.. _beaglebone-cookbook-tips: Beyond the Basics ################## In :ref:`beaglebone-cookbook-basics`, you learned how to set up BeagleBone Black, and :ref:`beaglebone-cookbook-sensors`, :ref:`beaglebone-cookbook-displays`, and :ref:`beaglebone-cookbook-motors` showed how to interface to the physical world. The remainder of the book moves into some more exciting advanced topics, and this chapter gets you ready for them. The recipes in this chapter assume that you are running Linux on your host computer (:ref:`tips_pick_os`) and are comfortable with using Linux. We continue to assume that you are logged in as *debian* on your Bone. .. _tips_hdmi: Running Your Bone Standalone ============================= Problem -------- You want to use BeagleBone Black as a desktop computer with keyboard, mouse, and an HDMI display. Solution --------- The Bone comes with USB and a microHDMI output. All you need to do is connect your keyboard, mouse, and HDMI display to it. To make this recipe, you will need: * Standard HDMI cable and female HDMI-to-male microHDMI adapter, or * MicroHDMI-to-HDMI adapter cable * HDMI monitor * USB keyboard and mouse * Powered USB hub .. note:: The microHDMI adapter is nice because it allows you to use a regular HDMI cable with the Bone. However, it will block other ports and can damage the Bone if you aren't careful. The microHDMI-to-HDMI cable won't have these problems. .. tip:: You can also use an HDMI-to-DVI cable and use your Bone with a DVI-D display. The adapter looks something like :ref:`tips_HDMI_adaptor_fig`. .. _tips_HDMI_adaptor_fig: .. figure:: figures/hdmiConverter.jpg :align: center :alt: HDMI Adaptor Female HDMI-to-male microHDMI adapter Plug the small end into the microHDMI input on the Bone and plug your HDMI cable into the other end of the adapter and your monitor. If nothing displays on your Bone, reboot. If nothing appears after the reboot, edit the ``/boot/uEnv.txt`` file. Search for the line containing ``disable_uboot_overlay_video=1`` and make sure it's commented out: .. code-block:: bash ###Disable auto loading of virtual capes (emmc/video/wireless/adc) #disable_uboot_overlay_emmc=1 #disable_uboot_overlay_video=1 Then reboot. .. PRODUCTION: in the following tip, we're trying to display the hash symbol (#), .. all by itself, in constant width. Using *#* produces an empty space in the build, .. and I don't know how to escape special characters within what should be literal strings. .. Adding to my confusion, the # signs are dropped in the first paragraph of the tip, .. but not in the second, which is formatted in the same exact way. .. Also, using ## in the code italicizes the second # and everything after it in the line, .. which should not happen. The ``/boot/uEnv.txt`` file contains a number of configuration commands that are executed at boot time. The *#* character is used to add comments; that is, everything to the right of a +# is ignored by the Bone and is assumed to be for humans to read. In the previous example, *###Disable auto loading* is a comment that informs us the next line(s) are for disabling things. Two *disable_uboot_overlay* commands follow. Both should be commented-out and won't be executed by the Bone. Why not just remove the line? Later, you might decide you need more general-purpose input/output (GPIO) pins and don't need the HDMI display. If so, just remove the *#* from the ``disable_uboot_overlay_video=1`` command. If you had completely removed the line earlier, you would have to look up the details somewhere to re-create it. When in doubt, comment-out don't delete. .. note:: If you want to re-enable the HDMI audio, just comment-out the line you added. The Bone has only one USB port, so you will need to get either a keyboard with a USB hub or a USB hub. Plug the USB hub into the Bone and then plug your keyboard and mouse in to the hub. You now have a Beagle workstation no host computer is needed. .. tip:: A powered hub is recommended because USB can supply only 500 mA, and you'll want to plug many things into the Bone. This recipe disables the HDMI audio, which allows the Bone to try other resolutions. If this fails, see `BeagleBoneBlack HDMI `_ for how to force the Bone's resolution to match your monitor. .. _tips_pick_os: Selecting an OS for Your Development Host Computer =================================================== Problem -------- Your project needs a host computer, and you need to select an operating system (OS) for it. Solution -------- For projects that require a host computer, we assume that you are running `Linux Ubuntu 22.04 LTS `_. You can be running either a native installation, through `Windows Subsystem for Linux `_, via a virtual machine such as `VirtualBox `_, or in the cloud (`Microsoft Azure `_ or `Amazon Elastic Compute Cloud `_, EC2, for example). Recently I've been preferring `Windows Subsystem for Linux `_. .. _tips_shell: Getting to the Command Shell via SSH ===================================== Problem -------- You want to connect to the command shell of a remote Bone from your host computer. Solution --------- :ref:`basics_vsc_IDE` shows how to run shell commands in the Visual Studio Code *bash* tab. However, the Bone has Secure Shell (SSH) enabled right out of the box, so you can easily connect by using the following command to log in as user *debian*, (note the *$* at the end of the prompt): .. code-block:: shell-session host$ ssh debian@192.168.7.2 Warning: Permanently added '192.168.7.2' (ED25519) to