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* **`-sL`**: It is not invasive, it lists the targets making **DNS** requests to resolve names. It is useful to know if for example www.prueba.es/24 all Ips are our targets.
* **`-Pn`**: **No ping**. This is useful if you know that all of them are active (if not, you could lose a lot of time, but this option also produces false negatives saying that they are not active), it prevents the discovery phase.
* **`-sn`** : **No port scan**. After completing the reconnaissance phase, it does not scan ports. It is relatively stealthy, and allows a small network scan. With privileges it sends an ACK (-PA) to 80, a SYN(-PS) to 443 and an echo request and a Timestamp request, without privileges it always completes connections. If the target is the network, it only uses ARP(-PR). If used with another option, only the packets of the other option are dropped.
* **`-PR`**: **Ping ARP**. It is used by default when analyzing computers in our network, it is faster than using pings. If you do not want to use ARP packets use `--send-ip`.
* **`-PS <ports>`**: It sends SYN packets to which if it answers SYN/ACK it is open (to which it answers with RST so as not to end the connection), if it answers RST it is closed and if it does not answer it is unreachable. In case of not having privileges, a total connection is automatically used. If no ports are given, it throws it to 80.
* **`-PA <ports>`**: Like the previous one but with ACK, combining both of them gives better results.
* **`-PU <ports>`**: The objective is the opposite, they are sent to ports that are expected to be closed. Some firewalls only check TCP connections. If it is closed it is answered with port unreachable, if it is answered with another icmp or not answered it is left as destination unreachable.
* **`-PE, -PP, -PM`** : ICMP PINGS: echo replay, timestamp and addresmask. They are launched to find out if the target is active.
* **`-PY<ports>`**: Sends SCTP INIT probes to 80 by default, INIT-ACK(open) or ABORT(closed) or nothing or ICMP unreachable(inactive) can be replied.
* **`-PO <protocols>`**: A protocol is indicated in the headers, by default 1(ICMP), 2(IGMP) and 4(Encap IP). For ICMP, IGMP, TCP (6) and UDP (17) protocols the protocol headers are sent, for the rest only the IP header is sent. The purpose of this is that due to the malformation of the headers, Protocol unreachable or responses of the same protocol are answered to know if it is up.
* **`-sS`**: Does not complete the connection so it leaves no trace, very good if it can be used.(privileges) It is the one used by default.
* **`-sT`**: Completes the connection, so it does leave a trace, but it can be used for sure. By default without privileges.
* **`-sU`**: Slower, for UDP. Mostly: DNS(53), SNMP(161,162), DHCP(67 and 68), (-sU53,161,162,67,68): open(reply), closed(port unreachable), filtered (another ICMP), open/filtered (nothing). In case of open/filtered, -sV sends numerous requests to detect any of the versions that nmap supports and can detect the true state. It increases a lot the time.
* **`-sY`**: SCTP protocol fails to establish the connection, so there are no logs, works like -PY
* **`-sN,-sX,-sF`:** Null, Fin, Xmas, they can penetrate some firewalls and extract information. They are based on the fact that standard compliant machines should respond with RST all requests that do not have SYN, RST or ACK lags raised: open/filtered(nothing), closed(RST), filtered (ICMP unreachable). Unreliable on WIndows, CIsco, BSDI and OS/400. On unix yes.
* **`-sM`**: Maimon scan: Sends FIN and ACK flags, used for BSD, currently will return all as closed.
* **`-sA, sW`**: ACK and Window, is used to detect firewalls, to know if the ports are filtered or not. The -sW does distinguish between open/closed since the open ones respond with a different window value: open (RST with window other than 0), closed (RST window = 0), filtered (ICMP unreachable or nothing). Not all computers work this way, so if it is all closed, it is not working, if it is a few open, it is working fine, and if it is many open and few closed, it is working the other way around.
* **`-sI`:** Idle scan. For the cases in which there is an active firewall but we know that it does not filter to a certain Ip (or when we simply want anonymity) we can use the zombie scanner (it works for all the ports), to look for possible zombies we can use the scrpit ipidseq or the exploit auxiliary/scanner/ip/ipidseq. This scanner is based on the IPID number of the IP packets.
