Difference between revisions of "Getting Started with the EMAC OE SDK"
(46 intermediate revisions by 7 users not shown) | |||
Line 1: | Line 1: | ||
− | {{todo| | + | {{todo| Complete (03.31.2015-13:42->BS+);(04.08.2015-15:00->BS+);(04.09.15-14:00->MD+);(04.21.2015-10:15->BS+);(04.24.2015-20:00->MD-);(04.28.2015-12:20->MD+);(04.29.2015-16:00->BS+);(04.29.2015-17:30->MD+);(04.30.2015-15:30->KY+); (07.22.2015-11:00->BS+)(10.07.2015-16:32->KY+)|Brian Serrano| project=OE 5.0,BS,MD,Complete,KY}} |
{{#seo: | {{#seo: | ||
|title=Getting Started with the EMAC OE SDK | |title=Getting Started with the EMAC OE SDK | ||
|titlemode=append | |titlemode=append | ||
− | |keywords= | + | |keywords=EMAC SDK,Cross compiling, ARM Target Compiling, CMake Build System, CMake Cross Compiling, CMake, CMake Arm |
− | |description= | + | |description=A basic tutorial for using the EMAC OE SDK. |
}} | }} | ||
Line 10: | Line 10: | ||
<!-- /**************************************** Page Description Text ****************************************/ --> | <!-- /**************************************** Page Description Text ****************************************/ --> | ||
<!-- /*********************************************************************************************************/ --> | <!-- /*********************************************************************************************************/ --> | ||
− | |||
− | + | <span style="background:#00FF00;color:#FF0000;font-size:300%"></span> | |
+ | The EMAC OE SDK is distributed with a set of example projects intended to demonstrate how to use the EMAC OE toolchain and libraries. This page demonstrates the process of compiling an example project and running it on the target machine. Also, it provides a straightforward guide to the essential steps you need to follow to get started with cross compiling a simple program with gcc and running the program on your embedded machine. | ||
− | |||
− | |||
− | |||
− | |||
− | |||
− | + | __TOC__ | |
− | |||
<!-- /*********************************************************************************************************/ --> | <!-- /*********************************************************************************************************/ --> | ||
<!-- /***************************************** Using/Working With ******************************************/ --> | <!-- /***************************************** Using/Working With ******************************************/ --> | ||
<!-- /*********************************************************************************************************/ --> | <!-- /*********************************************************************************************************/ --> | ||
{{:Templateimpl:using | initials=BS | title=Getting Started with the EMAC OE SDK | desc=Basic tutorial for using the EMAC OE SDK. | project=OE 5.0 }} | {{:Templateimpl:using | initials=BS | title=Getting Started with the EMAC OE SDK | desc=Basic tutorial for using the EMAC OE SDK. | project=OE 5.0 }} | ||
+ | |||
+ | |||
+ | === Installing EMAC SDK === | ||
+ | A Linux developer system is required to install the EMAC software development kit. | ||
+ | |||
+ | For those without a Linux developer system we recommend downloading Oracle VM VirtualBox and installing EMAC's pre-configured Linux Ubuntu virtual machine. All steps involved can be found here: <br /> | ||
+ | [[Getting_Started_With_EMAC_Virtual_LDC | Set up virtual machine with EMAC_OE_SDK pre-installed ]] <br /> | ||
+ | '''OR''' <br /> | ||
+ | Those with a Linux developer system already configured can follow the below steps: <br /> | ||
+ | [[Installing_EMAC_OE_5.0_SDK | SDK Install]] <br /> | ||
+ | |||
+ | |||
+ | |||
+ | {{note|The most current EMAC_OE_SDK release is version 5.1, all higher versions should be disregarded.}} | ||
=== Connecting to a Target Board === | === Connecting to a Target Board === | ||
− | |||
− | === Setting | + | Primarily a board is connected to through it's debug serial port. If it also connected to a network and the IP address is known, ssh can be used to connect as well. More information on establishing a physical connection to a board is available on the [[Serial_Connections |Serial Connections]] and [[Network_Connections |Network Connections]] page. |
− | To | + | |
+ | The next step after establishing a physical connection to the board is logging in. For more information visit the [[System_Log_In | System Log In]] page. | ||
+ | |||
+ | === Setting the Filesystem to Read-Write === | ||
