267 lines
10 KiB
TeX
267 lines
10 KiB
TeX
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RFC for the chip specification architecture
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\begin{abstract}
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At the end of this document is the original message that motivated the
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change.
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\end{abstract}
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\section{Scope}
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This document defines how LinuxBIOS programmers can specify chips that
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are used, specified, and initalized. The current scope is for superio
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chips, but the architecture should allow for specification of other chips such
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as southbridges. Multiple chips of same or different type are supported.
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\section{Goals}
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The goals of the new chip architecture are these:
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\begin{itemize}
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\item separate implementation details from specification in the Config file
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(translation: no more C code in Config files)
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\item make the specification easier for people to use and understand
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\item remove private details of a given chip to the chip file as much
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as possible
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\item allow unique register-set-specifiers for each chip
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\end{itemize}
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\section{Specification in the Config file}
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The specification looks like this:
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\begin{verbatim}
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chip <name> [path=<path>] ["<configuration>"]
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\end{verbatim}
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The name is in the standard LinuxBIOS form of type/vendor/name, e.g.
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"southbridge/intel/piix4e" or "superio/ite/it8671f". The class of the
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chip is derived from the first pathname component of the name, and the chip
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configuration is derived from the following components.
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The path defines the access mechanism to the chip.
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It is optional. If present, it overrides the default path to the chip.
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The configuration defines chip-specific configuration details, and is also
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optional. Note that an empty configuration will leave the chip with
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no enabled resources. This may be desirable in some cases.
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\section{Results of specifying a chip}
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When one or more chips are specified, the data about the chips
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is saved until the entire file is parsed. At this point, the config tool
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creates a file in the build directory called chip.c This file contains
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a common struct containing information about
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each individual chip and an array of pointers to these structures.
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For each chip, there are two structures. The structures contain control
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information for the chip, and register initialization information. The
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names of the structures are derived by ``flattening'' the chip name,
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as in the current linuxbios. For example, superio/ite/xyz uses
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two structs, one called superio_ite_xyz_control and one called
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superio_ite_xyz_init. The control struct is initialized from the
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chip name and path information, and has a pointer to the
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config struct. The config struct is initialized from the quote string
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\begin{verbatim}
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From rminnich@lanl.gov Fri May 16 10:34:13 2003
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Date: Tue, 13 May 2003 08:11:46 -0600 (MDT)
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From: ron minnich <rminnich@lanl.gov>
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To: linuxbios@clustermatic.org
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Subject: RFC:new superio proposal
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Abstract:
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The superio architecture for linuxbios has worked for the last 2
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years but is being stretched to the limit by the changes in superio chips.
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The architecture depended on superio resources being relatively constant
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between chips, but this assumption no longer holds. In this document we
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propose several alternatives and solicit comments.
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Overview:
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The superio architecture in linuxbios was developed over time, and
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modified as circumstances required. In the beginning it was relatively
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simple and assumed only one superio per mainboard. The latest version
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allows an arbitrary number of superios per mainboard, and allows complete
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specification of the superio base I/O address along with the specification
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of reasonable default valures for both the base I/O address and the
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superio parameters such as serial enable, baud rate, and so on.
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Specification of superio control parameters is done by a configuration
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line such as:
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nsuperio sis/950 com1={1} floppy=1 lpt=1
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This fragment sets the superio type to sis/950; sets com1, floppy, and lpt
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to enabled; and leaves the defaults to com1 (baud rate, etc.) to the
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default values.
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While it is not obvious, these configuration parameters are fragments of a
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C initializer. The initializers are used to build a statically initialized
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structure of this type:
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struct superio {
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struct superio_control *super; // the ops for the device.
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unsigned int port; // if non-zero, overrides the default port
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// com ports. This is not done as an array (yet).
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// We think it's easier to set up from python if it is not an
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// array.
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struct com_ports com1, com2, com3, com4;
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// DMA, if it exists.
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struct lpt_ports lpt1, lpt2;
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/* flags for each device type. Unsigned int. */
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// low order bit ALWAYS means enable. Next bit means to enable
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// LPT is in transition, so we leave this here for the moment.
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// The winbond chips really stretched the way this works.
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// so many functions!
