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>StrongARM EBSA-285 Hardware Setup</TITLE
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TITLE="Cirrus Logic ARM CL-PS7111 Evaluation Board Hardware Setup"
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>eCos User Guide</TH
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ALIGN="left"
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><A
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HREF="setup-arm-clps7111.html"
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ACCESSKEY="P"
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>Prev</A
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></TD
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><TD
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WIDTH="80%"
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ALIGN="center"
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VALIGN="bottom"
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>Appendix A. Target Setup</TD
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><TD
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WIDTH="10%"
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ALIGN="right"
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VALIGN="bottom"
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><A
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HREF="setup-arm-ipaq.html"
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>Next</A
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><DIV
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CLASS="SECT1"
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><H1
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CLASS="SECT1"
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><A
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NAME="SETUP-ARM-EBSA285">StrongARM EBSA-285 Hardware Setup</H1
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><P
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>The eCos Developer&#8217;s Kit package comes with a ROM
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image which provides GDB support for
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the Intel&reg; StrongARM&reg; Evaluation Board EBSA-285.
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 Both eCos and the Stub ROM image assume the clocks are: 3.6864
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MHz PLL input for generating the core clock, and 50MHz osc input
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for external clocks. An image of this ROM is also provided at <TT
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CLASS="FILENAME"
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>loaders/arm-ebsa285/gdbload.bin</TT
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> under
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the root of your eCos installation.</P
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><P
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>The ROM monitor image (an eCos GDB
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stub) provided for the EBSA-285 board must be programmed into the
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flash, replacing the Angel monitor on the board. Please refer to
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the section titled "Loading the ROM Image into On-Board flash" on how
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to program the ROM onto the board.</P
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><P
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>The Stub ROM allows communication with GDB via the serial
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connector on the bulkhead mounting bracket COM0.  The communication
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parameters are fixed at 38400 baud, 8 data bits, no parity bit and
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1 stop bit (8-N-1).  No flow control is employed.</P
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><DIV
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CLASS="SECT2"
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><H2
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CLASS="SECT2"
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><A
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NAME="AEN3981">Building the GDB Stub FLASH ROM images</H2
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><P
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>Pre-built GDB stubs images are provided in the directory loaders/arm-ebsa285 relative
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to the root of your eCos installation, but here are instructions
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on how to rebuild them if you should ever need to.</P
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></DIV
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><DIV
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CLASS="SECT2"
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><H2
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CLASS="SECT2"
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><A
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NAME="AEN3984">Building the GDB Stubs with the eCos Configuration Tool</H2
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><P
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></P
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><OL
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TYPE="1"
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><LI
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><P
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>Start with a new document - selecting the
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<SPAN
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CLASS="emphasis"
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><I
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CLASS="EMPHASIS"
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>File</I
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></SPAN
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>
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-&#62;
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<SPAN
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CLASS="emphasis"
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><I
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CLASS="EMPHASIS"
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>New</I
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></SPAN
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>
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 menu item if necessary to do this.</P
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></LI
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><LI
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><P
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>Choose the
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<SPAN
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CLASS="emphasis"
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><I
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CLASS="EMPHASIS"
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>Build</I
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></SPAN
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>
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-&#62;
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<SPAN
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CLASS="emphasis"
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><I
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CLASS="EMPHASIS"
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>Templates</I
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></SPAN
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>
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 menu item, and then select the StrongARM EBSA285 hardware.</P
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></LI
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><LI
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><P
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>While still displaying the
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<SPAN
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CLASS="emphasis"
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><I
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CLASS="EMPHASIS"
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>Build</I
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></SPAN
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>
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-&#62;
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<SPAN
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CLASS="emphasis"
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><I
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CLASS="EMPHASIS"
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>Templates</I
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></SPAN
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>
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 dialog box, select the "stubs" package template to build a GDB
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stub image. Click
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<SPAN
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CLASS="emphasis"
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><I
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CLASS="EMPHASIS"
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>OK</I
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></SPAN
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>.</P
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></LI
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><LI
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><P
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>Build eCos using
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<SPAN
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CLASS="emphasis"
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><I
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CLASS="EMPHASIS"
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>Build</I
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></SPAN
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>
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-&#62;
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<SPAN
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CLASS="emphasis"
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><I
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CLASS="EMPHASIS"
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>Library</I
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></SPAN
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></P
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></LI
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><LI
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><P
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>When the build completes, the image files can be found
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in the bin/ subdirectory of the install tree. The GDB stub
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ROM images have the prefix "gdb_module".</P
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></LI
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></OL
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></DIV
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><DIV
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CLASS="SECT2"
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><H2
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CLASS="SECT2"
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><A
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NAME="AEN4006">Building the GDB Stub ROMs with ecosconfig</H2
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><P
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>(See &#8220;Using ecosconfig on UNIX&#8221; on&nbsp;page&nbsp;72)</P
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><P
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></P
