Difference between revisions of "CM-T54: Linux: Debian"
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== Overview == | == Overview == | ||
− | The example run-time Linux filesystem image for CM-T54 is based on Debian GNU/Linux Wheezy. | + | The example run-time Linux filesystem image for the CompuLab CM-T54 System-on-Module / Computer-on-Module is based on Debian GNU/Linux Wheezy. |
The CompuLab Linux package for CM-T54 includes ready to run root filesystem demo archive, Linux kernel configuration and source code patches. | The CompuLab Linux package for CM-T54 includes ready to run root filesystem demo archive, Linux kernel configuration and source code patches. | ||
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The [[CM-T54: Linux: Getting started]] page provides a brief introduction on how to install the run-time Linux image. | The [[CM-T54: Linux: Getting started]] page provides a brief introduction on how to install the run-time Linux image. | ||
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== Using Debian Linux on CM-T54 == | == Using Debian Linux on CM-T54 == | ||
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To login into the Linux system, you may use a serial console (ttyO3) at 115200 bps, or connect through the network, or use a keyboard and HDMI display. | To login into the Linux system, you may use a serial console (ttyO3) at 115200 bps, or connect through the network, or use a keyboard and HDMI display. | ||
+ | |||
+ | === Display options === | ||
+ | CM-T54 evaluation platform has four video output interfaces: LCD, DVI, LVDS and HDMI. | ||
+ | All of them are enabled by default. Current version of Xorg driver of CM-T54 example root file system supports mirror video output mode only. | ||
+ | It causes last registered video output device (LVDS) resolution to be propagated to other devices. | ||
+ | |||
+ | In order to force a specific video output device to be selected as a primary device the U-Boot environment variables should be adjusted: | ||
+ | |||
+ | * HDMI/DVI output enabled (LCD/LVDS disabled) | ||
+ | |||
+ | <pre> | ||
+ | CM-T54 # setenv mmcloadfdt 'load mmc ${mmcdev} ${fdtaddr} ${fdtfile}; run fdt_adjust_video;' | ||
+ | CM-T54 # setenv fdt_adjust_video 'fdt addr ${fdtaddr}; run fdt_disable_lvds; run fdt_disable_lcd' | ||
+ | CM-T54 # setenv fdt_disable_lvds 'fdt set /ocp/dss/encoder@58004000 status "disabled"; fdt rm /ocp/i2c@48070000/sn65dsi83@2c; fdt rm /aliases display3;' | ||
+ | CM-T54 # setenv fdt_disable_lcd 'fdt rm /display; fdt rm /ocp/dss/port/endpoint@1; fdt rm /aliases display2;' | ||
+ | CM-T54 # saveenv | ||
+ | </pre> | ||
+ | |||
+ | * LCD output enabled (LVDS disabled) | ||
+ | |||
+ | <pre> | ||
+ | CM-T54 # setenv mmcloadfdt 'load mmc ${mmcdev} ${fdtaddr} ${fdtfile}; run fdt_adjust_video;' | ||
+ | CM-T54 # setenv fdt_adjust_video 'fdt addr ${fdtaddr}; run fdt_disable_lvds' | ||
+ | CM-T54 # setenv fdt_disable_lvds 'fdt set /ocp/dss/encoder@58004000 status "disabled"; fdt rm /ocp/i2c@48070000/sn65dsi83@2c; fdt rm /aliases display3;' | ||
+ | CM-T54 # saveenv | ||
+ | </pre> | ||
+ | |||
+ | * Default settings | ||
+ | |||
+ | <pre> | ||
+ | CM-T54 # setenv mmcloadfdt 'load mmc ${mmcdev} ${fdtaddr} ${fdtfile};' | ||
+ | CM-T54 # saveenv | ||
+ | </pre> | ||
=== Networking === | === Networking === | ||
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</pre> | </pre> | ||
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== See also == | == See also == | ||
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* [[CM-T54: Linux: Getting started]] | * [[CM-T54: Linux: Getting started]] | ||
* [[CM-T54: Linux: Kernel]] | * [[CM-T54: Linux: Kernel]] | ||
+ | * [[CM-T54: Linux: Arago Project]] | ||
* [[Linux: Development for ARM modules]] | * [[Linux: Development for ARM modules]] | ||
* [[Linux: Debian: Minimal ARM filesystem]] | * [[Linux: Debian: Minimal ARM filesystem]] |
Latest revision as of 10:04, 18 June 2015
Contents
- 1 Overview
- 2 Using Debian Linux on CM-T54
- 3 See also
Overview
The example run-time Linux filesystem image for the CompuLab CM-T54 System-on-Module / Computer-on-Module is based on Debian GNU/Linux Wheezy. The CompuLab Linux package for CM-T54 includes ready to run root filesystem demo archive, Linux kernel configuration and source code patches.
