[net-next-2.6.git] / Documentation / frv / booting.txt

			  =========================
			  BOOTING FR-V LINUX KERNEL
			  =========================

======================
PROVIDING A FILESYSTEM
======================

First of all, a root filesystem must be made available. This can be done in
one of two ways:

  (1) NFS Export

      A filesystem should be constructed in a directory on an NFS server that
      the target board can reach. This directory should then be NFS exported
      such that the target board can read and write into it as root.

  (2) Flash Filesystem (JFFS2 Recommended)

      In this case, the image must be stored or built up on flash before it
      can be used. A complete image can be built using the mkfs.jffs2 or
      similar program and then downloaded and stored into flash by RedBoot.


========================
LOADING THE KERNEL IMAGE
========================

The kernel will need to be loaded into RAM by RedBoot (or by some alternative
boot loader) before it can be run. The kernel image (arch/frv/boot/Image) may
be loaded in one of three ways:

  (1) Load from Flash

      This is the simplest. RedBoot can store an image in the flash (see the
      RedBoot documentation) and then load it back into RAM. RedBoot keeps
      track of the load address, entry point and size, so the command to do
      this is simply:

	fis load linux

      The image is then ready to be executed.

  (2) Load by TFTP

      The following command will download a raw binary kernel image from the
      default server (as negotiated by BOOTP) and store it into RAM:

	load -b 0x00100000 -r /tftpboot/image.bin

      The image is then ready to be executed.

  (3) Load by Y-Modem

      The following command will download a raw binary kernel image across the
      serial port that RedBoot is currently using:

	load -m ymodem -b 0x00100000 -r zImage

      The serial client (such as minicom) must then be told to transmit the
      program by Y-Modem.

      When finished, the image will then be ready to be executed.


==================
BOOTING THE KERNEL
==================

Boot the image with the following RedBoot command:

	exec -c "<CMDLINE>" 0x00100000

For example:

	exec -c "console=ttySM0,115200 ip=:::::dhcp root=/dev/mtdblock2 rw"

This will start the kernel running. Note that if the GDB-stub is compiled in,
then the kernel will immediately wait for GDB to connect over serial before
doing anything else. See the section on kernel debugging with GDB.

The kernel command line <CMDLINE> tells the kernel where its console is and
how to find its root filesystem. This is made up of the following components,
separated by spaces:

  (*) console=ttyS<x>[,<baud>[<parity>[<bits>[<flow>]]]]

      This specifies that the system console should output through on-chip
      serial port <x> (which can be "0" or "1").

      <baud> is a standard baud rate between 1200 and 115200 (default 9600).

      <parity> is a parity setting of "N", "O", "E", "M" or "S" for None, Odd,
      Even, Mark or Space. "None" is the default.

      <stop> is "7" or "8" for the number of bits per character. "8" is the
      default.

      <flow> is "r" to use flow control (XCTS on serial port 2 only). The
      default is to not use flow control.

      For example:

	console=ttyS0,115200

      To use the first on-chip serial port at baud rate 115200, no parity, 8
      bits, and no flow control.

  (*) root=/dev/<xxxx>

      This specifies the device upon which the root filesystem resides. For
      example:

	/dev/nfs	NFS root filesystem
	/dev/mtdblock3	Fourth RedBoot partition on the System Flash

  (*) rw

      Start with the root filesystem mounted Read/Write.

  The remaining components are all optional:

  (*) ip=<ip>::::<host>:<iface>:<cfg>

      Configure the network interface. If <cfg> is "off" then <ip> should
      specify the IP address for the network device <iface>. <host> provide
      the hostname for the device.

      If <cfg> is "bootp" or "dhcp", then all of these parameters will be
      discovered by consulting a BOOTP or DHCP server.

      For example, the following might be used:

	ip=192.168.73.12::::frv:eth0:off

      This sets the IP address on the VDK motherboard RTL8029 ethernet chipset
      (eth0) to be 192.168.73.12, and sets the board's hostname to be "frv".

  (*) nfsroot=<server>:<dir>[,v<vers>]

      This is mandatory if "root=/dev/nfs" is given as an option. It tells the
      kernel the IP address of the NFS server providing its root filesystem,
      and the pathname on that server of the filesystem.

      The NFS version to use can also be specified. v2 and v3 are supported by
      Linux.

      For example:

	nfsroot=192.168.73.1:/nfsroot-frv

  (*) profile=1

      Turns on the kernel profiler (accessible through /proc/profile).

  (*) console=gdb0

      This can be used as an alternative to the "console=ttyS..." listed
      above. I tells the kernel to pass the console output to GDB if the
      gdbstub is compiled in to the kernel.

      If this is used, then the gdbstub passes the text to GDB, which then
      simply dumps it to its standard output.

  (*) mem=<xxx>M

      Normally the kernel will work out how much SDRAM it has by reading the
      SDRAM controller registers. That can be overridden with this
      option. This allows the kernel to be told that it has <xxx> megabytes of
      memory available.

  (*) init=<prog> [<arg> [<arg> [<arg> ...]]]

      This tells the kernel what program to run initially. By default this is
      /sbin/init, but /sbin/sash or /bin/sh are common alternatives.

  (*) vdc=...

