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>eCos Reference Manual</TH
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><DIV
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CLASS="CHAPTER"
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><H1
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><A
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NAME="UPDATING-REDBOOT">Chapter 4. Updating RedBoot</H1
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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="AEN4752">Introduction</H1
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><P
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>RedBoot
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normally resides in an EPROM or, more common these days, a flash
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on the board. In the former case, updating RedBoot necessitates
95
physically removing the part and
96
reprogramming a new RedBoot image into it using prommer hardware. In
97
the latter case, it is often possible to update RedBoot in situ using
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Redboot's flash management commands.</P
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><P
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>The process of updating RedBoot in situ is documented in this
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section. For this process, it is assumed that the target is connected
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to a host system and that there is a serial connection giving access
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to the RedBoot CLI. For platforms with a ROMRAM mode RedBoot, skip to
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<A
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HREF="updating-redboot.html#UPDATE-PRIMARY-IMAGE"
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>the Section called <I
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>Update the primary RedBoot flash image</I
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></A
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>.</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
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>The addresses and sizes included in the below are examples
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only, and will differ from those you will see. This is normal and
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should not cause concern.</P
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></BLOCKQUOTE
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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="DIFFERENT-VERSION-FROM-RAM">Load and start a RedBoot RAM instance</H2
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><P
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>There are a number of choices here. The basic case is where a RAM
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mode image has been stored in the FIS (flash Image System). To load and
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execute this image, use the commands: <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="SCREEN"
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>RedBoot&#62; <TT
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CLASS="USERINPUT"
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><B
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>fis load RedBoot[RAM]</B
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></TT
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>
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RedBoot&#62; <TT
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CLASS="USERINPUT"
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><B
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>go</B
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></TT
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></PRE
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></TD
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></TR
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></TABLE
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>
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If this image is not available, or does not work,
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then an alternate RAM mode image must be loaded:
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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="SCREEN"
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>RedBoot&#62; <TT
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CLASS="USERINPUT"
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><B
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>load redboot_RAM.img</B
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></TT
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>
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Entry point: 0x060213c0, address range: 0x06020000-0x060369c8
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RedBoot&#62; <TT
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CLASS="USERINPUT"
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><B
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>go</B
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></TT
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></PRE
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></TD
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></TR
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></TABLE
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>
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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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>This command loads the RedBoot image using the TFTP
191
protocol via a network connection. Other methods of loading are
192
available, refer to the <B
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CLASS="COMMAND"
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><A
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HREF="download-command.html"
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>load</A
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></B
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> command for more
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details. </P
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></BLOCKQUOTE
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></DIV
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>
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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
210
>Note: </B
211
>If you expect to be doing this more than once, it is a
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good idea to program the RAM mode image into the flash. You do this
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using the <B
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CLASS="COMMAND"
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>fis create</B
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> command after having
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downloaded the RAM mode image, but before you start it.</P
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><P
219
>Some platforms support locking (write protecting) certain regions of
220
the flash, while others do not. If your platform does not support
221
locking, simply ignore the <B
222
CLASS="COMMAND"
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>fis unlock</B
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> and
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<B
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CLASS="COMMAND"
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>fis lock</B
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> steps (the commands will not be
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recognized by RedBoot).</P
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><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="SCREEN"
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>RedBoot&#62; <TT
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CLASS="USERINPUT"
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><B
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>fis unlock RedBoot[RAM]</B
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></TT
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>
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  ... Unlock from 0x00000000-0x00020000: ..
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RedBoot&#62; <TT
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CLASS="USERINPUT"
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><B
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>fis create RedBoot[RAM]</B
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></TT
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>
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An image named 'RedBoot[RAM]' exists - continue (y/n)? <TT
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CLASS="USERINPUT"
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><B
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>y</B
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></TT
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>
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* CAUTION * about to program 'RedBoot[RAM]'
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            at 0x00020000..0x000369c7 from 0x06020000 - continue (y/n)?<TT
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CLASS="USERINPUT"
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><B
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>y</B
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></TT
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>
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... Erase from 0x00020000-0x00040000: ..
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... Program from 0x06020000-0x060369c8 at 0x00020000: ..
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... Erase from 0x00070000-0x00080000: .
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... Program from 0x0606f000-0x0607f000 at 0x00070000: .
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RedBoot&#62; <TT
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CLASS="USERINPUT"
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><B
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>fis lock RedBoot[RAM]</B
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></TT
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>
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  ... Lock from 0x00000000-0x00020000: ..</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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></BLOCKQUOTE
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></DIV
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></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="UPDATE-PRIMARY-IMAGE">Update the primary RedBoot flash image</H2
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><P
291
>An
292
instance of RedBoot should now be running on the target from RAM. This
293
can be verified by looking for the mode identifier in the banner. It
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should be either [RAM] or [ROMRAM].</P
295
><P
296
>If this is the first time RedBoot is running on the board or if
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the flash contents has been damaged, initialize the FIS directory:
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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="SCREEN"
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>RedBoot&#62; <TT
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CLASS="USERINPUT"
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><B
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>fis init -f</B
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></TT
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>
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About to initialize [format] FLASH image system - continue (y/n)? <TT
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CLASS="USERINPUT"
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><B
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>y</B
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></TT
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>
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*** Initialize FLASH Image System
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... Erase from 0x00020000-0x00070000: .....
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... Erase from 0x00080000-0x00080000:
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... Erase from 0x00070000-0x00080000: .