* **`--badsum`:** It sends the sum wrong, the computers would discard the packets, but the firewalls could answer something, it is used to detect firewalls.
* **`-sZ`:** "Weird" SCTP scanner, when sending probes with cookie echo fragments they should be dropped if open or responded with ABORT if closed. It can pass through firewalls that init does not pass through, the bad thing is that it does not distinguish between filtered and open.
* **`-sO`:** Protocol Ip scan. Sends bad and empty headers in which sometimes not even the protocol can be distinguished. If ICMP unreachable protocol arrives it is closed, if unreachable port arrives it is open, if another error arrives, filtered, if nothing arrives, open|filtered.
* **`-b <server>`:** FTPhost--> It is used to scan a host from another one, this is done by connecting the ftp of another machine and asking it to send files to the ports that you want to scan from another machine, according to the answers we will know if they are open or not. \[\<user>:\<password>@]\<server>\[:\<port>] Almost all ftps servers no longer let you do this and therefore it is of little practical use.
**-p:** Sirve para dar los puertos a escanear. Para seleccionar los 65335: **-p-** o **-p all**. Nmap tiene una clasificaación interna según su popularidad. Por defecto usa los 1000 ppales. Con **-F** (fast scan) analiza los 100 ppales. Con **--top-ports \<numero>** Analiza ese numero de ppales (de 1 hasta los 65335). Comprueba los puertos en orden aleatorio, para que eso no pase **-r**. También podemos seleccionar puertos: 20-30,80,443,1024- Esto ultimo significa que mire en adelante del 1024. También podemos agrupar los puertos por protocolos: U:53,T:21-25,80,139,S:9. También podemos escoger un rango dentro de los puertos populares de nmap: -p \[-1024] analiza hasta el 1024 de los incluidos en nmap-services. **--port-ratio \<ratio>** Analiza los puertos más comúnes que un ratio que debe estar entre 0 y 1
**--version-intensity \<numero>** Regulamos la intensidad, de forma que cuanto más bajo solo lanzará las sondas más probables, pero no todas. Con esto podemos acortar considerablemente el tiempo de escaneo UDP
**--osscan-limit** Para escanear bien un host se necesita que al menos haya 1 puerto abierto y otro cerrado, si no se da esta condición y hemos puesto esto, no intenta hacer predicción de os (ahorra tiempo)
**Para usar un script solo hay que poner: namp --script Nombre\_del\_script objetivo** --> Al poner el script se ejecutará tanto el script como el escaner, asi que tambien se pueden poner opciones del escaner, podemos añadir **“safe=1”** para que se ejecuten solo los que sean seguros.
Nmap divide el numero total de host a escanear en grupos y analiza esos grupos en bloques de forma que hasta que no han sido analizados todos, no pasa al siguiente bloque (y el usuario tampoco recibe ninguna actualización hasta que se haya analizado el bloque) de esta forma, es más óptimo para nmap usar grupos grandes. Por defecto en clase C usa 256.
Se puede controlar el numero de escaners en paralelo pero es mejor que no (nmpa ya incorpora control automatico en base al estado de la red): **--min-parallelism** _**\<numprobes>**_**;** **--max-parallelism** _**\<numprobes>**_
Podemos modificar el rtt timeout, pero no suele ser necesario: **--min-rtt-timeout** _**\<time>**_**,** **--max-rtt-timeout** _**\<time>**_**,** **--initial-rtt-timeout** _**\<time>**_
Muchos puertos tardan mucho en responder al estar filtrados o cerrados, si solo nos interesan los abiertos, podemos ir más rápido con: **--defeat-rst-ratelimit**
**-f** Para fragmentar paquetes, por defecto los fragmenta en 8bytes después de la cabecera, para especificar ese tamaño usamos ..mtu (con esto, no usar -f), el offset debe ser multiplo de 8. **Escaners de version y scripts no soportan la fragmentacion**
**-D decoy1,decoy2,ME** Nmap envia escaneres pero con otras direcciones IPs como origen, de esta forma te esconden a ti. Si pones el ME en la lista, nmap te situara ahi, mejor poner 5 o 6 antes de ti para que te enmascaren completamente. Se pueden generar iPs aleatorias con RND:\<numero> Para generar \<numero> de Ips aleatorias. No funcionan con detector de versiones sin conexion de TCP. Si estas dentro de una red, te interesa usar Ips que esten activas, pues sino será muy facil averiguar que tu eres la unica activa.