the list of known hosts. Debian GNU/Linux 11 BeagleBoard.org Debian Bullseye IoT Image 2023-06-03 Support: https://bbb.io/debian default username:password is [debian:temppwd] The programs included with the Debian GNU/Linux system are free software; the exact distribution terms for each program are described in the individual files in /usr/share/doc/*/copyright. Debian GNU/Linux comes with ABSOLUTELY NO WARRANTY, to the extent permitted by applicable law. Last login: Thu Jun 8 14:02:40 2023 from 192.168.7.1 bone$ .. _tips_passwords: Default password ---------------- *debian* has the default password *temppwd*. It's best to change the password: .. code-block:: shell-session bone$ password Changing password for debian. (current) UNIX password: Enter new UNIX password: Retype new UNIX password: password: password updated successfully Removing the *Message of the Day* ================================= Problem ------- Every time you login a long message is displayed that you don't need to see. Solution -------- The contents of the files `/etc/motd`, `/etc/issue` and `/etc/issue.net` are displayed everytime you long it. You can prevent them from being displayed by moving them elsewhere. .. code-block:: shell-session bone$ sudo mv /etc/motd /etc/motd.orig bone$ sudo mv /etc/issue /etc/issue.orig bone$ sudo mv /etc/issue.net /etc/issue.net.orig Now, the next time you `ssh` in they won't be displayed. .. _tips_serial: Getting to the Command Shell via the Virtual Serial Port ========================================================== Problem -------- You want to connect to the command shell of a remote Bone from your host computer without using SSH. Solution --------- Sometimes, you can't connect to the Bone via SSH, but you have a network working over USB to the Bone. There is a way to access the command line to fix things without requiring extra hardware. (:ref:`tips_FTDI` shows a way that works even if you don't have a network working over USB, but it requires a special serial-to-USB cable.) .. note:: This method doesn't work with WSL. First, check to ensure that the serial port is there. On the host computer, run the following command: .. code-block:: shell-session host$ ls -ls /dev/ttyACM0 0 crw-rw---- 1 root dialout 166, 0 Jun 19 11:47 /dev/ttyACM0 */dev/ttyACM0* is a serial port on your host computer that the Bone creates when it boots up. The letters *crw-rw----* show that you can't access it as a normal user. However, you can access it if you are part of *dialout* group. See if you are in the *dialout* group: .. code-block:: shell-session host$ groups yoder adm tty uucp dialout cdrom sudo dip plugdev lpadmin sambashare Looks like I'm already in the group, but if you aren't, just add yourself to the group: .. code-block:: shell-session host$ sudo adduser $USER dialout You have to run *adduser* only once. Your host computer will remember the next time you boot up. Now, install and run the *screen* command: .. code-block:: shell-session host$ sudo apt install screen host$ screen /dev/ttyACM0 115200 Debian GNU/Linux 7 beaglebone ttyGS0 default username:password is [debian:temppwd] Support/FAQ: http://elinux.org/Beagleboard:BeagleBoneBlack_Debian The IP Address for usb0 is: 192.168.7.2 beaglebone login: The ``/dev/ttyACM0`` parameter specifies which serial port to connect to, and *115200* tells the speed of the connection. In this case, it's 115,200 bits per second. .. _tips_FTDI: Viewing and Debugging the Kernel and u-boot Messages at Boot Time ================================================================== Problem -------- You want to see the messages that are logged by BeagleBone Black as it comes to life. Solution --------- There is no network in place when the Bone first boots up, so :ref:`tips_shell` and :ref:`tips_serial` won't work. This recipe uses some extra hardware (FTDI cable) to attach to the Bone's console serial port. To make this recipe, you will need: * 3.3 V FTDI cable .. warning:: Be sure to get a 3.3 V FTDI cable (shown in :ref:`tips_FTDIcable_fig`), because the 5 V cables won't work. .. tip:: The Bone's Serial Debug J1 connector has Pin 1 connected to ground, Pin 4 to receive, and Pin 5 to transmit. The other pins are not attached. .. _tips_FTDIcable_fig: .. figure:: figures/FTDIcable.* :align: center :alt: FTDI Cable FTDI cable Look for a small triangle at the end of the FTDI cable (:ref:`tips_FTDIconnector_fig`). It's often connected to the black wire. .. _tips_FTDIconnector_fig: .. figure:: figures/FTDIconnector.jpg :align: center :alt: FTDI Connector FTDI connector .. tab-set:: .. tab-item:: BeagleBone Next, look for the FTDI pins of the Bone (labeled *J1* on the Bone), shown in :ref:`tips_black_hardware_details_fig`. They are next to the P9 header and begin near pin 20. There is a white dot near P9_20. .. _tips_black_hardware_details_fig: .. figure:: figures/FTDIPins.png :align: center :alt: Serial Debug Pins FTDI pins for the FTDI connector Plug the FTDI connector into the FTDI pins, being sure to connect the ``triangle`` pin on the connector to the ``white dot`` pin of the *FTDI* connector. .. tab-item:: BeagleY-AI FTDI Cable When using the BeagleY-AI, if you already have an FTDI cable, all you'll need is a JST SH Compatible 1mm Pitch 3 Pin to Male Headers Cable (https://www.adafruit.com/product/5755). .. figure:: figures/jst-sh-3-pin.jpg :align: center :alt: JST SH to 3 Pin Male JST SH Compatible 1mm Pitch 3 Pin to Male Headers Cable Attach the JST cable to the FTDI cable as shown below. .. figure:: figures/jst-fdti.jpg :align: center :alt: JST to FDTI connection JST to FDTI connection .. tab-item:: BeagleY-AI Debug Probe If you don't have an FTDI cable, you can use a `Raspberry Pi Debug Probe `_ or similar serial (USB to UART) adapter. Connect your UART debug probe to BeagleY-AI as shown in the image below. After making the connection you can use command line utility like ``tio`` on Linux or Putty on any operating system. Check :ref:`beagley-ai-headless` for more information. .. figure:: figures/rpi-debug-probe-connection.