{{Mr-arg-ro-table
|arg=address-prefix-length
+
|arg=last-seen
|type=integer [1..32]
+
|type=time
|default=
+
|desc=Duration since last message received by this peer.
|desc=Prefix length (netmask) of assigned address from the pool.
 
 
}}
 
}}
  
{{Mr-arg-table
+
{{Mr-arg-ro-table
|arg=comment
+
|arg=local-address
|type=string
+
|type=ip/ipv6 address
|default=
+
|desc=Local address on the router used by this peer.
|desc=
 
 
}}
 
}}
  
{{Mr-arg-table
+
{{Mr-arg-ro-table
|arg=name
+
|arg=natt-peer
|type=string
+
|type=yes {{!}} no
|default=
+
|desc=Whether NAT-T is used for this peer.
|desc=
 
 
}}
 
}}
  
{{Mr-arg-table
+
{{Mr-arg-ro-table
|arg=split-include
+
|arg=remote-address
|type=list of IP prefix
+
|type=ip/ipv6 address
|default=
+
|desc=Remote peer's ip/ipv6 address.
|desc=List of subnets in CIDR format, which to tunnel. Subnets will be sent to the peer using CISCO UNITY extension, remote peer will create specific dynamic policies.
 
 
}}
 
}}
  
{{Mr-arg-table
+
{{Mr-arg-ro-table
|arg=static-dns
+
|arg=responder
|type=list of IP
+
|type=yes {{!}} no
|default=
+
|desc=Whether the connection is initiated by remote peer.
|desc=Manually specified DNS server's IP address to be sent to the client.
 
 
}}
 
}}
  
{{Mr-arg-table-end
+
{{Mr-arg-ro-table
|arg=system-dns
+
|arg=side
|type=yes {{!}} no
+
|type=initiator {{!}} responder
|default=
+
|desc=Shows which side initiated the Phase1 negotiation.
|desc=When this option is enabled DNS addresses will be taken from <code>/ip dns</code>.
 
 
}}
 
}}
  
 +
{{Mr-arg-ro-table
 +
|arg=state
 +
|type=string
 +
|desc=State of phase 1 negotiation with the peer. For example when phase1 and phase 2 are negotiated it will show state "established".
 +
}}
  
'''Read only properties'''
+
{{Mr-arg-ro-table-end
 
+
|arg=uptime
{{Mr-arg-table-h
+
|type=time
 +
|desc=How long peers are in established state.
 +
}}
 +
 
 +
 
 +
'''Commands'''
 +
 
 +
{{Mr-arg-table-h
 
|prop=Property
 
|prop=Property
 
|desc=Description
 
|desc=Description
Line 1,093: Line 1,227:
  
 
{{Mr-arg-ro-table-end
 
{{Mr-arg-ro-table-end
|arg=default
+
|arg=kill-connections
|type=yes {{!}} no
+
|type=
|default=
+
|desc=Manually disconnects all remote peers.
|desc=Whether this is a default system entry.
 
 
}}
 
}}
  
{{ Note | Not all IKE implementations support multiple split networks provided by split-include option. }}
+
==Mode configs==
 +
<p id="shbox"><b>Sub-menu:</b> <code>/ip ipsec mode-config</code></p>
  
{{ Note | If RouterOS client is initiator, it will always send CISCO UNITY extension, and RouterOS supports only split-include from this extension.}}
 
  
{{ Note | It is not possible to use system-dns and static-dns at the same time.}}
+
ISAKMP and IKEv2 configuration attributes are configured in this menu.
 
 
==Proposals==
 
<p id="shbox"><b>Sub-menu:</b> <code>/ip ipsec proposal</code></p>
 
 
 
 
 
Proposal information that will be sent by IKE daemons to establish SAs for certain policy.
 
  
  
Line 1,120: Line 1,247:
  
 
{{Mr-arg-table
 
{{Mr-arg-table
|arg=auth-algorithms
+
|arg=address-pool
|type=md5{{!}}null{{!}}sha1{{!}}sha256{{!}}sha512
+
|type=none {{!}} string
|default=sha1
+
|default=
|desc=Allowed algorithms for authorization. SHA (Secure Hash Algorithm) is stronger, but slower. MD5 uses 128-bit key, sha1-160bit key.
+
|desc=Name of the address pool from which responder will try to assign address if mode-config is enabled.
 +
}}
 +
 
 +
{{Mr-arg-table
 +
|arg=address-prefix-length
 +
|type=integer [1..32]
 +
|default=
 +
|desc=Prefix length (netmask) of assigned address from the pool.
 
}}
 
}}
  
Line 1,134: Line 1,268:
  
 
{{Mr-arg-table
 
{{Mr-arg-table
|arg=disabled
+
|arg=name
 +
|type=string
 +
|default=
 +
|desc=
 +
}}
 +
 
 +
{{Mr-arg-table
 +
|arg=responder
 
|type=yes {{!}} no
 
|type=yes {{!}} no
 
|default=no
 
|default=no
|desc=Whether item is disabled.
+
|desc=Specifies whether the configuration will work as an initiator (client) or responder (server). Initiator will request for mode-config parameters from responder.
 
}}
 
}}
  
 
{{Mr-arg-table
 
{{Mr-arg-table
|arg=enc-algorithms
+
|arg=split-include
|type=null{{!}}des{{!}}3des{{!}}aes-128-cbc{{!}}aes-128-cbc{{!}}aes-128gcm{{!}}aes-192-cbc{{!}}aes-192-ctr{{!}}aes-192-gcm{{!}}aes-256-cbc{{!}}aes-256-ctr{{!}}aes-256-gcm{{!}}blowfish{{!}}camellia-128{{!}}camellia-192{{!}}camellia-256{{!}}twofish
+
|type=list of IP prefix
|default=aes-256-cbc,aes-192-cbc,aes-128-cbc
+
|default=
|desc=Allowed algorithms and key lengths to use for SAs.
+
|desc=List of subnets in CIDR format, which to tunnel. Subnets will be sent to the peer using CISCO UNITY extension, remote peer will create specific dynamic policies.
 
}}
 
}}
  
 
{{Mr-arg-table
 
{{Mr-arg-table
|arg=lifetime
+
|arg=src-address-list
|type=time
+
|type=address list
|default=30m
+
|default=
|desc=How long to use SA before throwing it out.
+
|desc=Specifying an address list will generate dynamic source NAT rules. This parameter is only available with <var>responder=no</var>. [[#RoadWarrior_client_with_NAT | RoadWarrior client with NAT]]
 
}}
 
}}
  
 
{{Mr-arg-table
 
{{Mr-arg-table
|arg=name
+
|arg=static-dns
|type=string
+
|type=list of IP
 
|default=
 
|default=
|desc=
+
|desc=Manually specified DNS server's IP address to be sent to the client.
 
}}
 
}}
  
 
{{Mr-arg-table-end
 
{{Mr-arg-table-end
|arg=pfs-group
+
|arg=system-dns
|type=ec2n155 {{!}} ec2n185 {{!}} ecp256 {{!}} ecp384 {{!}} ecp521 {{!}} modp768 {{!}} modp1024 {{!}} modp1536 {{!}} modp2048 {{!}} modp3072 {{!}} modp4096 {{!}} modp6144 {{!}} modp8192 {{!}} none
+
|type=yes {{!}} no
|default=modp1024
+
|default=
|desc=Diffie-Helman group used for Perfect Forward Secrecy.
+
|desc=When this option is enabled DNS addresses will be taken from <code>/ip dns</code>.
 
}}
 
}}
  
Line 1,182: Line 1,323:
 
|desc=Whether this is a default system entry.
 
|desc=Whether this is a default system entry.
 
}}
 
}}
 +
 +
{{ Note | Not all IKE implementations support multiple split networks provided by split-include option. }}
 +
 +
{{ Note | If RouterOS client is initiator, it will always send CISCO UNITY extension, and RouterOS supports only split-include from this extension.}}
 +
 +
{{ Note | It is not possible to use system-dns and static-dns at the same time.}}
  
 
==Installed SAs==
 
==Installed SAs==
Line 1,439: Line 1,586:
 
{{ Note | Radius accounting currently is not supported by IPsec, only authentication. }}
 
{{ Note | Radius accounting currently is not supported by IPsec, only authentication. }}
  
==Application Examples==
+
==Application Guides==
 +
 
 +
===RoadWarrior client with NAT===
 +
 
 +
Consider setup as illustrated below. RouterOS acts as a RoadWarrior client connected to Office allowing access to its internal resources.
  
===Simple Mutual PSK XAuth Config===
+
[[file:Ipsec-road-warrior-client.png]]
  
Server side config:
+
Tunnel is established, local mode-config IP address is received and a set of dynamic policies are generated.
  
 
<pre>
 
<pre>
/ip ipsec peer
+
[admin@pair_r1] > ip ipsec policy print
add address=2.2.2.1 auth-method=pre-shared-key-xauth secret="123" passive=yes
+
Flags: T - template, X - disabled, D - dynamic, I - invalid, A - active, * - default
 +
0 T * group=default src-address=::/0 dst-address=::/0 protocol=all proposal=default template=yes
 +
 
 +
1  DA  src-address=192.168.77.254/32 src-port=any dst-address=10.5.8.0/24 dst-port=any protocol=all
 +
      action=encrypt level=unique ipsec-protocols=esp tunnel=yes sa-src-address=10.155.107.8
 +
      sa-dst-address=10.155.107.9 proposal=default ph2-count=1
  
/ip ipsec user
+
2  DA  src-address=192.168.77.254/32 src-port=any dst-address=192.168.55.0/24 dst-port=any protocol=all
 +
      action=encrypt level=unique ipsec-protocols=esp tunnel=yes sa-src-address=10.155.107.8
 +
      sa-dst-address=10.155.107.9 proposal=default ph2-count=1
 +
</pre>
 +
 
 +
Currently only packets with source address of 192.168.77.254/32 will match the IPsec policies. For local network to be able to reach remote subnets, it is necessary to change the source address of local hosts to the dynamically assigned mode config IP address. It is possible to generate source NAT rules dynamically. This can be done by creating a new address list which contains of all local networks that NAT rule should be applied. In our case, it is 192.168.88.0/24.
 +
 
 +
<pre>
 +
/ip firewall address-list add address=192.168.88.0/24 list=local-RW
 +
</pre>
 +
 
 +
By specifying the address list under mode-config initiator configuration, a set of source NAT rules will be dynamically generated.
 +
 
 +
<pre>
 +
/ip ipsec mode-config set [ find name="request-only" ] src-address-list=local-RW
 +
</pre>
 +
 
 +
When the IPsec tunnel is established, we can see the dynamically created source NAT rules for each network. Now every host in 192.168.88.0/24 is able to access Office's internal resources.
 +
 
 +
<pre>
 +
[admin@pair_r1] > ip firewall nat print
 +
Flags: X - disabled, I - invalid, D - dynamic
 +
0  D ;;; ipsec mode-config
 +
      chain=srcnat action=src-nat to-addresses=192.168.77.254 dst-address=192.168.55.0/24 src-address-list=local-RW
 +
 
 +
1  D ;;; ipsec mode-config
 +
      chain=srcnat action=src-nat to-addresses=192.168.77.254 dst-address=10.5.8.0/24 src-address-list=local-RW
 +
</pre>
 +
 
 +
===Simple mutual PSK XAuth configuration===
 +
 
 +
Server side configuration:
 +
 
 +
<pre>
 +
/ip ipsec peer
 +
add address=2.2.2.1 auth-method=pre-shared-key-xauth secret="123" passive=yes
 +
 
 +
/ip ipsec user
 
add name=test password=345
 
add name=test password=345
 
</pre>
 
</pre>
  
Client side config:
+
Client side configuration:
  
 
<pre>
 
<pre>
Line 1,464: Line 1,657:
 
{{Note | On server side it is mandatory to set <var>passive</var> to '''yes''' when XAuth is used. }}
 
{{Note | On server side it is mandatory to set <var>passive</var> to '''yes''' when XAuth is used. }}
  
 +
===Allow only IPsec encapsulated traffic===
  
===Road Warrior setup with Mode Conf===
+
There are some scenarios where for security reasons you would like to drop access from/to specific networks if incoming/outgoing packets are not encrypted. For example, if we have L2TP/IPsec setup we would want to drop non encrypted L2TP connection attempts.
  
 +
There are several ways how to achieve this:
 +
* Using IPsec policy matcher in firewall;
 +
* Using generic IPsec policy with <var>action</var> set to '''drop''' and lower priority (can be used in Road Warrior setups where dynamic policies are generated);
 +
* By setting DSCP or priority in mangle and matching the same values in firewall after decapsulation.
  
Consider setup where worker need to access other co-workers (workstations) and local office server remotely.
+
====IPsec policy matcher====
Office has two subnets:
 
* 192.168.55.0/24 for workstations
 
* 192.168.66.0/24 network that must not be reachable by RoadWarrior clients
 
* 10.5.8.0/24 for servers
 
  
And access to those networks should be secure.
+
Lets set up IPsec policy matcher to accept all packets that matched any of IPsec policies and drop the rest:
  
[[file:ipsec-road-warrior.png]]
+
<pre>
 +
add chain=input comment="ipsec policy matcher" in-interface=WAN \
 +
    ipsec-policy=in,ipsec
 +
add action=drop chain=input comment="drop all" in-interface=WAN log=yes
 +
</pre>
  
Typically in RoadWarrior setups as this it is impossible to know from which address user will connect, so we need to set up <var>generate-policy</var> parameter on the server side. However this leads to other problems, client can generate any policy and access any network in the office. Even set 0.0.0.0/0 and deny internet access to office workers.
+
IPsec policy matcher takes two parameters '''direction,policy'''. We used incoming direction and IPsec policy. IPsec policy option allows us to inspect packets after decapsulation, so for example if we want to allow only gre encapsulated packet from specific source address and drop the rest we could set up following rules:
  
'''Mode Conf''', '''policy group''' and '''policy templates''' will allow us to overcome these problems.
+
<pre>
 +
add chain=input comment="ipsec policy matcher" in-interface=WAN \
 +
    ipsec-policy=in,ipsec protocol=gre src=address=192.168.33.1
 +
add action=drop chain=input comment="drop all" in-interface=WAN log=yes
 +
</pre>
  
 +
For L2TP rule set would be:
  
====IPsec Server Config====
 
 
At first we need a pool from which RoadWarrior will will get an address. Typically in office you set up DHCP server for local workstations, the same DHCP pool can be used.
 
 
<pre>
 
<pre>
/ip pool
+
add chain=input comment="ipsec policy matcher" in-interface=WAN \
add name=ipsec-RW ranges=192.168.77.2-192.168.77.254
+
    ipsec-policy=in,ipsec protocol=udp dst-port=1701
 +
add action=drop chain=input protocol=udp dst-port=1701 comment="drop l2tp" in-interface=WAN log=yes
 
</pre>
 
</pre>
  
Next we need to set up what settings to send to the client using Mode Conf. 
+
====Using generic IPsec policy====
<pre>
 
/ip ipsec mode-config
 
add address-pool=ipsec-RW name=RW-cfg split-include=\
 
    10.5.8.0/24,192.168.55.0/24
 
</pre>
 
As you can see we specified from which pool to give out address and two allowed subnets.
 
  
 +
The trick of this method is to add default policy with action drop. Lets assume we are running L2TP/IPsec server on public 1.1.1.1 address and we want to drop all non encrypted L2TP:
  
Now to allow only specific source/destination address in generated policies we will use policy group and create policy templates:
 
 
<pre>
 
<pre>
/ip ipsec policy group
+
/ip ipsec policy
add name=RoadWarrior
+
add src-address=1.1.1.1 dst-address=0.0.0.0/0 sa-src-address=1.1.1.1 \
 +
  protocol=udp src-port=1701 tunnel=yes action=discard
 +
</pre>
  
/ip ipsec policy
+
Now router will drop any L2TP unencrypted incoming traffic, but after successful L2TP/IPsec connection dynamic policy is created with higher priority than it is on default static rule and packets matching that dynamic rule can be forwarded.
add dst-address=192.168.77.0/24 group=RoadWarrior src-address=10.5.8.0/24 \
 
    template=yes
 
add dst-address=192.168.77.0/24 group=RoadWarrior src-address=192.168.55.0/24 \
 
    template=yes
 
</pre>
 
  
 +
{{ Note | Policy order is important! For this to work, make sure the static drop policy is below the dynamic policies. Move it below the policy template if necessary. }}
  
Now we just add xauth users and peer with enabled Mode Conf and policy group.
 
 
<pre>
 
<pre>
/ip ipsec user
+
[admin@rack2_10g1] /ip ipsec policy> print
add name=user1 password=123
+
Flags: T - template, X - disabled, D - dynamic, I - inactive, * - default
add name=user2 password=234
+
0 T * group=default src-address=::/0 dst-address=::/0 protocol=all
 +
      proposal=default template=yes
 +
 
 +
1  D  src-address=1.1.1.1/32 src-port=1701 dst-address=10.5.130.71/32
 +
      dst-port=any protocol=udp action=encrypt level=require
 +
      ipsec-protocols=esp tunnel=no sa-src-address=1.1.1.1
 +
      sa-dst-address=10.5.130.71
  
/ip ipsec peer
+
2    src-address=1.1.1.1/32 src-port=1701 dst-address=0.0.0.0/0
add auth-method=pre-shared-key-xauth generate-policy=port-strict mode-config=RW-cfg \
+
      dst-port=any protocol=udp action=discard level=unique
    policy-template-group=RoadWarrior secret=123 passive=yes
+
      ipsec-protocols=esp tunnel=yes sa-src-address=1.1.1.1
 +
      sa-dst-address=0.0.0.0 proposal=default manual-sa=none
  
 
</pre>
 
</pre>
  
==== Apple iOS (iPhone/iPad) Client ====
+
===Manually specifying local-address parameter under Peer configuration===
 +
 
 +
====Using different routing table====
  
For iOS devices to be able to connect, '''proposal''' changes are needed:
+
IPsec, as any other service in RouterOS, uses main routing table regardless what <var>local-address</var> parameter is used for Peer configuration. It is necessary to apply routing marks to both IKE and IPSec traffic.
  
* does not work with 3des encryption algorithm, '''aes-128/256''' works
+
Consider the following example. There are two default routes - one in main routing table and another in routing table "backup". It is necessary to use the backup link for IPsec site to site tunnel.
* auth algorithm must be '''sha1'''
 
* PFS group must be '''none'''
 
* lifetime must be '''8 hours'''
 
  
Example of valid proposal configuration for iOS devices:
 
 
<pre>
 
<pre>
/ip ipsec proposal
+
[admin@pair_r1] > /ip route print detail
set default enc-algorithms=aes-128-cbc,aes-256-cbc lifetime=8h \
+
Flags: X - disabled, A - active, D - dynamic, C - connect, S - static, r - rip, b - bgp, o - ospf, m - mme, B - blackhole, U - unreachable, P - prohibit
    pfs-group=none
+
0 A S  dst-address=0.0.0.0/0 gateway=10.155.107.1 gateway-status=10.155.107.1 reachable via  ether1 distance=1 scope=30 target-scope=10 routing-mark=backup
</pre>
+
 
 +
1 A S  dst-address=0.0.0.0/0 gateway=172.22.2.115 gateway-status=172.22.2.115 reachable via  ether2 distance=1 scope=30 target-scope=10
 +
 
 +
2 ADC  dst-address=10.155.107.0/25 pref-src=10.155.107.8 gateway=ether1 gateway-status=ether1 reachable distance=0 scope=10
 +
 
 +
3 ADC  dst-address=172.22.2.0/24 pref-src=172.22.2.114 gateway=ether2 gateway-status=ether2 reachable distance=0 scope=10
 +
 
 +
4 ADC  dst-address=192.168.1.0/24 pref-src=192.168.1.1 gateway=bridge-local gateway-status=ether2 reachable distance=0 scope=10
 +
 
 +
[admin@pair_r1] > /ip firewall nat print 
 +
Flags: X - disabled, I - invalid, D - dynamic
 +
0    chain=srcnat action=masquerade out-interface=ether1 log=no log-prefix=""
  
{{ Note | Iphone does not work with split-include 0.0.0.0/0. If you set 0.0.0.0/0 for older clients traffic will not be sent over the tunnel, for newer ios clients tunnel will not be established.}}
+
1    chain=srcnat action=masquerade out-interface=ether2 log=no log-prefix=""
  
==== Android Client Notes ====
+
</pre>
  
Android devices are trying to add policy with destination 0.0.0.0/0, so you have to make sure that correct policy template is added.
+
IPsec peer and policy configurations are created using the backup link's source address, as well as NAT bypass rule for IPsec tunnel traffic.
  