+ | The root filesystem on a machine running EMAC OE Linux is mounted read-only by default. In order to put files on the board, you may need to make the filesystem read-write. The [[Linux_Filesystem_Organization|Linux Filesystem Organization page]] has more information regarding which parts of the filesystem are mounted read-only by default versus which parts are always writeable. Note that EMAC recommends installing your program into a read-only portion of the filesystem (according to the guide) to safeguard it from filesystem corruption (such as may be caused by removing power from the board without shutting down the operating system first, which is normal in embedded systems). | ||
+ | |||
+ | To remount the root filesytem in read-write mode, enter the following into the terminal: | ||
{{cli | oemntrw | hostname=ipac9x25}} | {{cli | oemntrw | hostname=ipac9x25}} | ||
− | + | {{note|This will only change the root filesystem to read-write for the current boot. When the system is rebooted, the root filesystem will once again be mounted read-only.}} | |
− | |||
=== Transferring Files === | === Transferring Files === | ||
− | The command line syntax for transferring a file using the SSH protocol is <code>scp file user@host:/directory</code>. SCP or Secure Copy is a way of securely transferring files between a local and remote host. For example, to send the file ''example.text'' to the <code>/ | + | The command line syntax for transferring a file using the SSH protocol is <code>scp file user@host:/directory</code>. SCP, or Secure Copy, is a way of securely transferring files between a local and remote host. For example, to send the file ''example.text'' to the <code>/usr/bin</code> directory of a system with the IP address 10.0.6.221, enter the following command: |
− | {{cli | username=developer | hostname=ldc | scp example.text root@10.0.6.221:/home }} | + | {{cli | username=developer | hostname=ldc | scp example.text root@10.0.6.221:/usr/bin/ }} |
+ | |||
+ | Alternatively, you can leave off the path after the colon if you want the file to go directly into the root user's home directory. | ||
+ | |||
+ | {{cli | username=developer | hostname=ldc | scp example.text root@10.0.6.221: }} | ||
=== Remote Execution === | === Remote Execution === | ||
− | SSH can also be used to execute programs on remote systems without logging in. The syntax for SSH remote execution is <code>ssh user@host "my_command -args file"</code>. | + | SSH can also be used to execute programs on remote systems without logging in. The syntax for SSH remote execution is <code>ssh user@host "my_command -args file"</code>. The following is an example of a command to run a program on a board with the IP address ''10.0.6.221''. |
− | {{cli | username=developer | hostname=ldc | ssh root@10.0.6.221 "/path/to/executable -args" }} | + | |
+ | {{cli | username=developer | hostname=ldc | ssh root@10.0.6.221 "/path/to/executable -args" }} | ||
+ | |||
+ | |||
+ | === Basic Compiling === | ||
+ | The two subsections below show the two common options for how to compile source code. The first subsection demonstrates how to use the EMAC [[ #CMake_Compiling| CMake ]] tool, while the second subsection demonstrates how to compile c code [[ #Manual_Compiling | manually ]]. Another helpful link if you are looking to create a new project with CMake: [[ Creating_a_New_EMAC_OE_SDK_Project_with_CMake | Creating a New EMAC OE SDK Project with CMake ]] | ||
+ | |||
+ | ==== CMake Compiling ==== | ||
+ | ===== Host Machine Compiling ===== | ||
+ | |||
+ | This section demonstrates how to use the EMAC CMake tool to generate CMake files automatically for a project. When using the EMAC SDK there are currently two options for cross compiling: | ||
+ | * arm | ||
+ | * x86 | ||
+ | For the purposes of this guide, the <tt>arm</tt> option will be used for the listed examples. | ||
+ | |||
+ | Navigate to the directory where the project will be located. Then run the CMake new project script. | ||
+ | {{clo}} | ||
+ | {{clio | username=developer | hostname=ldc | pwd=~ |cd projects }} | ||
+ | {{clio | username=developer | hostname=ldc | pwd=~/projects | 1 = export PATH=/opt/emac/5.1/bin:$PATH}} | ||
+ | {{clio | username=developer | hostname=ldc | pwd=~/projects |oe_init_project -n hello.c }} | ||
+ | If desired, please enter a name for this project, otherwise press Enter to use the default: hello_emac <br /> | ||
+ | |||
+ | -- Creating new project directory... <br /> | ||
+ | -- Creating new source file... <br /> | ||
+ | -- Building custom CMakeLists.txt file... <br /> | ||
+ | -- Done. <br /> | ||
+ | |||
+ | Do you want to create a build directory for this project? (y/n) y <br /> | ||
+ | |||
+ | -- Creating build directory... <br /> | ||
+ | |||
+ | Do you want to run cmake for this project? (y/n) y <br /> | ||