* :align: center :alt: Connecting Raspberry Pi debug probe to BeagleY-AI Connecting Raspberry Pi debug probe to BeagleY-AI Now, run the following commands on your host computer: .. code-block:: shell-session host$ ls -ls /dev/ttyUSB0 0 crw-rw---- 1 root dialout 188, 0 Jun 19 12:43 /dev/ttyUSB0 host$ sudo adduser $USER dialout host$ screen /dev/ttyUSB0 115200 Debian GNU/Linux 7 beaglebone ttyO0 default username:password is [debian:temppwd] Support/FAQ: http://elinux.org/Beagleboard:BeagleBoneBlack_Debian The IP Address for usb0 is: 192.168.7.2 beaglebone login: .. note:: Your screen might initially be blank. Press Enter a couple times to see the login prompt. Verifying You Have the Latest Version of the OS on Your Bone from the Shell ============================================================================ Problem -------- You are logged in to your Bone with a command prompt and want to know what version of the OS you are running. Solution -------- Log in to your Bone and enter the following command: .. code-block:: shell-session bone$ cat /etc/dogtag BeagleBoard.org Debian Bullseye IoT Image 2023-06-03 :ref:`basics_latest_os` shows how to open the ``/etc/dogtag`` file to see the OS version. See :ref:`basics_install_os` if you need to update your OS. Controlling the Bone Remotely with a VNC ========================================= Problem -------- You want to access the BeagleBone's graphical desktop from your host computer. Solution --------- Install and run a Virtual Network Computing (VNC) server: .. todo Check this with desktop installed .. code-block:: shell-session bone$ sudo apt update bone$ sudo apt install tightvncserver Reading package lists... Done Building dependency tree... Done Reading state information... Done The following additional packages will be installed: ... update-alternatives: using /usr/bin/Xtightvnc to provide /usr/bin/Xvnc (Xvnc) in auto mode update-alternatives: using /usr/bin/tightvncpasswd to provide /usr/bin/vncpasswd (vncpasswd) in auto mode Processing triggers for libc-bin (2.31-13+deb11u6) ... bone$ tightvncserver You will require a password to access your desktops. Password: Verify: Would you like to enter a view-only password (y/n)? n xauth: (argv):1: bad display name "beaglebone:1" in "add" command New 'X' desktop is beaglebone:1 Creating default startup script /home/debian/.vnc/xstartup Starting applications specified in /home/debian/.vnc/xstartup Log file is /home/debian/.vnc/beagleboard:1.log To connect to the Bone, you will need to run a VNC client. There are many to choose from. Remmina Remote Desktop Client is already installed on Ubuntu. Start and select the new remote desktop file button (:ref:`tips_vnc1_fig`). .. _tips_vnc1_fig: .. figure:: figures/vnc1.png :align: center :alt: Create a new remote desktop Creating a new remote desktop file in Remmina Remote Desktop Client Give your connection a name, being sure to select "Remmina VNC Plugin" Also, be sure to add *:1* after the server address, as shown in :ref:`tips_vnc2_fig`. This should match the *:1* that was displayed when you started *vncserver*. .. _tips_vnc2_fig: .. figure:: figures/vnc2.png :align: center :alt: Configuring Configuring the Remmina Remote Desktop Client Click Connect to start graphical access to your Bone, as shown in :ref:`tips_vnc3_fig`. .. _tips_vnc3_fig: .. figure:: figures/vnc3.png :align: center :alt: Desktop The Remmina Remote Desktop Client showing the BeagleBone desktop .. tip:: You might need to resize the VNC screen on your host to see the bottom menu bar on your Bone. .. note:: You need to have X Windows installed and running for the VNC to work. Here's how to install it. This needs some 250M of disk space and 19 minutes to install. .. todo This isn't working as of 8-June-2023 .. code-block:: shell-session bone$ bone$ sudo apt install bbb.io-xfce4-desktop bone$ sdo cp /etc/bbb.io/templates/fbdev.xorg.conf /etc/X11/xorg.conf bone$ startxfce4 /usr/bin/startxfce4: Starting X server /usr/bin/startxfce4: 122: exec: xinit: not found Learning Typical GNU/Linux Commands ==================================== Problem -------- There are many powerful commands to use in Linux. How do you learn about them? Solution --------- :ref:`tips_linux_commands` lists many common Linux commands. .. _tips_linux_commands: .. table:: Common Linux commands +--------+--------------------------------+ |Command |Action | +--------+--------------------------------+ |pwd |show current directory | +--------+--------------------------------+ |cd |change current directory | +--------+--------------------------------+ |ls |list directory contents | +--------+--------------------------------+ |chmod |change file permissions | +--------+--------------------------------+ |chown |change file ownership | +--------+--------------------------------+ |cp |copy files | +--------+--------------------------------+ |mv |move files | +--------+--------------------------------+ |rm |remove files | +--------+--------------------------------+ |mkdir |make directory | +--------+--------------------------------+ |rmdir |remove directory | +--------+--------------------------------+ |cat |dump file contents | +--------+--------------------------------+ |less |progressively dump file | +--------+--------------------------------+ |vi |edit file (complex) | +--------+--------------------------------+ |nano |edit file (simple) | +--------+--------------------------------+ |head |trim dump to top | +--------+--------------------------------+ |tail |trim dump to bottom | +--------+--------------------------------+ |echo |print/dump value | +--------+--------------------------------+ |env |dump environment variables | +--------+--------------------------------+ |export |set environment variable | +--------+--------------------------------+ |history |dump command history | +--------+--------------------------------+ |grep |search dump for strings | +--------+--------------------------------+ |man |get help on command | +--------+--------------------------------+ |apropos |show list of man pages | +--------+--------------------------------+ |find |search for files | +--------+--------------------------------+ |tar |create/extract file archives | +--------+--------------------------------+ |gzip |compress a file | +--------+--------------------------------+ |gunzip |decompress a file | +--------+--------------------------------+ |du |show disk usage | +--------+--------------------------------+ |df |show disk free space | +--------+--------------------------------+ |mount |mount disks | +--------+--------------------------------+ |tee |write dump to file in parallel | +--------+--------------------------------+ |hexdump |readable binary dumps | +--------+--------------------------------+ |whereis |locates binary and source files | +--------+--------------------------------+ .. _tips_editing_files: Editing a Text File from the GNU/Linux Command Shell ===================================================== Problem -------- You want to run an editor to change a file. Solution --------- The Bone comes with a number of editors. The simplest to learn is *nano*. Just enter the following command: .. code-block:: shell-session bone$ nano file You are now in nano (:ref:`tips_nano_fig`). You can't move around the screen using the mouse, so use the arrow keys. The bottom two lines of the screen list some useful commands. Pressing ^G (Ctrl-G) will display more useful commands. ^X (Ctrl-X) exits nano and gives you the option of saving the file. .. _tips_nano_fig: .. figure:: figures/nano.png :align: center :alt: nano Editing a file with nano .. tip:: By default, the file you create will be saved in the directory from which you opened *nano*. Many other text editors will run on the Bone. *vi*, *vim*, *emacs*, and even *eclipse* are all supported. See :ref:`tips_apt` to learn if your favorite is one of them. .. _networking_wired: Establishing an Ethernet-Based Internet Connection =================================================== Problem -------- You want to connect your Bone to the Internet using the wired network connection. Solution --------- Plug one end of an Ethernet patch cable into the RJ45 connector on the Bone (see :ref:`networking_rj45`) and the other end into your home hub/router. The yellow and green link lights on both ends should begin to flash. .. _networking_rj45: .. figure:: figures/internLED.png :align: center :alt: RJ45 The RJ45 port on the Bone If your router is already configured to run DHCP (Dynamical Host Configuration Protocol), it will automatically assign an IP address to the Bone. .. warning:: It might take a minute or two for your router to detect the Bone and assign the IP address. To find the IP address, open a terminal window and run the *ip* command: .. code-block:: shell-session bone$ ip a 1: lo: mtu 65536 qdisc noqueue state UNKNOWN group default qlen 1000 link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00 inet 127.0.0.1/8 scope host lo valid_lft forever preferred_lft forever inet6 ::1/128 scope host valid_lft forever preferred_lft forever 2: eth0: mtu 1500 qdisc mq state UP group default qlen 1000 link/ether c8:a0:30:a6:26:e8 brd ff:ff:ff:ff:ff:ff inet 10.0.5.144/24 brd 10.0.5.255 scope global dynamic eth0 valid_lft 80818sec preferred_lft 80818sec inet6 fe80::caa0:30ff:fea6:26e8/64 scope link valid_lft forever preferred_lft forever 3: usb0: mtu 1500 qdisc pfifo_fast state UP group default qlen 1000 link/ether c2:3f:44:bb:41:0f brd ff:ff:ff:ff:ff:ff inet 192.168.7.2/24 brd 192.168.7.255 scope global usb0 valid_lft forever preferred_lft forever inet6 fe80::c03f:44ff:febb:410f/64 scope link valid_lft forever preferred_lft forever 4: usb1: mtu 1500 qdisc pfifo_fast state UP group default qlen 1000 link/ether 76:7e:49:46:1b:78 brd ff:ff:ff:ff:ff:ff inet 192.168.6.2/24 brd 192.168.6.255 scope global usb1 valid_lft forever preferred_lft forever inet6 fe80::747e:49ff:fe46:1b78/64 scope link valid_lft forever preferred_lft forever 5: can0: mtu 16 qdisc no-op state DOWN group default qlen 10 link/can 6: can1: mtu 16 qdisc no-op state DOWN group default qlen 10 link/can My Bone is connected to the Internet in two ways: via the RJ45 connection (*eth0*) and via the USB cable (*usb0*). The *inet* field shows that my Internet address is *10.0.5.144* for the RJ45 connector. On my university campus, you must register your MAC address before any device will work on the