In our case we need to add:
 
 
<pre>
 
<pre>
 +
/ip ipsec peer
 +
add address=10.155.130.136/32 local-address=10.155.107.8 secret=test
 
/ip ipsec policy
 
/ip ipsec policy
add group=RoadWarrior dst-address=192.168.77.0/24 src-address=0.0.0.0/0 template=yes
+
add sa-src-address=10.155.107.8 src-address=192.168.1.0/24 dst-address=172.16.0.0/24 sa-dst-address=10.155.130.136 tunnel=yes
 +
/ip firewall nat
 +
add action=accept chain=srcnat src-address=192.168.1.0/24 dst-address=172.16.0.0/24 place-before=0
 
</pre>
 
</pre>
  
====RouterOS Client Config====
+
Currently, we see "phase1 negotiation failed due to time up" errors in the log. It is because IPsec tries to reach the remote peer using the main routing table with incorrect source address. It is necessary to mark UDP/500, UDP/4500 and ipsec-esp packets using Mangle.
  
 
<pre>
 
<pre>
/ip ipsec peer
+
/ip firewall mangle
add address=2.2.2.2 auth-method=pre-shared-key-xauth generate-policy=port-strict secret=123 \
+
add action=mark-connection chain=output connection-mark=no-mark dst-address=10.155.130.136 dst-port=500,4500 \
    xauth-login=user1 xauth-password=123 mode-config=request-only
+
new-connection-mark=ipsec passthrough=yes protocol=udp
 +
add action=mark-connection chain=output connection-mark=no-mark dst-address=10.155.130.136 new-connection-mark=ipsec \
 +
passthrough=yes protocol=ipsec-esp
 +
add action=mark-routing chain=output connection-mark=ipsec new-routing-mark=backup passthrough=no
 
</pre>
 
</pre>
  
====Shrew Client Config====
+
====Using same routing table with multiple IP addresses====
 +
 
 +
Consider the following example. There are multiple IP addresses from the same subnet on the public interface. Masquerade rule is configured on out-interface. It is necessary to use one of the IP addresses explicitly.
  
 
<pre>
 
<pre>
n:version:2
+
[admin@pair_r1] > /ip address print
n:network-ike-port:500
+
Flags: X - disabled, I - invalid, D - dynamic
n:network-mtu-size:1380
+
#  ADDRESS            NETWORK        INTERFACE
n:network-natt-port:4500
+
0  192.168.1.1/24    192.168.1.0    bridge-local
n:network-natt-rate:15
+
1  172.22.2.1/24      172.22.2.0      ether1
n:network-frag-size:540
+
2  172.22.2.2/24      172.22.2.0     ether1
n:network-dpd-enable:0
+
3  172.22.2.3/24      172.22.2.0     ether1
n:client-banner-enable:0
+
 
n:network-notify-enable:0
+
[admin@pair_r1] > /ip route print
n:client-wins-used:0
+
Flags: X - disabled, A - active, D - dynamic, C - connect, S - static, r - rip, b - bgp, o - ospf, m - mme, B - blackhole, U - unreachable, P - prohibit
n:client-wins-auto:1
+
#      DST-ADDRESS        PREF-SRC        GATEWAY            DISTANCE
n:client-dns-used:1
+
1 A S  0.0.0.0/0                         172.22.2.115              1
n:client-dns-auto:0
+
3 ADC  172.22.2.0/24      172.22.2.1      ether1                    0
n:client-splitdns-used:1
+
4 ADC  192.168.1.0/24    192.168.1.1    bridge-local              0
n:client-splitdns-auto:0
+
 
n:phase1-dhgroup:2
+
[admin@pair_r1] /ip firewall nat> print
n:phase1-life-secs:86400
+
Flags: X - disabled, I - invalid, D - dynamic
n:phase1-life-kbytes:0
+
0   chain=srcnat action=masquerade out-interface=ether1 log=no log-prefix=""
n:vendor-chkpt-enable:0
+
 
n:phase2-life-secs:300
+
</pre>
n:phase2-life-kbytes:0
+
 
n:policy-nailed:1
+
IPsec peer and policy configuration is created using one of the public IP addresses.
n:policy-list-auto:1
+
 
n:client-addr-auto:1
+
<pre>
s:network-host:2.2.2.2
+
/ip ipsec peer
s:client-auto-mode:pull
+
add address=10.155.130.136/32 local-address=172.22.2.3 secret=test
s:client-iface:virtual
+
/ip ipsec policy
s:network-natt-mode:disable
+
add sa-src-address=172.22.2.3 src-address=192.168.1.0/24 dst-address=172.16.0.0/24 sa-dst-address=10.155.130.136 tunnel=yes
s:network-frag-mode:disable
+
/ip firewall nat
s:auth-method:mutual-psk-xauth
+
add action=accept chain=srcnat src-address=192.168.1.0/24 dst-address=172.16.0.0/24 place-before=0
s:ident-client-type:address
+
</pre>
s:ident-server-type:address
+
 
b:auth-mutual-psk:MTIz
+
Currently the phase 1 connection uses a different source address than we specified and "phase1 negotiation failed due to time up" errors are shown in the logs. This is because masquerade is changing the source address of the connection to match pref-src address of the connected route. Solution is to exclude connections from the public IP address from being masqueraded.
s:phase1-exchange:main
+
 
s:phase1-cipher:3des
+
<pre>
s:phase1-hash:md5
+
/ip firewall nat
s:phase2-transform:esp-3des
+
add action=accept chain=srcnat protocol=udp src-port=500,4500 place-before=0
s:phase2-hmac:sha1
+
</pre>
s:ipcomp-transform:disabled
 
n:phase2-pfsgroup:2
 
s:policy-level:require
 
  
</pre>
+
==Application Examples==
  
===Road Warrior setup using IKEv2 with RSA authentication===
+
===Site to Site IPsec tunnel===
  
This example explains how to establish a secure IPsec connection between a device connected to the Internet (RoadWarrior client) and a device running RouterOS acting as a server.
+
Consider setup as illustrated below. Two remote office routers are connected to internet and office workstations are behind NAT. Each office has its own local subnet, 10.1.202.0/24 for Office1 and 10.1.101.0/24 for Office2. Both remote offices needs secure tunnel to local networks behind routers.
  
[[file:ipsec-road-warrior.png]]
+
[[file:site-to-site-ipsec-example.png]]
  
 +
====Site 1 configuration====
  
====RouterOS server configuration====
+
Start off by configuring IPsec peer. It is enough to configure <var>address</var>, <var>auth-method</var> and <var>secret</var> parameters and leaving everything else as default. However, it is possible to set additional [[#Peers | Peer]] properties as long as they are identical between both sites.
 +
 
 +
<pre>
 +
/ip ipsec peer
 +
add address=192.168.80.1/32 auth-method=pre-shared-key secret="test"
 +
</pre>
  
Before configuring IPsec, it is required to set up certificates. It is possible to use a separate Certificate Authority for certificate management, however in this example, self signed certificates are generated in RouterOS [[Manual:System/Certificates | System/Certificates]] menu. Some certificate requirements should be met to connect various devices to the server:
+
For the next steps, it is important that proposed authentication and encryption algorithms match on both routers. In this example we can use predefined "default" proposal. To verify [[#Policy_Proposals | Proposal]] settings:
* Common name should contain IP or DNS name of the server;
 
* SAN (subject alternative name) should have IP or DNS of the server;
 
* EKU (extended key usage) tls-server and tls-client are required.
 
  
Considering all requirements above, generate CA and server certificates:
 
 
<pre>
 
<pre>
/certificate
+
[admin@MikroTik] /ip ipsec proposal print
add common-name=ca name=ca
+
Flags: X - disabled, * - default
sign ca ca-crl-host=2.2.2.2
+
0  * name="default" auth-algorithms=sha1
add common-name=2.2.2.2 subject-alt-name=IP:2.2.2.2 key-usage=tls-server name=server1
+
      enc-algorithms=aes-256-cbc,aes-192-cbc,aes-128-cbc lifetime=30m
sign server1 ca=ca
+
      pfs-group=modp1024
 
</pre>
 
</pre>
  
 +
It is possible to create a new proposal entry for our tunnel and specify it when creating policy, however in this example, the default proposal is used:
  
Now that valid certificates are created on the router, IPsec can be configured. [[#Mode_Config | Mode config]] is used for address distribution from IP pool and DNS configuration. Since that the policy template must be adjusted to allow only specific network policies, it is advised to create a separate policy group and template. For compatibility, a new proposal is created with PFS group set to none.
 
 
<pre>
 
<pre>
/ip pool add name=rw-pool ranges=192.168.77.2-192.168.77.254
 
/ip ipsec proposal
 
add name=rw-proposal pfs-group=none
 
/ip ipsec mode-conf
 
add name=rw-conf system-dns=yes address-pool=rw-pool address-prefix=32
 
 
/ip ipsec policy
 
/ip ipsec policy
group add name=rw-policies
+
add src-address=10.1.202.0/24 src-port=any dst-address=10.1.101.0/24 dst-port=any \
add template=yes dst-address=192.168.77.0/24 group=rw-policies proposal=rw-proposal
+
sa-src-address=192.168.90.1 sa-dst-address=192.168.80.1 \
 +
tunnel=yes action=encrypt proposal=default
 
</pre>
 
</pre>
Lastly, create a new IPsec peer configuration.
+
 
 +
====Site 2 configuration====
 +
 
 +
Office 2 configuration is almost identical as Office 1 with proper IP address configuration.
 +
 
 
<pre>
 
<pre>
 
/ip ipsec peer
 
/ip ipsec peer
add auth-method=rsa-signature certificate=server1 generate-policy=port-strict \
+
add address=192.168.90.1/32 auth-method=pre-shared-key secret="test"
  mode-config=rw-conf passive=yes remote-certificate=none exchange-mode=ike2 \
 
  policy-template-group=rw-policies
 
 
</pre>
 
</pre>
  
{{Note | Windows uses point-to-point links so specifying any prefix other than 32 in Mode config settings will do nothing}}
+
Continue with verifying that proposal parameters are matching between the sites:
  
{{Note | Currently RouterOS does not support any of EAP authentication methods}}
+
<pre>
 +
[admin@MikroTik] /ip ipsec proposal print
 +
Flags: X - disabled, * - default
 +
0  * name="default" auth-algorithms=sha1
 +
      enc-algorithms=aes-256-cbc,aes-192-cbc,aes-128-cbc lifetime=30m
 +
      pfs-group=modp1024
 +
</pre>
  
{{Note | Most commonly available IKEv2 client software does not support Mode config split-network option}}
+
When it is done, create an IPsec policy:
  
==== RouterOS client configuration ====
+
<pre>
 +
/ip ipsec policy
 +
add src-address=10.1.101.0/24 src-port=any dst-address=10.1.202.0/24 dst-port=any \
 +
sa-src-address=192.168.80.1 sa-dst-address=192.168.90.1 \
 +
tunnel=yes action=encrypt proposal=default
 +
</pre>
  
Generate a new certificate for the client and sign it with previously created CA. Export the client certificate in PKCS12 format.
+
At this point, the tunnel should be established and two Security Associations should be created on both routers:
  
 
<pre>
 
<pre>
/certificate
+
/ip ipsec
add common-name=RouterOS_client name=RouterOS_client key-usage=tls-client
+
remote-peers print
sign RouterOS_client ca=ca
+
installed-sa print
export-certificate RouterOS_client export-passphrase=1234567890 type=pkcs12
 
 
</pre>
 
</pre>
  
A file named <b>cert_export_RouterOS_client.p12</b> is now located in the routers Files section. Transfer the file to the RouterOS client device and import it.
+
====NAT and Fasttrack Bypass====
 +
 
 +
At this point if you try to send traffic over the IPsec tunnel, it will not work, packets will be lost. This is because both routers have NAT rules (masquerade) that is changing source address before packet is encrypted. Router is unable to encrypt the packet, because source address do not match address specified in policy configuration. For more information see [[M:Packet_Flow#IPsec_encryption|IPsec packet flow example]].
  
<pre>
+
To fix this we need to set up NAT bypass rule.
/certificate import file-name=cert_export_RouterOS_client.p12 passphrase=1234567890
 
</pre>
 
  
There should now be the self-signed CA certificate and the client certificate in Certificate menu. Usually the client certificate is imported first, but lets double check which is it.
+
Office 1 router:
  
 
<pre>
 
<pre>
/put [/certificate get [find common-name=RouterOS_client] name] 
+
/ip firewall nat
 +
add chain=srcnat action=accept  place-before=0 \
 +
src-address=10.1.202.0/24 dst-address=10.1.101.0/24
 
</pre>
 
</pre>
  
<b>cert_export_RouterOS_client.p12_0</b> is the client certificate. Now we can create the peer configuration.
+
Office 2 router:
  
 
<pre>
 
<pre>
/ip ipsec peer
+
/ip firewall nat
add address=2.2.2.2 auth-method=rsa-signature certificate=cert_export_RouterOS_client.p12_0 mode-config=request-only exchange-mode=ike2 generate-policy=port-strict
+
add chain=srcnat action=accept  place-before=0 \
 +
src-address=10.1.101.0/24 dst-address=10.1.202.0/24
 
</pre>
 
</pre>
  
Verify that the connection is successfully established.
+
{{Note | If you previously tried to establish an IP connection before NAT bypass rule was added, you have to clear connection table from existing connection or restart both routers. }}
  
 +
It is very important that bypass rule is placed at the top of all other NAT rules.
 +
 +
Another issue is if you have Fasttrack enabled, packet bypasses IPsec policies. So we need to add accept rule before Fasttrack
 
<pre>
 
<pre>
/ip ipsec
+
/ip firewall filter
remote-peers print
+
add chain=forward action=accept place-before=1
installed-sa print
+
src-address=10.1.101.0/24 dst-address=10.1.202.0/24 connection-state=established,related
 +
add chain=forward action=accept place-before=1
 +
src-address=10.1.202.0/24 dst-address=10.1.101.0/24 connection-state=established,related
 
</pre>
 
</pre>
  
==== Windows client configuration ====
+
However this can add significant load to CPU if there is a fair amount of tunnels and significant traffic on each tunnel.
  
Generate a new certificate for the client and sign it with previously created CA. Export the client certificate in PKCS12 format.
+
Solution is to use RAW firewall tables to bypass connection tracking, that way eliminating need of filter rules listed above and reducing load on CPU by approximately 30%.
  
 
<pre>
 
<pre>
/certificate
+
/ip firewall raw
add common-name=Windows_client name=Windows_client key-usage=tls-client
+
add action=notrack chain=prerouting src-address=10.1.101.0/24 dst-address=10.1.202.0/24
sign Windows_client ca=ca
+
add action=notrack chain=prerouting src-address=10.1.202.0/24 dst-address=10.1.101.0/24
export-certificate Windows_client export-passphrase=1234567890 type=pkcs12
 
 
</pre>
 
</pre>
  
A file named <b>cert_export_Windows_client.p12</b> is now located in the routers Files section. Download and open the certificate file on the Windows computer. Install the certificate by following the instructions. Make sure you select Local Machine store location.
+
===Road Warrior setup using IKEv2 with RSA authentication===
  
[[File:Ike2v2_cert_win.png | 1300px]]
+
This example explains how to establish a secure IPsec connection between a device connected to the Internet (road warrior client) and a device running RouterOS acting as a server.
  
You can now proceed to Network and Internet settings -> VPN and add a new configuration. Fill in the Connection name, Server name or address parameters. Select IKEv2 under VPN type. When it is done, it is necessary to select "Use machine certificates". This can be done in Network and Sharing Center by clicking the Properties menu for the VPN connection. The setting is located under Security tab.
+
[[file:ipsec-road-warrior.png]]
  
[[File:Ike2v2_conf_win.png | 1300px]]
 
  
Currently Windows 10 is compatible with the following Phase 1 (Peer) and Phase 2 (Proposal) proposal sets:
+
====RouterOS server configuration====
  
<table class="styled_table" style="width:50%">
+
Before configuring IPsec, it is required to set up certificates. It is possible to use a separate Certificate Authority for certificate management, however in this example, self signed certificates are generated in RouterOS [[Manual:System/Certificates | System/Certificates]] menu. Some certificate requirements should be met to connect various devices to the server:
<tr>
+
* Common name should contain IP or DNS name of the server;
<th colspan=3>Phase 1</th>
+
* SAN (subject alternative name) should have IP or DNS of the server;
</tr>
+
* EKU (extended key usage) tls-server and tls-client are required.
<tr>
+
 
<th>Hash Algorithm</th><th>Encryption Algorithm</th><th>DH Group</th>
+
Considering all requirements above, generate CA and server certificates:
</tr>
+
<pre>
<tr><td>SHA1</td><td>3DES</td><td>modp1024</td></tr>
+
/certificate
<tr><td>SHA256</td><td>3DES</td><td>modp1024</td></tr>
+
add common-name=ca name=ca
<tr><td>SHA1</td><td>AES-128-CBC</td><td>modp1024</td></tr>
+
sign ca ca-crl-host=2.2.2.2
<tr><td>SHA256</td><td>AES-128-CBC</td><td>modp1024</td></tr>
+
add common-name=2.2.2.2 subject-alt-name=IP:2.2.2.2 key-usage=tls-server name=server1
<tr><td>SHA1</td><td>AES-192-CBC</td><td>modp1024</td></tr>
+
sign server1 ca=ca
<tr><td>SHA256</td><td>AES-192-CBC</td><td>modp1024</td></tr>
+
</pre>
<tr><td>SHA1</td><td>AES-256-CBC</td><td>modp1024</td></tr>
 
<tr><td>SHA256</td><td>AES-256-CBC</td><td>modp1024</td></tr>
 
<tr><td>SHA1</td><td>AES-128-GCM</td><td>modp1024</td></tr>
 
<tr><td>SHA256</td><td>AES-128-GCM</td><td>modp1024</td></tr>
 
<tr><td>SHA1</td><td>AES-256-GCM</td><td>modp1024</td></tr>
 
<tr><td>SHA256</td><td>AES-256-GCM</td><td>modp1024</td></tr>
 
</table>
 
  
 +
Now that valid certificates are created on the router, IPsec can be configured. [[#Mode_configs | Mode config]] is used for address distribution from [[Manual:IP/Pools | IP/Pools]]. Since that the policy template must be adjusted to allow only specific network [[#Policies | policies]], it is advised to create a separate policy [[#Groups | group]] and template. For compatibility, a new [[#Policy_Proposals | proposal]] is created with <var>prs-group=none</var>.
  