+ | |||
+ | -- Using system compiler <br /> | ||
+ | -- The C compiler identification is GNU 4.8.2 <br /> | ||
+ | -- The CXX compiler identification is GNU 4.8.2 <br /> | ||
+ | -- Check for working C compiler: /usr/bin/cc <br /> | ||
+ | -- Check for working C compiler: /usr/bin/cc -- works <br /> | ||
+ | -- Detecting C compiler ABI info <br /> | ||
+ | -- Detecting C compiler ABI info - done <br /> | ||
+ | -- Check for working CXX compiler: /usr/bin/c++ <br /> | ||
+ | -- Check for working CXX compiler: /usr/bin/c++ -- works <br /> | ||
+ | -- Detecting CXX compiler ABI info <br /> | ||
+ | -- Detecting CXX compiler ABI info - done <br /> | ||
+ | -- Configuring done <br /> | ||
+ | -- Generating done <br /> | ||
+ | -- Build files have been written to: /home/developer/projects/hello_emac/hello_emac-build <br /> | ||
+ | |||
+ | Do you want to compile this project? (y/n) y | ||
+ | |||
+ | Scanning dependencies of target hello_emac <br /> | ||
+ | [100%] Building C object CMakeFiles/hello_emac.dir/hello.c.o <br /> | ||
+ | Linking C executable hello_emac <br /> | ||
+ | [100%] Built target hello_emac <br /> | ||
+ | {{clos}} | ||
+ | |||
+ | The executable, in this case, is now inside the <code> hello_emac/hello_emac-build </code> directory. | ||
+ | |||
+ | ===== Target Machine Compiling ===== | ||
+ | |||
+ | The CMake project script has now made a project directory that contains the following: | ||
+ | * CMakeLists.txt | ||
+ | * Source code file (''hello.c'' in this case) | ||
+ | * ''README'' file | ||
+ | * Desktop Build Directory (''hello_emac-build'' in this case) | ||
+ | |||
+ | The ''CMakeLists.txt'' contains the required information to automatically create a ''Makefile'' for a given architecture. This was created by the EMAC <tt>oe_init_project</tt> script, and will need to be modified over time as a project grows. The comments in the file generated by the EMAC tool will provide a good starting point for how to add additional source files and how to perform other common tasks related to maintaining your CMake build system as your project grows. The CMake project provides extensive documentation on how to work with these files. | ||
+ | |||
+ | The source code file generated by the script (''hello.c'') contains a basic Hello World style program. | ||
+ | |||
+ | The ''README'' file contains more information on using ''CMake'' with the EMAC 5.X SDK. | ||
+ | |||
+ | The Desktop Build Directory (''hello_emac-build'') contains the executable ''hello_emac'', the ''Makefile'', and various cache files. These were automatically created by CMake and by the build system, and can be recreated at any time. | ||
+ | |||
+ | It is useful to have a Desktop Build Directory because it is easier (in the beginning) to use the desktop to verify all code changes before cross-compiling for a target board. This will be useful until the application under development depends upon resources which are only available on the target hardware, such as certain devices drivers or the touchscreen (if so equipped). | ||
+ | |||
+ | Use the following steps to cross-compile the project and send it to a target board. | ||
<br /> | <br /> | ||
− | + | <br /> | |
+ | <cl> | ||
+ | 1. In a terminal, navigate to the base directory of the project. | ||
+ | {{note | If the target board being used is <tt>x86</tt>, then change all occurrences of <tt>arm</tt> in the following sections below to <tt>x86</tt>.}} | ||
+ | * Create a build directory for cross compiling. | ||
+ | {{cli | username=developer | hostname=ldc | pwd=~/projects/hello_emac | mkdir hello_emac-build-arm }} | ||
+ | * Change directories into the newly created directory. | ||
+ | {{cli | username=developer | hostname=ldc | pwd=~/projects/hello_emac | cd hello_emac-build-arm }} | ||
+ | * Run cmake using the target architecture. | ||
+ | {{cli | username=developer | hostname=ldc | pwd=~/projects/hello_emac/hello_emac-build-arm | 1 = cmake .. -DARCH:STRING=arm }} | ||
+ | * Compile the code using make. | ||
+ | {{cli | username=developer | hostname=ldc | pwd=~/projects/hello_emac/hello_emac-build-arm | make }} | ||
+ | |||
+ | The <code> make </code> command creates the target executable in the <code> hello_emac-build-arm </code> directory. | ||
+ | * Now copy the executable to the target board. Use any of the options listed under the [[ #Transferring_Files | Transferring Files ]] section. | ||
− | === | + | The executable is now located on the target device at the designated transfer directory. It now can be run remotely (covered [[#Remote_Execution | here]]) OR from the target device by navigating to the transfer directory and issuing the run command (./executable_name). |