network. The *HWaddr* field gives the MAC address. For *eth0*, it's *c8:a0:30:a6:26:e8*. The IP address of your Bone can change. If it's been assigned by DHCP, it can change at any time. The MAC address, however, never changes; it is assigned to your ethernet device when it's manufactured. .. warning:: When a Bone is connected to some networks it becomes visible to the ``world``. If you don't secure your Bone, the world will soon find it. See :ref:`tips_passwords` and :ref:`tips_firewall` On many home networks, you will be behind a firewall and won't be as visible. .. _networking_wireless: Establishing a WiFi-Based Internet Connection ============================================== Problem -------- You want BeagleBone Black to talk to the Internet using a USB wireless adapter. Solution --------- .. tip:: For the correct instructions for the image you are using, go to `latest-images `_ and click on the image you are using. I'm running Debian 11.x (Bullseye), the top one, on the BeagleBone Black. .. _tips_latest-images_fig: .. figure:: figures/latest-images.png :align: center :alt: Latest Image Page Latest Beagle Images Scroll to the top of the page and you'll see instructions on setting up Wifi. The instructions here are based on using **networkctl**. .. _tips_networkfig: .. figure:: figures/network.png :align: center :alt: Network Setup Instructions Instructions for setting up your network. .. todo:: is this up to date? Several WiFi adapters work with the Bone. Check `WiFi Adapters `_ for the latest list. To make this recipe, you will need: * USB Wifi adapter * 5 V external power supply .. warning:: Most adapters need at least 1 A of current to run, and USB supplies only 0.5 A, so be sure to use an external power supply. Otherwise, you will experience erratic behavior and random crashes. First, plug in the WiFi adapter and the 5 V external power supply and reboot. Then run *lsusb* to ensure that your Bone found the adapter: .. code-block:: shell-session bone$ lsusb Bus 001 Device 002: ID 0bda:8176 Realtek Semiconductor Corp. RTL8188CUS 802.11n WLAN Adapter Bus 001 Device 001: ID 1d6b:0002 Linux Foundation 2.0 root hub Bus 002 Device 001: ID 1d6b:0002 Linux Foundation 2.0 root hub .. note:: There is a well-known bug in the Bone's 3.8 kernel series that prevents USB devices from being discovered when hot-plugged, which is why you should reboot. Newer kernels should address this issue. .. todo:: update Next, run *networkctl* to find your adapter's name. Mine is called *wlan0*, but you might see other names, such as *ra0*. .. code-block:: shell-session bone$ networkctl IDX LINK TYPE OPERATIONAL SETUP 1 lo loopback carrier unmanaged 2 eth0 ether no-carrier configuring 3 usb0 gadget routable configured 4 usb1 gadget routable configured 5 can0 can off unmanaged 6 can1 can off unmanaged 7 wlan0 wlan routable configured 8 SoftAp0 wlan routable configured 8 links listed. If no name appears, try *ip a*: .. code-block:: shell-session bone$ ip a ... 2: eth0: mtu 1500 qdisc pfifo_fast state DOWN group default qlen 1000 link/ether c8:a0:30:a6:26:e8 brd ff:ff:ff:ff:ff:ff 3: usb0: mtu 1500 qdisc pfifo_fast state UP group default qlen 1000 link/ether c2:3f:44:bb:41:0f brd ff:ff:ff:ff:ff:ff inet 192.168.7.2/24 brd 192.168.7.255 scope global usb0 valid_lft forever preferred_lft forever inet6 fe80::c03f:44ff:febb:410f/64 scope link valid_lft forever preferred_lft forever ... 7: wlan0: mtu 1500 qdisc mq state UP group default qlen 1000 link/ether 64:69:4e:7e:5c:e4 brd ff:ff:ff:ff:ff:ff inet 10.0.7.21/24 brd 10.0.7.255 scope global dynamic wlan0 valid_lft 85166sec preferred_lft 85166sec inet6 fe80::6669:4eff:fe7e:5ce4/64 scope link valid_lft forever preferred_lft forever Next edit the configuration file */etc/wpa_supplicant/wpa_supplicant-wlan0.conf*. .. code-block:: shell-session bone$ sudo nano /etc/wpa_supplicant/wpa_supplicant-wlan0.conf In the file you'll see: .. code-block:: bash ctrl_interface=DIR=/run/wpa_supplicant GROUP=netdev update_config=1 #country=US network={ ssid="Your SSID" psk="Your Password" } Change the *ssid* and *psk* entries for your network. Save your file, then run: .. code-block:: shell-session bone$ sudo systemctl restart systemd-networkd bone$ ip a bone$ ping -c2 google.com PING google.com (142.250.191.206) 56(84) bytes of data. 64 bytes from ord38s31-in-f14.1e100.net (142.250.191.206): icmp_seq=1 ttl=115 time=19.5 ms 64 bytes from ord38s31-in-f14.1e100.net (142.250.191.206): icmp_seq=2 ttl=115 time=19.4 ms --- google.com ping statistics --- 2 packets transmitted, 2 received, 0% packet loss, time 1001ms rtt min/avg/max/mdev = 19.387/19.450/19.513/0.063 ms *wlan0* should now have an ip address and you should be on the network. If not, try rebooting. .. _networking_usb: Sharing the Host's Internet Connection over USB ================================================= .. todo:: Test this Problem ------- Your host computer is connected to the Bone via the USB cable, and you want to run the network between the two. Solution --------- :ref:`networking_wired` shows how to connect BeagleBone Black to the Internet via the RJ45 Ethernet connector. This recipe shows a way to connect without using the RJ45 connector. A network is automatically running between the Bone and the host computer at boot time using the USB. The host's IP address is *192.168.7.1* and the Bone's is *192.168.7.2*. Although your Bone is talking to your host, it can't reach the Internet in general, nor can the Internet reach it. On one hand, this