<table class="styled_table" style="width:50%">
+
<pre>
<tr>
+
/ip pool add name=rw-pool ranges=192.168.77.2-192.168.77.254
<th colspan=3>Phase 2</th>
+
/ip ipsec proposal
</tr>
+
add name=rw-proposal pfs-group=none
<tr>
+
/ip ipsec mode-conf
<th>Hash Algorithm</th><th>Encryption Algorithm</th><th>PFS Group</th>
+
add name=rw-conf system-dns=yes address-pool=rw-pool address-prefix=32
</tr>
+
/ip ipsec policy
<tr><td>SHA1</td><td>AES-256-CBC</td><td>none</td></tr>
+
group add name=rw-policies
<tr><td>SHA1</td><td>AES-128-CBC</td><td>none</td></tr>
+
add template=yes dst-address=192.168.77.0/24 group=rw-policies proposal=rw-proposal
<tr><td>SHA1</td><td>3DES</td><td>none</td></tr>
+
</pre>
<tr><td>SHA1</td><td>DES</td><td>none</td></tr>
 
<tr><td>SHA1</td><td>none</td><td>none</td></tr>
 
</table>
 
  
 +
Lastly, create a new IPsec [[#Peers | peer]] configuration.
  
{{Warning | Phase 2 (/ip ipsec proposal) PFS Group must be set to 'none' for rekeying to work properly.}}
+
<pre>
 +
/ip ipsec peer
 +
add auth-method=rsa-signature certificate=server1 generate-policy=port-strict \
 +
  mode-config=rw-conf passive=yes remote-certificate=none exchange-mode=ike2 \
 +
  policy-template-group=rw-policies
 +
</pre>
  
==== Android Client Notes ====
+
=====Split tunnel configuration=====
  
Native Android client does not support ikev2 at the moment. StrongSwan client from Play Store can be used to connect to ikev2 server.
+
Split tunnelling is a method which allows road warrior clients to only access a specific secured network and at the same time send the rest of the traffic based on their internal routing table (as opposed to sending all traffic over the tunnel). To configure split tunnelling, changes to [[#Mode_configs | mode config]] parameters are needed.
StrongSwan client the same as windows accept certificates and keys in pkcs12 format. So external tool is needed to convert exported .crt and .key files to .pfx and then import .pfx file.
 
  
After its imported you will see CA and Client cert in user certificates:
+
For example we will allow our road warrior clients to only access 10.5.8.0/24 network.
  
[[file:android-cert-import.png | 300px]]
+
<pre>
 +
/ip ipsec mode-conf
 +
set [find name="rw-conf"] split-include=10.5.8.0/24
 +
</pre>
  
 +
It is also possible to send specific DNS server for the client to use. By default <var>system-dns=yes</var> is used, which sends DNS servers that are configured on the router itself in [[Manual:IP/DNS | IP/DNS]]. We can force the client to use different DNS server by using the <var>static-dns</var> parameter.
  
Now you can pick them in profile configuration.
+
<pre>
 +
/ip ipsec mode-conf
 +
set [find name="rw-conf"] system-dns=no static-dns=10.5.8.1
 +
</pre>
  
[[file:android-cl-cert.png | 300px]]
+
While it is possible to adjust IPsec policy template to only allow road warrior clients to generate [[#Policies | policies]] to network configured by <var>split-include</var> parameter, this can cause compatibility issues with different vendor implementations (see [[#Known_limitations | known limitations]]). Instead of adjusting the policy template, allow access to secured network in [[Manual:IP/Firewall/Filter | IP/Firewall/Filter]] and drop everything else.
  
Ca certificate is selected automatically as shown in screenshot below, but if for some reason you need to specify exact CA certificate, then unselect "Select automatically" and pick imported CA from the list.
+
<pre>
 +
/ip firewall filter
 +
add action=drop chain=forward src-address=192.168.77.0/24 dst-address=!10.5.8.0/24
 +
</pre>
  
[[file:android-ca-cert.png | 300px]]
+
=====Generating client certificates=====
  
When connecting Android StrongSwan clients, make sure that on RouterOS proposal settings DH group is disabled, otherwise phase2 will fail.
+
To generate a new certificate for the client and sign it with previously created CA.
  
==== macOS client configuration ====
+
<pre>
 +
/certificate
 +
add common-name=rw-client1 name=rw-client1 key-usage=tls-client
 +
sign rw-client1 ca=ca
 +
</pre>
  
Generate a new certificate for the client and sign it with previously created CA. Export the client certificate in PKCS12 format.
+
<b>PKCS12 format</b> is accepted by most of client implementations, so when exporting the certificate, make sure PKCS12 is specified.
  
 
<pre>
 
<pre>
 
/certificate
 
/certificate
add common-name=macOS_client name=macOS_client key-usage=tls-client
+
export-certificate rw-client1 export-passphrase=1234567890 type=pkcs12
sign macOS_client ca=ca
 
export-certificate macOS_client export-passphrase=1234567890 type=pkcs12
 
 
</pre>
 
</pre>
  
A file named <b>cert_export_macOS_client.p12</b> is now located in the routers Files section. Download and open the certificate file on the macOS computer and install the certificate in "System" keychain. It is necessary to mark the CA certificate as trusted manually since it is self-signed. Locate the certificate macOS Keychain Access app under System tab and mark it as Always Trust.
+
A file named <i>cert_export_rw-client1.p12</i> is now located in the routers [[Manual:System/File | System/File]] section. This file should be securely transported to the client device.
  
[[File:Ikev2_cert_macos.png | 900px]]
+
Typically PKCS12 bundle contains also CA certificate, but some vendors may not install this CA, so self-signed CA certificate must be exported separately using PEM format.
 +
 
 +
<pre>
 +
/certificate
 +
export-certificate ca type=pem
 +
</pre>
  
You can now proceed to System Preferences -> Network and add a new configuration by clicking the + button. Select Interface: VPN, VPN Type: IKEv2 and name your connection. Remote ID must be set equal to common-name or subjAltName of server's certificate. Local ID can be left blank. Under Authentication Settings select None and choose the client certificate. You can now test the connectivity.
+
A file named <i>cert_export_ca.crt</i> is now located in the routers [[Manual:System/File | System/File]] section. This file should also be securely transported to the client device.
  
[[File:Ikev2_conf_macos.png | 900px]]
+
<b>PEM</b> is another certificate format for use in client software that do not support PKCS12. Principle is pretty much the same.
  
Currently macOS is compatible with the following Phase 1 (Peer) and Phase 2 (Proposal) proposal sets:
+
<pre>
 +
/certificate
 +
export-certificate ca
 +
export-certificate rw-client1 export-passphrase=1234567890
 +
</pre>
  
<table class="styled_table" style="width:50%">
+
Three files are now located in the routers Files section: <i>cert_export_ca.crt</i>, <i>cert_export_rw-client1.crt</i> and <i>cert_export_rw-client1.key</i> which should be securely transported to the client device.
<tr>
+
 
<th colspan=3>Phase 1</th>
+
=====Known limitations=====
</tr>
 
<tr>
 
<th>Hash Algorithm</th><th>Encryption Algorithm</th><th>DH Group</th>
 
</tr>
 
<tr><td>SHA256</td><td>AES-256-CBC</td><td>modp2048</td></tr>
 
<tr><td>SHA256</td><td>AES-256-CBC</td><td>ecp256</td></tr>
 
<tr><td>SHA256</td><td>AES-256-CBC</td><td>modp1536</td></tr>
 
<tr><td>SHA1</td><td>AES-128-CBC</td><td>modp1024</td></tr>
 
<tr><td>SHA1</td><td>3DES</td><td>modp1024</td></tr>
 
</table>
 
  
 +
Here is a list of known limitations by popular client software IKEv2 implementations.
  
<table class="styled_table" style="width:50%">
+
* Windows will always ignore networks received by <var>split-include</var> and request policy with destination 0.0.0.0/0 (TSr). When IPsec-SA is generated, Windows requests DHCP option 249 to which RouterOS will respond with configured <var>split-include</var> networks automatically.
<tr>
 
<th colspan=3>Phase 2</th>
 
</tr>
 
<tr>
 
<th>Hash Algorithm</th><th>Encryption Algorithm</th><th>PFS Group</th>
 
</tr>
 
<tr><td>SHA256</td><td>AES-256-CBC</td><td>none</td></tr>
 
<tr><td>SHA1</td><td>AES-128-CBC</td><td>none</td></tr>
 
<tr><td>SHA1</td><td>3DES</td><td>none</td></tr>
 
</table>
 
  
 +
* Both Apple macOS and iOS will only accept the first <var>split-include</var> network. Currently there is no workaround for this limitation.
  
{{Warning | Phase 2 (/ip ipsec proposal) PFS Group must be set to 'none' for rekeying to work properly.}}
+
* While some implementations can make use of different PFS group for phase 2, it is advised to use <var>pfs-grou=none</var> under [[#Policy_Proposals | proposals]] to avoid any compatibility issues.
  
==== iOS client configuration ====
+
==== RouterOS client configuration ====
  
Generate a new certificate for the client and sign it with previously created CA.
+
Import a PKCS12 format certificate in RouterOS.
  
 
<pre>
 
<pre>
/certificate
+
/certificate import file-name=cert_export_RouterOS_client.p12 passphrase=1234567890
add common-name=iOS_client name=iOS_client key-usage=tls-client
 
sign iOS_client ca=ca
 
 
</pre>
 
</pre>
  
When installing certificates, check which formats iOS supports, client certificate can not be imported from CRT and KEY files, but you can use PKCS12 format. Typically PKCS12 bundle contains also CA certificate, but iOS does not install this CA, so self-signed CA certificate must be installed separately using PEM format.
+
There should now be the self-signed CA certificate and the client certificate in Certificate menu. Usually the client certificate is imported first, but lets double check which is it.
  
 
<pre>
 
<pre>
/certificate
+
/put [/certificate get [find common-name=RouterOS_client] name] 
export-certificate ca type=pem
 
export-certificate iOS_client type=pkcs12 export-passphrase=1234567890
 
 
</pre>
 
</pre>
  
Two files are now located in the routers Files section: <b>cert_export_ca.crt</b> and <b>cert_export_iOS_client.p12</b>. Download and open these files on the iOS device and install both certificates by following the instructions. It is necessary to mark the self-signed CA certificate as trusted on the iOS device. This can be done in Settings -> General -> About -> Certificate Trust Settings menu. When it is done, check whether both certificates are marked as "verified" under Settings -> General -> Profiles menu.
+
<b>cert_export_RouterOS_client.p12_0</b> is the client certificate. Now we can create the peer configuration.
  
[[File:Ikev2_cert_ios.PNG | 900px]]
+
<pre>
 +
/ip ipsec peer
 +
add address=2.2.2.2 auth-method=rsa-signature certificate=cert_export_RouterOS_client.p12_0 mode-config=request-only exchange-mode=ike2 generate-policy=port-strict
 +
</pre>
 +
 
 +
Verify that the connection is successfully established.
  
 +
<pre>
 +
/ip ipsec
 +
remote-peers print
 +
installed-sa print
 +
</pre>
  
You can now proceed to Settings -> General -> VPN menu and add a new configuration. Remote ID must be set equal to common-name or subjAltName of server's certificate. Local ID can be left blank.
+
===== Enabling dynamic source NAT rule generation =====
  
[[File:Ikev2_conf_ios.PNG | 450px]]
+
If we look at the generated dynamic [[#Policies | policies]], we see that only traffic with a specific (received by [[#Mode_configs | mode config]]) source address will be sent through the tunnel. But a router in most cases will need to route a specific device or network through the tunnel. In such case we can use source NAT to change the source address of packets to match the [[#Mode_configs | mode config]] address. Since the [[#Mode_configs | mode config]] address is dynamic, it is impossible to create static source NAT rule. In RouterOS it is possible to generate dynamic source NAT rules for [[#Mode_configs | mode config]] clients.
  
 +
[[file:Ipsec-road-warrior-client.png]]
  
Currently iOS is compatible with the following Phase 1 (Peer) and Phase 2 (Proposal) proposal sets:
+
For example, we have a local network 192.168.88.0/24 behind the router and we want all traffic from this network to be sent over the tunnel. First of all, we have to make a new [[M:IP/Firewall/Address_list | IP/Firewall/Address list]] which consists of our local network.
  
<table class="styled_table" style="width:50%">
+
<pre>
<tr>
+
/ip firewall address-list
<th colspan=3>Phase 1</th>
+
add address=192.168.88.0/24 list=local
</tr>
+
</pre>
<tr>
 
<th>Hash Algorithm</th><th>Encryption Algorithm</th><th>DH Group</th>
 
</tr>
 
<tr><td>SHA256</td><td>AES-256-CBC</td><td>modp2048</td></tr>
 
<tr><td>SHA256</td><td>AES-256-CBC</td><td>ecp256</td></tr>
 
<tr><td>SHA256</td><td>AES-256-CBC</td><td>modp1536</td></tr>
 
<tr><td>SHA1</td><td>AES-128-CBC</td><td>modp1024</td></tr>
 
<tr><td>SHA1</td><td>3DES</td><td>modp1024</td></tr>
 
</table>
 
  
 +
When it is done, we can assign newly created [[M:IP/Firewall/Address_list | IP/Firewall/Address list]] to [[#Mode_configs | mode config]] configuration.
  
<table class="styled_table" style="width:50%">
+
<pre>
<tr>
+
/ip ipsec mode-config
<th colspan=3>Phase 2</th>
+
set [ find name=request-only ] src-address-list=local
</tr>
+
</pre>
<tr>
 
<th>Hash Algorithm</th><th>Encryption Algorithm</th><th>PFS Group</th>
 
</tr>
 
<tr><td>SHA256</td><td>AES-256-CBC</td><td>none</td></tr>
 
<tr><td>SHA1</td><td>AES-128-CBC</td><td>none</td></tr>
 
<tr><td>SHA1</td><td>3DES</td><td>none</td></tr>
 
</table>
 
 
 
 
 
{{Warning | Phase 2 (/ip ipsec proposal) PFS Group must be set to 'none' for rekeying to work properly.}}
 
{{Note | If you are connected to the VPN over WiFi, the iOS device can go into sleep mode and disconnect from the network.}}
 
  
==== strongSwan client configuration ====
+
{{Note | If multiple peers are using the same [[#Mode_configs | mode config]] configuration, instead of adjusting the default "request-only" entry, you can create a new [[#Mode_configs | mode config]] entry with <var>responder<nowiki>=</nowiki>no</var> and assign it to the peer. }}
  
Generate a new certificate for the client and sign it with previously created CA. Export both client and CA certificates in PEM format.
+
Verify correct source NAT rule is dynamically generated when the tunnel is established.
  
 
<pre>
 
<pre>
/certificate
+
[admin@MikroTik] > /ip firewall nat print
add common-name=strongSwan_client name=strongSwan_client key-usage=tls-client
+
Flags: X - disabled, I - invalid, D - dynamic
sign strongSwan_client ca=ca
+
0  D ;;; ipsec mode-config
export-certificate ca
+
      chain=srcnat action=src-nat to-addresses=192.168.77.254 src-address-list=local dst-address-list=!local
export-certificate strongSwan_client export-passphrase=1234567890
 
 
</pre>
 
</pre>
  
Three files are now located in the routers Files section: <b>cert_export_ca.crt</b>, <b>cert_export_strongSwan_client.crt</b> and <b>cert_export_strongSwan_client.key</b>. strongSwan accepts either PEM or DER format certificates and it is possible to just change the certificate extensions. The private key must be in PKCS1 format - it will need to be converted. We can do this with OpenSSL. Rename the certificates for a more convenient look.
+
{{Warning | Make sure dynamic [[#Mode_configs | mode config]] address is not a part of local network. }}
  
<pre>
+
==== Windows client configuration ====
$ mv cert_export_ca.crt ca.pem
 
$ mv cert_export_strongSwan_client.crt strongSwan_client.pem
 
$ openssl rsa -in cert_export_strongSwan_client.key -out strongSwan_clientKey.pem
 
</pre>
 
  
Download the certificates and the key to strongSwan client device and move the files to their appropriate directory. By default /etc/ipsec.d/ is used for certificate storage.
+
Open PKCS12 format certificate file on the Windows computer. Install the certificate by following the instructions. Make sure you select Local Machine store location.
  
<pre>
+
[[File:Ike2v2_cert_win.png | 1300px]]
$ mv ca.pem /etc/ipsec.d/cacerts/ca.pem
 
$ mv strongSwan_client.pem /etc/ipsec.d/certs/strongSwan_client.pem
 
$ mv strongSwan_clientKey.pem /etc/ipsec.d/private/strongSwan_client.pem
 
</pre>
 
  
Add a new connection to /etc/ipsec.conf file
+
You can now proceed to Network and Internet settings -> VPN and add a new configuration. Fill in the Connection name, Server name or address parameters. Select IKEv2 under VPN type. When it is done, it is necessary to select "Use machine certificates". This can be done in Network and Sharing Center by clicking the Properties menu for the VPN connection. The setting is located under Security tab.
  
<pre>
+
[[File:Ike2v2_conf_win.png | 1300px]]
conn "ikev2"
 
        keyexchange=ikev2
 
        ike=aes128-sha1-modp2048
 
        esp=aes128-sha1
 
        leftsourceip=%modeconfig
 
        leftcert=strongSwan_client.pem
 
        leftfirewall=yes
 
        right=2.2.2.2
 
        rightid="CN=2.2.2.2"
 
        rightsubnet=0.0.0.0/0
 
        auto=add
 
</pre>
 
  
Add exported passphrase for the private key to /etc/ipsec.secrets file
+
Currently Windows 10 is compatible with the following Phase 1 ([[#Peer_Profiles |peer profiles]]) and Phase 2 ([[#Policy_Proposals |policy proposals]]) proposal sets:
  
<pre>
+
<table class="styled_table" style="width:50%">
: RSA strongSwan_client.pem "1234567890"
+
<tr>
</pre>
+
<th colspan=3>Phase 1</th>
 
+
</tr>
You can now restart (or start) the ipsec daemon and initialize the connection
+
<tr>
 
+
<th>Hash Algorithm</th><th>Encryption Algorithm</th><th>DH Group</th>
<pre>
+
</tr>
$ ipsec restart
+
<tr><td>SHA1</td><td>3DES</td><td>modp1024</td></tr>
$ ipsec up ikev2
+
<tr><td>SHA256</td><td>3DES</td><td>modp1024</td></tr>
</pre>
+
<tr><td>SHA1</td><td>AES-128-CBC</td><td>modp1024</td></tr>
 +
<tr><td>SHA256</td><td>AES-128-CBC</td><td>modp1024</td></tr>
 +
<tr><td>SHA1</td><td>AES-192-CBC</td><td>modp1024</td></tr>
 +
<tr><td>SHA256</td><td>AES-192-CBC</td><td>modp1024</td></tr>
 +
<tr><td>SHA1</td><td>AES-256-CBC</td><td>modp1024</td></tr>
 +
<tr><td>SHA256</td><td>AES-256-CBC</td><td>modp1024</td></tr>
 +
<tr><td>SHA1</td><td>AES-128-GCM</td><td>modp1024</td></tr>
 +
<tr><td>SHA256</td><td>AES-128-GCM</td><td>modp1024</td></tr>
 +
<tr><td>SHA1</td><td>AES-256-GCM</td><td>modp1024</td></tr>
 +
<tr><td>SHA256</td><td>AES-256-GCM</td><td>modp1024</td></tr>
 +
</table>
  
===Road Warrior setup Ikev1 RSA Auth===
 
  
====Creating Certificates====
+
<table class="styled_table" style="width:50%">
 +
<tr>
 +
<th colspan=3>Phase 2</th>
 +
</tr>
 +
<tr>
 +
<th>Hash Algorithm</th><th>Encryption Algorithm</th><th>PFS Group</th>
 +
</tr>
 +
<tr><td>SHA1</td><td>AES-256-CBC</td><td>none</td></tr>
 +
<tr><td>SHA1</td><td>AES-128-CBC</td><td>none</td></tr>
 +
<tr><td>SHA1</td><td>3DES</td><td>none</td></tr>
 +
<tr><td>SHA1</td><td>DES</td><td>none</td></tr>
 +
<tr><td>SHA1</td><td>none</td><td>none</td></tr>
 +
</table>
  
All certificates can be created on RouterOS server using certificate manager.
 