The default Debian Wheezy Linux image includes more than 400 software packages. Among them:
- Core system
- Debian package management system
- X11 Windowing System
- Fluxbox desktop manager
- Iceweasel browser
- Samba connectivity suite
- SSH server and client
- ALSA configuration and usage utilities
- Bluetooth tools and daemons
The CM-T54: Linux: Getting started page provides a brief introduction on how to install the run-time Linux image.
Using Debian Linux on CM-T54
Connection and Logging In
Use the following username and password to login:
Account with administrative privileges:
cm-debian login: root Password: 111111
Regular user account:
cm-debian login: user Password: 111111
To login into the Linux system, you may use a serial console (ttyO3) at 115200 bps, or connect through the network, or use a keyboard and HDMI display.
Display options
CM-T54 evaluation platform has four video output interfaces: LCD, DVI, LVDS and HDMI. All of them are enabled by default. Current version of Xorg driver of CM-T54 example root file system supports mirror video output mode only. It causes last registered video output device (LVDS) resolution to be propagated to other devices.
In order to force a specific video output device to be selected as a primary device the U-Boot environment variables should be adjusted:
- HDMI/DVI output enabled (LCD/LVDS disabled)
CM-T54 # setenv mmcloadfdt 'load mmc ${mmcdev} ${fdtaddr} ${fdtfile}; run fdt_adjust_video;' CM-T54 # setenv fdt_adjust_video 'fdt addr ${fdtaddr}; run fdt_disable_lvds; run fdt_disable_lcd' CM-T54 # setenv fdt_disable_lvds 'fdt set /ocp/dss/encoder@58004000 status "disabled"; fdt rm /ocp/i2c@48070000/sn65dsi83@2c; fdt rm /aliases display3;' CM-T54 # setenv fdt_disable_lcd 'fdt rm /display; fdt rm /ocp/dss/port/endpoint@1; fdt rm /aliases display2;' CM-T54 # saveenv
- LCD output enabled (LVDS disabled)
CM-T54 # setenv mmcloadfdt 'load mmc ${mmcdev} ${fdtaddr} ${fdtfile}; run fdt_adjust_video;' CM-T54 # setenv fdt_adjust_video 'fdt addr ${fdtaddr}; run fdt_disable_lvds' CM-T54 # setenv fdt_disable_lvds 'fdt set /ocp/dss/encoder@58004000 status "disabled"; fdt rm /ocp/i2c@48070000/sn65dsi83@2c; fdt rm /aliases display3;' CM-T54 # saveenv
- Default settings
CM-T54 # setenv mmcloadfdt 'load mmc ${mmcdev} ${fdtaddr} ${fdtfile};' CM-T54 # saveenv
Networking
To configure networking, edit /etc/network/interfaces, /etc/resolv.conf, /etc/hostname and /etc/hosts. For more information about Debian Linux network configuration read Network setup chapter in the Debian Reference.
X Windows system
CompuLab distribution contains full featured X Windows system with Fluxbox window manager. Before starting X Windows, connect USB mouse and keyboard to the system. You can run X Windows by typing startx.