is good, because those who are up to no good can't access your Bone. On the other hand, your Bone can't reach the rest of the world. Letting your bone see the world: setting up IP masquerading ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ You need to set up IP masquerading on your host and configure your Bone to use it. Here is a solution that works with a host computer running Linux. Add the code in :ref:`tips_ipmasq_code` to a file called ``ipMasquerade.sh`` on your host computer. .. _tips_ipmasq_code: .. literalinclude:: ../code/05tips/ipMasquerade.sh :caption: Code for IP Masquerading (ipMasquerade.sh) :language: bash :linenos: :download:`ipMasquerade.sh <../code/05tips/ipMasquerade.sh>` Then, on your host, run the following commands: .. code-block:: shell-session host$ chmod +x ipMasquerade.sh host$ ./ipMasquerade.sh eth0 This will direct your host to take requests from the Bone and send them to *eth0*. If your host is using a wireless connection, change *eth0* to *wlan0*. Now let's set up your host to instruct the Bone what to do. Add the code in :ref:`tips_setDNS` to ``setDNS.sh`` on your host computer. .. _tips_setDNS: .. literalinclude:: ../code/05tips/setDNS.sh :caption: Code for setting the DNS on the Bone (setDNS.sh) :language: bash :linenos: :download:`setDNS.sh <../code/05tips/setDNS.sh>` Then, on your host, run the following commands: .. code-block:: shell-session host$ chmod +x setDNS.sh host$ ./setDNS.sh host$ ssh -X root@192.168.7.2 bone$ ping -c2 google.com PING google.com (216.58.216.96) 56(84) bytes of data. 64 bytes from ord30s22....net (216.58.216.96): icmp_req=1 ttl=55 time=7.49 ms 64 bytes from ord30s22....net (216.58.216.96): icmp_req=2 ttl=55 time=7.62 ms --- google.com ping statistics --- 2 packets transmitted, 2 received, 0% packet loss, time 1002ms rtt min/avg/max/mdev = 7.496/7.559/7.623/0.107 ms This will look up what Domain Name System (DNS) servers your host is using and copy them to the right place on the Bone. The *ping* command is a quick way to verify your connection. Letting the world see your bone: setting up port forwarding ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ Now your Bone can access the world via the USB port and your host computer, but what if you have a web server on your Bone that you want to access from the world? The solution is to use port forwarding from your host. Web servers typically listen to port *80*. First, look up the IP address of your host: .. todo:: switch to ip address .. code-block:: shell-session host$ ip a 1: lo: mtu 65536 qdisc noqueue state UNKNOWN group default qlen 1000 link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00 inet 127.0.0.1/8 scope host lo valid_lft forever preferred_lft forever inet6 ::1/128 scope host valid_lft forever preferred_lft forever 2: eth0: mtu 1280 qdisc mq state UP group default qlen 1000 link/ether 00:15:5d:7c:e8:dc brd ff:ff:ff:ff:ff:ff inet 172.31.43.210/20 brd 172.31.47.255 scope global eth0 valid_lft forever preferred_lft forever inet6 fe80::215:5dff:fe7c:e8dc/64 scope link valid_lft forever preferred_lft forever It's the number following *inet*, which in my case is *172.31.43.210*. .. tip:: If you are on a wireless network, find the IP address associated with *wlan0*. Then run the following, using your host's IP address: .. todo:: check this iptables, convert to ufw .. code-block:: shell-session host$ sudo iptables -t nat -A PREROUTING -p tcp -s 0/0 \ -d 172.31.43.210 --dport 1080 -j DNAT --to 192.168.7.2:80 Now browse to your host computer at port *1080*. That is, if your host's IP address is *123.456.789.0*, enter *123.456.789.0:1080*. The *:1080* specifies what port number to use. The request will be forwarded to the server on your Bone listening to port *80*. (I used *1080* here, in case your host is running a web server of its own on port *80*.) .. _tips_firewall: Setting Up a Firewall ====================== Problem -------- You have put your Bone on the network and want to limit which IP addresses can access it. Solution --------- `How-To Geek `_ has a great posting on how do use *ufw*, the "uncomplicated firewall". Check out `How to Secure Your Linux Server with a UFW Firewall `_. I'll summarize the initial setup here. First install and check the status: .. code-block:: shell-session bone$ sudo apt update bone$ sudo apt install ufw bone$ sudo ufw status Status: inactive Now turn off everything coming in and leave on all outgoing. Note, this won't take effect until *ufw* is enabled. .. code-block:: shell-session bone$ sudo ufw default deny incoming bone$ sudo ufw default allow outgoing Don't enable yet, make sure *ssh* still has access .. code-block:: shell-session bone$ sudo ufw allow 22 Just to be sure, you can install *nmap* on your host computer to see what ports are currently open. .. code-block:: shell-session host$ sudo apt update host$ sudo apt install nmap host$ nmap 192.168.7.2 Starting Nmap 7.80 ( https://nmap.org ) at 2022-07-09 13:37 EDT Nmap scan report for bone (192.168.7.2) Host is up (0.014s latency). Not shown: 997 closed ports PORT STATE SERVICE 22/tcp open ssh 80/tcp open http 3000/tcp open ppp Nmap done: 1 IP address (1 host up) scanned in 0.19 seconds Currently there are three ports visible: 22, 80 and 3000 (visual studio code). Now turn on the firewall and see what happens. .. code-block:: shell-session bone$ sudo ufw enable Command may disrupt existing ssh connections. Proceed with operation (y|n)? y Firewall is active and enabled on system