− | ==== Host Machine Compiling ==== | + | </cl> |
− | Create a file called hello.c using a text editor such as vi | + | <br /> |
+ | <br /> | ||
+ | |||
+ | ==== Manual Compiling ==== | ||
+ | ===== Host Machine Compiling ===== | ||
+ | <br />{{note|In these examples we are using the Ipac-9x25 board. Your board's processor's architecture will determine which file needs to be sourced. These files come from the EMAC SDK toolchain.}} | ||
+ | |||
+ | Create a file called hello.c using a text editor such as vi, nano, or gedit. Then copy and paste the source code from the [[ #Hello_World_System_Log_Example | Hello World System Log Example ]] section in the text editor of your choice. | ||
− | + | Once you've created and saved the file with the source code, use the following syntax to compile the program called hello.c: | |
{{cli | username=developer | hostname=ldc | gcc -o hello hello.c }} | {{cli | username=developer | hostname=ldc | gcc -o hello hello.c }} | ||
− | If there is no error in your code then the compiler will successfully create an executable file called hello in the current directory. | + | If there is no error in your code then the compiler will successfully create an executable file called hello in the current directory. |
To verify this, enter the following command: | To verify this, enter the following command: | ||
− | {{clo | + | {{clo}} |
{{clio | username=developer | hostname=ldc | ls -l hello* }} | {{clio | username=developer | hostname=ldc | ls -l hello* }} | ||
-rwxrwxr-x 1 bserrano bserrano 9583 Apr 6 12:45 hello <br /> | -rwxrwxr-x 1 bserrano bserrano 9583 Apr 6 12:45 hello <br /> | ||
Line 64: | Line 177: | ||
To run the program, enter the following command: | To run the program, enter the following command: | ||
− | {{clo | + | {{clo}} |
{{clio | username=developer | hostname=ldc | ./hello }} | {{clio | username=developer | hostname=ldc | ./hello }} | ||
Hello EMAC OE! | Hello EMAC OE! | ||
Line 70: | Line 183: | ||
OR | OR | ||
− | {{clo | + | {{clo}} |
{{clio | username=developer | hostname=ldc | /path/to/hello }} | {{clio | username=developer | hostname=ldc | /path/to/hello }} | ||
Hello EMAC OE! | Hello EMAC OE! | ||
{{clos}} | {{clos}} | ||
+ | <br /> | ||
+ | <br /> | ||
− | ==== Target Board Compiling ==== | + | ===== Target Board Compiling ===== |
− | |||
− | To compile | + | To compile for the target board, you must <code>source</code> the <code>environment-setup-armv5e-emac-linux-gnueabi</code> file in /opt/emac/5.X where 5.X is the SDK version. |
− | {{cli | username=developer | hostname=ldc | source /opt/emac/5. | + | {{cli | username=developer | hostname=ldc | source /opt/emac/5.X/environment-setup-armv5e-emac-linux-gnueabi }} |
Once you are in the directory with the source file, enter the following command: | Once you are in the directory with the source file, enter the following command: | ||
Line 87: | Line 201: | ||
After sourcing the file, copy the program over to the target board using <code>scp</code>. Enter the following command: | After sourcing the file, copy the program over to the target board using <code>scp</code>. Enter the following command: | ||
− | {{clo | + | {{clo}} |
{{clio | username=developer | hostname=ldc | scp hello root@10.0.6.221: }} | {{clio | username=developer | hostname=ldc | scp hello root@10.0.6.221: }} | ||
root@10.0.6.221's password: | root@10.0.6.221's password: | ||
+ | |||
hello 100% 9583 9.4KB/s 00:00 | hello 100% 9583 9.4KB/s 00:00 | ||
{{clos}} | {{clos}} | ||
After copying the program, you can now execute the program on the target board. Enter the following command: | After copying the program, you can now execute the program on the target board. Enter the following command: | ||
− | {{clo | + | {{clo}} |
{{clio | username=developer | hostname=ldc | ssh root@10.0.6.221 ./hello}} | {{clio | username=developer | hostname=ldc | ssh root@10.0.6.221 ./hello}} | ||
root@10.0.6.221's password: <br /> | root@10.0.6.221's password: <br /> | ||
Hello EMAC OE! | Hello EMAC OE! | ||
{{clos}} | {{clos}} | ||
+ | <br /> | ||
+ | <br /> | ||
− | === | + | === Remote Debugging === |
− | |||
− | + | When working with embedded systems the binary is usually compiled on a development machine with a different CPU architecture than what is on the target machine. This can be a problem when, as is typically the case, the target machine lacks the system resources to run a debugger. In these cases, it is possible to use the GNU debugger (<tt>gdb</tt>) on the development machine to remotely debug the target machine provided it has a flavor-matched version of a program named <tt>gdbserver</tt>. All EMAC OE builds are packaged with a flavor-matched <tt>gdbserver</tt> to simplify the setup process for developers. | |