[[Manual:Create_Certificates#Generate_certificates_on_RouterOS | <code>See example >></code>]]
 
  
====Ipsec Server Config====
 
  
<pre>
+
==== Android Client Notes ====
  
/ip ipsec policy group
+
Native Android client does not support ikev2 at the moment. StrongSwan client from Play Store can be used to connect to ikev2 server.
add name=test
+
StrongSwan client the same as windows accept certificates and keys in pkcs12 format. So external tool is needed to convert exported .crt and .key files to .pfx and then import .pfx file.
  
/ip ipsec peer
+
After its imported you will see CA and Client cert in user certificates:
add auth-method=rsa-signature certificate=server exchange-mode=main \
 
    generate-policy=port-override passive=yes policy-template-group=test remote-certificate=none
 
/ip ipsec policy
 
add dst-address=172.16.1.0/24 group=test src-address=172.16.2.0/24 template=yes
 
  
</pre>
+
[[file:android-cert-import.png | 300px]]
  
====Ipsec Client Config====
 
  
====Testing CRL====
+
Now you can pick them in profile configuration.
  
Now lets say client2 should not be able to connect anymore. We need to revoke its certificate so that it is excluded from CRL list.
+
[[file:android-cl-cert.png | 300px]]
<pre>
 
/certificate
 
issued-revoke client2
 
</pre>
 
  
Notice R flag, which means that certificate is revoked
+
Ca certificate is selected automatically as shown in screenshot below, but if for some reason you need to specify exact CA certificate, then unselect "Select automatically" and pick imported CA from the list.
<pre>
 
[admin@pe0] /certificate> print
 
Flags: K - private-key, D - dsa, L - crl, C - smart-card-key,
 
A - authority, I - issued, R - revoked, E - expired, T - trusted
 
#        NAME              COMMON-NAME              FINGERPRINT             
 
0 K L A T myCa              myCa                      7fa636e6576495fe78f1a4...
 
1 K  I T server            server                    cf0650a291bf4685f2fbd3...
 
2 K  I  client1            client1                  26233de30e89b203b946ab...
 
3 K  R  client2            client2                  cf172b62201befaf8d8966...
 
  
</pre>
+
[[file:android-ca-cert.png | 300px]]
  
 +
When connecting Android StrongSwan clients, make sure that on RouterOS proposal settings DH group is disabled, otherwise phase2 will fail.
  
Now if you kill current connection client2 will no be able to establish phase1.
+
==== macOS client configuration ====
  
===Site to Site IpSec Tunnel===
+
Open PKCS12 format certificate file on the macOS computer and install the certificate in "System" keychain. It is necessary to mark the CA certificate as trusted manually since it is self-signed. Locate the certificate macOS Keychain Access app under System tab and mark it as Always Trust.
  
Consider setup as illustrated below
+
[[File:Ikev2_cert_macos.png | 900px]]
  
[[file:site-to-site-ipsec-example.png]]
+
You can now proceed to System Preferences -> Network and add a new configuration by clicking the + button. Select Interface: VPN, VPN Type: IKEv2 and name your connection. Remote ID must be set equal to common-name or subjAltName of server's certificate. Local ID can be left blank. Under Authentication Settings select None and choose the client certificate. You can now test the connectivity.
  
Two remote office routers are connected to internet and office workstations behind routers are NATed. Each office has its own local subnet, 10.1.202.0/24 for Office1 and 10.1.101.0/24 for Office2. Both remote offices needs secure tunnel to local networks behind routers.
+
[[File:Ikev2_conf_macos.png | 900px]]
  
 +
Currently macOS is compatible with the following Phase 1 ([[#Peer_Profiles |peer profiles]]) and Phase 2 ([[#Policy_Proposals |policy proposals]]) proposal sets:
  
====IP Connectivity====
+
<table class="styled_table" style="width:50%">
 
+
<tr>
On both routers ether1 is used as wan port and ether2 is used to connect workstations. Also NAT rules are set tu masquerade local networks.
+
<th colspan=3>Phase 1</th>
 
+
</tr>
 
+
<tr>
Office1 router:
+
<th>Hash Algorithm</th><th>Encryption Algorithm</th><th>DH Group</th>
<pre>
+
</tr>
/ip address
+
<tr><td>SHA256</td><td>AES-256-CBC</td><td>modp2048</td></tr>
add address=192.168.90.1/24 interface=ether1
+
<tr><td>SHA256</td><td>AES-256-CBC</td><td>ecp256</td></tr>
add address=10.1.202.1/24 interface=ether2
+
<tr><td>SHA256</td><td>AES-256-CBC</td><td>modp1536</td></tr>
 +
<tr><td>SHA1</td><td>AES-128-CBC</td><td>modp1024</td></tr>
 +
<tr><td>SHA1</td><td>3DES</td><td>modp1024</td></tr>
 +
</table>
 +
 
 +
 
 +
<table class="styled_table" style="width:50%">
 +
<tr>
 +
<th colspan=3>Phase 2</th>
 +
</tr>
 +
<tr>
 +
<th>Hash Algorithm</th><th>Encryption Algorithm</th><th>PFS Group</th>
 +
</tr>
 +
<tr><td>SHA256</td><td>AES-256-CBC</td><td>none</td></tr>
 +
<tr><td>SHA1</td><td>AES-128-CBC</td><td>none</td></tr>
 +
<tr><td>SHA1</td><td>3DES</td><td>none</td></tr>
 +
</table>
  
/ip route
 
add gateway=192.168.90.254
 
  
/ip firewall nat
 
add chain=srcnat out-interface=ether1 action=masquerade
 
</pre>
 
  
Office2 router:
+
==== iOS client configuration ====
<pre>
 
/ip address
 
add address=192.168.80.1/24 interface=ether1
 
add address=10.1.101.1/24 interface=ether2
 
  
/ip route
+
Typically PKCS12 bundle contains also CA certificate, but iOS does not install this CA, so self-signed CA certificate must be installed separately using PEM format. Open these files on the iOS device and install both certificates by following the instructions. It is necessary to mark the self-signed CA certificate as trusted on the iOS device. This can be done in Settings -> General -> About -> Certificate Trust Settings menu. When it is done, check whether both certificates are marked as "verified" under Settings -> General -> Profiles menu.
add gateway=192.168.80.254
 
  
/ip firewall nat
+
[[File:Ikev2_cert_ios.PNG | 900px]]
add chain=srcnat out-interface=ether1 action=masquerade
 
</pre>
 
  
====IpSec Peer's config====
 
  
Next step is to add peer's configuration. We need to specify peers address and port and pre-shared-key. Other parameters are left to default values.
+
You can now proceed to Settings -> General -> VPN menu and add a new configuration. Remote ID must be set equal to common-name or subjAltName of server's certificate. Local ID can be left blank.
  
Office1 router:
+
[[File:Ikev2_conf_ios.PNG | 450px]]
<pre>
 
/ip ipsec peer
 
add address=192.168.80.1/32 port=500 auth-method=pre-shared-key secret="test"
 
</pre>
 
Office2 router:
 
<pre>
 
/ip ipsec peer
 
add address=192.168.90.1/32 port=500 auth-method=pre-shared-key secret="test"
 
</pre>
 
  
====Policy and proposal====
 
  
It is important that proposed authentication and encryption algorithms match on both routers. In this example we can use predefined "default" proposal
+
Currently iOS is compatible with the following Phase 1 ([[#Peer_Profiles |peer profiles]]) and Phase 2 ([[#Policy_Proposals |policy proposals]]) proposal sets:
  
<pre>
+
<table class="styled_table" style="width:50%">
[admin@MikroTik] /ip ipsec proposal> print
+
<tr>
Flags: X - disabled
+
<th colspan=3>Phase 1</th>
0  name="default" auth-algorithms=sha1 enc-algorithms=3des lifetime=30m
+
</tr>
    pfs-group=modp1024  
+
<tr>
</pre>
+
<th>Hash Algorithm</th><th>Encryption Algorithm</th><th>DH Group</th>
 +
</tr>
 +
<tr><td>SHA256</td><td>AES-256-CBC</td><td>modp2048</td></tr>
 +
<tr><td>SHA256</td><td>AES-256-CBC</td><td>ecp256</td></tr>
 +
<tr><td>SHA256</td><td>AES-256-CBC</td><td>modp1536</td></tr>
 +
<tr><td>SHA1</td><td>AES-128-CBC</td><td>modp1024</td></tr>
 +
<tr><td>SHA1</td><td>3DES</td><td>modp1024</td></tr>
 +
</table>
  
As we already have proposal as a next step we need correct IpSec policy. We want to encrypt traffic coming form 10.1.202.0/24 to 10.1.101.0/24 and vice versa.
 
  
Office1 router:
+
<table class="styled_table" style="width:50%">
<pre>
+
<tr>
/ip ipsec policy
+
<th colspan=3>Phase 2</th>
add src-address=10.1.202.0/24 src-port=any dst-address=10.1.101.0/24 dst-port=any \
+
</tr>
sa-src-address=192.168.90.1 sa-dst-address=192.168.80.1 \
+
<tr>
tunnel=yes action=encrypt proposal=default
+
<th>Hash Algorithm</th><th>Encryption Algorithm</th><th>PFS Group</th>
</pre>
+
</tr>
Office2 router:
+
<tr><td>SHA256</td><td>AES-256-CBC</td><td>none</td></tr>
<pre>
+
<tr><td>SHA1</td><td>AES-128-CBC</td><td>none</td></tr>
/ip ipsec policy
+
<tr><td>SHA1</td><td>3DES</td><td>none</td></tr>
add src-address=10.1.101.0/24 src-port=any dst-address=10.1.202.0/24 dst-port=any \
+
</table>
sa-src-address=192.168.80.1 sa-dst-address=192.168.90.1 \
+
 
tunnel=yes action=encrypt proposal=default
 
</pre>
 
Note that we configured tunnel mode instead of transport, as this is site to site encryption.
 
  
====NAT and Fasttrack Bypass====
+
{{Note | If you are connected to the VPN over WiFi, the iOS device can go into sleep mode and disconnect from the network.}}
  
At this point if you will try to establish IpSec tunnel it will not work, packets will be rejected. This is because both routers have NAT rules that is changing source address before packet is encrypted. Router is unable to encrypt the packet, because source address do not match address specified in policy configuration. For more information see [[M:Packet_Flow#IPsec_encryption|packet flow ipsec example]].
+
==== strongSwan client configuration ====
  
 +
strongSwan accepts either PEM or DER format certificates and it is possible to just change the certificate extensions. The private key must be in PKCS1 format - it will need to be converted. We can do this with OpenSSL. This example shows files <i>cert_export_ca.crt</i>, <i>cert_export_strongSwan_client.crt</i> and <i>cert_export_strongSwan_client.key</i> imported in Linux machine.
  
To fix this we need to set up NAT bypass rule.
+
Rename the certificates for a more convenient look.
  
Office1 router:
 
 
<pre>
 
<pre>
/ip firewall nat
+
$ mv cert_export_ca.crt ca.pem
add chain=srcnat action=accept  place-before=0 \
+
$ mv cert_export_strongSwan_client.crt strongSwan_client.pem
src-address=10.1.202.0/24 dst-address=10.1.101.0/24
+
$ openssl rsa -in cert_export_strongSwan_client.key -out strongSwan_clientKey.pem
</pre>
 
Office2 router:
 
<pre>
 
/ip firewall nat
 
add chain=srcnat action=accept  place-before=0 \
 
src-address=10.1.101.0/24 dst-address=10.1.202.0/24
 
 
</pre>
 
</pre>
  
{{Note | If you previously tried to establish tunnel before NAT bypass rule was added, you have to clear connection table from existing connection or restart the routers }}
+
Download the certificates and the key to strongSwan client device and move the files to their appropriate directory. By default /etc/ipsec.d/ is used for certificate storage.
  
It is very important that bypass rule is placed at the top of all other NAT rules.
 
 
Another issue is if you have fasttrack enabled, packet bypasses ipsec policies. So we need to add accept rule before fasttrack
 
 
<pre>
 
<pre>
/ip firewall filter
+
$ mv ca.pem /etc/ipsec.d/cacerts/ca.pem
add chain=forward action=accept place-before=1
+
$ mv strongSwan_client.pem /etc/ipsec.d/certs/strongSwan_client.pem
src-address=10.1.101.0/24 dst-address=10.1.202.0/24 connection-state=established,related
+
$ mv strongSwan_clientKey.pem /etc/ipsec.d/private/strongSwan_client.pem
add chain=forward action=accept place-before=1
 
src-address=10.1.202.0/24 dst-address=10.1.101.0/24 connection-state=established,related
 
 
</pre>
 
</pre>
  
However this can add significant load to CPU if there is a fair amount of tunnels and significant traffic on each tunnel.
+
Add a new connection to /etc/ipsec.conf file
 
 
Solution is to use RAW firewall tables to bypass connection tracking, that way eliminating need of filter rules listed above and reducing load on CPU by approximately 30%.
 
  
 
<pre>
 
<pre>
/ip firewall raw
+
conn "ikev2"
add action=notrack chain=prerouting src-address=10.1.101.0/24 dst-address=10.1.202.0/24
+
        keyexchange=ikev2
add action=notrack chain=prerouting src-address=10.1.202.0/24 dst-address=10.1.101.0/24
+
        ike=aes128-sha1-modp2048
 +
        esp=aes128-sha1
 +
        leftsourceip=%modeconfig
 +
        leftcert=strongSwan_client.pem
 +
        leftfirewall=yes
 +
        right=2.2.2.2
 +
        rightid="CN=2.2.2.2"
 +
        rightsubnet=0.0.0.0/0
 +
        auto=add
 
</pre>
 
</pre>
  
===L2TP/IPSec setup===
+
Add exported passphrase for the private key to /etc/ipsec.secrets file
  
See [[Manual:Interface/L2TP#Basic_L2TP.2FIpSec_setup | L2TP configuration examples]].
+
<pre>
 +
: RSA strongSwan_client.pem "1234567890"
 +
</pre>
  
===Allow Only Ipsec Encapsulated Traffic===
+
You can now restart (or start) the ipsec daemon and initialize the connection
  
There are some scenarios where for security reasons you would like to drop access from/to specific networks if incoming/outgoing packets are not encrypted. For example, If we have L2TP/Ipsec setup we would want to drop non encrypted L2TP connection attempts.
+
<pre>
 +
$ ipsec restart
 +
$ ipsec up ikev2
 +
</pre>
 +
 
 +
===Road Warrior setup with Mode Conf===
 +
 
 +
 
 +
Consider setup where worker need to access other co-workers (workstations) and local office server remotely.
 +
Office has two subnets:
 +
* 192.168.55.0/24 for workstations
 +
* 192.168.66.0/24 network that must not be reachable by RoadWarrior clients
 +
* 10.5.8.0/24 for servers
 +
 
 +
And access to those networks should be secure.
 +
 
 +
[[file:ipsec-road-warrior.png]]
 +
 
 +
Typically in RoadWarrior setups as this it is impossible to know from which address user will connect, so we need to set up <var>generate-policy</var> parameter on the server side. However this leads to other problems, client can generate any policy and access any network in the office. Even set 0.0.0.0/0 and deny internet access to office workers.
 +
 
 +
'''Mode Conf''', '''policy group''' and '''policy templates''' will allow us to overcome these problems.
  
There are several ways how to achieve this:
 
* Using ipsec policy matcher in firewall;
 
* Using generic ipsec policy with action=drop and lower priority (can be used in road warrior setups where dynamic policies are generated);
 
* By setting DSCP or priority in mangle and matching the same values in firewall after decapsulation.
 
  
====Ipsec Policy Matcher====
+
====IPsec Server Config====
  
Lets set up ipsec policy matcher to accept all packets that matched any of ipsec policies and drop the rest
+
At first we need a pool from which RoadWarrior will will get an address. Typically in office you set up DHCP server for local workstations, the same DHCP pool can be used.
 
<pre>
 
<pre>
add chain=input comment="ipsec policy matcher" in-interface=WAN \
+
/ip pool
    ipsec-policy=in,ipsec
+
add name=ipsec-RW ranges=192.168.77.2-192.168.77.254
add action=drop chain=input comment="drop all" in-interface=WAN log=yes
 
 
</pre>
 
</pre>
  
Ipsec policy matcher takes two parameters direction, policy. We used incoming direction and ipsec policy. Ipsec policy option allows us to inspect packets after decapsulation, so for example if we want to allow only gre encapsulated packet from specific source address and drop the rest we could set up following rules
+
Next we need to set up what settings to send to the client using Mode Conf.
 