startup host$ nmap 192.168.7.2 Starting Nmap 7.80 ( https://nmap.org ) at 2022-07-09 13:37 EDT Nmap scan report for bone (192.168.7.2) Host is up (0.014s latency). Not shown: 999 closed ports PORT STATE SERVICE 22/tcp open ssh Nmap done: 1 IP address (1 host up) scanned in 0.19 seconds Only port 22 (ssh) is accessible now. The firewall will remain on, even after a reboot. Disable it now if you don't want it on. .. code-block:: shell-session bone$ sudo ufw disable Firewall stopped and disabled on system startup See the `How-To Geek article `_ for more examples. .. _tips_apt: Installing Additional Packages from the Debian Package Feed ============================================================ Problem -------- You want to do more cool things with your BeagleBone by installing more programs. Solution ---------- .. warning:: Your Bone needs to be on the network for this to work. See :ref:`networking_wired`, :ref:`networking_wireless`, or :ref:`networking_usb`. The easiest way to install more software is to use **apt**: .. code-block:: shell-session bone$ sudo apt update bone$ sudo apt install "name of software" A *sudo* is necessary since you aren't running as *root*. The first command downloads package lists from various repositories and updates them to get information on the newest versions of packages and their dependencies. (You need to run it only once a week or so.) The second command fetches the software and installs it and all packages it depends on. How do you find out what software you can install? Try running this: .. code-block:: shell-session bone$ apt-cache pkgnames | sort > /tmp/list bone$ wc /tmp/list 67974 67974 1369852 /tmp/list bone$ less /tmp/list The first command lists all the packages that *apt* knows about and sorts them and stores them in ``/tmp/list``. The second command shows why you want to put the list in a file. The *wc* command counts the number of lines, words, and characters in a file. In our case, there are over 67,000 packages from which we can choose! The *less* command displays the sorted list, one page at a time. Press the space bar to go to the next page. Press **q** to quit. Suppose that you would like to install an online dictionary (*dict*). Just run the following command: .. code-block:: shell-session bone$ sudo apt install dict Now you can run *dict*. .. _tips_apt_remove: Removing Packages Installed with apt ====================================== Problem -------- You've been playing around and installing all sorts of things with *apt* and now you want to clean things up a bit. Solution -------- *apt* has a *remove* option, so you can run the following command: .. code-block:: shell-session bone$ sudo apt remove dict Reading package lists... Done Building dependency tree Reading state information... Done The following packages were automatically installed and are no longer required: libmaa3 librecode0 recode Use 'apt autoremove' to remove them. The following packages will be REMOVED: dict 0 upgraded, 0 newly installed, 1 to remove and 27 not upgraded. After this operation, 164 kB disk space will be freed. Do you want to continue [Y/n]? y Copying Files Between the Onboard Flash and the MicroSD Card ============================================================= Problem -------- You want to move files between the onboard flash and the microSD card. Solution --------- First, make sure your Beagle has eMMC. Run ``lsblk``. .. code-block:: shell-session beagle:~$ lsblk NAME MAJ:MIN RM SIZE RO TYPE MOUNTPOINT mmcblk1 179:0 0 3.6G 0 disk └─mmcblk1p1 179:1 0 3.6G 0 part mmcblk1boot0 179:256 0 2M 1 disk mmcblk1boot1 179:512 0 2M 1 disk mmcblk0 179:768 0 7.4G 0 disk └─mmcblk0p1 179:769 0 7.4G 0 part / If the results show ``mmcblk0`` and ``mmcblk1`` like above, you have eMMC and can do the rest of this recipe. If your results are like below, you don't have eMMC. .. code-block:: shell-session beagle:~$ lsblk NAME MAJ:MIN RM SIZE RO TYPE MOUNTPOINTS mmcblk1 179:0 0 7.5G 0 disk ├─mmcblk1p1 179:1 0 256M 0 part /boot/firmware └─mmcblk1p2 179:2 0 7.3G 0 part / If you booted from the microSD card, run the following command: .. code-block:: shell-session bone$ df -h Filesystem Size Used Avail Use% Mounted on rootfs 7.2G 2.0G 4.9G 29% / udev 10M 0 10M 0% /dev tmpfs 100M 1.9M 98M 2% /run /dev/mmcblk0p2 7.2G 2.0G 4.9G 29% / tmpfs 249M 0 249M 0% /dev/shm tmpfs 249M 0 249M 0% /sys/fs/cgroup tmpfs 5.0M 0 5.0M 0% /run/lock tmpfs 100M 0 100M 0% /run/user bone$ ls /dev/mmcblk* /dev/mmcblk0 /dev/mmcblk0p2 /dev/mmcblk1boot0 /dev/mmcblk1p1 /dev/mmcblk0p1 /dev/mmcblk1 /dev/mmcblk1boot1 The *df* command shows what partitions are already mounted. The line ``/dev/mmcblk0p2 7.2G 2.0G 4.9G 29% /`` shows that *mmcblk0* partition *p2* is mounted as */*, the root file system. The general rule is that the media you're booted from (either the onboard flash or the microSD card) will appear as *mmcblk0*. The second partition (*p2*) is the root of the file system. The *ls* command shows what devices are available to mount. Because *mmcblk0* is already mounted, */dev/mmcblk1p1* must be the other media that we need to mount. Run the following commands to mount it: .. todo:: update .. code-block:: shell-session bone$ cd /mnt bone$ sudo mkdir onboard bone$ ls onboard bone$ sudo mount /dev/mmcblk1p1 onboard/ bone$ ls onboard bin etc lib mnt proc sbin sys var boot home lost+found nfs-uEnv.txt root selinux tmp dev ID.txt media opt run srv usr The *cd* command takes us to a place in the file system where files are