Muchos administradores dejan puertos de entrada abiertos para que todo funcione correctamente y les es más fácil que buscar otra solución. Estos pueden ser los puertos DNS o los de FTP... para busca esta vulnerabilidad nmap incorpora: **--source-port** _**\<portnumber>**_**;-g** _**\<portnumber>**__Son equivalentes_
**--data-length** _**\<number>**_ Nmap envía solo cabeceras, con esto logramos que añada a estar un numero de bytes mas (que se generaran aleatoriamente)
Para configurar el paquete IP completamente usar **--ip-options**
If you wish to see the options in packets sent and received, specify --packet-trace. For more information and examples of using IP options with Nmap, see [http://seclists.org/nmap-dev/2006/q3/52](http://seclists.org/nmap-dev/2006/q3/52).
**--spoof-mac** _**\<MAC address, prefix, or vendor name>**_ Para cambiar la mac ejemplos: Apple, 0, 01:02:03:04:05:06, deadbeefcafe, 0020F2, and Cisco
**--proxies** _**\<Comma-separated list of proxy URLs>**_ Para usar proxies, a veces un proxy no mantiene tantas conexiones abiertas como nmap quiere por lo que habria que modificar el paralelismo: --max-parallelism
Muchos administradores crean una regla en el firewall que permite pasar todos los paquetes que provienen de un puerto en particular (como el 20,53 y 67), podemos decire a nmap que mande nuestros paquetes desde esos puertos: **nmap --source-port 53 Ip**
Script de nmap que mira las versiones de los servicios obtenidos en una base de datos offline (que descarga de otras muy importantes) y devuelve las posibles vulnerabilidades
According [**to this post**](https://joshua.hu/nmap-speedup-service-scanning-16x) you can speed up the nmap service analysis by modifying all the **`totalwaitms`** values in **`/usr/share/nmap/nmap-service-probes`** to **300** and **`tcpwrappedms`** to **200**.
Moreover, probes which do not have a specifically defined **`servicewaitms`** use a default value of **`5000`**. Therefore, we can either add values to each of the probes, or we can **compile nmap** ourselves and change the default value in [**service\_scan.h**](https://github.com/nmap/nmap/blob/master/service\_scan.h#L79).
If you don't want to change the values of **`totalwaitms`** and **`tcpwrappedms`** at all in the `/usr/share/nmap/nmap-service-probes` file, you can edit the [parsing code](https://github.com/nmap/nmap/blob/master/service\_scan.cc#L1358) such that these values in the `nmap-service-probes` file are completely ignored.
<summary><strong>Learn AWS hacking from zero to hero with</strong><ahref="https://training.hacktricks.xyz/courses/arte"><strong>htARTE (HackTricks AWS Red Team Expert)</strong></a><strong>!</strong></summary>
* If you want to see your **company advertised in HackTricks** or **download HackTricks in PDF** Check the [**SUBSCRIPTION PLANS**](https://github.com/sponsors/carlospolop)!
* Discover [**The PEASS Family**](https://opensea.io/collection/the-peass-family), our collection of exclusive [**NFTs**](https://opensea.io/collection/the-peass-family)
* **Join the** 💬 [**Discord group**](https://discord.gg/hRep4RUj7f) or the [**telegram group**](https://t.me/peass) or **follow** me on **Twitter** 🐦 [**@carlospolopm**](https://twitter.com/carlospolopm)**.**
* **Share your hacking tricks by submitting PRs to the** [**HackTricks**](https://github.com/carlospolop/hacktricks) and [**HackTricks Cloud**](https://github.com/carlospolop/hacktricks-cloud) github repos.