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... Program from 0x0606f000-0x0607f000 at 0x00070000: .</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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><P
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>It is important to understand that the presence of a correctly
329
initialized FIS directory allows RedBoot to automatically determine
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the flash parameters. Additionally, executing the steps below as
331
stated without loading other data or using other flash commands (than
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possibly <B
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CLASS="COMMAND"
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>fis list</B
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>) allows RedBoot to automatically
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determine the image location and size parameters. This greatly reduces
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the risk of potential critical mistakes due to typographical errors. It is
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still always possible to explicitly specify parameters, and indeed
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override these, but it is not advised.</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
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>If the new RedBoot image has grown beyond the slot in
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flash reserved for it, it is necessary to change the RedBoot
349
configuration option CYGBLD_REDBOOT_MIN_IMAGE_SIZE so the FIS is
350
created with adequate space reserved for RedBoot images. In this case,
351
it is necessary to re-initialize the FIS directory as described above,
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using a RAM mode RedBoot compiled with the updated
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configuration.</P
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></BLOCKQUOTE
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></DIV
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><P
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>Using the <B
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CLASS="COMMAND"
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>load</B
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> command, download the
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new flash based image from the host, relocating the image to RAM::
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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="SCREEN"
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>RedBoot&#62; <TT
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CLASS="USERINPUT"
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><B
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>load -r -b %{FREEMEMLO} redboot_ROM.bin</B
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></TT
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>
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Raw file loaded 0x06046800-0x06062fe8, assumed entry at 0x06046800</PRE
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></TD
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></TR
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></TABLE
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>
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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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>This command loads the RedBoot image using the TFTP
390
protocol via a network connection. Other methods of loading are
391
available, refer to the <A
392
HREF="download-command.html"
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>load</A
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> command for
395
more details. </P
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></BLOCKQUOTE
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></DIV
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>
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400
<DIV
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CLASS="NOTE"
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><BLOCKQUOTE
403
CLASS="NOTE"
404
><P
405
><B
406
>Note: </B
407
>Note that the binary version of the image is being
408
downloaded. This is to ensure that the memory after the image is
409
loaded should match the contents of the file on the host. Loading SREC
410
or ELF versions of the image does not guarantee this since these
411
formats may contain holes, leaving bytes in these holes in an unknown
412
state after the load, and thus causing a likely cksum difference. It
413
is possible to use these, but then the step verifying the cksum below
414
may fail.</P
415
></BLOCKQUOTE
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></DIV
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></P
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><P
419
>Once the image is loaded into RAM, it should be checksummed,
420
thus verifying that the image on the target is indeed the image
421
intended to be loaded, and that no corruption of the image has
422
happened. This is done using the <A
423
HREF="cksum-command.html"
424
>cksum</A
425
>
426
command:
427
<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="SCREEN"
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>RedBoot&#62; <TT
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CLASS="USERINPUT"
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><B
438
>cksum</B
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></TT
440
>
441
Computing cksum for area 0x06046800-0x06062fe8
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POSIX cksum = 2535322412 116712 (0x971df32c 0x0001c7e8)                         </PRE
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></TD
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></TR
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></TABLE
446
>
447
Compare the numbers with those for the binary version of the image on
448
the host. If they do not match, try downloading the image again.</P
449
><P
450
>Assuming the cksum matches, the next step is programming the
451
image into flash using the FIS commands.</P
452
><P
453
>Some platforms support locking (write protecting) certain
454
regions of the flash, while others do not. If your platform does not
455
support locking, simply ignore the <B
456
CLASS="COMMAND"
457
>fis unlock</B
458
> and
459
<B
460
CLASS="COMMAND"
461
>fis lock</B
462
> steps (the commands will not be recognized
463
by RedBoot).</P
464
><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
470
><PRE
471
CLASS="SCREEN"
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>RedBoot&#62; <TT
473
CLASS="USERINPUT"
474
><B
475
>fis unlock RedBoot</B
476
></TT
477
>
478
  ... Unlock from 0x00000000-0x00020000: ..
479
RedBoot&#62; <TT
480
CLASS="USERINPUT"
481
><B
482
>fis create RedBoot</B
483
></TT
484
>
485
An image named 'RedBoot' exists - continue (y/n)? <TT
486
CLASS="USERINPUT"
487
><B
488
>y</B
489
></TT
490
>
491
* CAUTION * about to program 'RedBoot'
492
            at 0x00000000..0x0001c7e7 from 0x06046800 - continue (y/n)? <TT
493
CLASS="USERINPUT"
494
><B
495
>y</B
496
></TT
497
>
498
... Erase from 0x00000000-0x00020000: ..
499
... Program from 0x06046800-0x06062fe8 at 0x00000000: ..
500
... Erase from 0x00070000-0x00080000: .
501
... Program from 0x0606f000-0x0607f000 at 0x00070000: .
502
RedBoot&#62; <TT
503
CLASS="USERINPUT"
504
><B
505
>fis lock RedBoot</B
506
></TT
507
>
508
  ... Lock from 0x00000000-0x00020000: ..</PRE
509
></TD
510
></TR
511
></TABLE
512
></DIV
513
><DIV
514
CLASS="SECT2"
515
><H2
516
CLASS="SECT2"
517
><A
518
NAME="AEN4824">Reboot; run the new RedBoot image</H2
519
><P
520
>Once the image has been successfully written into the flash, simply
521
reset the target and the new version of RedBoot should be running. </P
522
><P
523
>When installing RedBoot for the first time, or after updating to
524
a newer RedBoot with different configuration keys, it is necessary to
525
update the configuration directory in the flash using the
526
<B
527
CLASS="COMMAND"
528
>fconfig</B
529
> command. See <A
530
HREF="persistent-state-flash.html"
531
>the Section called <I
532
>Persistent State Flash-based Configuration and Control</I
533
> in Chapter 2</A
534
>.</P
535
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