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><OL
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TYPE="1"
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><LI
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><P
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>Make an empty directory to contain the build tree,
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and cd into it.</P
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></LI
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><LI
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><P
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>To build a GDB stub ROM image, enter the command:
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<TABLE
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BGCOLOR="#E0E0F0"
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WIDTH="70%"
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><TR
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><TD
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><PRE
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CLASS="PROGRAMLISTING"
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>$ ecosconfig new ebsa285 stubs</PRE
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></TD
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></TR
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></TABLE
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></P
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></LI
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><LI
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><P
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>Enter the commands:
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<TABLE
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BGCOLOR="#E0E0F0"
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WIDTH="70%"
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><TR
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><TD
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><PRE
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CLASS="PROGRAMLISTING"
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>$ ecosconfig tree
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$ make</PRE
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></TD
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></TR
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></TABLE
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></P
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></LI
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><LI
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><P
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>When the build completes, the image files can be found
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in the bin/ subdirectory of the install tree. The GDB stub
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ROM images have the prefix "gdb_module".</P
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></LI
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></OL
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></DIV
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><DIV
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CLASS="SECT2"
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><H2
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CLASS="SECT2"
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><A
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NAME="AEN4020">Loading the ROM Image into On-board Flash</H2
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><P
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>There are several ways to install the eCos gdb stub ROM image
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in the EBSA board&#8217;s flash memory. Once installed, the gdb
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stub ROM provides standard eCos download and debug via the EBSA
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board&quot;s serial port. The options available include the
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Linux based EBSA flash upgrade utility provided by Red Hat, direct writing
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of the flash via MultiICE (JTAG) hardware debugger, and other flash management
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utilities from Intel (these only support DOS, and proprietary ARM tools
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and image formats). Only the Red Hat flash upgrade tool is supported
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and tested in this release.</P
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><P
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>The flash upgrade tool requires the EBSA board to be configured
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as a PCI slave (rather than a master, its normal operating mode)
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and plugged into a Linux host computer&quot;s PCI bus.</P
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><P
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>Configuring the board for flash loading: Follow the instructions
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in the EBSA-285 Reference Manual, pages A-2 and A-3 to configure
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the board as an add-in card, and enable flash blank programming.
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 Briefly: assuming the board was in the default setting to execute
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as a bus master ("Host Bridge") make jumper 9 (J9), move jumper
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10 (J10) to external reset (PCI_RST), and move jumper 15
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(J15) link 4-6-5 to connect 5-6 instead of 4-6.</P
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><P
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>Configuring the board for execution of eCos programs: Follow
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the instructions in the EBSA-285 Reference Manual, pages A-2 and
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A-3 to configure the board as a "Host Bridge" with "Central Function".
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 Briefly: unset J9, move J10 to on-board reset (BRD_RST),
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and set J15 to make 4-6 instead of 5-6 (see page A-8 also).  Plug
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the card into its own PCI bus, not the Linux PC used for the flash-programming
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process.</P
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><P
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>Building the Linux software: the Linux software sources are
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in directory</P
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><TABLE
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WIDTH="70%"
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><TR
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><TD
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><PRE
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CLASS="PROGRAMLISTING"
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>      &lt;BASE_DIR&#62;/packages/hal/arm/ebsa285/v1_3/support/linux/safl_util</PRE
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></TD
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></TR
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></TABLE
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><P
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>in the eCos source repository.  There are two parts to the
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system: a loadable kernel module and the flash utility.  The loadable
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kernel module is safl.o and the utility is sa_flash.  To
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build:</P
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><P
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>  cd to this directory, or a copy of it.</P
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><P
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>  make</P
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><P
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>This builds safl.o and sa_flash. The kernel module
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must be installed, and a device file created for it. Both of these
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operations require root permissions.  Create the device file by: </P
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><TABLE
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BGCOLOR="#E0E0F0"
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WIDTH="70%"
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><TR
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><TD
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><PRE
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CLASS="PROGRAMLISTING"
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>      % mknod /dev/safl c 10 178</PRE
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></TD
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></TR
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></TABLE
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><P
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>Programming the flash: switch off the EBSA-285, and remove
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the EBSA-285 board from its PCI bus.  Take appropriate anti-static
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precautions. Configure it for flash loading as above, halt your
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Linux system and turn it off.  Install the EBSA-285 board in the
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PCI bus of the Linux system and boot it up. (Single user is good enough,
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assuming your image and safl_util build dir are on a local
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disc partition.)  Change directory to the safl_util directory,
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then, to load the kernel module and flash an image onto the eval
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board (as root): </P
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><TABLE
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BORDER="5"
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BGCOLOR="#E0E0F0"
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WIDTH="70%"
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><TR
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><TD
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><PRE
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CLASS="PROGRAMLISTING"
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>       % insmod safl.o
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       % sa_flash &lt;image_file&#62;</PRE
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></TD
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></TR
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></TABLE
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><P
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>Halt and turn off the Linux machine and remove the EBSA-285
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card.  Take appropriate anti-static precautions.  Configure it for
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execution of eCos programs as above, and plug it into its own PCI
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bus.  Restart the Linux machine however you wish.</P
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><P
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>This information is replicated in the README file within the
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safl_util directory and its parents, and in the EBSA-285
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Reference Manual from Intel, appendix A "Configuration Guide".
