http://www.aros.org AROS-Exec AROS-Exec Archives Power2People
kitty mascottop logo menu

expansion

Index


AddBootNode() AddConfigDev() AddDosNode() AllocBoardMem()
AllocConfigDev() AllocExpansionMem() ConfigBoard() ConfigChain()
FindConfigDev() FreeBoardMem() FreeConfigDev() FreeExpansionMem()
GetCurrentBinding() MakeDosNode() ObtainConfigBinding() ReadExpansionByte()
ReadExpansionRom() ReleaseConfigBinding() RemConfigDev() SetCurrentBinding()
WriteExpansionByte() WriteExpansionWord()    

AddBootNode()

Synopsis

BOOL AddBootNode(
         LONG bootPri,
         ULONG flags,
         struct DeviceNode * deviceNode,
         struct ConfigDev  * configDev );

Function

AddBootNode() will add a device into the system. It does this in
one of two ways:

1. If DOS is running, add the device to DOS's list of devices
   immediately.
2. Otherwise, save the information for later use by DOS, possibly
   as a boot device.

This allows device drivers to add devices into the system's disk
device list at any time, without having to worry about whether DOS
is available.

If a device is added before DOS is running, then it is possible for
the device to be used as a boot device. This allows for the user
to choose which device he/she wishes to boot from, and even which
OS they may wish to boot from.

The bootstrap will attempt to boot from the highest priority device
on the Expansion BootNode list, and if that fails continue
through the list until it can succeed.

Floppy disk devices should always be given the highest priority, to
allow a user to prevent a hard disk or network boot by inserting a
floppy disk.

AddBootNode() will also perform a second bit of magic, that if there
is no filesystem specified for this device, (i.e. dn_SegList, dn_Task
and dn_Handler are all NULL), then the standard DOS filesystem
will be used for this device.

Inputs

bootPri     -   a BYTE describing the boot priority for this disk.
                Recommended priorities are:

                +5      -   unit 0 on the floppy disk. The floppy
                            should be the highest priority.
                0       -   standard hard disk priority
                -5      -   recommended for a network disk
                -128    -   don't bother trying

flags       -   Additional information:

                ADNF_STARTPROC (bit 0)-
                    if set this will cause AddBootNode() to start
                    a filesystem handler for the device node from
                    the information contained in the deviceNode
                    packet. This bit is only useful when there is
                    no running handler for this task (ie dn_Task
                    is NULL).

deviceNode  -   DOS device node for this device. Typically created
                by MakeDosNode().

configDev   -   A valid expansion board ConfigDev structure, this
                is required for an autoboot before DOS is running.
                If left NULL, the node cannot be BootPoint booted.

Result

TRUE if everything was ok,
FALSE if for some reason we failed (lack of memory etc).

Notes

The address of the ConfigDev structure is stored in the ln_Name
field of the BootNode structure.

AddConfigDev()

Synopsis

void AddConfigDev(
         struct ConfigDev * configDev );

Function

This function will add a ConfigDev structure to the systems
list of Configuration Devices. This function is not normally
called by user code.

Inputs

configDev   -   The Configuration Device to add to the system.

Result

The device will be added to the system.

AddDosNode()

Synopsis

BOOL AddDosNode(
         LONG bootPri,
         ULONG flags,
         struct DeviceNode * deviceNode );

Function

This is the old function for adding devices to the system. It
is recommended that you use the AddBootNode() function.

Unlike AddBootNode() you will have to add a BootNode to the
system yourself.

Inputs

bootPri     -   The priority of the device (-128 --> 127).
flags       -   Flags (ADNF_STARTPROC etc)
deviceNode  -   The device to add to the system.

Result

non-zero if everything succeeded, zero on failure.

Example

//  Add a bootable disk to the system. This will start a
//  file handler process immediately.

if( AddDosNode( 0, ADNF_STARTPROC, MakeDosNode( paramPacket )))
{
    // AddDosNode() ok
}

Notes

It is much better to use AddBootNode() as it will also
construct the BootNode structure, and add it to the system.

AllocBoardMem()

Synopsis

void AllocBoardMem(
         ULONG slotSpec );

Bugs

This function is unimplemented.