− | / | + | {{note | A flavor-matched <tt>gdbserver</tt> is one which is built against the same source code revision as the <tt>gdb</tt> client for your desktop, because <tt>gdb</tt> does not have a stable interface for attaching to the <tt>gdbserver</tt>. In fact, the interface changes slightly with almost every release, so if you find yourself having difficulty getting <tt>gdb</tt> and <tt>gdbserver</tt> to communicate with each other, make sure they're the exact same version before trying any other debugging steps.}} |
− | + | For more information visit the [[Remote_Debugging_EMAC_OE_SDK_Projects_with_gdbserver | Remote Debugging EMAC OE SDK Projects with gdbserver]] page. | |
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | For more information visit the [[ | ||
<!-- /*********************************************************************************************************/ --> | <!-- /*********************************************************************************************************/ --> | ||
Line 125: | Line 229: | ||
<!-- /*********************************************************************************************************/ --> | <!-- /*********************************************************************************************************/ --> | ||
{{:Templateimpl:examples | initials=BS | title=Getting Started with the EMAC OE SDK | desc=Basic tutorial for using the EMAC OE SDK. | project=OE 5.0 }} | {{:Templateimpl:examples | initials=BS | title=Getting Started with the EMAC OE SDK | desc=Basic tutorial for using the EMAC OE SDK. | project=OE 5.0 }} | ||
+ | |||
=== Hello World System Log Example === | === Hello World System Log Example === | ||
This example will print <code>Hello EMAC OE!</code> to the syslog facility as well as the console. This will allow you to log, debug, and send status messages to the system logger. | This example will print <code>Hello EMAC OE!</code> to the syslog facility as well as the console. This will allow you to log, debug, and send status messages to the system logger. | ||
+ | |||
+ | To compile and run this program, see the sections above. | ||
<syntaxhighlight lang="c"> | <syntaxhighlight lang="c"> | ||
Line 149: | Line 256: | ||
This is extremely useful because it allows you to save a record of the output that you might not see first hand. | This is extremely useful because it allows you to save a record of the output that you might not see first hand. | ||
+ | |||
+ | To verify the output of the program went into syslog, enter the following command: | ||
+ | {{clo}} | ||
+ | {{clio | username=developer | hostname=ldc | tail /var/log/syslog}} | ||
+ | Apr 7 14:10:06 ENG-26-LX dhclient: DHCPACK of 10.0.6.237 from 10.0.2.1<br /> | ||
+ | Apr 7 14:10:06 ENG-26-LX dhclient: bound to 10.0.6.237 -- renewal in 3306 seconds.<br /> | ||
+ | Apr 7 14:17:01 ENG-26-LX CRON[21193]: (root) CMD ( cd / && run-parts --report /etc/cron.hourly)<br /> | ||
+ | Apr 7 14:54:41 ENG-26-LX hpcups[21266]: prnt/hpcups/HPCupsFilter.cpp 689: First raster data plane..<br /> | ||
+ | Apr 7 14:55:31 hpcups[21266]: last message repeated 3 times<br /> | ||
+ | Apr 7 15:05:12 ENG-26-LX dhclient: DHCPREQUEST of 10.0.6.237 on eth0 to 10.0.2.1 port 67<br /> | ||
+ | Apr 7 15:05:12 ENG-26-LX dhclient: DHCPACK of 10.0.6.237 from 10.0.2.1<br /> | ||
+ | Apr 7 15:05:12 ENG-26-LX dhclient: bound to 10.0.6.237 -- renewal in 3559 seconds.<br /> | ||
+ | Apr 7 15:17:01 ENG-26-LX CRON[21302]: (root) CMD ( cd / && run-parts --report /etc/cron.hourly)<br /> | ||
+ | Apr 7 15:27:08 ENG-26-LX slog[21375]: Hello EMAC OE! | ||
+ | {{clos}} | ||
+ | |||
+ | As you can see on the bottom line, your program output has been recorded and date stamped in syslog. | ||
+ | |||
+ | For more information on system logging visit the [[System_Logging| System Logging ]] page. | ||
<!-- /*********************************************************************************************************/ --> | <!-- /*********************************************************************************************************/ --> | ||
Line 157: | Line 283: | ||
{{:Templateimpl:whatnext | initials=BS | title=Getting Started with the EMAC OE SDK | desc=Basic tutorial for using the EMAC OE SDK. | project=OE 5.0 }} | {{:Templateimpl:whatnext | initials=BS | title=Getting Started with the EMAC OE SDK | desc=Basic tutorial for using the EMAC OE SDK. | project=OE 5.0 }} | ||
+ | * [[ Creating_a_New_EMAC_OE_SDK_Project_with_CMake | Creating a New EMAC OE SDK Project with CMake ]] | ||