+
<pre>
 +
/ip ipsec mode-config
 +
add address-pool=ipsec-RW name=RW-cfg split-include=\
 +
    10.5.8.0/24,192.168.55.0/24
 +
</pre>
 +
As you can see we specified from which pool to give out address and two allowed subnets.
 +
 
 +
 
 +
Now to allow only specific source/destination address in generated policies we will use policy group and create policy templates:
 
<pre>
 
<pre>
add chain=input comment="ipsec policy matcher" in-interface=WAN \
+
/ip ipsec policy group
     ipsec-policy=in,ipsec protocol=gre src=address=192.168.33.1
+
add name=RoadWarrior
add action=drop chain=input comment="drop all" in-interface=WAN log=yes
+
 
 +
/ip ipsec policy
 +
add dst-address=192.168.77.0/24 group=RoadWarrior src-address=10.5.8.0/24 \
 +
    template=yes
 +
add dst-address=192.168.77.0/24 group=RoadWarrior src-address=192.168.55.0/24 \
 +
     template=yes
 +
</pre>
 +
 
 +
 
 +
Now we just add xauth users and peer with enabled Mode Conf and policy group.
 +
<pre>
 +
/ip ipsec user
 +
add name=user1 password=123
 +
add name=user2 password=234
 +
 
 +
/ip ipsec peer
 +
add auth-method=pre-shared-key-xauth generate-policy=port-strict mode-config=RW-cfg \
 +
    policy-template-group=RoadWarrior secret=123 passive=yes
 +
 
 +
</pre>
 +
 
 +
==== Apple iOS (iPhone/iPad) Client ====
 +
 
 +
For iOS devices to be able to connect, '''proposal''' changes are needed:
 +
 
 +
* does not work with 3des encryption algorithm, '''aes-128/256''' works
 +
* auth algorithm must be '''sha1'''
 +
* PFS group must be '''none'''
 +
* lifetime must be '''8 hours'''
 +
 
 +
Example of valid proposal configuration for iOS devices:
 +
<pre>
 +
/ip ipsec proposal
 +
set default enc-algorithms=aes-128-cbc,aes-256-cbc lifetime=8h \
 +
    pfs-group=none
 +
</pre>
 +
 
 +
{{ Note | Iphone does not work with split-include 0.0.0.0/0. If you set 0.0.0.0/0 for older clients traffic will not be sent over the tunnel, for newer ios clients tunnel will not be established.}}
 +
 
 +
==== Android Client Notes ====
 +
 
 +
Android devices are trying to add policy with destination 0.0.0.0/0, so you have to make sure that correct policy template is added.
 +
 
 +
In our case we need to add:
 +
<pre>
 +
/ip ipsec policy
 +
add group=RoadWarrior dst-address=192.168.77.0/24 src-address=0.0.0.0/0 template=yes
 +
</pre>
 +
 
 +
====RouterOS Client Config====
 +
 
 +
<pre>
 +
/ip ipsec peer
 +
add address=2.2.2.2 auth-method=pre-shared-key-xauth generate-policy=port-strict secret=123 \
 +
    xauth-login=user1 xauth-password=123 mode-config=request-only
 +
</pre>
 +
 
 +
====Shrew Client Config====
 +
 
 +
<pre>
 +
n:version:2
 +
n:network-ike-port:500
 +
n:network-mtu-size:1380
 +
n:network-natt-port:4500
 +
n:network-natt-rate:15
 +
n:network-frag-size:540
 +
n:network-dpd-enable:0
 +
n:client-banner-enable:0
 +
n:network-notify-enable:0
 +
n:client-wins-used:0
 +
n:client-wins-auto:1
 +
n:client-dns-used:1
 +
n:client-dns-auto:0
 +
n:client-splitdns-used:1
 +
n:client-splitdns-auto:0
 +
n:phase1-dhgroup:2
 +
n:phase1-life-secs:86400
 +
n:phase1-life-kbytes:0
 +
n:vendor-chkpt-enable:0
 +
n:phase2-life-secs:300
 +
n:phase2-life-kbytes:0
 +
n:policy-nailed:1
 +
n:policy-list-auto:1
 +
n:client-addr-auto:1
 +
s:network-host:2.2.2.2
 +
s:client-auto-mode:pull
 +
s:client-iface:virtual
 +
s:network-natt-mode:disable
 +
s:network-frag-mode:disable
 +
s:auth-method:mutual-psk-xauth
 +
s:ident-client-type:address
 +
s:ident-server-type:address
 +
b:auth-mutual-psk:MTIz
 +
s:phase1-exchange:main
 +
s:phase1-cipher:3des
 +
s:phase1-hash:md5
 +
s:phase2-transform:esp-3des
 +
s:phase2-hmac:sha1
 +
s:ipcomp-transform:disabled
 +
n:phase2-pfsgroup:2
 +
s:policy-level:require
 +
 
 +
</pre>
 +
 
 +
===Basic L2TP/IPsec setup===
 +
 
 +
This example demonstrates how to easily setup L2TP/IPsec server on RouterOS for road warrior connections (works with Windows, Android, iOS, macOS and other vendor L2TP/IPsec implementations).
 +
 
 +
====RouterOS server configuration====
 +
 
 +
First step is to enable L2TP server:
 +
 
 +
<pre>
 +
/interface l2tp-server server
 +
set enabled=yes use-ipsec=required ipsec-secret=mySecret default-profile=default
 +
</pre>
 +
 
 +
<var>use-ipsec</var> is set to <b>required</b> to make sure that only IPsec encapsulated L2TP connections are accepted.
 +
 
 +
Now what it does is enables L2TP server and creates dynamic IPsec peer with specified secret.
 +
 
 +
<pre>
 +
[admin@MikroTik] /ip ipsec peer> print
 +
0  D address=0.0.0.0/0 local-address=0.0.0.0 passive=yes port=500
 +
      auth-method=pre-shared-key secret="123" generate-policy=port-strict
 +
      exchange-mode=main-l2tp send-initial-contact=yes nat-traversal=yes  
 +
      hash-algorithm=sha1 enc-algorithm=3des,aes-128,aes-192,aes-256
 +
      dh-group=modp1024 lifetime=1d dpd-interval=2m dpd-maximum-failures=5
 +
</pre>
 +
 
 +
{{Note | Care must be taken if static IPsec peer configuration exists. }}
 +
 
 +
Next step is to create VPN pool and add some users.
 +
 
 +
<pre>
 +
/ip pool add name=vpn-pool range=192.168.99.2-192.168.99.100
 +
 
 +
/ppp profile
 +
set default local-address=192.168.99.1 remote-address=vpn-pool
 +
 
 +
/ppp secret
 +
add name=user1 password=123
 +
add name=user2 password=234
 
</pre>
 
</pre>
  
 +
Now router is ready to accept L2TP/IPsec client connections.
  
For L2TP rule set would be:
+
====RouterOS client configuration====
<pre>
 
add chain=input comment="ipsec policy matcher" in-interface=WAN \
 
    ipsec-policy=in,ipsec protocol=udp dst-port=1701
 
add action=drop chain=input protocol=udp dst-port=1701 comment="drop l2tp" in-interface=WAN log=yes
 
</pre>
 
 
 
====Using generic Ipsec Policy====
 
  
The trick of this method is to add default policy with action drop. Lets assume we are running L2TP/IpSec server 1.1.1.1 with public address and we want to drop all non encrypted L2TP:
+
For RouterOS to work as L2TP/IPsec client, it is as simple as adding a new L2TP client.
  
 
<pre>
 
<pre>
/ip ipsec policy
+
/interface l2tp-client
add src-address=1.1.1.1 dst-address=0.0.0.0/0 sa-src-address=1.1.1.1 \
+
add connect-to=1.1.1.1 disabled=no ipsec-secret=mySecret name=l2tp-out1 \
  protocol=udp src-port=1701 tunnel=yes action=discard
+
    password=123 use-ipsec=yes user=user1
 
</pre>
 
</pre>
  
Now router will drop any L2TP unencrypted incoming traffic, but after successful L2TP/Ipsec connection dynamic policy is created with higher priority than it is on default static rule and packets matching that dynamic rule can be forwarded.
+
It will automatically create dynamic IPsec peer and policy configuration.
 
 
{{ Note | Starting from RouterOS 6.40 policy order is important. For this to work, make sure the static drop policy is below the dynamic policies. Move it below the policy template if necessary. }}
 
 
 
<pre>
 
[admin@rack2_10g1] /ip ipsec policy> print
 
Flags: T - template, X - disabled, D - dynamic, I - inactive, * - default
 
0 T * group=default src-address=::/0 dst-address=::/0 protocol=all
 
      proposal=default template=yes
 
 
 
1  D  src-address=1.1.1.1/32 src-port=1701 dst-address=10.5.130.71/32
 
      dst-port=any protocol=udp action=encrypt level=require
 
      ipsec-protocols=esp tunnel=no sa-src-address=1.1.1.1
 
      sa-dst-address=10.5.130.71
 
 
 
2    src-address=1.1.1.1/32 src-port=1701 dst-address=0.0.0.0/0
 
      dst-port=any protocol=udp action=discard level=unique
 
      ipsec-protocols=esp tunnel=yes sa-src-address=1.1.1.1
 
      sa-dst-address=0.0.0.0 proposal=default manual-sa=none
 
 
 
</pre>
 
  
 
===Connecting with Shrew Client and allowing only Encrypted traffic===
 
===Connecting with Shrew Client and allowing only Encrypted traffic===
Line 2,230: Line 2,559:
 
;"phase1 negotiation failed due to time up" what does it mean?
 
;"phase1 negotiation failed due to time up" what does it mean?
 
:There are communication problems between the peers. Possible causes include - misconfigured Phase 1 IP addresses; firewall blocking UDP ports 500 and 4500; NAT between peers not properly translating IPsec negotiation packets.
 
:There are communication problems between the peers. Possible causes include - misconfigured Phase 1 IP addresses; firewall blocking UDP ports 500 and 4500; NAT between peers not properly translating IPsec negotiation packets.
 +
:This error message can also appear when <var>local-address</var> parameter is not used properly. More information available [[#Manually_specifying_local-address_parameter_under_Peer_configuration | here]].
  
 
;Random packet drops or connections over the tunnel is very slow, enabling packet sniffer/torch fixes the problem
 
;Random packet drops or connections over the tunnel is very slow, enabling packet sniffer/torch fixes the problem
:Problem is that before encapsulation packets are sent to fasttrack/fastpath, thus bypassing ipsec policy.
+
:Problem is that before encapsulation packets are sent to Fasttrack/FastPath, thus bypassing IPsec policy checking.
:Solution is to exclude traffic that need to be encapsulated/decaplsulated from fasttrack, see configuration example [[#NAT_and_Fasttrack_Bypass | here]].
+
:Solution is to exclude traffic that need to be encapsulated/decaplsulated from Fasttrack, see configuration example [[#NAT_and_Fasttrack_Bypass | here]].
  
 
;How to enable ike2?
 
;How to enable ike2?
: For basic configuration enabling ike2 is very simple, just change <var>exchange-mode</var> in peer settings to <b>ike2</b>
+
: For basic configuration enabling ike2 is very simple, just change <var>exchange-mode</var> in peer settings to <b>ike2</b>.
  
 
; fatal NO-PROPOSAL-CHOSEN notify messsage
 
; fatal NO-PROPOSAL-CHOSEN notify messsage
Line 2,245: Line 2,575:
  
 
; Can I allow only encrypted traffic?
 
; Can I allow only encrypted traffic?
: Yes, you can, see examples [[#Allow_Only_Ipsec_Encapsulated_Traffic | here]].
+
: Yes, you can, see examples [[#Allow_only_IPsec_encapsulated_traffic | here]].
  
 +
; I enable IKEv2 REAUTH on StrongSwan and got error 'initiator did not reauthenticate as requested'
 +
: RouterOS does not support rfc4478, reauth must be disabled on StrongSwan.
  
 
{{cont}}
 
{{cont}}

Latest revision as of 13:51, 26 November 2018

Version.png

Applies to RouterOS: v6.0 +

Contents

Summary

Sub-menu: /ip ipsec
Package required: security


Internet Protocol Security (IPsec) is a set of protocols defined by the Internet Engineering Task Force (IETF) to secure packet exchange over unprotected IP/IPv6 networks such as Internet.


IPsec protocol suite can be divided in following groups:

  • Internet Key Exchange (IKE) protocols. Dynamically generates and distributes cryptographic keys for AH and ESP.
  • Authentication Header (AH) RFC 4302
  • Encapsulating Security Payload (ESP) RFC 4303

Internet Key Exchange Protocol (IKE)

The Internet Key Exchange (IKE) is a protocol that provides authenticated keying material for Internet Security Association and Key Management Protocol (ISAKMP) framework. There are other key exchange schemes that work with ISAKMP, but IKE is the most widely used one. Together they provide means for authentication of hosts and automatic management of security associations (SA).

Most of the time IKE daemon is doing nothing. There are two possible situations when it is activated:

There is some traffic caught by a policy rule which needs to become encrypted or authenticated, but the policy doesn't have any SAs. The policy notifies IKE daemon about that, and IKE daemon initiates connection to remote host. IKE daemon responds to remote connection. In both cases, peers establish connection and execute 2 phases:

  • Phase 1 - The peers agree upon algorithms they will use in the following IKE messages and authenticate. The keying material used to derive keys for all SAs and to protect following ISAKMP exchanges between hosts is generated also. This phase should match following settings:
    • authentication method
    • DH group
    • encryption algorithm
    • exchange mode
    • hash alorithm
    • NAT-T
    • DPD and lifetime (optional)
  • Phase 2 - The peers establish one or more SAs that will be used by IPsec to encrypt data. All SAs established by IKE daemon will have lifetime values (either limiting time, after which SA will become invalid, or amount of data that can be encrypted by this SA, or both). This phase should match following settings:
    • Ipsec protocol
    • mode (tunnel or transport)
    • authentication method
    • PFS (DH) group
    • lifetime
Icon-note.png

Note: There are two lifetime values - soft and hard. When SA reaches it's soft lifetime treshold, the IKE daemon receives a notice and starts another phase 2 exchange to replace this SA with fresh one. If SA reaches hard lifetime, it is discarded.


Icon-warn.png

Warning: Phase 1 is not re-keyed if DPD is disabled when lifetime expires, only phase 2 is re-keyed. To force phase 1 re-key, enable DPD.


Icon-warn.png

Warning: PSK authentication was known to be vulnerable against Offline attacks in "aggressive" mode, however recent discoveries indicate that offline attack is possible also in case of "main" and "ike2" exchange modes. General recommendation is to avoid using PSK authentication method.


IKE can optionally provide a Perfect Forward Secrecy (PFS), which is a property of key exchanges, that, in turn, means for IKE that compromising the long term phase 1 key will not allow to easily gain access to all IPsec data that is protected by SAs established through this phase 1. It means an additional keying material is generated for each phase 2.

Generation of keying material is computationally very expensive. Exempli gratia, the use of modp8192 group can take several seconds even on very fast computer. It usually takes place once per phase 1 exchange, which happens only once between any host pair and then is kept for long time. PFS adds this expensive operation also to each phase 2 exchange.

Diffie-Hellman Groups

Diffie-Hellman (DH) key exchange protocol allows two parties without any initial shared secret to create one securely. The following Modular Exponential (MODP) and Elliptic Curve (EC2N) Diffie-Hellman (also known as "Oakley") Groups are supported:

Diffie-Hellman GroupNameReference
Group 1768 bit MODP groupRFC 2409
Group 21024 bits MODP groupRFC 2409
Group 3EC2N group on GP(2^155)RFC 2409
Group 4EC2N group on GP(2^185)RFC 2409
Group 51536 bits MODP groupRFC 3526
Group 142048 bits MODP groupRFC 3526
Group 153072 bits MODP groupRFC 3526
Group 164096 bits MODP groupRFC 3526
Group 176144 bits MODP groupRFC 3526
Group 188192 bits MODP groupRFC 3526
Group 19256 bits random ECP groupRFC 5903
Group 20384 bits random ECP groupRFC 5903
Group 21521 bits random ECP groupRFC 5903

More on standards can be found here.

IKE Traffic

To avoid problems with IKE packets hit some SPD rule and require to encrypt it with not yet established SA (that this packet perhaps is trying to establish), locally originated packets with UDP source port 500 are not processed with SPD. The same way packets with UDP destination port 500 that are to be delivered locally are not processed in incoming policy check.


Setup Procedure

To get IPsec to work with automatic keying using IKE-ISAKMP you will have to configure policy, peer and proposal (optional) entries.

Icon-warn.png

Warning: Ipsec is very sensitive to time changes. If both ends of the IpSec tunnel are not synchronizing time equally(for example, different NTP servers not updating time with the same timestamp), tunnels will break and will have to be established again.



EAP Authentication methods

Outer Auth Inner Auth
EAP-GTC
EAP-MD5
EAP-MSCHAPv2
EAP-PEAPv0

EAP-MSCHAPv2
EAP-GPSK
EAP-GTC
EAP-MD5
EAP-TLS

EAP-SIM
EAP-TLS
EAP-TTLS

PAP
CHAP
MS-CHAP
MS-CHAPv2
EAP-MSCHAPv2
EAP-GTC
EAP-MD5
EAP-TLS

EAP-TLS on Windows is called "Smart Card or other certificate".

Authentication Header (AH)

AH is a protocol that provides authentication of either all or part of the contents of a datagram through the addition of a header that is calculated based on the values in the datagram. What parts of the datagram are used for the calculation, and the placement of the header, depends whether tunnel or transport mode is used.


The presence of the AH header allows to verify the integrity of the message, but doesn't encrypt it. Thus, AH provides authentication but not privacy. Another protocol (ESP) is considered superior, it provides data privacy and also its own authentication method.


RouterOS supports the following authentication algorithms for AH:

  • SHA2 (256, 512)
  • SHA1
  • MD5


Transport mode

In transport mode AH header is inserted after IP header. IP data and header is used to calculate authentication value. IP fields that might change during transit, like TTL and hop count, are set to zero values before authentication.


Tunnel mode

In tunnel mode original IP packet is encapsulated within a new IP packet. All of the original IP packet is authenticated.

Encapsulating Security Payload (ESP)

Encapsulating Security Payload (ESP) uses shared key encryption to provide data privacy. ESP also supports its own authentication scheme like that used in AH.

ESP packages its fields in a very different way than AH. Instead of having just a header, it divides its fields into three components:

  • ESP Header - Comes before the encrypted data and its placement depends on whether ESP is used in transport mode or tunnel mode.
  • ESP Trailer - This section is placed after the encrypted data. It contains padding that is used to align the encrypted data.
  • ESP Authentication Data - This field contains an Integrity Check Value (ICV), computed in a manner similar to how the AH protocol works, for when ESP's optional authentication feature is used.

Transport mode

In transport mode ESP header is inserted after original IP header. ESP trailer and authentication value is added to the end of the packet. In this mode only IP payload is encrypted and authenticated, IP header is not secured.

ESP-transport wiki.png

Tunnel mode

In tunnel mode original IP packet is encapsulated within a new IP packet thus securing IP payload and IP header.

ESP-tunnel wiki.png

Encryption algorithms

RouterOS ESP supports various encryption and authentication algorithms.

Authentication:

  • MD5
  • SHA1
  • SHA2 (256-bit, 512-bit)

Encryption:

  • AES - 128-bit, 192-bit and 256-bit key AES-CBC, AES-CTR and AES-GCM algorithms;
  • Blowfish - added since v4.5
  • Twofish - added since v4.5
  • Camellia - 128-bit, 192-bit and 256-bit key Camellia encryption algorithm added since v4.5
  • DES - 56-bit DES-CBC encryption algorithm;
  • 3DES - 168-bit DES encryption algorithm;

Hardware acceleration

Hardware acceleration allows to do faster encryption process by using built-in encryption engine inside CPU.

RouterBoard DES and 3DES AES-CBC AES-CTR AES-GCM
MD5 SHA1 SHA256 SHA512 MD5 SHA1 SHA256 SHA512 MD5 SHA1 SHA256 SHA512 MD5 SHA1 SHA256 SHA512
RBcAPGi-5acD2nD (cAP ac) * noyesyesno noyesyesno noyesyesno nononono
RBD52G-5HacD2HnD (hAP ac2) * noyesyesno noyesyesno noyesyesno nononono
RBDiscG-5acD (DISC Lite5 ac) * noyesyesno noyesyesno noyesyesno nononono
RBLDFG-5acD (LDF 5 ac) * noyesyesno noyesyesno noyesyesno nononono
RBLHGG-5acD (LHG 5 ac) * noyesyesno noyesyesno noyesyesno nononono
RBLHGG-5acD-XL (LHG XL 5 ac) * noyesyesno noyesyesno noyesyesno nononono
RBLHGG-60ad (Wireless Wire Dish) * noyesyesno noyesyesno noyesyesno nononono
RBM11G **** yesyesyesno yesyesyesno nononono nononono
RBM33G **** yesyesyesno yesyesyesno nononono nononono
RBSXTsqG-5acD (SXTsq 5 ac) * noyesyesno noyesyesno noyesyesno nononono
RBwAPG-60ad (wAP 60G) * noyesyesno noyesyesno noyesyesno nononono
RBwAPG-60ad-A (wAP 60G AP) * noyesyesno noyesyesno noyesyesno nononono
RB450Gx4 * noyesyesno noyesyesno noyesyesno nononono
RB750Gr3 (hEX) **** yesyesyesno yesyesyesno nononono nononono
RB760iGS (hEX S) **** yesyesyesno yesyesyesno nononono nononono
RB850Gx2 ** nononono yesyesyesyes nononono nononono
RB1100AHx2 nononono yesyesyesyes nononono nononono
RB1100AHx4 and RB1100AHx4 Dude Edition yesyesyesyes yesyesyesyes yesyesyesyes yesyesyesyes
RB1200 *** nononono yesyesyesyes yesyesyesyes nononono
RB3011UiAS-RM * noyesyesno noyesyesno noyesyesno nononono
RB4011iGS+RM and RB4011iGS+5HacQ2HnD-IN yesyesyesyes yesyesyesyes yesyesyesyes yesyesyesyes
Cloud Core Router series yesyesyesno yesyesyesno yesyesyesno nononono
x86 (AES-NI) *** nononono yesyesyesyes yesyesyesyes yesyesyesyes

* supported only 128 bit and 256 bit key sizes

** only manufactured since 2016, serial numbers that begin with number 5 and 7

*** AES-CBC and AES-CTR only encryption is accelerated, hashing done in software

**** DES is not supported, only 3DES and AES-CBC

IPsec throughput results of various encryption and hash algorithm combinations are published on MikroTik products page. When testing throughput, please follow the guidelines available in the Traffic Generator manual page

Policies

Sub-menu: /ip ipsec policy


Policy table is used to determine whether security settings should be applied to a packet.