Fluxbox window manager
CM-T54 Debian Linux features installed Fluxbox package - a lightweight window manager for the X Windowing System.
- Fluxbox provides configurable window decorations, a root menu to launch applications and a toolbar that shows the current workspace name, a set of application names and the current time. There is also a workspace menu which allows you to add or remove workspaces. The slit can be used to dock small applications, e.g. most of the bbtools can use slit.
- Fluxbox can iconify windows to the toolbar, in addition to adding the window to the Icons submenu of the workspace menu.
Visit Fluxbox Wiki and Official home page for more details.
Software Management
Debian Linux image for CM-T54 includes all the information required to use Debian package management utilities. You can use apt-get and dpkg out of the box.
HDMI Audio
CM-T54 provides a digital HDMI audio interface, which is registered as a standard ALSA sound card. If the default CM-T54 configuration is used, the audio drivers are loaded automatically in the boot process.
Since the HDMI audio card is the default one in the Linux for CM-T54, the following command can be used for audio play back:
root@cm-debian:~# aplay <wav-file>
Analog Audio
CM-T54 provides the analog audio interface, which is registered as a standard ALSA sound card. If the default CM-T54 configuration is used, the audio drivers are loaded automatically in the boot process.
aplay -l shows list of all soundcards and digital audio devices registered on the system. Here is a sample aplay -l output.
root@cm-debian:~# aplay -l **** List of PLAYBACK Hardware Devices **** card 0: OMAP4HDMI [OMAP4HDMI], device 0: HDMI hdmi-hifi-0 [] Subdevices: 1/1 Subdevice #0: subdevice #0 card 1: wm8731audio [wm8731-audio], device 0: WM8731 PCM wm8731-hifi-0 [] Subdevices: 1/1 Subdevice #0: subdevice #0
The 'card 1' is the analog audio device.
Analog Audio Settings
To enable the Analog audio playback, alsamixer or amixer applications can be used.
- alsamixer - set the “Output Mixer HiFi” control on.
or
- amixer - set the “Output Mixer HiFi Playback Switch” control on using command line interface:
# amixer -c 1 cset numid=14,iface=MIXER,name='Output Mixer HiFi Playback Switch' on # alsactl store wm8731audio
Analog Audio Playback
In order to play back a sound file make use of the aplay application.
- aplay -L can be used for listing of all pcm devices.
Here is a sample output of aplay -L command:
root@cm-debian:~# aplay -L null Discard all samples (playback) or generate zero samples (capture) default:CARD=OMAP4HDMI OMAP4HDMI, Default Audio Device sysdefault:CARD=OMAP4HDMI OMAP4HDMI, Default Audio Device default:CARD=wm8731audio wm8731-audio, Default Audio Device sysdefault:CARD=wm8731audio wm8731-audio, Default Audio Device
The next command can be used for audio play back:
root@cm-debian:~# aplay -D sysdefault:CARD=wm8731audio <wav-file>
The above command makes use of the wm8731 audio codec and passes the audio signal to the audio out connector (J5 on SB-T54).
Recording Audio
CM-T54 provides recording audio signal from either “Line In” or “Mic In” sources. The arecord application can be used for capturing audio signal. arecord -L shows all devices that can be used for audio capturing.
The below list of devices is shown on a CM-T54 module:
root@cm-debian:~# arecord -L null Discard all samples (playback) or generate zero samples (capture) default:CARD=wm8731audio wm8731-audio, Default Audio Device sysdefault:CARD=wm8731audio wm8731-audio, Default Audio Device
Audio Input Settings
CM-T54 provides an audio capturing feature from either Mic or Line In input sources. alsamixer or amixer can be used in order to switch between these inputs.