+ | * [[EMAC_Example_Projects | EMAC Example Projects]] | ||
+ | * [[Serial_Connections | Serial Connections ]] | ||
+ | * [[Network_Connections | Network_Connections ]] | ||
+ | * [[Remote_Debugging_EMAC_OE_SDK_Projects_with_gdbserver | Remote Debugging EMAC OE SDK Projects with gdbserver ]] | ||
+ | * [[Linux_Filesystem_Organization | Linux Filesystem Organization]] | ||
* [[System_Log_In | System Log In]] | * [[System_Log_In | System Log In]] | ||
− | * [[ | + | * [[System_Logging | System Logging ]] |
− |
Latest revision as of 09:28, 23 July 2021
The EMAC OE SDK is distributed with a set of example projects intended to demonstrate how to use the EMAC OE toolchain and libraries. This page demonstrates the process of compiling an example project and running it on the target machine. Also, it provides a straightforward guide to the essential steps you need to follow to get started with cross compiling a simple program with gcc and running the program on your embedded machine.
Contents
Getting Started with the EMAC OE SDK
Installing EMAC SDK
A Linux developer system is required to install the EMAC software development kit.
For those without a Linux developer system we recommend downloading Oracle VM VirtualBox and installing EMAC's pre-configured Linux Ubuntu virtual machine. All steps involved can be found here:
Set up virtual machine with EMAC_OE_SDK pre-installed
OR
Those with a Linux developer system already configured can follow the below steps:
SDK Install
NOTE |
The most current EMAC_OE_SDK release is version 5.1, all higher versions should be disregarded. |
Connecting to a Target Board
Primarily a board is connected to through it's debug serial port. If it also connected to a network and the IP address is known, ssh can be used to connect as well. More information on establishing a physical connection to a board is available on the Serial Connections and Network Connections page.
The next step after establishing a physical connection to the board is logging in. For more information visit the System Log In page.
Setting the Filesystem to Read-Write
The root filesystem on a machine running EMAC OE Linux is mounted read-only by default. In order to put files on the board, you may need to make the filesystem read-write. The Linux Filesystem Organization page has more information regarding which parts of the filesystem are mounted read-only by default versus which parts are always writeable. Note that EMAC recommends installing your program into a read-only portion of the filesystem (according to the guide) to safeguard it from filesystem corruption (such as may be caused by removing power from the board without shutting down the operating system first, which is normal in embedded systems).
To remount the root filesytem in read-write mode, enter the following into the terminal:
root
@
ipac9x25
:
~
#
oemntrw
NOTE |
This will only change the root filesystem to read-write for the current boot. When the system is rebooted, the root filesystem will once again be mounted read-only. |
Transferring Files
The command line syntax for transferring a file using the SSH protocol is scp file user@host:/directory
. SCP, or Secure Copy, is a way of securely transferring files between a local and remote host. For example, to send the file example.text to the /usr/bin
directory of a system with the IP address 10.0.6.221, enter the following command:
developer
@
ldc
:
~
#
scp example.text root@10.0.6.221:/usr/bin/
Alternatively, you can leave off the path after the colon if you want the file to go directly into the root user's home directory.
developer
@
ldc
:
~
#
scp example.text root@10.0.6.221:
Remote Execution
SSH can also be used to execute programs on remote systems without logging in. The syntax for SSH remote execution is ssh user@host "my_command -args file"
. The following is an example of a command to run a program on a board with the IP address 10.0.6.221.
developer
@
ldc
:
~
#
ssh root@10.0.6.221 "/path/to/executable -args"
Basic Compiling
The two subsections below show the two common options for how to compile source code. The first subsection demonstrates how to use the EMAC CMake tool, while the second subsection demonstrates how to compile c code manually . Another helpful link if you are looking to create a new project with CMake: Creating a New EMAC OE SDK Project with CMake
CMake Compiling
Host Machine Compiling
This section demonstrates how to use the EMAC CMake tool to generate CMake files automatically for a project. When using the EMAC SDK there are currently two options for cross compiling:
- arm
- x86
For the purposes of this guide, the arm option will be used for the listed examples.
