/* $OpenBSD: config.h,v 1.5 1996/07/07 22:02:19 maja Exp $ */ /* $NetBSD: config.h,v 1.23 1996/03/17 13:18:15 cgd Exp $ */ /* * Copyright (c) 1992, 1993 * The Regents of the University of California. All rights reserved. * * This software was developed by the Computer Systems Engineering group * at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and * contributed to Berkeley. * * All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Lawrence Berkeley Laboratories. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * from: @(#)config.h 8.1 (Berkeley) 6/6/93 */ /* * Name/value lists. Values can be strings or pointers and/or can carry * integers. The names can be NULL, resulting in simple value lists. */ struct nvlist { struct nvlist *nv_next; const char *nv_name; union { const char *un_str; void *un_ptr; } nv_un; #define nv_str nv_un.un_str #define nv_ptr nv_un.un_ptr int nv_int; }; /* * Kernel configurations. */ struct config { struct config *cf_next; /* linked list */ const char *cf_name; /* "vmunix" */ int cf_lineno; /* source line */ struct nvlist *cf_root; /* "root on ra0a" */ struct nvlist *cf_swap; /* "swap on ra0b and ra1b" */ struct nvlist *cf_dump; /* "dumps on ra0b" */ }; /* * Attributes. These come in two flavors: "plain" and "interface". * Plain attributes (e.g., "ether") simply serve to pull in files. * Interface attributes (e.g., "scsi") carry three lists: locators, * child devices, and references. The locators are those things * that must be specified in order to configure a device instance * using this attribute (e.g., "tg0 at scsi0"). The a_devs field * lists child devices that can connect here (e.g., "tg"s), while * the a_refs are parents that carry the attribute (e.g., actual * SCSI host adapter drivers such as the SPARC "esp"). */ struct attr { const char *a_name; /* name of this attribute */ int a_iattr; /* true => allows children */ struct nvlist *a_locs; /* locators required */ int a_loclen; /* length of above list */ struct nvlist *a_devs; /* children */ struct nvlist *a_refs; /* parents */ }; /* * The "base" part (struct devbase) of a device ("uba", "sd"; but not * "uba2" or "sd0"). It may be found "at" one or more attributes, * including "at root" (this is represented by a NULL attribute), as * specified by the device attachments (struct deva). * * Each device may also export attributes. If any provide an output * interface (e.g., "esp" provides "scsi"), other devices (e.g., * "tg"s) can be found at instances of this one (e.g., "esp"s). * Such a connection must provide locators as specified by that * interface attribute (e.g., "target"). The base device can * export both output (aka `interface') attributes, as well as * import input (`plain') attributes. Device attachments may * only import input attributes; it makes no sense to have a * specific attachment export a new interface to other devices. * * Each base carries a list of instances (via d_ihead). Note that this * list "skips over" aliases; those must be found through the instances * themselves. Each base also carries a list of possible attachments, * each of which specify a set of devices that the device can attach * to, as well as the device instances that are actually using that * attachment. */ struct devbase { const char *d_name; /* e.g., "sd" */ struct devbase *d_next; /* linked list */ int d_isdef; /* set once properly defined */ int d_ispseudo; /* is a pseudo-device */ int d_major; /* used for "root on sd0", e.g. */ struct nvlist *d_attrs; /* attributes, if any */ int d_umax; /* highest unit number + 1 */ struct devi *d_ihead; /* first instance, if any */ struct devi **d_ipp; /* used for tacking on more instances */ struct deva *d_ahead; /* first attachment, if any */ struct deva **d_app; /* used for tacking on attachments */ }; struct deva { const char *d_name; /* name of attachment, e.g. "com_isa" */ struct deva *d_next; /* linked list */ struct deva *d_bsame; /* list on same base */ int d_isdef; /* set once properly defined */ struct devbase *d_devbase; /* the base device */ struct nvlist *d_atlist; /* e.g., "at tg" (attr list) */ struct nvlist *d_vectors; /* interrupt vectors, if any */ struct nvlist *d_attrs; /* attributes, if any */ struct devi *d_ihead; /* first instance, if any */ struct devi **d_ipp; /* used for tacking on more instances */ }; /* * An "instance" of a device. The same instance may be listed more * than once, e.g., "xx0 at isa? port FOO" + "xx0 at isa? port BAR". * * After everything has been read in and verified, the devi's are * "packed" to collect all the information needed to generate ioconf.c. * In particular, we try to collapse multiple aliases into a single entry. * We then assign each "primary" (non-collapsed) instance a cfdata index. * Note that there may still be aliases among these. */ struct devi { /* created while parsing config file */ const char *i_name; /* e.g., "sd0" */ int i_unit; /* unit from name, e.g., 0 */ int i_disable; /* device is disabled */ struct devbase *i_base;/* e.g., pointer to "sd" base */ struct devi *i_next; /* list of all instances */ struct devi *i_bsame; /* list on same base */ struct devi *i_asame; /* list on same base attachment */ struct devi *i_alias; /* other aliases of this instance */ const char *i_at; /* where this is "at" (NULL if at root) */ struct attr *i_atattr; /* attr that allowed attach */ struct devbase *i_atdev;/* if "at ", else NULL */ struct deva *i_atdeva; const char **i_locs; /* locators (as given by i_atattr) */ int i_atunit; /* unit from "at" */ int i_cfflags; /* flags from config line */ int i_lineno; /* line # in config, for later errors */ /* created during packing or ioconf.c generation */ /* i_loclen via i_atattr->a_loclen */ short i_collapsed; /* set => this alias no longer needed */ short i_cfindex; /* our index in cfdata */ short i_pvlen; /* number of parents */ short i_pvoff; /* offset in parents.vec */ short i_locoff; /* offset in locators.vec */ short i_ivoff; /* offset in interrupt vectors, if any */ struct devi **i_parents;/* the parents themselves */ int i_locnami; /* my index into locnami[] */ int i_plocnami; /* parent's locnami[] index */ }; /* special units */ #define STAR (-1) /* unit number for, e.g., "sd*" */ #define WILD (-2) /* unit number for, e.g., "sd?" */ /* * Files. Each file is either standard (always included) or optional, * depending on whether it has names on which to *be* optional. The * options field (fi_optx) is actually an expression tree, with nodes * for OR, AND, and NOT, as well as atoms (words) representing some * particular option. The node type is stored in the nv_int field. * Subexpressions appear in the `next' field; for the binary operators * AND and OR, the left subexpression is first stored in the nv_ptr field. * * For any file marked as needs-count or needs-flag, fixfiles() will * build fi_optf, a `flat list' of the options with nv_int fields that * contain counts or `need' flags; this is used in mkheaders(). */ struct files { struct files *fi_next; /* linked list */ const char *fi_srcfile; /* the name of the "files" file that got us */ u_short fi_srcline; /* and the line number */ u_char fi_flags; /* as below */ char fi_lastc; /* last char from path */ const char *fi_path; /* full file path */ const char *fi_tail; /* name, i.e., rindex(fi_path, '/') + 1 */ const char *fi_base; /* tail minus ".c" (or whatever) */ struct nvlist *fi_optx;/* options expression */ struct nvlist *fi_optf;/* flattened version of above, if needed */ const char *fi_mkrule; /* special make rule, if any */ }; #define FX_ATOM 0 /* atom (in nv_name) */ #define FX_NOT 1 /* NOT expr (subexpression in nv_next) */ #define FX_AND 2 /* AND expr (lhs in nv_ptr, rhs in nv_next) */ #define FX_OR 