AllocConfigDev()

Synopsis

struct ConfigDev * AllocConfigDev();

Function

AllocConfigDev() will allocate a new ConfigDev structure for
you. You should use this function in order for you to be
compatible with future versions of the OS in case this
structure changes.

Inputs

None.

Result

A newly created ConfigDev structure.

AllocExpansionMem()

Synopsis

APTR AllocExpansionMem(
         ULONG numSlots,
         ULONG slotAlign );

Bugs

This function is unimplemented.

ConfigBoard()

Synopsis

BOOL ConfigBoard(
         APTR board,
         struct ConfigDev * configDev );

Notes

This function isn't implemented on all platforms.

ConfigChain()

Synopsis

void ConfigChain(
         APTR baseAddr );

FindConfigDev()

Synopsis

struct ConfigDev * FindConfigDev(
         struct ConfigDev * oldConfigDev,
         LONG manufacturer,
         LONG product );

Function

FindConfigDev() will search through the list of ConfigDevs and find
the one with the matching manufacturer and product identifiers.

The search will start with the ConfigDev after the oldConfigDev,
or at the beginning of oldConfigDev is NULL.

A manufacturer or product of -1 is treated as a wildcard and will
match any value.

Inputs

oldConfigDev    -   The device to start the search after. If NULL
                    the search will start from the beginning of the
                    list.
manufacturer    -   The manufacturer id of the requested ConfigDev.
                    A value of -1 will match any device.
product         -   The product id of the ConfigDev. A value of -1
                    will match any device.

Result

The address of the first matching ConfigDev structure, or NULL if
none could be found.

Example

// Find all the config devs in the system
struct ConfigDev *cd = NULL;

while((cd = FindConfigDev(NULL, -1, -1)))
{
    Printf("Found a device:\tMan = %5d\tProd = %d\n",
        cd->cd_Rom.er_Manufacturer,
        cd->cd_Rom.er_Product);
}

FreeBoardMem()

Synopsis

void FreeBoardMem(
         ULONG startSlot,
         ULONG slotSpec );

Bugs

This function is unimplemented.

FreeConfigDev()

Synopsis

void FreeConfigDev(
         struct ConfigDev * configDev );

Function

This function will free a ConfigDev structure, as allocated
by the AllocConfigDev() function.

Inputs

configDev   -   The ConfigDev to free.

Result

The memory will be returned to the system.

FreeExpansionMem()

Synopsis

void FreeExpansionMem(
         ULONG startSlot,
         ULONG numSlots );

Bugs

This function is unimplemented.

GetCurrentBinding()

Synopsis

ULONG GetCurrentBinding(
         struct CurrentBinding * currentBinding,
         ULONG bindingSize );

Function

This function will return the contents of the "currentBinding"
structure. The currentBinding structure may be set with
SetConfigBinding(). This is how arguments are passed to a newly
configured device.

A CurrentBinding structure has the following information:
-   the name of the currently loaded driver file
-   the product string associated with this driver
-   a singly linked list of ConfigDev structures

You may not need this information, but it is recommended that you
at least make sure you can deal with the product code in the
ConfigDev structure.

Inputs

currentBinding  -   a pointer to the CurrentBinding structure that
                    you wish filled in.
bindingSize     -   the size of the currentBinding structure. Do
                    not pass less than sizeof(struct CurrentBinding).

Result

The size of the CurrentBinding structure returned.

MakeDosNode()

Synopsis

struct DeviceNode * MakeDosNode(
         APTR parmPacket );

Function

MakeDosNode() will create a DeviceNode structure suitable for
passing to dos.library which contains all the information about
a device stored in the parmPacket array. This will allow you to
enter a DOS device into the system from the information contained
in a DosEnvec structure (such as in a RigidDiskBlock PartitionBlock
structure).

MakeDosNode() will allocate the memory that it needs to construct
the DeviceNode, the strings and a FileSysStartupMsg that is passed
to the filesystem handler on startup.

You can use AddBootNode() to add a node to the system.

