[rtems-docs commit] doc: Moving M68K BSP Content to User Manual (#3905)
Chris Johns
chrisj at rtems.org
Thu Apr 2 21:52:28 UTC 2020
Module: rtems-docs
Branch: master
Commit: edfc90253b449641e3c1e1ab1948015ca90c47c7
Changeset: http://git.rtems.org/rtems-docs/commit/?id=edfc90253b449641e3c1e1ab1948015ca90c47c7
Author: Mritunjay <mritunjaysharma394 at gmail.com>
Date: Thu Apr 2 14:37:45 2020 +0530
doc: Moving M68K BSP Content to User Manual (#3905)
Fixed trailing spaces.
---
user/bsps/bsps-m68k.rst | 190 +++++++++++++++++++++++++++++++++++++++++++++++-
1 file changed, 188 insertions(+), 2 deletions(-)
diff --git a/user/bsps/bsps-m68k.rst b/user/bsps/bsps-m68k.rst
index 60882fb..bdb516b 100644
--- a/user/bsps/bsps-m68k.rst
+++ b/user/bsps/bsps-m68k.rst
@@ -53,7 +53,19 @@ TODO.
mcf5329
=======
-TODO.
+Overview
+--------
+
+This BSP is heavily based on the MCF5235 BSP. The MCF5329EVB is a Motorola
+evaluation board (Zoom) with a LogicPD MCF5329-10 SODIMM-144 card. The
+development kit features the MCF5329 based Fire Engine, as well as a plug-in
+system-on-module containing 32 MB of DDR-SDRAM. The board also includes 2 MB of
+boot flash, 16 MB of NAND flash, a core frequency of 240MHz, an onboard 800x600
+LCD controller, FEC, USB, uarts, CAN bus, QSPI, I2C, and 10/100 Ethernet.
+
+You can find the link to MCF5329 Reference Manual below:
+
+* `MCF5329 Reference Manual <https://www.nxp.com/docs/en/reference-manual/MCF5329RM.pdf>`_
mrm332
======
@@ -73,7 +85,181 @@ TODO.
mvme162
=======
-TODO.
+Overview
+--------
+
+The MVME162 family provides OEMs and solution developers an ideal platform for
+embedded monitoring and control apllications it allows an OEM to minimize
+engineering expenses while integrating value-added hardware and software
+applications onto an off-the-shelf product. In order to provide the wide range
+of solutions, the MVME162 allows a variety of MPU, memory, and interface
+options such as floating-point, Ethernet, SCSI, and VME. The result is a
+variation of the MVME162 which most closely fits the application requirement.
+
+There are a large number of model variations on this board. This was the first
+user submitted BSP and continues to be a fairly popular simply because at one
+point it was the highest selling VMEBus board of all time.
+
+Board Setup
+-----------
+
+We will setup the RTEMS Lab Board initally to proceed further for the setup
+of TFTP transfer.
+
+The env settings are:
+
+.. code-block:: none
+
+ MPU Clock Speed =25Mhz
+ 162-Bug>env
+ Bug or System environment [B/S] = B?
+ Field Service Menu Enable [Y/N] = N?
+ Remote Start Method Switch [G/M/B/N] = B?
+ Probe System for Supported I/O Controllers [Y/N] = Y?
+ Negate VMEbus SYSFAIL* Always [Y/N] = N?
+ Local SCSI Bus Reset on Debugger Startup [Y/N] = N?
+ Local SCSI Bus Negotiations Type [A/S/N] = A?
+ Industry Pack Reset on Debugger Startup [Y/N] = Y?
+ Ignore CFGA Block on a Hard Disk Boot [Y/N] = Y?
+ Auto Boot Enable [Y/N] = N?
+ Auto Boot at power-up only [Y/N] = Y?
+ Auto Boot Controller LUN = 00?
+ Auto Boot Device LUN = 00?
+ Auto Boot Abort Delay = 15?
+ Auto Boot Default String [NULL for a empty string] = ?
+ ROM Boot Enable [Y/N] = N?
+ ROM Boot at power-up only [Y/N] = Y?
+ ROM Boot Enable search of VMEbus [Y/N] = N?
+ ROM Boot Abort Delay = 0?
+ ROM Boot Direct Starting Address = FF800000?
+ ROM Boot Direct Ending Address = FFDFFFFC?
+ Network Auto Boot Enable [Y/N] = N?
+ Network Auto Boot at power-up only [Y/N] = Y?
+ Network Auto Boot Controller LUN = 00?
+ Network Auto Boot Device LUN = 00?
+ Network Auto Boot Abort Delay = 5?
+ Network Auto Boot Configuration Parameters Pointer (NVRAM) = FFE0FF00?
+ Memory Search Starting Address = 00000000?
+ Memory Search Ending Address = 01000000?
+ Memory Search Increment Size = 00010000?
+ Memory Search Delay Enable [Y/N] = N?
+ Memory Search Delay Address = FFFFD20F?
+ Memory Size Enable [Y/N] = Y?
+ Memory Size Starting Address = 00000000?
+ Memory Size Ending Address = 01000000?
+ Base Address of Dynamic Memory = 00000000?