Properties

Property Description
action (discard | encrypt | none; Default: encrypt) Specifies what to do with packet matched by the policy.
  • none - pass the packet unchanged.
  • discard - drop the packet.
  • encrypt - apply transformations specified in this policy and it's SA.
comment (string; Default: ) Short description of the policy.
disabled (yes | no; Default: no) Whether policy is used to match packets.
dst-address (IP/IPv6 prefix; Default: 0.0.0.0/32) Destination address to be matched in packets.
dst-port (integer:0..65535 | any; Default: any) Destination port to be matched in packets. If set to any all ports will be matched.
group (string; Default: default) Name of the policy group to which this template is assigned.
ipsec-protocols (ah | esp; Default: esp) Specifies what combination of Authentication Header and Encapsulating Security Payload protocols you want to apply to matched traffic.
level (require | unique | use; Default: require) Specifies what to do if some of the SAs for this policy cannot be found:
  • use - skip this transform, do not drop packet and do not acquire SA from IKE daemon;
  • require - drop packet and acquire SA;
  • unique - drop packet and acquire a unique SA that is only used with this particular policy. It is used in setups where multiple clients can sit behind one public IP address (clients behind NAT).
proposal (string; Default: default) Name of the proposal template that will be sent by IKE daemon to establish SAs for this policy.
protocol (all | egp | ggp| icmp | igmp | ...; Default: all) IP packet protocol to match.
sa-dst-address (ip/ipv6 address; Default: ::) SA destination IP/IPv6 address (remote peer).
sa-src-address (ip/ipv6 address; Default: ::) SA source IP/IPv6 address (local peer).
src-address (ip/ipv6 prefix; Default: 0.0.0.0/32) Source address to be matched in packets.
src-port (any | integer:0..65535; Default: any) Source port to be matched in packets. If set to any all ports will be matched.
template (yes | no; Default: no) Creates a template and assigns it to specified policy group.

Following parameters are used by template:

  • group - name of the policy group to which this template is assigned;
  • src-address, dst-address - Requested subnet must match in both directions(for example 0.0.0.0/0 to allow all);
  • protocol - protocol to match, if set to all, then any protocol is accepted;
  • proposal - SA parameters used for this template;
  • level - useful when unique is required in setups with multiple clients behind NAT.
tunnel (yes | no; Default: no) Specifies whether to use tunnel mode.


Read only properties

Property Description
active (yes | no) Whether this policy is currently in use.
default (yes | no) Whether this is a default system entry.
dynamic (yes | no) Whether this is a dynamically added or generated entry.
invalid (yes | no) Whether this policy is invalid - possible cause is duplicate policy with the same src-address and dst-address.
ph2-count (integer) Number of active phase 2 sessions associated with the policy.
ph2-state (expired | no-phase2 | established) Indication of the progress of key establishing.
priority () Shows kernel priority.


Icon-warn.png

Warning: policy order is important starting form v6.40. Now it works similar as firewall filters where policies are executed from top to bottom (priority parameter is removed).


Icon-note.png

Note: All packets are IPIP encapsulated in tunnel mode, and their new IP header's src-address and dst-address are set to sa-src-address and sa-dst-address values of this policy. If you do not use tunnel mode (id est you use transport mode), then only packets whose source and destination addresses are the same as sa-src-address and sa-dst-address can be processed by this policy. Transport mode can only work with packets that originate at and are destined for IPsec peers (hosts that established security associations). To encrypt traffic between networks (or a network and a host) you have to use tunnel mode.


Statistics

Sub-menu: /ip ipsec statistics


This menu shows various IPsec statistics and errors.


Read only properties

Property Description
in-errors (integer) All inbound errors that are not matched by other counters.
in-buffer-errors (integer) No free buffer.
in-header-errors (integer) Header error.
in-no-states (integer) No state is found i.e. either inbound SPI, address, or IPsec protocol at SA is wrong.
in-state-protocol-errors (integer) Transformation protocol specific error, for example SA key is wrong or hardware accelerator is unable to handle amount of packets.
in-state-mode-errors (integer) Transformation mode specific error.
in-state-sequence-errors (integer) Sequence number is out of window.
in-state-expired (integer) State is expired.
in-state-mismatches (integer) State has mismatched option, for example UDP encapsulation type is mismatched.
in-state-invalid (integer) State is invalid.
in-template-mismatches (integer) No matching template for states, e.g. inbound SAs are correct but SP rule is wrong. Possible cause is mismatched sa-source or sa-destination address.
in-no-policies (integer) No policy is found for states, e.g. inbound SAs are correct but no SP is found.
in-policy-blocked (integer) Policy discards.
in-policy-errors (integer) Policy errors.
out-errors (integer) All outbound errors that are not matched by other counters.
out-bundle-errors (integer) Bundle generation error.
out-bundle-check-errors (integer) Bundle check error.
out-no-states (integer) No state is found.
out-state-protocol-errors (integer) Transformation protocol specific error.
out-state-mode-errors (integer) Transformation mode specific error.
out-state-sequence-errors (integer) Sequence errors, for example sequence number overflow.
out-state-expired (integer) State is expired.
out-policy-blocked (integer) Policy discards.
out-policy-dead (integer) Policy is dead.
out-policy-errors (integer) Policy error.

Policy Proposals

Sub-menu: /ip ipsec proposal


Proposal information that will be sent by IKE daemons to establish SAs for certain policy.


Properties

Property Description
auth-algorithms (md5|null|sha1|sha256|sha512; Default: sha1) Allowed algorithms for authorization. SHA (Secure Hash Algorithm) is stronger, but slower. MD5 uses 128-bit key, sha1-160bit key.
comment (string; Default: )
disabled (yes | no; Default: no) Whether item is disabled.
enc-algorithms (null|des|3des|aes-128-cbc|aes-128-cbc|aes-128gcm|aes-192-cbc|aes-192-ctr|aes-192-gcm|aes-256-cbc|aes-256-ctr|aes-256-gcm|blowfish|camellia-128|camellia-192|camellia-256|twofish; Default: aes-256-cbc,aes-192-cbc,aes-128-cbc) Allowed algorithms and key lengths to use for SAs.
lifetime (time; Default: 30m) How long to use SA before throwing it out.
name (string; Default: )
pfs-group (ec2n155 | ec2n185 | ecp256 | ecp384 | ecp521 | modp768 | modp1024 | modp1536 | modp2048 | modp3072 | modp4096 | modp6144 | modp8192 | none; Default: modp1024) Diffie-Helman group used for Perfect Forward Secrecy.


Read only properties

Property Description
default (yes | no) Whether this is a default system entry.

Groups

Sub-menu: /ip ipsec policy group


In this menu it is possible to create additional policy groups used by policy templates.


Properties

Property Description
name (string; Default: )
comment (string; Default: )

Peers

Sub-menu: /ip ipsec peer


Peer configuration settings are used to establish connections between IKE daemons. This connection then will be used to negotiate keys and algorithms for SAs. Exchange mode is the only unique identifier between the peers, meaning that there can be multiple peer configurations with the same remote-address as long as different exchange-mode is used.


Properties

Property Description
address (IP/IPv6 Prefix; Default: 0.0.0.0/0) If remote peer's address matches this prefix, then the peer configuration is used in authentication and establishment of Phase 1. If several peer's addresses match several configuration entries, the most specific one (i.e. the one with largest netmask) will be used.
auth-method (eap-radius | pre-shared-key | pre-shared-key-xauth | rsa-signature | rsa-key | rsa-signature-hybrid; Default: pre-shared-key) Authentication method:
  • eap-radius - IKEv2 EAP RADIUS passthrough authentication for responder (RFC 3579). Server certificate in this case is required. If server certificate is not specified then only clients supporting EAP-only (RFC 5998) will be able to connect. Note that EAP method should be compatible with EAP-only.
  • pre-shared-key - authenticate by a password (secret) string shared between the peers (not recommended since Offline attack on PSK is possible)
  • rsa-signature - authenticate using a pair of RSA certificates
  • rsa-key - authenticate using a RSA key imported in Ipsec key menu.
  • pre-shared-key-xauth - mutual PSK authentication + xauth username/password. passive parameter identifies server/client side
  • rsa-signature-hybrid - responder certificate authentication with initiator Xauth. passive parameter identifies server/client side
certificate (string; Default: ) Name of a certificate listed in certificate table (signing packets; the certificate must have private key). Applicable if RSA signature authentication method (auth-method=rsa-signature) is used.
comment (string; Default: ) Short description of the peer.
compatibility-options (skip-peer-id-validation; Default: ) Compatibility options to work with peers not following RFC guidelines.
disabled (yes | no; Default: no) Whether peer is used to match remote peer's prefix.
exchange-mode (aggressive | base | main | main-l2tp | ike2; Default: main) Different ISAKMP phase 1 exchange modes according to RFC 2408. Do not use other modes then main unless you know what you are doing. main-l2tp mode relaxes rfc2409 section 5.4, to allow pre-shared-key authentication in main mode. ike2 mode enables Ikev2 RFC 7296. Parameters that are ignored by Ikev2 proposal-check, compatibility-options, lifebytes, dpd-maximum-failures, nat-traversal.
generate-policy (no | port-override | port-strict; Default: no) Allow this peer to establish SA for non-existing policies. Such policies are created dynamically for the lifetime of SA. Automatic policies allows, for example, to create IPsec secured L2TP tunnels, or any other setup where remote peer's IP address is not known at the configuration time.
  • no - do not generate policies
  • port-override -- generate policies and force policy to use any port (old behavior)
  • port-strict -- use ports from peer's proposal, which should match peer's policy
key (string; Default: ) Name of the key from key menu. Applicable if auth-method=rsa-key.
local-address (IP/IPv6 Address; Default: ) Routers local address on which Phase 1 should be bounded to.
mode-config (none | request-only | string; Default: none) Name of the mode config parameters from mode-config menu. When parameter is set mode-config is enabled.
  • initiator peer on phase1 will send mode-config request and will set assigned IP address and DNS.
  • responder will assign ip address if address-pool is specified, will send also DNS server addresses and split-include subnets (if defined).
my-id (auto | fqdn | user-fqdn | key-id; Default: auto) This parameter sets IKE ID to specified mode. It is possible to manually set two modes FQDN and USER_FQDN.
  • FQDN - fully qualified domain name
  • USER_FQDN - specifies a fully-qualified username string, for example, "user@domain.com";
  • address - IP address is used as ID;
  • auto - tries to use correct ID automatically: IP for PSK, FQDN for Cert based connections;
  • key-id - Use the specified key-id for the identity
notrack-chain (string; Default: ) Adds raw firewall rules matching ipsec policy to specified chain.
passive (yes | no; Default: no) When passive mode is enabled will wait for remote peer to initiate IKE connection. Enabled passive mode also indicates that peer is xauth responder, and disabled passive mode - xauth initiator. When passive mode is disabled peer will try to establish not only phase1, but also phase2 automatically, if policies are configured or created during phase1.
policy-template-group (none | string; Default: ) If generate-policy is enabled, responder checks against templates from the same group. If none of the templates match, Phase2 SA will not be established.
port (integer:0..65535; Default: 500) Communication port used (when router is initiator) to connect to remote peer in cases if remote peer uses non-default port.
profile (string; Default: default) Name of the profile template that will be used during IKE negotiation.
remote-certificate (string; Default: ) Name of a certificate (listed in certificate table) for authenticating the remote side (validating packets; no private key required). Applicable if RSA signature authentication method is used. If remote-certificate is not specified then received certificate from remote peer is used and checked against CA in certificate store. Proper CA must be imported in certificate store.
secret (string; Default: ) Secret string (in case pre-shared key authentication is used). If it starts with '0x', it is parsed as a hexadecimal value
send-initial-contact (yes | no; Default: yes) Specifies whether to send "initial contact" IKE packet or wait for remote side, this packet should trigger removal of old peer SAs for current source address. Usually in road warrior setups clients are initiators and this parameter should be set to no. Initial contact is not sent if modecfg or xauth is enabled for ikev1.
xauth-login (string; Default: ) initiator (client) XAuth username
xauth-password (string; Default: ) initiator (client) XAuth password


Read only properties

Property Description
dynamic (yes | no) Whether this is a dynamically added entry by different service (e.g L2TP).
responder (yes | no) Whether this peer will act as a responder only (listen to incoming requests) and not initiate a connection.


Icon-note.png

Note: exchange modes main and l2tp-main are treated the same, so these modes cannot be used select config between multiple peers.


Icon-note.png

Note: IPSec phases information is erased, when /ip ipsec peer configuration is modified on the fly, however packets are being encrypted/decrypted because of installed-sa (for example remote-peers information is erased, when peer configuration is modified.


Peer Profiles

Peer profiles defines a set of parameters that will be used for IKE negotiation during Phase 1. These parameters may be common with other peer configurations.

Properties

Property Description
dh-group (ec2n155 | ec2n185 | modp1024 | modp1536 | modp2048 | modp3072 | modp4096 | modp6144 | modp768; Default: modp1024) Diffie-Hellman group (cipher strength)
dpd-interval (time | disable-dpd; Default: 2m) Dead peer detection interval. If set to disable-dpd, dead peer detection will not be used.
dpd-maximum-failures (integer: 1..100; Default: 5) Maximum count of failures until peer is considered to be dead. Applicable if DPD is enabled.
enc-algorithm (3des | aes-128 | aes-192 | aes-256 | blowfish | camellia-128 | camellia-192 | camellia-256 | des; Default: aes-128) List of encryption algorithms that will be used by the peer.
hash-algorithm (md5 | sha1 | sha256 | sha512; Default: sha1) Hashing algorithm. SHA (Secure Hash Algorithm) is stronger, but slower. MD5 uses 128-bit key, sha1-160bit key.
lifebytes (Integer: 0..4294967295; Default: 0) Phase 1 lifebytes is used only as administrative value which is added to proposal. Used in cases if remote peer requires specific lifebytes value to establish phase 1.
lifetime (time; Default: 1d) Phase 1 lifetime: specifies how long the SA will be valid.
name (string; Default: )
nat-traversal (yes | no; Default: yes) Use Linux NAT-T mechanism to solve IPsec incompatibility with NAT routers inbetween IPsec peers. This can only be used with ESP protocol (AH is not supported by design, as it signs the complete packet, including IP header, which is changed by NAT, rendering AH signature invalid). The method encapsulates IPsec ESP traffic into UDP streams in order to overcome some minor issues that made ESP incompatible with NAT.
proposal-check (claim | exact | obey | strict; Default: obey) Phase 2 lifetime check logic:
  • claim - take shortest of proposed and configured lifetimes and notify initiator about it
  • exact - require lifetimes to be the same
  • obey - accept whatever is sent by an initiator
  • strict - if proposed lifetime is longer than the default then reject proposal otherwise accept proposed lifetime

Remote Peers

Sub-menu: /ip ipsec remote-peers


This menu provides various statistics about remote peers that currently have established phase 1 connection.


Read only properties

Property Description
dynamic-address (ip/ipv6 address) Dynamically assigned IP address by Mode config
last-seen (time) Duration since last message received by this peer.
local-address (ip/ipv6 address) Local address on the router used by this peer.
natt-peer (yes | no) Whether NAT-T is used for this peer.
remote-address (ip/ipv6 address) Remote peer's ip/ipv6 address.
responder (yes | no) Whether the connection is initiated by remote peer.
side (initiator | responder) Shows which side initiated the Phase1 negotiation.
state (string) State of phase 1 negotiation with the peer. For example when phase1 and phase 2 are negotiated it will show state "established".
uptime (time) How long peers are in established state.


Commands

Property Description
kill-connections () Manually disconnects all remote peers.

Mode configs

Sub-menu: /ip ipsec mode-config


ISAKMP and IKEv2 configuration attributes are configured in this menu.


Properties

Property Description
address-pool (none | string; Default: ) Name of the address pool from which responder will try to assign address if mode-config is enabled.
address-prefix-length (integer [1..32]; Default: ) Prefix length (netmask) of assigned address from the pool.
comment (string; Default: )
name (string; Default: )
responder (yes | no; Default: no) Specifies whether the configuration will work as an initiator (client) or responder (server). Initiator will request for mode-config parameters from responder.
split-include (list of IP prefix; Default: ) List of subnets in CIDR format, which to tunnel. Subnets will be sent to the peer using CISCO UNITY extension, remote peer will create specific dynamic policies.
src-address-list (address list; Default: ) Specifying an address list will generate dynamic source NAT rules. This parameter is only available with responder=no. RoadWarrior client with NAT
static-dns (list of IP; Default: ) Manually specified DNS server's IP address to be sent to the client.
system-dns (yes | no; Default: ) When this option is enabled DNS addresses will be taken from /ip dns.


Read only properties

Property Description
default (yes | no) Whether this is a default system entry.
Icon-note.png

Note: Not all IKE implementations support multiple split networks provided by split-include option.


Icon-note.png

Note: If RouterOS client is initiator, it will always send CISCO UNITY extension, and RouterOS supports only split-include from this extension.


Icon-note.png

Note: It is not possible to use system-dns and static-dns at the same time.


Installed SAs

Sub-menu: /ip ipsec installed-sa


This menu provides information about installed security associations including the keys.


Read only properties

Property Description
AH (yes | no) Whether AH protocol is used by this SA.
ESP (yes | no) Whether ESP protocol is used by this SA.
add-lifetime (time/time) Added lifetime for the SA in format soft/hard:
  • soft - time period after which ike will try to establish new SA;
  • hard - time period after which SA is deleted.
addtime (time) Date and time when this SA was added.
auth-algorithm (md5 | null | sha1 | ...) Currently used authentication algorithm.
auth-key (string) Used authentication key.
current-bytes (64-bit integer) Number of bytes seen by this SA.
dst-address (IP) Destination address of this SA.
enc-algorithm (des | 3des | aes-cbc | ...) Currently used encryption algorithm.
enc-key (string) Used encryption key.
enc-key-size (number) Used encryption key length.
expires-in (yes | no) Time left until rekeying.
hw-aead (yes | no) Whether this SA is hardware accelerated.
replay (integer) Size of replay window in bytes.
spi (string) Security Parameter Index identification tag
src-address (IP) Source address of this SA.
state (string) Shows the current state of the SA ("mature", "dying" etc)


Commands

Property Description
flush () Manually removes all installed security associations.

Keys

Sub-menu: /ip ipsec key


This menu lists all imported public andprivate keys, that can be used for peer authentication. Menu has several commands to work with keys.