Navigate to the directory where the project will be located. Then run the CMake new project script.
developer
@
ldc
:
~
#
cd projects
developer
@
ldc
:
~/projects
#
export PATH=/opt/emac/5.1/bin:$PATH
developer
@
ldc
:
~/projects
#
oe_init_project -n hello.c
If desired, please enter a name for this project, otherwise press Enter to use the default: hello_emac
-- Creating new project directory...
-- Creating new source file...
-- Building custom CMakeLists.txt file...
-- Done.
Do you want to create a build directory for this project? (y/n) y
-- Creating build directory...
Do you want to run cmake for this project? (y/n) y
-- Using system compiler
-- The C compiler identification is GNU 4.8.2
-- The CXX compiler identification is GNU 4.8.2
-- Check for working C compiler: /usr/bin/cc
-- Check for working C compiler: /usr/bin/cc -- works
-- Detecting C compiler ABI info
-- Detecting C compiler ABI info - done
-- Check for working CXX compiler: /usr/bin/c++
-- Check for working CXX compiler: /usr/bin/c++ -- works
-- Detecting CXX compiler ABI info
-- Detecting CXX compiler ABI info - done
-- Configuring done
-- Generating done
-- Build files have been written to: /home/developer/projects/hello_emac/hello_emac-build
Do you want to compile this project? (y/n) y
Scanning dependencies of target hello_emac
[100%] Building C object CMakeFiles/hello_emac.dir/hello.c.o
Linking C executable hello_emac
[100%] Built target hello_emac
The executable, in this case, is now inside the hello_emac/hello_emac-build
directory.
Target Machine Compiling
The CMake project script has now made a project directory that contains the following:
- CMakeLists.txt
- Source code file (hello.c in this case)
- README file
- Desktop Build Directory (hello_emac-build in this case)
The CMakeLists.txt contains the required information to automatically create a Makefile for a given architecture. This was created by the EMAC oe_init_project script, and will need to be modified over time as a project grows. The comments in the file generated by the EMAC tool will provide a good starting point for how to add additional source files and how to perform other common tasks related to maintaining your CMake build system as your project grows. The CMake project provides extensive documentation on how to work with these files.
The source code file generated by the script (hello.c) contains a basic Hello World style program.
The README file contains more information on using CMake with the EMAC 5.X SDK.
The Desktop Build Directory (hello_emac-build) contains the executable hello_emac, the Makefile, and various cache files. These were automatically created by CMake and by the build system, and can be recreated at any time.
It is useful to have a Desktop Build Directory because it is easier (in the beginning) to use the desktop to verify all code changes before cross-compiling for a target board. This will be useful until the application under development depends upon resources which are only available on the target hardware, such as certain devices drivers or the touchscreen (if so equipped).
Use the following steps to cross-compile the project and send it to a target board.
-
In a terminal, navigate to the base directory of the project.
NOTE If the target board being used is x86, then change all occurrences of arm in the following sections below to x86. -
Create a build directory for cross compiling.
developer
@
ldc
:
~/projects/hello_emac
#
mkdir hello_emac-build-arm
-
Change directories into the newly created directory.
developer
@
ldc
:
~/projects/hello_emac
#
cd hello_emac-build-arm
-
Run cmake using the target architecture.
developer
@
ldc
:
~/projects/hello_emac/hello_emac-build-arm
#
cmake .. -DARCH:STRING=arm
-
Compile the code using make.
developer
@
ldc
:
~/projects/hello_emac/hello_emac-build-arm
#
make
The
make
command creates the target executable in thehello_emac-build-arm
directory. -
Now copy the executable to the target board. Use any of the options listed under the Transferring Files section.
The executable is now located on the target device at the designated transfer directory. It now can be run remotely (covered here) OR from the target device by navigating to the transfer directory and issuing the run command (./executable_name).
Manual Compiling
Host Machine Compiling
NOTE |
In these examples we are using the Ipac-9x25 board. Your board's processor's architecture will determine which file needs to be sourced. These files come from the EMAC SDK toolchain. |
Create a file called hello.c using a text editor such as vi, nano, or gedit. Then copy and paste the source code from the Hello World System Log Example section in the text editor of your choice.
Once you've created and saved the file with the source code, use the following syntax to compile the program called hello.c:
developer
@
ldc
:
~
#
gcc -o hello hello.c
If there is no error in your code then the compiler will successfully create an executable file called hello in the current directory.