commonly mounted. The *mkdir* command creates a new directory (``onboard``) to be a mount point. The *ls* command shows there is nothing in ``onboard``. The *mount* command makes the contents of the onboard flash accessible. The next *ls* shows there now are files in ``onboard``. These are the contents of the onboard flash, which can be copied to and from like any other file. This same process should also work if you have booted from the onboard flash. When you are done with the onboard flash, you can unmount it by using this command: .. code-block:: shell-session bone$ sudo umount /mnt/onboard Freeing Space on the Onboard Flash or MicroSD Card =================================================== Problem -------- You are starting to run out of room on your microSD card (or onboard flash) and have removed several packages you had previously installed (:ref:`tips_apt_remove`), but you still need to free up more space. Solution -------- To free up space, you can remove preinstalled packages or discover big files to remove. Removing preinstalled packages ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ You might not need a few things that come preinstalled in the Debian image, including such things as OpenCV, the Chromium web browser, and some documentation. .. note:: The Chromium web browser is the open source version of Google's Chrome web browser. Unless you are using the Bone as a desktop computer, you can probably remove it. Here's how you can remove these: .. code-block:: shell-session bone$ sudo apt remove bb-node-red-installer (171M) bone$ sudo apt autoremove bone$ sudo -rf /usr/share/doc (116M) bone$ sudo -rf /usr/share/man (19M) Discovering big files ^^^^^^^^^^^^^^^^^^^^^ The *du* (disk usage) command offers a quick way to discover big files: .. code-block:: shell-session bone$ sudo du -shx /* 12M /bin 160M /boot 0 /dev 23M /etc 835M /home 4.0K /ID.txt 591M /lib 16K /lost+found 4.0K /media 8.0K /mnt 664M /opt du: cannot access '/proc/1454/task/1454/fd/4': No such file or directory du: cannot access '/proc/1454/task/1454/fdinfo/4': No such file or directory du: cannot access '/proc/1454/fd/3': No such file or directory du: cannot access '/proc/1454/fdinfo/3': No such file or directory 0 /proc 1.4M /root 1.4M /run 13M /sbin 4.0K /srv 0 /sys 48K /tmp 1.6G /usr 1.9G /var If you booted from the microSD card, *du* lists the usage of the microSD. If you booted from the onboard flash, it lists the onboard flash usage. The *-s* option summarizes the results rather than displaying every file. *-h* prints it in _human_ form--that is, using *M* and *K* postfixes rather than showing lots of digits. The */** specifies to run it on everything in the top-level directory. It looks like a couple of things disappeared while the command was running and thus produced some error messages. .. tip:: For more help, try *du --help*. The ``/var`` directory appears to be the biggest user of space at 1.9 GB. You can then run the following command to see what's taking up the space in ``/var``: .. code-block:: shell-session bone$ sudo du -sh /var/* 4.0K /var/backups 76M /var/cache 93M /var/lib 4.0K /var/local 0 /var/lock 751M /var/log 4.0K /var/mail 4.0K /var/opt 0 /var/run 16K /var/spool 987M /var/swap 28K /var/tmp 16K /var/www A more interactive way to explore your disk usage is by installing *ncdu* (ncurses disk usage): .. code-block:: shell-session bone$ sudo apt install ncdu bone$ ncdu / After a moment, you'll see the following: .. code-block:: shell-session ncdu 1.15.1 ~ Use the arrow keys to navigate, press ? for help --- / ------------------------------------------------------------------ . 1.9 GiB [##########] /var 1.5 GiB [######## ] /usr 835.0 MiB [#### ] /home 663.5 MiB [### ] /opt 590.9 MiB [### ] /lib 159.0 MiB [ ] /boot . 22.8 MiB [ ] /etc 12.5 MiB [ ] /sbin 11.1 MiB [ ] /bin . 1.4 MiB [ ] /run . 40.0 KiB [ ] /tmp ! 16.0 KiB [ ] /lost+found 8.0 KiB [ ] /mnt e 4.0 KiB [ ] /srv ! 4.0 KiB [ ] /root e 4.0 KiB [ ] /media 4.0 KiB [ ] ID.txt . 0.0 B [ ] /sys . 0.0 B [ ] /proc 0.0 B [ ] /dev Total disk usage: 5.6 GiB Apparent size: 5.5 GiB Items: 206148 *ncdu* is a character-based graphics interface to *du*. You can now use your arrow keys to navigate the file structure to discover where the big unused files are. Press ? for help. .. warning:: Be careful not to press the **d** key, because it's used to delete a file or directory. .. _misc_libsoc: Using C to Interact with the Physical World ============================================= Problem -------- You want to use C on the Bone to talk to the world. Solution --------- The C solution isn't as simple as the JavaScript or Python solution, but it does work and is much faster. The approach is the same, write to the */sys/class/gpio* files. .. _misc_c_blink: .. literalinclude:: ../code/05tips/blinkLED.c :caption: Use C to blink an LED (blinkLED.c) :language: c :linenos: :download:`blinkLED.c <../code/05tips/blinkLED.c>` Here, as with JavaScript and Python, the gpio pins are referred to by the Linux gpio number. :ref:`tips_cape_headers_digital` shows how the P8 and P9 Headers numbers map to the gpio number. For this example P9_14 is used, which the table shows in gpio 50. .. _tips_cape_headers_digital: .. figure:: figures/cape-headers-digital.png :align: center :alt: cape headers digital Mapping from header pin to internal GPIO number Compile and run the code: .. code-block:: shell-session bone$ gcc -o blinkLED blinkLED.c bone$ ./blinkLED ^C Hit ^C to stop the blinking.