Properties

Property Description
name (string; Default: )


Read only properties

Property Description
key-size (1024 | 2048 | 4096) Size of this key.
private-key (yes | no) Whether this is a private key.
rsa (yes | no) Whether this is a RSA key.


Commands

Property Description
export-pub-key (file-name; key) Export public key to file from one of existing private keys.
generate-key (key-size; name) Generate private key. Takes two parameters, name of newly generated key and key size 1024,2048 and 4096.
import (file-name; name) Import key from file.

Users

Sub-menu: /ip ipsec user


The menu consists of list of allowed XAuth users.


Property Description
address (IP; Default: ) IP address assigned to the client. If not set dynamic address is used allocated from the address-pool defined in Mode config menu.
name (string; Default: ) Username.
password (string; Default: ) Password.

Settings

Sub-menu: /ip ipsec user settings


Property Description
xauth-use-radius (yes | no; Default: ) Whether to use Radius client for XAuth users or not.
Icon-note.png

Note: Radius accounting currently is not supported by IPsec, only authentication.


Application Guides

RoadWarrior client with NAT

Consider setup as illustrated below. RouterOS acts as a RoadWarrior client connected to Office allowing access to its internal resources.

Ipsec-road-warrior-client.png

Tunnel is established, local mode-config IP address is received and a set of dynamic policies are generated.

[admin@pair_r1] > ip ipsec policy print 
Flags: T - template, X - disabled, D - dynamic, I - invalid, A - active, * - default 
 0 T * group=default src-address=::/0 dst-address=::/0 protocol=all proposal=default template=yes 

 1  DA  src-address=192.168.77.254/32 src-port=any dst-address=10.5.8.0/24 dst-port=any protocol=all 
       action=encrypt level=unique ipsec-protocols=esp tunnel=yes sa-src-address=10.155.107.8 
       sa-dst-address=10.155.107.9 proposal=default ph2-count=1 

 2  DA  src-address=192.168.77.254/32 src-port=any dst-address=192.168.55.0/24 dst-port=any protocol=all 
       action=encrypt level=unique ipsec-protocols=esp tunnel=yes sa-src-address=10.155.107.8 
       sa-dst-address=10.155.107.9 proposal=default ph2-count=1 

Currently only packets with source address of 192.168.77.254/32 will match the IPsec policies. For local network to be able to reach remote subnets, it is necessary to change the source address of local hosts to the dynamically assigned mode config IP address. It is possible to generate source NAT rules dynamically. This can be done by creating a new address list which contains of all local networks that NAT rule should be applied. In our case, it is 192.168.88.0/24.

/ip firewall address-list add address=192.168.88.0/24 list=local-RW

By specifying the address list under mode-config initiator configuration, a set of source NAT rules will be dynamically generated.

/ip ipsec mode-config set [ find name="request-only" ] src-address-list=local-RW

When the IPsec tunnel is established, we can see the dynamically created source NAT rules for each network. Now every host in 192.168.88.0/24 is able to access Office's internal resources.

[admin@pair_r1] > ip firewall nat print 
Flags: X - disabled, I - invalid, D - dynamic 
 0  D ;;; ipsec mode-config
      chain=srcnat action=src-nat to-addresses=192.168.77.254 dst-address=192.168.55.0/24 src-address-list=local-RW

 1  D ;;; ipsec mode-config
      chain=srcnat action=src-nat to-addresses=192.168.77.254 dst-address=10.5.8.0/24 src-address-list=local-RW

Simple mutual PSK XAuth configuration

Server side configuration:

/ip ipsec peer
add address=2.2.2.1 auth-method=pre-shared-key-xauth secret="123" passive=yes

/ip ipsec user
add name=test password=345

Client side configuration:

/ip ipsec peer
add address=2.2.2.2 auth-method=pre-shared-key-xauth secret="123" \
  xauth-login=test xauth-password=345


Icon-note.png

Note: On server side it is mandatory to set passive to yes when XAuth is used.


Allow only IPsec encapsulated traffic

There are some scenarios where for security reasons you would like to drop access from/to specific networks if incoming/outgoing packets are not encrypted. For example, if we have L2TP/IPsec setup we would want to drop non encrypted L2TP connection attempts.

There are several ways how to achieve this:

  • Using IPsec policy matcher in firewall;
  • Using generic IPsec policy with action set to drop and lower priority (can be used in Road Warrior setups where dynamic policies are generated);
  • By setting DSCP or priority in mangle and matching the same values in firewall after decapsulation.

IPsec policy matcher

Lets set up IPsec policy matcher to accept all packets that matched any of IPsec policies and drop the rest:

add chain=input comment="ipsec policy matcher" in-interface=WAN \
    ipsec-policy=in,ipsec
add action=drop chain=input comment="drop all" in-interface=WAN log=yes

IPsec policy matcher takes two parameters direction,policy. We used incoming direction and IPsec policy. IPsec policy option allows us to inspect packets after decapsulation, so for example if we want to allow only gre encapsulated packet from specific source address and drop the rest we could set up following rules:

add chain=input comment="ipsec policy matcher" in-interface=WAN \
    ipsec-policy=in,ipsec protocol=gre src=address=192.168.33.1
add action=drop chain=input comment="drop all" in-interface=WAN log=yes

For L2TP rule set would be:

add chain=input comment="ipsec policy matcher" in-interface=WAN \
    ipsec-policy=in,ipsec protocol=udp dst-port=1701
add action=drop chain=input protocol=udp dst-port=1701 comment="drop l2tp" in-interface=WAN log=yes

Using generic IPsec policy

The trick of this method is to add default policy with action drop. Lets assume we are running L2TP/IPsec server on public 1.1.1.1 address and we want to drop all non encrypted L2TP:

/ip ipsec policy
add src-address=1.1.1.1 dst-address=0.0.0.0/0 sa-src-address=1.1.1.1 \
  protocol=udp src-port=1701 tunnel=yes action=discard

Now router will drop any L2TP unencrypted incoming traffic, but after successful L2TP/IPsec connection dynamic policy is created with higher priority than it is on default static rule and packets matching that dynamic rule can be forwarded.

Icon-note.png

Note: Policy order is important! For this to work, make sure the static drop policy is below the dynamic policies. Move it below the policy template if necessary.


[admin@rack2_10g1] /ip ipsec policy> print
Flags: T - template, X - disabled, D - dynamic, I - inactive, * - default
 0 T * group=default src-address=::/0 dst-address=::/0 protocol=all
       proposal=default template=yes

 1  D  src-address=1.1.1.1/32 src-port=1701 dst-address=10.5.130.71/32
       dst-port=any protocol=udp action=encrypt level=require
       ipsec-protocols=esp tunnel=no sa-src-address=1.1.1.1
       sa-dst-address=10.5.130.71

 2     src-address=1.1.1.1/32 src-port=1701 dst-address=0.0.0.0/0
       dst-port=any protocol=udp action=discard level=unique
       ipsec-protocols=esp tunnel=yes sa-src-address=1.1.1.1
       sa-dst-address=0.0.0.0 proposal=default manual-sa=none

Manually specifying local-address parameter under Peer configuration

Using different routing table

IPsec, as any other service in RouterOS, uses main routing table regardless what local-address parameter is used for Peer configuration. It is necessary to apply routing marks to both IKE and IPSec traffic.

Consider the following example. There are two default routes - one in main routing table and another in routing table "backup". It is necessary to use the backup link for IPsec site to site tunnel.

[admin@pair_r1] > /ip route print detail 
Flags: X - disabled, A - active, D - dynamic, C - connect, S - static, r - rip, b - bgp, o - ospf, m - mme, B - blackhole, U - unreachable, P - prohibit 
 0 A S  dst-address=0.0.0.0/0 gateway=10.155.107.1 gateway-status=10.155.107.1 reachable via  ether1 distance=1 scope=30 target-scope=10 routing-mark=backup 

 1 A S  dst-address=0.0.0.0/0 gateway=172.22.2.115 gateway-status=172.22.2.115 reachable via  ether2 distance=1 scope=30 target-scope=10 

 2 ADC  dst-address=10.155.107.0/25 pref-src=10.155.107.8 gateway=ether1 gateway-status=ether1 reachable distance=0 scope=10 

 3 ADC  dst-address=172.22.2.0/24 pref-src=172.22.2.114 gateway=ether2 gateway-status=ether2 reachable distance=0 scope=10 

 4 ADC  dst-address=192.168.1.0/24 pref-src=192.168.1.1 gateway=bridge-local gateway-status=ether2 reachable distance=0 scope=10 

[admin@pair_r1] > /ip firewall nat print  
Flags: X - disabled, I - invalid, D - dynamic 
 0    chain=srcnat action=masquerade out-interface=ether1 log=no log-prefix="" 

 1    chain=srcnat action=masquerade out-interface=ether2 log=no log-prefix="" 

IPsec peer and policy configurations are created using the backup link's source address, as well as NAT bypass rule for IPsec tunnel traffic.

/ip ipsec peer
add address=10.155.130.136/32 local-address=10.155.107.8 secret=test
/ip ipsec policy
add sa-src-address=10.155.107.8 src-address=192.168.1.0/24 dst-address=172.16.0.0/24 sa-dst-address=10.155.130.136 tunnel=yes
/ip firewall nat
add action=accept chain=srcnat src-address=192.168.1.0/24 dst-address=172.16.0.0/24 place-before=0

Currently, we see "phase1 negotiation failed due to time up" errors in the log. It is because IPsec tries to reach the remote peer using the main routing table with incorrect source address. It is necessary to mark UDP/500, UDP/4500 and ipsec-esp packets using Mangle.

/ip firewall mangle
add action=mark-connection chain=output connection-mark=no-mark dst-address=10.155.130.136 dst-port=500,4500 \
new-connection-mark=ipsec passthrough=yes protocol=udp
add action=mark-connection chain=output connection-mark=no-mark dst-address=10.155.130.136 new-connection-mark=ipsec \
passthrough=yes protocol=ipsec-esp
add action=mark-routing chain=output connection-mark=ipsec new-routing-mark=backup passthrough=no

Using same routing table with multiple IP addresses

Consider the following example. There are multiple IP addresses from the same subnet on the public interface. Masquerade rule is configured on out-interface. It is necessary to use one of the IP addresses explicitly.

[admin@pair_r1] > /ip address print 
Flags: X - disabled, I - invalid, D - dynamic 
 #   ADDRESS            NETWORK         INTERFACE
 0   192.168.1.1/24     192.168.1.0     bridge-local
 1   172.22.2.1/24      172.22.2.0      ether1
 2   172.22.2.2/24      172.22.2.0      ether1
 3   172.22.2.3/24      172.22.2.0      ether1

[admin@pair_r1] > /ip route print 
Flags: X - disabled, A - active, D - dynamic, C - connect, S - static, r - rip, b - bgp, o - ospf, m - mme, B - blackhole, U - unreachable, P - prohibit 
 #      DST-ADDRESS        PREF-SRC        GATEWAY            DISTANCE
 1 A S  0.0.0.0/0                          172.22.2.115              1
 3 ADC  172.22.2.0/24      172.22.2.1      ether1                    0
 4 ADC  192.168.1.0/24     192.168.1.1     bridge-local              0

[admin@pair_r1] /ip firewall nat> print 
Flags: X - disabled, I - invalid, D - dynamic 
 0    chain=srcnat action=masquerade out-interface=ether1 log=no log-prefix="" 

IPsec peer and policy configuration is created using one of the public IP addresses.

/ip ipsec peer
add address=10.155.130.136/32 local-address=172.22.2.3 secret=test
/ip ipsec policy
add sa-src-address=172.22.2.3 src-address=192.168.1.0/24 dst-address=172.16.0.0/24 sa-dst-address=10.155.130.136 tunnel=yes
/ip firewall nat
add action=accept chain=srcnat src-address=192.168.1.0/24 dst-address=172.16.0.0/24 place-before=0

Currently the phase 1 connection uses a different source address than we specified and "phase1 negotiation failed due to time up" errors are shown in the logs. This is because masquerade is changing the source address of the connection to match pref-src address of the connected route. Solution is to exclude connections from the public IP address from being masqueraded.

/ip firewall nat
add action=accept chain=srcnat protocol=udp src-port=500,4500 place-before=0

Application Examples

Site to Site IPsec tunnel

Consider setup as illustrated below. Two remote office routers are connected to internet and office workstations are behind NAT. Each office has its own local subnet, 10.1.202.0/24 for Office1 and 10.1.101.0/24 for Office2. Both remote offices needs secure tunnel to local networks behind routers.

Site-to-site-ipsec-example.png

Site 1 configuration

Start off by configuring IPsec peer. It is enough to configure address, auth-method and secret parameters and leaving everything else as default. However, it is possible to set additional Peer properties as long as they are identical between both sites.

/ip ipsec peer
add address=192.168.80.1/32 auth-method=pre-shared-key secret="test"

For the next steps, it is important that proposed authentication and encryption algorithms match on both routers. In this example we can use predefined "default" proposal. To verify Proposal settings:

[admin@MikroTik] /ip ipsec proposal print 
Flags: X - disabled, * - default 
 0  * name="default" auth-algorithms=sha1 
      enc-algorithms=aes-256-cbc,aes-192-cbc,aes-128-cbc lifetime=30m 
      pfs-group=modp1024 

It is possible to create a new proposal entry for our tunnel and specify it when creating policy, however in this example, the default proposal is used:

/ip ipsec policy
add src-address=10.1.202.0/24 src-port=any dst-address=10.1.101.0/24 dst-port=any \
sa-src-address=192.168.90.1 sa-dst-address=192.168.80.1 \
tunnel=yes action=encrypt proposal=default

Site 2 configuration

Office 2 configuration is almost identical as Office 1 with proper IP address configuration.

/ip ipsec peer
add address=192.168.90.1/32 auth-method=pre-shared-key secret="test"

Continue with verifying that proposal parameters are matching between the sites:

[admin@MikroTik] /ip ipsec proposal print 
Flags: X - disabled, * - default 
 0  * name="default" auth-algorithms=sha1 
      enc-algorithms=aes-256-cbc,aes-192-cbc,aes-128-cbc lifetime=30m 
      pfs-group=modp1024 

When it is done, create an IPsec policy:

/ip ipsec policy
add src-address=10.1.101.0/24 src-port=any dst-address=10.1.202.0/24 dst-port=any \
sa-src-address=192.168.80.1 sa-dst-address=192.168.90.1 \
tunnel=yes action=encrypt proposal=default

At this point, the tunnel should be established and two Security Associations should be created on both routers:

/ip ipsec
remote-peers print
installed-sa print

NAT and Fasttrack Bypass

At this point if you try to send traffic over the IPsec tunnel, it will not work, packets will be lost. This is because both routers have NAT rules (masquerade) that is changing source address before packet is encrypted. Router is unable to encrypt the packet, because source address do not match address specified in policy configuration. For more information see IPsec packet flow example.

To fix this we need to set up NAT bypass rule.

Office 1 router:

/ip firewall nat
add chain=srcnat action=accept  place-before=0 \
 src-address=10.1.202.0/24 dst-address=10.1.101.0/24

Office 2 router:

/ip firewall nat
add chain=srcnat action=accept  place-before=0 \
 src-address=10.1.101.0/24 dst-address=10.1.202.0/24
Icon-note.png

Note: If you previously tried to establish an IP connection before NAT bypass rule was added, you have to clear connection table from existing connection or restart both routers.


It is very important that bypass rule is placed at the top of all other NAT rules.

Another issue is if you have Fasttrack enabled, packet bypasses IPsec policies. So we need to add accept rule before Fasttrack

/ip firewall filter
add chain=forward action=accept place-before=1
 src-address=10.1.101.0/24 dst-address=10.1.202.0/24 connection-state=established,related
add chain=forward action=accept place-before=1
 src-address=10.1.202.0/24 dst-address=10.1.101.0/24 connection-state=established,related

However this can add significant load to CPU if there is a fair amount of tunnels and significant traffic on each tunnel.

Solution is to use RAW firewall tables to bypass connection tracking, that way eliminating need of filter rules listed above and reducing load on CPU by approximately 30%.

/ip firewall raw
add action=notrack chain=prerouting src-address=10.1.101.0/24 dst-address=10.1.202.0/24
add action=notrack chain=prerouting src-address=10.1.202.0/24 dst-address=10.1.101.0/24

Road Warrior setup using IKEv2 with RSA authentication

This example explains how to establish a secure IPsec connection between a device connected to the Internet (road warrior client) and a device running RouterOS acting as a server.

Ipsec-road-warrior.png


RouterOS server configuration

Before configuring IPsec, it is required to set up certificates. It is possible to use a separate Certificate Authority for certificate management, however in this example, self signed certificates are generated in RouterOS System/Certificates menu. Some certificate requirements should be met to connect various devices to the server:

  • Common name should contain IP or DNS name of the server;
  • SAN (subject alternative name) should have IP or DNS of the server;
  • EKU (extended key usage) tls-server and tls-client are required.

Considering all requirements above, generate CA and server certificates:

/certificate
add common-name=ca name=ca
sign ca ca-crl-host=2.2.2.2
add common-name=2.2.2.2 subject-alt-name=IP:2.2.2.2 key-usage=tls-server name=server1
sign server1 ca=ca

Now that valid certificates are created on the router, IPsec can be configured. Mode config is used for address distribution from IP/Pools. Since that the policy template must be adjusted to allow only specific network policies, it is advised to create a separate policy group and template. For compatibility, a new proposal is created with prs-group=none.

/ip pool add name=rw-pool ranges=192.168.77.2-192.168.77.254
/ip ipsec proposal
add name=rw-proposal pfs-group=none
/ip ipsec mode-conf
add name=rw-conf system-dns=yes address-pool=rw-pool address-prefix=32
/ip ipsec policy
group add name=rw-policies
add template=yes dst-address=192.168.77.0/24 group=rw-policies proposal=rw-proposal

Lastly, create a new IPsec peer configuration.

/ip ipsec peer
add auth-method=rsa-signature certificate=server1 generate-policy=port-strict \
  mode-config=rw-conf passive=yes remote-certificate=none exchange-mode=ike2 \
  policy-template-group=rw-policies
Split tunnel configuration

Split tunnelling is a method which allows road warrior clients to only access a specific secured network and at the same time send the rest of the traffic based on their internal routing table (as opposed to sending all traffic over the tunnel). To configure split tunnelling, changes to mode config parameters are needed.

For example we will allow our road warrior clients to only access 10.5.8.0/24 network.

/ip ipsec mode-conf
set [find name="rw-conf"] split-include=10.5.8.0/24

It is also possible to send specific DNS server for the client to use. By default system-dns=yes is used, which sends DNS servers that are configured on the router itself in IP/DNS. We can force the client to use different DNS server by using the static-dns parameter.

/ip ipsec mode-conf
set [find name="rw-conf"] system-dns=no static-dns=10.5.8.1

While it is possible to adjust IPsec policy template to only allow road warrior clients to generate policies to network configured by split-include parameter, this can cause compatibility issues with different vendor implementations (see known limitations). Instead of adjusting the policy template, allow access to secured network in IP/Firewall/Filter and drop everything else.

/ip firewall filter
add action=drop chain=forward src-address=192.168.77.0/24 dst-address=!10.5.8.0/24
Generating client certificates

To generate a new certificate for the client and sign it with previously created CA.

/certificate
add common-name=rw-client1 name=rw-client1 key-usage=tls-client
sign rw-client1 ca=ca

PKCS12 format is accepted by most of client implementations, so when exporting the certificate, make sure PKCS12 is specified.