+ Size of Parity Memory = 00000000?
+ Size of ECC Memory Board #0 = 01000000?
+ Size of ECC Memory Board #1 = 00000000?
+ Base Address of Static Memory = FFE00000?
+ Size of Static Memory = 00020000?
+ Slave Enable #1 [Y/N] = Y?
+ Slave Starting Address #1 = 00000000?
+ Slave Ending Address #1 = 00FFFFFF?
+ Slave Address Translation Address #1 = 00000000?
+ Slave Address Translation Select #1 = 00000000?
+ Slave Control #1 = 03FF?
+ Slave Enable #2 [Y/N] = N?
+ Slave Starting Address #2 = 00000000?
+ Slave Ending Address #2 = 00000000?
+ Slave Address Translation Address #2 = 00000000?
+ Slave Address Translation Select #2 = 00000000?
+ Slave Control #2 = 0000?
+ Master Enable #1 [Y/N] = Y?
+ Master Starting Address #1 = 01000000?
+ Master Ending Address #1 = EFFFFFFF?
+ Master Control #1 = 0D?
+ Master Enable #2 [Y/N] = N?
+ Master Starting Address #2 = 00000000?
+ Master Ending Address #2 = 00000000?
+ Master Control #2 = 00?
+ Master Enable #3 [Y/N] = N?
+ Master Starting Address #3 = 00000000?
+ Master Ending Address #3 = 00000000?
+ Master Control #3 = 00?
+ Master Enable #4 [Y/N] = N?
+ Master Starting Address #4 = 00000000?
+ Master Ending Address #4 = 00000000?
+ Master Address Translation Address #4 = 00000000?
+ Master Address Translation Select #4 = 00000000?
+ Master Control #4 = 00?
+ Short I/O (VMEbus A16) Enable [Y/N] = Y?
+ Short I/O (VMEbus A16) Control = 01?
+ F-Page (VMEbus A24) Enable [Y/N] = Y?
+ F-Page (VMEbus A24) Control = 02?
+ ROM Access Time Code = 03?
+ FLASH Access Time Code = 02?
+ MCC Vector Base = 05?
+ VMEC2 Vector Base #1 = 06?
+ VMEC2 Vector Base #2 = 07?
+ VMEC2 GCSR Group Base Address = D2?
+ VMEC2 GCSR Board Base Address = 00?
+ VMEbus Global Time Out Code = 01?
+ Local Bus Time Out Code = 02?
+ VMEbus Access Time Out Code = 02?
+ IP A Base Address = 00000000?
+ IP B Base Address = 00000000?
+ IP C Base Address = 00000000?
+ IP D Base Address = 00000000?
+ IP D/C/B/A Memory Size = 00000000?
+ IP D/C/B/A General Control = 00000000?
+ IP D/C/B/A Interrupt 0 Control = 00000000?
+ IP D/C/B/A Interrupt 1 Control = 00000000?
+
+To setup the Server/Client IP Addresses for the TFTP Transfer, we will use the
+NIOT command. NIOT (Network I/O Teach) is a 162-Bug's debugger command commonly
+used to setup the Server/Client IP Addresses for the TFTP Transfer.
+
+The NIOT command goes something like this:
+
+.. code-block:: none
+
+ 162-Bug>niot
+ Controller LUN =00?
+ Device LUN =00?
+ Node Control Memory Address =FFE10000?
+ Client IP Address =192.168.1.245?
+ Server IP Address =192.168.1.92?
+ Subnet IP Address Mask =255.255.255.0?
+ Broadcast IP Address =192.168.1.255?
+ Gateway IP Address =0.0.0.0?
+ Boot File Name ("NULL" for None) =/mvme162.img?
+ Argument File Name ("NULL" for None) =?
+ Boot File Load Address =00020000?
+ Boot File Execution Address =00020000?
+ Boot File Execution Delay =00000000?
+ Boot File Length =00000000?
+ Boot File Byte Offset =00000000?
+ BOOTP/RARP Request Retry =00?
+ TFTP/ARP Request Retry =00?
+ Trace Character Buffer Address =00000000?
+ BOOTP/RARP Request Control: Always/When-Needed (A/W)=A?
+ BOOTP/RARP Reply Update Control: Yes/No (Y/N) =Y?
+
+Downloading and Executing
+--------------------------
+Download from the TFTP server using the 162-Bug's "NBO"
+(Network Boot Operating System) command:
+
+.. code-block:: none
+
+ 162-Bug>nbo
+ Network Booting from: VME162, Controller 0, Device 0
+ Loading: /mvme162.img
+
+ Client IP Address = 192.168.1.245
+ Server IP Address = 192.168.1.92
+ Gateway IP Address = 0.0.0.0
+ Subnet IP Address Mask = 255.255.255.0
+ Boot File Name = /mvme162.img
+ Argument File Name =
+
+ Network Boot File load in progress... To abort hit <BREAK>
+
+ Bytes Received =&356528, Bytes Loaded =&356528
+ Bytes/Second =&89132, Elapsed Time =4 Second(s)
+
+The program will automatically run when download is complete.
mvme167
=======
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