Mic
- Using alsamixer
- Set Input Mux playback control to Mic state
- Set Mic Boost playback control to the highest state
- Set Mic capture control to CAPTURE state
- Using amixer
root@cm-debian:~# amixer -c 1 cset numid=11,iface=MIXER,name='Input Mux' 1 root@cm-debian:~# amixer -c 1 cset numid=5,iface=MIXER,name='Mic Boost Volume' 1 root@cm-debian:~# amixer -c 1 cset numid=6,iface=MIXER,name='Mic Capture Switch' 1
Line In
- Using alsamixer
- Set Input Mux playback control to Line In state
- Set Line capture control to CAPTURE state
- Using amixer
root@cm-debian:~# amixer -c 1 cset numid=11,iface=MIXER,name='Input Mux' 0 root@cm-debian:~# amixer -c 1 cset numid=4,iface=MIXER,name='Line Capture Switch' 1
Sample Audio Recording
As soon as the correct input values have been set, audio signal can be captured.
Here is a sample command that shows the arecord usage for capturing audio signal from the selected input line.
root@cm-debian:~# arecord -D sysdefault:CARD=wm8731audio -f cd -t wav /tmp/out.wav
Touchscreen
CM-T54 Evaluation Kit is equipped with Startek KD050C LCD 800x480 LCD touch panel. The touchscreen driver is modularized if you use default CM-T54 configuration and is loaded by udev automatically on Linux boot. If the touchscreen driver is not loaded, the following command will load the touchscreen driver:
modprobe ads7846
The X Windows system of CM-T54 uses tslib X server input driver to get the input from the touchscreen.
Touchscreen calibration
A touchscreen device can be calibrated using xinput_calibrator utility.
To calibrate the touchscreen:
- Run X Server by issuing startx command
- Make sure the touchscreen driver is loaded as described in Touchscreen section
- Set the DISPLAY environment variable:
export DISPLAY=:0
- Run xinput_calibrator utility. For proper calibration you are required to touch the touchscreen corners and center in the following order: top-left, top-right, bottom-right, bottom-left, center.
- Create a file /usr/share/X11/xorg.conf.d/99-calibration.conf and paste there a snippet with the calibration results:
root@cm-debian:~# xinput_calibrator Setting calibration data: 0, 4095, 0, 4095 Calibrating EVDEV driver for "ADS7846 Touchscreen" id=6 current calibration values (from XInput): min_x=0, max_x=4095 and min_y=0, max_y=4095 Doing dynamic recalibration: Setting calibration data: 289, 3781, 3887, 227 --> Making the calibration permanent <-- copy the snippet below into '/etc/X11/xorg.conf.d/99-calibration.conf' (/usr/share/X11/xorg.conf.d/ in some distro's) Section "InputClass" Identifier "calibration" MatchProduct "ADS7846 Touchscreen" Option "Calibration" "289 3781 3887 227" Option "SwapAxes" "0" EndSection
MMC/SD
The support for MMC/SD card on CM-T54 is built into the Linux kernel. To mount the memory card, monitor /proc/partitions to see what partitions were detected on the MMC/SD card. For example, suppose MMC/SD partition you'd like to mount is mmcblk0p1 then:
mkdir -p /mnt/mmcblk0p1 && mount /dev/mmcblk0p1 /mnt/mmcblk0p1
USB3.0 On-The-Go (OTG)
CM-T54 has USB DWC3 (XHCI) based controller. It features SuperSpeed (SS) USB 3.0 Dual-Role-Device (DRD) subsystem with integrated SS (USB3.0) PHY and HS/FS (USB2.0) PHY.
CM-T54 OTG port is USB host and USB device (gadget) capable. OTG Gadget drivers are compiled as modules with default CM-T54 kernel configuration.
Current Linux kernel support of DWC3 features does not allow dynamic role (host/device) switching in runtime. By default, device role is assigned to CM-T54 USB3.0 OTG port.