/certificate
export-certificate rw-client1 export-passphrase=1234567890 type=pkcs12

A file named cert_export_rw-client1.p12 is now located in the routers System/File section. This file should be securely transported to the client device.

Typically PKCS12 bundle contains also CA certificate, but some vendors may not install this CA, so self-signed CA certificate must be exported separately using PEM format.

/certificate
export-certificate ca type=pem

A file named cert_export_ca.crt is now located in the routers System/File section. This file should also be securely transported to the client device.

PEM is another certificate format for use in client software that do not support PKCS12. Principle is pretty much the same.

/certificate
export-certificate ca
export-certificate rw-client1 export-passphrase=1234567890

Three files are now located in the routers Files section: cert_export_ca.crt, cert_export_rw-client1.crt and cert_export_rw-client1.key which should be securely transported to the client device.

Known limitations

Here is a list of known limitations by popular client software IKEv2 implementations.

  • Windows will always ignore networks received by split-include and request policy with destination 0.0.0.0/0 (TSr). When IPsec-SA is generated, Windows requests DHCP option 249 to which RouterOS will respond with configured split-include networks automatically.
  • Both Apple macOS and iOS will only accept the first split-include network. Currently there is no workaround for this limitation.
  • While some implementations can make use of different PFS group for phase 2, it is advised to use pfs-grou=none under proposals to avoid any compatibility issues.

RouterOS client configuration

Import a PKCS12 format certificate in RouterOS.

/certificate import file-name=cert_export_RouterOS_client.p12 passphrase=1234567890

There should now be the self-signed CA certificate and the client certificate in Certificate menu. Usually the client certificate is imported first, but lets double check which is it.

/put [/certificate get [find common-name=RouterOS_client] name]  

cert_export_RouterOS_client.p12_0 is the client certificate. Now we can create the peer configuration.

/ip ipsec peer
add address=2.2.2.2 auth-method=rsa-signature certificate=cert_export_RouterOS_client.p12_0 mode-config=request-only exchange-mode=ike2 generate-policy=port-strict

Verify that the connection is successfully established.

/ip ipsec
remote-peers print
installed-sa print
Enabling dynamic source NAT rule generation

If we look at the generated dynamic policies, we see that only traffic with a specific (received by mode config) source address will be sent through the tunnel. But a router in most cases will need to route a specific device or network through the tunnel. In such case we can use source NAT to change the source address of packets to match the mode config address. Since the mode config address is dynamic, it is impossible to create static source NAT rule. In RouterOS it is possible to generate dynamic source NAT rules for mode config clients.

Ipsec-road-warrior-client.png

For example, we have a local network 192.168.88.0/24 behind the router and we want all traffic from this network to be sent over the tunnel. First of all, we have to make a new IP/Firewall/Address list which consists of our local network.

/ip firewall address-list
add address=192.168.88.0/24 list=local

When it is done, we can assign newly created IP/Firewall/Address list to mode config configuration.

/ip ipsec mode-config
set [ find name=request-only ] src-address-list=local
Icon-note.png

Note: If multiple peers are using the same mode config configuration, instead of adjusting the default "request-only" entry, you can create a new mode config entry with responder=no and assign it to the peer.


Verify correct source NAT rule is dynamically generated when the tunnel is established.

[admin@MikroTik] > /ip firewall nat print 
Flags: X - disabled, I - invalid, D - dynamic 
 0  D ;;; ipsec mode-config
      chain=srcnat action=src-nat to-addresses=192.168.77.254 src-address-list=local dst-address-list=!local
Icon-warn.png

Warning: Make sure dynamic mode config address is not a part of local network.


Windows client configuration

Open PKCS12 format certificate file on the Windows computer. Install the certificate by following the instructions. Make sure you select Local Machine store location.

Ike2v2 cert win.png

You can now proceed to Network and Internet settings -> VPN and add a new configuration. Fill in the Connection name, Server name or address parameters. Select IKEv2 under VPN type. When it is done, it is necessary to select "Use machine certificates". This can be done in Network and Sharing Center by clicking the Properties menu for the VPN connection. The setting is located under Security tab.

Ike2v2 conf win.png

Currently Windows 10 is compatible with the following Phase 1 (peer profiles) and Phase 2 (policy proposals) proposal sets:

Phase 1
Hash AlgorithmEncryption AlgorithmDH Group
SHA13DESmodp1024
SHA2563DESmodp1024
SHA1AES-128-CBCmodp1024
SHA256AES-128-CBCmodp1024
SHA1AES-192-CBCmodp1024
SHA256AES-192-CBCmodp1024
SHA1AES-256-CBCmodp1024
SHA256AES-256-CBCmodp1024
SHA1AES-128-GCMmodp1024
SHA256AES-128-GCMmodp1024
SHA1AES-256-GCMmodp1024
SHA256AES-256-GCMmodp1024


Phase 2
Hash AlgorithmEncryption AlgorithmPFS Group
SHA1AES-256-CBCnone
SHA1AES-128-CBCnone
SHA13DESnone
SHA1DESnone
SHA1nonenone


Android Client Notes

Native Android client does not support ikev2 at the moment. StrongSwan client from Play Store can be used to connect to ikev2 server. StrongSwan client the same as windows accept certificates and keys in pkcs12 format. So external tool is needed to convert exported .crt and .key files to .pfx and then import .pfx file.

After its imported you will see CA and Client cert in user certificates:

Android-cert-import.png


Now you can pick them in profile configuration.

Android-cl-cert.png

Ca certificate is selected automatically as shown in screenshot below, but if for some reason you need to specify exact CA certificate, then unselect "Select automatically" and pick imported CA from the list.

Android-ca-cert.png

When connecting Android StrongSwan clients, make sure that on RouterOS proposal settings DH group is disabled, otherwise phase2 will fail.

macOS client configuration

Open PKCS12 format certificate file on the macOS computer and install the certificate in "System" keychain. It is necessary to mark the CA certificate as trusted manually since it is self-signed. Locate the certificate macOS Keychain Access app under System tab and mark it as Always Trust.

Ikev2 cert macos.png

You can now proceed to System Preferences -> Network and add a new configuration by clicking the + button. Select Interface: VPN, VPN Type: IKEv2 and name your connection. Remote ID must be set equal to common-name or subjAltName of server's certificate. Local ID can be left blank. Under Authentication Settings select None and choose the client certificate. You can now test the connectivity.

Ikev2 conf macos.png

Currently macOS is compatible with the following Phase 1 (peer profiles) and Phase 2 (policy proposals) proposal sets:

Phase 1
Hash AlgorithmEncryption AlgorithmDH Group
SHA256AES-256-CBCmodp2048
SHA256AES-256-CBCecp256
SHA256AES-256-CBCmodp1536
SHA1AES-128-CBCmodp1024
SHA13DESmodp1024


Phase 2
Hash AlgorithmEncryption AlgorithmPFS Group
SHA256AES-256-CBCnone
SHA1AES-128-CBCnone
SHA13DESnone


iOS client configuration

Typically PKCS12 bundle contains also CA certificate, but iOS does not install this CA, so self-signed CA certificate must be installed separately using PEM format. Open these files on the iOS device and install both certificates by following the instructions. It is necessary to mark the self-signed CA certificate as trusted on the iOS device. This can be done in Settings -> General -> About -> Certificate Trust Settings menu. When it is done, check whether both certificates are marked as "verified" under Settings -> General -> Profiles menu.

Ikev2 cert ios.PNG


You can now proceed to Settings -> General -> VPN menu and add a new configuration. Remote ID must be set equal to common-name or subjAltName of server's certificate. Local ID can be left blank.

Ikev2 conf ios.PNG


Currently iOS is compatible with the following Phase 1 (peer profiles) and Phase 2 (policy proposals) proposal sets:

Phase 1
Hash AlgorithmEncryption AlgorithmDH Group
SHA256AES-256-CBCmodp2048
SHA256AES-256-CBCecp256
SHA256AES-256-CBCmodp1536
SHA1AES-128-CBCmodp1024
SHA13DESmodp1024


Phase 2
Hash AlgorithmEncryption AlgorithmPFS Group
SHA256AES-256-CBCnone
SHA1AES-128-CBCnone
SHA13DESnone


Icon-note.png

Note: If you are connected to the VPN over WiFi, the iOS device can go into sleep mode and disconnect from the network.


strongSwan client configuration

strongSwan accepts either PEM or DER format certificates and it is possible to just change the certificate extensions. The private key must be in PKCS1 format - it will need to be converted. We can do this with OpenSSL. This example shows files cert_export_ca.crt, cert_export_strongSwan_client.crt and cert_export_strongSwan_client.key imported in Linux machine.

Rename the certificates for a more convenient look.

$ mv cert_export_ca.crt ca.pem
$ mv cert_export_strongSwan_client.crt strongSwan_client.pem
$ openssl rsa -in cert_export_strongSwan_client.key -out strongSwan_clientKey.pem

Download the certificates and the key to strongSwan client device and move the files to their appropriate directory. By default /etc/ipsec.d/ is used for certificate storage.

$ mv ca.pem /etc/ipsec.d/cacerts/ca.pem
$ mv strongSwan_client.pem /etc/ipsec.d/certs/strongSwan_client.pem
$ mv strongSwan_clientKey.pem /etc/ipsec.d/private/strongSwan_client.pem

Add a new connection to /etc/ipsec.conf file

conn "ikev2"
        keyexchange=ikev2
        ike=aes128-sha1-modp2048
        esp=aes128-sha1
        leftsourceip=%modeconfig
        leftcert=strongSwan_client.pem
        leftfirewall=yes
        right=2.2.2.2
        rightid="CN=2.2.2.2"
        rightsubnet=0.0.0.0/0
        auto=add

Add exported passphrase for the private key to /etc/ipsec.secrets file

: RSA strongSwan_client.pem "1234567890"

You can now restart (or start) the ipsec daemon and initialize the connection

$ ipsec restart
$ ipsec up ikev2

Road Warrior setup with Mode Conf

Consider setup where worker need to access other co-workers (workstations) and local office server remotely. Office has two subnets:

  • 192.168.55.0/24 for workstations
  • 192.168.66.0/24 network that must not be reachable by RoadWarrior clients
  • 10.5.8.0/24 for servers

And access to those networks should be secure.

Ipsec-road-warrior.png

Typically in RoadWarrior setups as this it is impossible to know from which address user will connect, so we need to set up generate-policy parameter on the server side. However this leads to other problems, client can generate any policy and access any network in the office. Even set 0.0.0.0/0 and deny internet access to office workers.

Mode Conf, policy group and policy templates will allow us to overcome these problems.


IPsec Server Config

At first we need a pool from which RoadWarrior will will get an address. Typically in office you set up DHCP server for local workstations, the same DHCP pool can be used.

/ip pool
add name=ipsec-RW ranges=192.168.77.2-192.168.77.254

Next we need to set up what settings to send to the client using Mode Conf.

/ip ipsec mode-config
add address-pool=ipsec-RW name=RW-cfg split-include=\
    10.5.8.0/24,192.168.55.0/24

As you can see we specified from which pool to give out address and two allowed subnets.


Now to allow only specific source/destination address in generated policies we will use policy group and create policy templates:

/ip ipsec policy group
add name=RoadWarrior

/ip ipsec policy
add dst-address=192.168.77.0/24 group=RoadWarrior src-address=10.5.8.0/24 \
    template=yes
add dst-address=192.168.77.0/24 group=RoadWarrior src-address=192.168.55.0/24 \
    template=yes


Now we just add xauth users and peer with enabled Mode Conf and policy group.

/ip ipsec user
add name=user1 password=123
add name=user2 password=234

/ip ipsec peer
add auth-method=pre-shared-key-xauth generate-policy=port-strict mode-config=RW-cfg \
    policy-template-group=RoadWarrior secret=123 passive=yes

Apple iOS (iPhone/iPad) Client

For iOS devices to be able to connect, proposal changes are needed:

  • does not work with 3des encryption algorithm, aes-128/256 works
  • auth algorithm must be sha1
  • PFS group must be none
  • lifetime must be 8 hours

Example of valid proposal configuration for iOS devices:

/ip ipsec proposal
set default enc-algorithms=aes-128-cbc,aes-256-cbc lifetime=8h \
    pfs-group=none
Icon-note.png

Note: Iphone does not work with split-include 0.0.0.0/0. If you set 0.0.0.0/0 for older clients traffic will not be sent over the tunnel, for newer ios clients tunnel will not be established.


Android Client Notes

Android devices are trying to add policy with destination 0.0.0.0/0, so you have to make sure that correct policy template is added.

In our case we need to add:

/ip ipsec policy
add group=RoadWarrior dst-address=192.168.77.0/24 src-address=0.0.0.0/0 template=yes

RouterOS Client Config

/ip ipsec peer
add address=2.2.2.2 auth-method=pre-shared-key-xauth generate-policy=port-strict secret=123 \
     xauth-login=user1 xauth-password=123 mode-config=request-only

Shrew Client Config

n:version:2
n:network-ike-port:500
n:network-mtu-size:1380
n:network-natt-port:4500
n:network-natt-rate:15
n:network-frag-size:540
n:network-dpd-enable:0
n:client-banner-enable:0
n:network-notify-enable:0
n:client-wins-used:0
n:client-wins-auto:1
n:client-dns-used:1
n:client-dns-auto:0
n:client-splitdns-used:1
n:client-splitdns-auto:0
n:phase1-dhgroup:2
n:phase1-life-secs:86400
n:phase1-life-kbytes:0
n:vendor-chkpt-enable:0
n:phase2-life-secs:300
n:phase2-life-kbytes:0
n:policy-nailed:1
n:policy-list-auto:1
n:client-addr-auto:1
s:network-host:2.2.2.2
s:client-auto-mode:pull
s:client-iface:virtual
s:network-natt-mode:disable
s:network-frag-mode:disable
s:auth-method:mutual-psk-xauth
s:ident-client-type:address
s:ident-server-type:address
b:auth-mutual-psk:MTIz
s:phase1-exchange:main
s:phase1-cipher:3des
s:phase1-hash:md5
s:phase2-transform:esp-3des
s:phase2-hmac:sha1
s:ipcomp-transform:disabled
n:phase2-pfsgroup:2
s:policy-level:require

Basic L2TP/IPsec setup

This example demonstrates how to easily setup L2TP/IPsec server on RouterOS for road warrior connections (works with Windows, Android, iOS, macOS and other vendor L2TP/IPsec implementations).

RouterOS server configuration

First step is to enable L2TP server:

/interface l2tp-server server
set enabled=yes use-ipsec=required ipsec-secret=mySecret default-profile=default

use-ipsec is set to required to make sure that only IPsec encapsulated L2TP connections are accepted.

Now what it does is enables L2TP server and creates dynamic IPsec peer with specified secret.

[admin@MikroTik] /ip ipsec peer> print 
 0  D address=0.0.0.0/0 local-address=0.0.0.0 passive=yes port=500 
      auth-method=pre-shared-key secret="123" generate-policy=port-strict 
      exchange-mode=main-l2tp send-initial-contact=yes nat-traversal=yes 
      hash-algorithm=sha1 enc-algorithm=3des,aes-128,aes-192,aes-256 
      dh-group=modp1024 lifetime=1d dpd-interval=2m dpd-maximum-failures=5 
Icon-note.png

Note: Care must be taken if static IPsec peer configuration exists.


Next step is to create VPN pool and add some users.

/ip pool add name=vpn-pool range=192.168.99.2-192.168.99.100

/ppp profile
set default local-address=192.168.99.1 remote-address=vpn-pool

/ppp secret
add name=user1 password=123
add name=user2 password=234

Now router is ready to accept L2TP/IPsec client connections.

RouterOS client configuration

For RouterOS to work as L2TP/IPsec client, it is as simple as adding a new L2TP client.

/interface l2tp-client
add connect-to=1.1.1.1 disabled=no ipsec-secret=mySecret name=l2tp-out1 \
    password=123 use-ipsec=yes user=user1

It will automatically create dynamic IPsec peer and policy configuration.

Connecting with Shrew Client and allowing only Encrypted traffic


Troubleshooting/FAQ

Phase 1 Failed to get valid proposal
[admin@MikroTik] /log> print
(..)
17:12:32 ipsec,error no suitable proposal found. 
17:12:32 ipsec,error 10.5.107.112 failed to get valid proposal. 
17:12:32 ipsec,error 10.5.107.112 failed to pre-process ph1 packet (side: 1, status 1). 
17:12:32 ipsec,error 10.5.107.112 phase1 negotiation failed. 
(..)
Peers are unable to negotiate encryption parameters causing the connection to drop. To solve this issue, enable IPSec debug logs and find out which parameters are proposed by the remote peer and adjust configuration accordingly.
[admin@MikroTik] /system logging> add topics=ipsec,!debug
[admin@MikroTik] /log> print
(..)
17:21:08 ipsec rejected hashtype: DB(prop#1:trns#1):Peer(prop#1:trns#1) = MD5:SHA 
17:21:08 ipsec rejected enctype: DB(prop#1:trns#2):Peer(prop#1:trns#1) = 3DES-CBC:AES-CBC 
17:21:08 ipsec rejected hashtype: DB(prop#1:trns#2):Peer(prop#1:trns#1) = MD5:SHA 
17:21:08 ipsec rejected enctype: DB(prop#1:trns#1):Peer(prop#1:trns#2) = AES-CBC:3DES-CBC 
17:21:08 ipsec rejected hashtype: DB(prop#1:trns#1):Peer(prop#1:trns#2) = MD5:SHA 
17:21:08 ipsec rejected hashtype: DB(prop#1:trns#2):Peer(prop#1:trns#2) = MD5:SHA 
17:21:08 ipsec,error no suitable proposal found. 
17:21:08 ipsec,error 10.5.107.112 failed to get valid proposal. 
17:21:08 ipsec,error 10.5.107.112 failed to pre-process ph1 packet (side: 1, status 1). 
17:21:08 ipsec,error 10.5.107.112 phase1 negotiation failed. 
(..)
In this example, remote end requires SHA1 to be used as hash algorithm, but MD5 is configured on local router. Setting before the column symbol (:) is configured on the local side, parameter after the column symbol (:) is configured on the remote side.
"phase1 negotiation failed due to time up" what does it mean?
There are communication problems between the peers. Possible causes include - misconfigured Phase 1 IP addresses; firewall blocking UDP ports 500 and 4500; NAT between peers not properly translating IPsec negotiation packets.
This error message can also appear when local-address parameter is not used properly. More information available here.
Random packet drops or connections over the tunnel is very slow, enabling packet sniffer/torch fixes the problem
Problem is that before encapsulation packets are sent to Fasttrack/FastPath, thus bypassing IPsec policy checking.
Solution is to exclude traffic that need to be encapsulated/decaplsulated from Fasttrack, see configuration example here.
How to enable ike2?
For basic configuration enabling ike2 is very simple, just change exchange-mode in peer settings to ike2.
fatal NO-PROPOSAL-CHOSEN notify messsage
Remote peer sent notify that it cannot accept proposed algorithms, to find exact cause of the problem, look at remote peers debug logs or configuration and verify that both client and server have the same set of algorithms.
I can ping only in one direction.
Typical problem in such cases is strict firewall, firewall rules allow to create new connections only in one direction. Solution is to recheck firewall rules, or explicitly accept all traffic that should be encapsulated/decapsulated.
Can I allow only encrypted traffic?
Yes, you can, see examples here.
I enable IKEv2 REAUTH on StrongSwan and got error 'initiator did not reauthenticate as requested'
RouterOS does not support rfc4478, reauth must be disabled on StrongSwan.

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