Inputs

parmPacket  -   an IPTR array containing the device parameters
                required to initialize the structures. This is a
                variable length structure. See also the DosEnvec
                structure in dos/filehandler.h

    Index       Description
    --------    -----------
    0           Exec string with dos device name (eg. DH0)
    1           Exec string with exec device name (eg. fdsk.device)
    2           unit number of device to open
    3           flags (for OpenDevice())
    4           length of the remaining data
    5-n         environment data - consists of:

    5           Size of standard device block in 32 bit longwords
    6           not used; 0
    7           # of heads - drive specific
    8           # of sectors per block - not used; 0
    9           # of blocks per track - drive specific
    10          # of reserved blocks at the start of the partition
    11          # of reserved blocks at the end of the partition
    12          device interleave
    13          starting cylinder of partition
    14          end cylinder of partition
    15          initial number of buffers
    16          type of memory for buffers (CHIP, FAST,...)
    17          max number of bytes to transfer at one time
    18          address mask allowable for DMA transfers
    19          boot priority for autobootable devices
    20          standard DOS filesystem ID (eg 'DOS\1')
    21          baud rate for serial handler
    22          control word for handler/filesystem
    23          number of boot blocks on this partition

Result

deviceNode  -   An initialized DeviceNode structure, or NULL if
                the required memory could not be allocated. The
                caller will have to modify this structure before
                passing it to AddBootNode().

Notes

There are a number of fields of the DeviceNode structure that this
function cannot initialize due to a lack of information. You
should fill these in yourself.

ObtainConfigBinding()

Synopsis

void ObtainConfigBinding();

Function

ObtainConfigBinding() gives you permission to bind drivers
to a ConfigDev structure. It exists so that two drivers
at once do not try and bind the same ConfigDev structures
at the same time.

Since most of the data required to bind drivers is statically
kept, so you must lock out other users from accessing the
structures at the same time.

This call is based on the Exec SignalSemaphores, and will
block until it is safe to proceed.

Inputs

None.

Result

You will have the lock on the CurrentBindings. Please finish
as quickly as you can.

ReadExpansionByte()

Synopsis

UBYTE ReadExpansionByte(
         APTR board,
         ULONG offset );

Notes

This function isn't implemented on all platforms.

ReadExpansionRom()

Synopsis

BOOL ReadExpansionRom(
         APTR board,
         struct ConfigDev * configDev );

Notes

This function isn't implemented on all platforms.

ReleaseConfigBinding()

Synopsis

void ReleaseConfigBinding();

Function

This function will release the lock obtained by
ObtainConfigBinding(). It will release the SignalSemaphore,
and allow others to bind to drivers.

Inputs

None.

Result

None.

RemConfigDev()

Synopsis

void RemConfigDev(
         struct ConfigDev * configDev );

Function

This routine will remove the given ConfigDev from the list
of Configuration Devices in the system.

Inputs

configDev   -   The ConfigDev structure to remove.

Result

The ConfigDev structure will be removed from the systems list.

SetCurrentBinding()

Synopsis

void SetCurrentBinding(
         struct CurrentBinding * currentBinding,
         ULONG bindingSize );

Function

This function will return the contents of the "currentBinding"
structure. The currentBinding structure may be returned with
GetConfigBinding(). This is how arguments are passed to a newly
configured device.

A CurrentBinding structure has the following information:
-   the name of the currently loaded driver file
-   the product string associated with this driver
-   a singly linked list of ConfigDev structures

You may not need this information, but it is recommended that you
at least make sure you can deal with the product code in the
ConfigDev structure.

Inputs

currentBinding  -   a pointer to the CurrentBinding structure that
                    you wish filled in.
bindingSize     -   the size of the currentBinding structure. Do
                    not pass less than sizeof(struct CurrentBinding).

Result

The size of the CurrentBinding structure set.

WriteExpansionByte()

Synopsis

void WriteExpansionByte(
         APTR board,
         ULONG offset,
         ULONG byte );

Notes

This function isn't implemented on all platforms.

WriteExpansionWord()

Synopsis

void WriteExpansionWord(
         APTR board,
         ULONG offset,
         ULONG word );

Notes

This function isn't implemented on all platforms.

Copyright © 1995-2024, The AROS Development Team. All rights reserved.
Amiga®, AmigaOS®, Workbench and Intuition are trademarks of Amiga Inc. All other trademarks belong to their respective owners.