To verify this, enter the following command:
developer
@
ldc
:
~
#
ls -l hello*
-rwxrwxr-x 1 bserrano bserrano 9583 Apr 6 12:45 hello
-rwxr-xr-x 1 bserrano bserrano 129 Apr 6 12:28 hello.c
To run the program, enter the following command:
developer
@
ldc
:
~
#
./hello
Hello EMAC OE!
OR
developer
@
ldc
:
~
#
/path/to/hello
Hello EMAC OE!
Target Board Compiling
To compile for the target board, you must source
the environment-setup-armv5e-emac-linux-gnueabi
file in /opt/emac/5.X where 5.X is the SDK version.
developer
@
ldc
:
~
#
source /opt/emac/5.X/environment-setup-armv5e-emac-linux-gnueabi
Once you are in the directory with the source file, enter the following command:
developer
@
ldc
:
~
#
$CC -o hello hello.c
NOTE |
Once you source the file in your current terminal, you can only use it to cross-compile your program for the target board. You can no longer compile it for your host machine. To compile it to your host machine, simply open a new terminal. |
After sourcing the file, copy the program over to the target board using scp
. Enter the following command:
developer
@
ldc
:
~
#
scp hello root@10.0.6.221:
root@10.0.6.221's password:
hello 100% 9583 9.4KB/s 00:00
After copying the program, you can now execute the program on the target board. Enter the following command:
developer
@
ldc
:
~
#
ssh root@10.0.6.221 ./hello
root@10.0.6.221's password:
Hello EMAC OE!
Remote Debugging
When working with embedded systems the binary is usually compiled on a development machine with a different CPU architecture than what is on the target machine. This can be a problem when, as is typically the case, the target machine lacks the system resources to run a debugger. In these cases, it is possible to use the GNU debugger (gdb) on the development machine to remotely debug the target machine provided it has a flavor-matched version of a program named gdbserver. All EMAC OE builds are packaged with a flavor-matched gdbserver to simplify the setup process for developers.
NOTE |
A flavor-matched gdbserver is one which is built against the same source code revision as the gdb client for your desktop, because gdb does not have a stable interface for attaching to the gdbserver. In fact, the interface changes slightly with almost every release, so if you find yourself having difficulty getting gdb and gdbserver to communicate with each other, make sure they're the exact same version before trying any other debugging steps. |
For more information visit the Remote Debugging EMAC OE SDK Projects with gdbserver page.
Examples
Hello World System Log Example
This example will print Hello EMAC OE!
to the syslog facility as well as the console. This will allow you to log, debug, and send status messages to the system logger.
To compile and run this program, see the sections above.
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <syslog.h>
int main(int argc, char** argv)
{
char message[] = "Hello EMAC OE!";
openlog("slog", LOG_PID|LOG_CONS, LOG_USER);
syslog(LOG_INFO, "%s", message);
closelog();
printf("%s\n", message);
return 0;
}
This is extremely useful because it allows you to save a record of the output that you might not see first hand.
To verify the output of the program went into syslog, enter the following command:
developer
@
ldc
:
~
#
tail /var/log/syslog
Apr 7 14:10:06 ENG-26-LX dhclient: DHCPACK of 10.0.6.237 from 10.0.2.1
Apr 7 14:10:06 ENG-26-LX dhclient: bound to 10.0.6.237 -- renewal in 3306 seconds.
Apr 7 14:17:01 ENG-26-LX CRON[21193]: (root) CMD ( cd / && run-parts --report /etc/cron.hourly)
Apr 7 14:54:41 ENG-26-LX hpcups[21266]: prnt/hpcups/HPCupsFilter.cpp 689: First raster data plane..
Apr 7 14:55:31 hpcups[21266]: last message repeated 3 times
Apr 7 15:05:12 ENG-26-LX dhclient: DHCPREQUEST of 10.0.6.237 on eth0 to 10.0.2.1 port 67
Apr 7 15:05:12 ENG-26-LX dhclient: DHCPACK of 10.0.6.237 from 10.0.2.1
Apr 7 15:05:12 ENG-26-LX dhclient: bound to 10.0.6.237 -- renewal in 3559 seconds.
Apr 7 15:17:01 ENG-26-LX CRON[21302]: (root) CMD ( cd / && run-parts --report /etc/cron.hourly)
Apr 7 15:27:08 ENG-26-LX slog[21375]: Hello EMAC OE!
As you can see on the bottom line, your program output has been recorded and date stamped in syslog.
For more information on system logging visit the System Logging page.