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unsigned int ide, floppy, lpt;
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unsigned int keyboard, cir, game;
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unsigned int gpio1, gpio2, gpio3;
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unsigned int acpi,hwmonitor;
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};
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These structures are, in turn, created and statically initialized by a
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config-tool-generated structure that defines all the superios. This file
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is called nsuperio.c, is created for each mainboard you build, only
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appears in the build directory, and looks like this:
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===
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extern struct superio_control superio_winbond_w83627hf_control;
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struct superio superio_winbond_w83627hf= {
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&superio_winbond_w83627hf_control,
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.com1={1}, .com2={1}, .floppy=1, .lpt=1, .keyboard=1, .hwmonitor=1};
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struct superio *all_superio[] = {&superio_winbond_w83627hf,
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};
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unsigned long nsuperio = 1;
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===
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This example shows a board with one superio (nsuperio). The superio
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consists of a winbond w83627hf, with com1, com2, floppy, lpt, keyboard,
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and hwmonitor enabled. Note that this structure also allows for
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over-riding the default superio base, although that capability is rarely
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used.
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The control structure is used to define how to access the superio for
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purposes of control. It looks like this:
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===
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struct superio_control {
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void (*pre_pci_init)(struct superio *s);
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void (*init)(struct superio *s);
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void (*finishup)(struct superio *s);
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unsigned int defaultport; /* the defaultport. Can be overridden
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* by commands in config
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*/
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// This is the print name for debugging
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char *name;
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};
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===
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There are three methods for stages of hardwaremain. First is pre_pci_init
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(for chips like the acer southbridge that require you to enable some
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resources BEFORE pci scan); init, called during the 'middle' phase of
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hardwaremain; and finishup, called before the payload is loaded.
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This approach was inspired by and borrows heavily on the Plan 9 kernel
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configuration tools.
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The problem:
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When the first version of the superio structure came out it was much
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smaller. It has grown and in the limit this structure is the union of all
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possibly superio chips. Obviously, in the long term, this is not
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practical: we can not anticipate all possible superio chips for all time.
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The common PC BIOS solution to this type of problem is to continue with
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binary structures but add version numbers to them, so that all code that
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uses a given structure has to check the version number. Personally, I find
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this grotesque and would rather not work this way.
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Using textual strings for configuration is something I find far more
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attractive. Plan 9 has shown that this approach has no real limits and
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suffices for configuration tasks. The Linux kernel does more limited use
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of strings for configuration, but still depends on them. Strings are
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easier to read and work with than binary structures, and more important, a
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lot easier to deal with when things start going wrong.
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The proposed solution:
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What follows are three possible ideas for specifying superio resources and
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their settings.
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A common part of the new idea is to eliminate the common superio
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structure, due to the many variations in chips, and make it invisible
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outside a given superio source file -- the superio structure is now
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private to a given superio. Thus, sis/950/superio.c would contain its own
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superio structure definitions, and also might contain more than once
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instance of these structures (consider a board with 2 sis 950 chips).
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The control structure would change as follows:
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struct superio_control {
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int (*create)(struct superio *s);
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void (*pre_pci_init)(struct superio *s);
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void (*init)(struct superio *s);
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void (*finishup)(struct superio *s);
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unsigned int defaultport; /* the defaultport. Can be overridden
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* by commands in config
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*/
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// This is the print name for debugging
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char *name;
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};
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I.e. we add a new function for creating the superio.
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Communication of superio settings from linuxbios to the superio would be
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via textual strings. The superio structure becomes this:
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struct superio {
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struct superio_control *super; // the ops for the device.
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unsigned int port; // if non-zero, overrides the default port
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struct configuration *config;
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};
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So now the question becomes, what is the configuration structure?
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There are several choices. The simplest, from my point of view, are
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keyword-value pairs:
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struct configuration {
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const char *keyword;
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const char *value;
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};
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These get filled in by the config tool as before. The linuxbios library can
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then provide a generic parsing function for the superios to use.
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The remaining question is how should the superio command look in
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freebios2?
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superio sis/950 "com1=115200,8n1 lpt=1 com2=9600"
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or
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superio sis/950 "com1baud=115200 lpt=1 com1chars=8n1"
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or
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superio sis/950 ((com1 115200 8n1) (lpt 1))
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So, my questions:
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1. Does this new scheme look workable. If not, what needs to change?
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2. What should the 'struct configuration' be? does keyword/value work?
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3. what should the superio command look like?
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Comments welcome.
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I'd like to adopt this "RFC" approach for freebios2 as much as we can.
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There was a lot of give-and-take in the early days of linuxbios about
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structure and it proved useful. There's a lot that will start happening in
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freebios2 now, and we need to try to make sure it will work for everyone.
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Those of you who are doing mainboards, please look at freebios2 and see
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how it looks for you. There's a lot of good work that has been done (not
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by me so far, thanks Eric and Stefan), and more that needs to be done.
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Consider trying out romcc as an "assembly code killer". See how it fits
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together and if you can work with it or need changes. Bring comments back
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to this list.
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thanks
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ron
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\end{verbatim}
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