Host mode can be enabled by adjusting U-Boot environment variable:
CM-T54 # setenv mmcloadfdt 'load mmc ${mmcdev} ${fdtaddr} ${fdtfile}; fdt addr ${fdtaddr}; fdt set /ocp/omap_dwc3/dwc3/ dr_mode host;' CM-T54 # saveenv
- To enable the default device mode modify U-Boot environment variable:
CM-T54 # setenv mmcloadfdt 'load mmc ${mmcdev} ${fdtaddr} ${fdtfile};' CM-T54 # saveenv
Testing OTG device (gadget) mode
Default CM-T54 kernel configuration enables g_serial, g_file_storage, g_ether and g_hid gadget drivers. More gadget drivers can be enabled in the kernel configuration.
- Connect USB3.0 OTG micro B-cable (ID pin Float) to P16 USB OTG port of SB-T54 baseboard (not included in CM-T54 eval kit).
- Connect other side Standard-A connector to Linux Host PC USB3.0 port.
Emulate a serial link
- Load gadget driver on CM-T54 eval board:
root@cm-debian:~# modprobe g_serial g_serial gadget: Gadget Serial v2.4 g_serial gadget: g_serial ready g_serial gadget: super-speed config #2: CDC ACM config
- Ensure the connection is established on the Host PC:
lifshitz@dlifshitz:~$ dmesg ... [161033.952421] usb 4-1: new SuperSpeed USB device number 9 using xhci_hcd [161033.981896] cdc_acm 4-1:2.0: This device cannot do calls on its own. It is not a modem. [161033.981986] cdc_acm 4-1:2.0: ttyACM0: USB ACM device
- Receive data on CM-T54 eval board:
root@cm-debian:~# cat /dev/ttyGS0
- Send data from Host PC:
lifshitz@dlifshitz:~$ echo "Test message" > /dev/ttyACM0
Testing OTG host mode
- Plug USB3.0 mass storage device into Standard-A receptacle cable (included in CM-T54 eval kit)
- Connect other side USB3.0 OTG micro B-connector (ID pin Ground) to P16 USB OTG port of SB-T54 baseboard
root@cm-debian:~# dmesg ... usb 3-1: new SuperSpeed USB device number 2 using xhci-hcd usb 3-1: New USB device found, idVendor=8564, idProduct=1000 usb 3-1: New USB device strings: Mfr=1, Product=2, SerialNumber=3 usb 3-1: Product: Mass Storage Device usb 3-1: Manufacturer: JetFlash usb 3-1: SerialNumber: 946414084 usb-storage 3-1:1.0: USB Mass Storage device detected scsi1 : usb-storage 3-1:1.0 scsi 1:0:0:0: Direct-Access JetFlash Transcend 8GB 1.00 PQ: 0 ANSI: 5 sd 1:0:0:0: Attached scsi generic sg0 type 0 sd 1:0:0:0: [sda] 15435776 512-byte logical blocks: (7.90 GB/7.36 GiB) sd 1:0:0:0: [sda] Write Protect is off sd 1:0:0:0: [sda] Mode Sense: 23 00 00 00 sd 1:0:0:0: [sda] Write cache: disabled, read cache: disabled, doesn't support DPO or FUA sda: unknown partition table sd 1:0:0:0: [sda] Attached SCSI removable disk
WiFi
CM-T54 features 802.11b/g/n wireless connectivity solution, implemented with the AzureWave AW-NH387 Wireless controller module.
WiFi Initialization
- WiFi requires no user interaction for being configured. The driver gets loaded automatically.
Make sure that the WiFi driver is loaded:
root@cm-debian:~# lsmod | grep mwifiex mwifiex_sdio 16807 0 mwifiex 166126 1 mwifiex_sdio
- iwconfig command from wireless-tools package can be used to retrieve detailed information about the WiFi interfaces:
root@cm-debian:~# iwconfig mlan0 mlan0 IEEE 802.11bgn ESSID:off/any Mode:Managed Access Point: Not-Associated Retry short limit:9 RTS thr=2347 B Fragment thr=2346 B Encryption key:off Power Management:off
- Sample WiFi scanning:
root@cm-debian:~# iwlist mlan0 scan
The output will show the list of Access Points and Ad-Hoc cells in range. For more information about connecting to wireless networks and tuning WiFi interfaces refer to “wpa_supplicant” and “wireless-tools” man pages.