      This option configures the MB93493 companion chip visual display
      driver. Please see Documentation/frv/mb93493/vdc.txt for more
      information.
Commit	Line	Data
1da177e4 LT	1	=========================
	2	BOOTING FR-V LINUX KERNEL
	3	=========================
	4
	5	======================
	6	PROVIDING A FILESYSTEM
	7	======================
	8
	9	First of all, a root filesystem must be made available. This can be done in
	10	one of two ways:
	11
	12	(1) NFS Export
	13
	14	A filesystem should be constructed in a directory on an NFS server that
	15	the target board can reach. This directory should then be NFS exported
	16	such that the target board can read and write into it as root.
	17
	18	(2) Flash Filesystem (JFFS2 Recommended)
	19
	20	In this case, the image must be stored or built up on flash before it
	21	can be used. A complete image can be built using the mkfs.jffs2 or
	22	similar program and then downloaded and stored into flash by RedBoot.
	23
	24
	25	========================
	26	LOADING THE KERNEL IMAGE
	27	========================
	28
	29	The kernel will need to be loaded into RAM by RedBoot (or by some alternative
	30	boot loader) before it can be run. The kernel image (arch/frv/boot/Image) may
	31	be loaded in one of three ways:
	32
	33	(1) Load from Flash
	34
	35	This is the simplest. RedBoot can store an image in the flash (see the
	36	RedBoot documentation) and then load it back into RAM. RedBoot keeps
	37	track of the load address, entry point and size, so the command to do
	38	this is simply:
	39
	40	fis load linux
	41
	42	The image is then ready to be executed.
	43
	44	(2) Load by TFTP
	45
	46	The following command will download a raw binary kernel image from the
	47	default server (as negotiated by BOOTP) and store it into RAM:
	48
	49	load -b 0x00100000 -r /tftpboot/image.bin
	50
	51	The image is then ready to be executed.
	52
	53	(3) Load by Y-Modem
	54
	55	The following command will download a raw binary kernel image across the
	56	serial port that RedBoot is currently using:
	57
	58	load -m ymodem -b 0x00100000 -r zImage
	59
	60	The serial client (such as minicom) must then be told to transmit the
	61	program by Y-Modem.
	62
	63	When finished, the image will then be ready to be executed.
	64
65
66	==================
67	BOOTING THE KERNEL
68	==================
69
70	Boot the image with the following RedBoot command:
71
72	exec -c "<CMDLINE>" 0x00100000
73
74	For example:
75
76	exec -c "console=ttySM0,115200 ip=:::::dhcp root=/dev/mtdblock2 rw"
77
78	This will start the kernel running. Note that if the GDB-stub is compiled in,
79	then the kernel will immediately wait for GDB to connect over serial before
80	doing anything else. See the section on kernel debugging with GDB.
81
82	The kernel command line <CMDLINE> tells the kernel where its console is and
83	how to find its root filesystem. This is made up of the following components,
84	separated by spaces:
85
86	(*) console=ttyS<x>[,<baud>[<parity>[<bits>[<flow>]]]]
87
88	This specifies that the system console should output through on-chip
89	serial port <x> (which can be "0" or "1").
90
91	<baud> is a standard baud rate between 1200 and 115200 (default 9600).
92
93	<parity> is a parity setting of "N", "O", "E", "M" or "S" for None, Odd,
94	Even, Mark or Space. "None" is the default.
95
96	<stop> is "7" or "8" for the number of bits per character. "8" is the
97	default.
98
99	<flow> is "r" to use flow control (XCTS on serial port 2 only). The
100	default is to not use flow control.
101
102	For example:
103
104	console=ttyS0,115200
105
106	To use the first on-chip serial port at baud rate 115200, no parity, 8
107	bits, and no flow control.
108
109	(*) root=/dev/<xxxx>
110
111	This specifies the device upon which the root filesystem resides. For
112	example:
113
114	/dev/nfs NFS root filesystem
115	/dev/mtdblock3 Fourth RedBoot partition on the System Flash
116
117	(*) rw
118
119	Start with the root filesystem mounted Read/Write.
120
121	The remaining components are all optional:
122
123	(*) ip=<ip>::::<host>:<iface>:<cfg>
124
125	Configure the network interface. If <cfg> is "off" then <ip> should
126	specify the IP address for the network device <iface>. <host> provide
127	the hostname for the device.
128
129	If <cfg> is "bootp" or "dhcp", then all of these parameters will be
130	discovered by consulting a BOOTP or DHCP server.
131
132	For example, the following might be used:
133
134	ip=192.168.73.12::::frv:eth0:off
135
136	This sets the IP address on the VDK motherboard RTL8029 ethernet chipset
137	(eth0) to be 192.168.73.12, and sets the board's hostname to be "frv".
138
139	(*) nfsroot=<server>:<dir>[,v<vers>]
140
141	This is mandatory if "root=/dev/nfs" is given as an option. It tells the
142	kernel the IP address of the NFS server providing its root filesystem,
143	and the pathname on that server of the filesystem.
144
145	The NFS version to use can also be specified. v2 and v3 are supported by
146	Linux.
147
148	For example:
149
150	nfsroot=192.168.73.1:/nfsroot-frv
151
152	(*) profile=1
153
154	Turns on the kernel profiler (accessible through /proc/profile).
155
156	(*) console=gdb0
157
158	This can be used as an alternative to the "console=ttyS..." listed
159	above. I tells the kernel to pass the console output to GDB if the
160	gdbstub is compiled in to the kernel.
161
162	If this is used, then the gdbstub passes the text to GDB, which then
163	simply dumps it to its standard output.
164
165	(*) mem=<xxx>M
166
167	Normally the kernel will work out how much SDRAM it has by reading the
168	SDRAM controller registers. That can be overridden with this
169	option. This allows the kernel to be told that it has <xxx> megabytes of
170	memory available.
171
172	(*) init=<prog> [<arg> [<arg> [<arg> ...]]]
173
174	This tells the kernel what program to run initially. By default this is
175	/sbin/init, but /sbin/sash or /bin/sh are common alternatives.
176
177	(*) vdc=...
178
179	This option configures the MB93493 companion chip visual display
0868ff7a	180	driver. Please see Documentation/frv/mb93493/vdc.txt for more
1da177e4	181	information.