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If in doubt, please refer to those documents also.</P
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><P
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>This procedure also applies for loading ROM-startup eCos programs
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into the on-board flash memory, given a binary format image of the
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program from arm-elf-objcopy.  Loading a ROM-startup eCos program
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into flash will overwrite the StubROM in flash, so you would have
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to reload the StubROM to return to normal RAM-startup program development.</P
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></DIV
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><DIV
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CLASS="SECT2"
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><H2
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CLASS="SECT2"
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><A
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NAME="AEN4038">Running your eCos Program Using GDB and the StubROM</H2
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><DIV
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CLASS="NOTE"
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><BLOCKQUOTE
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CLASS="NOTE"
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><P
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><B
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>Note: </B
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>You must first load the StubROM image into the flash memory
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on the EBSA-285 board before doing this.  See &#8220;Loading
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the ROM Image into On-board Flash&#8221;, page 93 for details.</P
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></BLOCKQUOTE
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></DIV
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><P
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>Connect to the StubROM in the board and run your eCos program &lt;PROGRAM&#62; as</P
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><P
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>follows:</P
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><TABLE
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BGCOLOR="#E0E0F0"
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WIDTH="70%"
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><TR
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><TD
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><PRE
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CLASS="PROGRAMLISTING"
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>      $ arm-elf-gdb -nw &lt;PROGRAM&#62;
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      (gdb) set remotebaud 38400
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      (gdb) target remote &lt;DEVICE&#62;</PRE
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></TD
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></TR
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></TABLE
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><P
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>Where &lt;DEVICE&#62; is /dev/ttyS0
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or COM1: or similar, depending on your environment and how you connected
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your serial line to the host computer. Expect some output here,
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for example:</P
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><TABLE
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BGCOLOR="#E0E0F0"
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WIDTH="70%"
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><TR
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><TD
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><PRE
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CLASS="PROGRAMLISTING"
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>      Remote debugging using /dev/ttyS0
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      0x410026a4 in ?? ()</PRE
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></TD
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></TR
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></TABLE
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><P
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>then, to load the program</P
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><TABLE
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BORDER="5"
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BGCOLOR="#E0E0F0"
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WIDTH="70%"
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><TR
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><TD
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><PRE
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CLASS="PROGRAMLISTING"
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>        (gdb) load
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    </PRE
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></TD
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></TR
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></TABLE
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><P
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>which will report locations and sizes of sections as they
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load, then begin execution using</P
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><TABLE
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BORDER="5"
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BGCOLOR="#E0E0F0"
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WIDTH="70%"
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><TR
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><TD
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><PRE
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CLASS="PROGRAMLISTING"
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>      (gdb) continue</PRE
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></TD
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></TR
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></TABLE
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><P
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>If you have no eCos program yet, but you want to connect to
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the board just to verify serial communications, tell gdb "set endian
489
little" before anything else, so that it understands the board (GDB
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normally infers this from information within the eCos program).</P
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><DIV
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CLASS="NOTE"
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><BLOCKQUOTE
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CLASS="NOTE"
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><P
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><B
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>Note: </B
498
>When an eCos program is run on the EBSA-285 board, the GDB
499
stub in ROM loses control. This means that if you require the ability
500
to stop execution on the target remotely, or want thread debugging
501
capabilities, you must include GDB stub support when configuring
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<SPAN
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CLASS="PRODUCTNAME"
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>eCos</SPAN
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>.</P
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></BLOCKQUOTE
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></DIV
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></DIV
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ALIGN="left"
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>Cirrus Logic ARM CL-PS7111 Evaluation Board Hardware Setup</TD
555
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>Compaq iPAQ PocketPC Hardware Setup</TD
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