3 /* OR expr (lhs in nv_ptr, rhs in nv_next) */ /* flags */ #define FI_SEL 0x01 /* selected */ #define FI_CONFIGDEP 0x02 /* config-dependent */ #define FI_DRIVER 0x04 /* device-driver */ #define FI_NEEDSCOUNT 0x08 /* needs-count */ #define FI_NEEDSFLAG 0x10 /* needs-flag */ #define FI_HIDDEN 0x20 /* obscured by other(s), base names overlap */ /* * Hash tables look up name=value pairs. The pointer value of the name * is assumed to be constant forever; this can be arranged by interning * the name. (This is fairly convenient since our lexer does this for * all identifier-like strings---it has to save them anyway, lest yacc's * look-ahead wipe out the current one.) */ struct hashtab; const char *conffile; /* source file, e.g., "GENERIC.sparc" */ const char *confdirbase; /* basename of compile directory, usu. same */ const char *machine; /* machine type, e.g., "sparc" or "sun3" */ const char *machinearch; /* machine arch, e.g., "sparc" or "m68k" */ int errors; /* counts calls to error() */ int minmaxusers; /* minimum "maxusers" parameter */ int defmaxusers; /* default "maxusers" parameter */ int maxmaxusers; /* default "maxusers" parameter */ int maxusers; /* configuration's "maxusers" parameter */ int maxpartitions; /* configuration's "maxpartitions" parameter */ struct nvlist *options; /* options */ struct nvlist *mkoptions; /* makeoptions */ struct hashtab *devbasetab; /* devbase lookup */ struct hashtab *devatab; /* devbase attachment lookup */ struct hashtab *selecttab; /* selects things that are "optional foo" */ struct hashtab *needcnttab; /* retains names marked "needs-count" */ struct devbase *allbases; /* list of all devbase structures */ struct deva *alldevas; /* list of all devbase attachment structures */ struct config *allcf; /* list of configured kernels */ struct devi *alldevi; /* list of all instances */ struct devi *allpseudo; /* list of all pseudo-devices */ int ndevi; /* number of devi's (before packing) */ int npseudo; /* number of pseudo's */ struct files *allfiles; /* list of all kernel source files */ struct devi **packed; /* arrayified table for packed devi's */ int npacked; /* size of packed table, <= ndevi */ struct { /* pv[] table for config */ short *vec; int used; } parents; struct { /* loc[] table for config */ const char **vec; int used; } locators; /* files.c */ void initfiles __P((void)); void checkfiles __P((void)); int fixfiles __P((void)); /* finalize */ void addfile __P((const char *, struct nvlist *, int, const char *)); /* hash.c */ struct hashtab *ht_new __P((void)); int ht_insrep __P((struct hashtab *, const char *, void *, int)); #define ht_insert(ht, nam, val) ht_insrep(ht, nam, val, 0) #define ht_replace(ht, nam, val) ht_insrep(ht, nam, val, 1) void *ht_lookup __P((struct hashtab *, const char *)); void initintern __P((void)); const char *intern __P((const char *)); /* main.c */ void addoption __P((const char *name, const char *value)); void addmkoption __P((const char *name, const char *value)); int devbase_has_instances __P((struct devbase *, int)); int deva_has_instances __P((struct deva *, int)); /* mkheaders.c */ int mkheaders __P((void)); /* mkioconf.c */ int mkioconf __P((void)); /* mkmakefile.c */ int mkmakefile __P((void)); /* mkswap.c */ int mkswap __P((void)); /* pack.c */ void pack __P((void)); /* scan.l */ int currentline __P((void)); /* sem.c, other than for yacc actions */ void initsem __P((void)); /* util.c */ void *emalloc __P((size_t)); void *erealloc __P((void *, size_t)); char *path __P((const char *)); void error __P((const char *, ...)); /* immediate errs */ void xerror __P((const char *, int, const char *, ...)); /* delayed errs */ __dead void panic __P((const char *, ...)); struct nvlist *newnv __P((const char *, const char *, void *, int, struct nvlist *)); void nvfree __P((struct nvlist *)); void nvfreel __P((struct nvlist *));