Bluetooth
CM-T54 features Bluetooth 3.0 + High Speed (HS) interface. Following sections describe the initialization and simple use cases of the Bluetooth interface.
Host Controller Interface (HCI) Initialization
- HCI requires no user interaction for being configured. The driver gets loaded automatically unless this option has been disabled by putting a black list rule for this device.
Make sure that the Bluetooth driver is loaded:
root@cm-debian:~# lsmod | grep btmrvl btmrvl_sdio 10928 0 btmrvl 10562 1 btmrvl_sdio bluetooth 256992 17 btmrvl,rfcomm,btmrvl_sdio
- HCI device configuration utility can be run to retrieve detailed information about the Bluetooth interfaces:
root@cm-debian:~# hciconfig -a hci1: Type: BR/EDR Bus: SDIO BD Address: 00:00:00:00:00:00 ACL MTU: 0:0 SCO MTU: 0:0 DOWN RX bytes:202 acl:0 sco:0 events:6 errors:0 TX bytes:78 acl:0 sco:0 commands:4 errors:0 hci0: Type: BR/EDR Bus: SDIO BD Address: D0:E7:82:B5:0C:F6 ACL MTU: 1021:6 SCO MTU: 120:6 UP RUNNING PSCAN RX bytes:1700 acl:0 sco:0 events:59 errors:0 TX bytes:1479 acl:0 sco:0 commands:59 errors:0 Features: 0xff 0xee 0x8f 0xfe 0x9b 0xff 0x79 0x87 Packet type: DM1 DM3 DM5 DH1 DH3 DH5 HV1 HV3 Link policy: RSWITCH HOLD SNIFF Link mode: SLAVE ACCEPT Name: 'cm-debian-0' Class: 0x6e0100 Service Classes: Networking, Rendering, Capturing, Audio, Telephony Device Class: Computer, Uncategorized HCI Version: 3.0 (0x5) Revision: 0x8300 LMP Version: 3.0 (0x5) Subversion: 0x4660 Manufacturer: Marvell Technology Group Ltd. (72)
- If the HCI device is not running, use the below command to enable the HCI device:
# hciconfig hci0 up
A2DP Headphones
- Scan for available devices to find out Headphones BT device address:
root@cm-debian:~# hcitool scan Scanning ... 00:07:A4:F2:B3:CB Motorola HT820
- Add new PCM device by editing /etc/asound.conf:
pcm.btheadphones { type plug slave { pcm { type bluetooth device 00:07:A4:F2:B3:CB profile "auto" } } hint { show on description "BT Headphones" } } ctl.btheadphones { type bluetooth }
- List device names to ensure correct settings in /etc/asound.conf:
root@cm-debian:~# aplay -L null Discard all samples (playback) or generate zero samples (capture) btheadphones BT Headphones default:CARD=H58040000encode HDMI 58040000.encoder, Default Audio Device sysdefault:CARD=H58040000encode HDMI 58040000.encoder, Default Audio Device default:CARD=wm8731audio wm8731-audio, Default Audio Device sysdefault:CARD=wm8731audio wm8731-audio, Default Audio Device
- Put the headphones in the pairing mode.
- Launch bluez-simple-agent application and provide device PIN code on request:
root@cm-debian:~# bluez-simple-agent hci0 00:07:A4:F2:B3:CB RequestPinCode (/org/bluez/1335/hci0/dev_00_07_A4_F2_B3_CB) Enter PIN Code: 0000 Release New device (/org/bluez/1335/hci0/dev_00_07_A4_F2_B3_CB)
- Launch aplay playback tool:
root@cm-debian:~# aplay -D btheadphones sample_audio.wav Playing WAVE 'sample_audio.wav' : Signed 16 bit Little Endian, Rate 22050 Hz, Stereo