/* * Copyright (c) 1999 Apple Computer, Inc. All rights reserved. * * @APPLE_LICENSE_HEADER_START@ * * "Portions Copyright (c) 1999 Apple Computer, Inc. All Rights * Reserved. This file contains Original Code and/or Modifications of * Original Code as defined in and that are subject to the Apple Public * Source License Version 1.0 (the 'License'). You may not use this file * except in compliance with the License. Please obtain a copy of the * License at http://www.apple.com/publicsource and read it before using * this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the * License for the specific language governing rights and limitations * under the License." * * @APPLE_LICENSE_HEADER_END@ */ /* * Mach Operating System * Copyright (c) 1990 Carnegie-Mellon University * Copyright (c) 1989 Carnegie-Mellon University * Copyright (c) 1988 Carnegie-Mellon University * Copyright (c) 1987 Carnegie-Mellon University * All rights reserved. The CMU software License Agreement specifies * the terms and conditions for use and redistribution. */ /* * Copyright (c) 1980 Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms are permitted * provided that the above copyright notice and this paragraph are * duplicated in all such forms and that any documentation, * advertising materials, and other materials related to such * distribution and use acknowledge that the software was developed * by the University of California, Berkeley. The name of the * University may not be used to endorse or promote products derived * from this software without specific prior written permission. * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. */ #ifndef lint static char sccsid[] __attribute__((used)) = "@(#)mkmakefile.c 5.21 (Berkeley) 6/18/88"; #endif /* not lint */ /* * Build the makefile for the system, from * the information in the files files and the * additional files for the machine being compiled to. */ #include #include /* for unlink */ #include #include "parser.h" #include "config.h" void read_files(void); void do_objs(FILE *fp, const char *msg, int ext); void do_files(FILE *fp, const char *msg, char ext); void do_machdep(FILE *ofp); void do_rules(FILE *f); void copy_dependencies(FILE *makin, FILE *makout); struct file_list *fl_lookup(char *file); struct file_list *fltail_lookup(char *file); struct file_list *new_fent(void); void put_source_file_name(FILE *fp, struct file_list *tp); #define next_word(fp, wd) \ { register const char *word = get_word(fp); \ if (word == (char *)EOF) \ return; \ else \ wd = word; \ } static struct file_list *fcur; const char *tail(const char *fn); char *allCaps(char *str); /* * Lookup a file, by name. */ struct file_list * fl_lookup(char *file) { register struct file_list *fp; for (fp = ftab ; fp != 0; fp = fp->f_next) { if (eq(fp->f_fn, file)) return (fp); } return (0); } /* * Lookup a file, by final component name. */ struct file_list * fltail_lookup(char *file) { register struct file_list *fp; for (fp = ftab ; fp != 0; fp = fp->f_next) { if (eq(tail(fp->f_fn), tail(file))) return (fp); } return (0); } /* * Make a new file list entry */ struct file_list * new_fent(void) { register struct file_list *fp; fp = (struct file_list *) malloc(sizeof *fp); fp->f_needs = 0; fp->f_next = 0; fp->f_flags = 0; fp->f_type = 0; fp->f_extra = (char *) 0; if (fcur == 0) fcur = ftab = fp; else fcur->f_next = fp; fcur = fp; return (fp); } char *COPTS; const char * get_VPATH(void) { static char *vpath = NULL; if ((vpath == NULL) && ((vpath = getenv("VPATH")) != NULL) && (*vpath != ':')) { register char *buf = malloc((unsigned)(strlen(vpath) + 2)); vpath = strcat(strcpy(buf, ":"), vpath); } return vpath ? vpath : ""; } /* * Build the makefile from the skeleton */ void makefile(void) { FILE *ifp, *ofp; FILE *dfp; char pname[BUFSIZ]; char line[BUFSIZ]; struct opt *op; read_files(); (void) sprintf(line, "%s/Makefile.template", config_directory); ifp = fopenp(VPATH, line, pname, "r"); if (ifp == 0) { perror(line); exit(1); } dfp = fopen(path("Makefile"), "r"); rename(path("Makefile"), path("Makefile.old")); unlink(path("Makefile.old")); ofp = fopen(path("Makefile"), "w"); if (ofp == 0) { perror(path("Makefile")); exit(1); } fprintf(ofp, "SOURCE_DIR=%s\n", source_directory); fprintf(ofp, "export CONFIG_DEFINES ="); if (profiling) fprintf(ofp, " -DGPROF"); for (op = opt; op; op = op->op_next) if (op->op_value) fprintf(ofp, " -D%s=\"%s\"", op->op_name, op->op_value); else fprintf(ofp, " -D%s", op->op_name); fprintf(ofp, "\n"); for (op = mkopt; op; op = op->op_next) if (op->op_value) fprintf(ofp, "%s=%s\n", op->op_name, op->op_value); else fprintf(ofp, "%s\n", op->op_name); while (fgets(line, BUFSIZ, ifp) != 0) { if (*line == '%') goto percent; if (profiling && strncmp(line, "COPTS=", 6) == 0) { register char *cp; fprintf(ofp, "GPROF.EX=$(SOURCE_DIR)/machdep/%s/gmon.ex\n", machinename); cp = index(line, '\n'); if (cp) *cp = 0; cp = line + 6; while (*cp && (*cp == ' ' || *cp == '\t')) cp++; COPTS = malloc((unsigned)(strlen(cp) + 1)); if (COPTS == 0) { printf("config: out of memory\n"); exit(1); } strcpy(COPTS, cp); fprintf(ofp, "%s -pg\n", line); continue; } fprintf(ofp, "%s", line); continue; percent: if (eq(line, "%OBJS\n")) { do_objs(ofp, "OBJS=", -1); } else if (eq(line, "%CFILES\n")) { do_files(ofp, "CFILES=", 'c'); do_objs(ofp, "COBJS=", 'c'); } else if (eq(line, "%CXXFILES\n")) { do_files(ofp, "CXXFILES=", 'p'); do_objs(ofp, "CXXOBJS=", 'p'); } else if (eq(line, "%SFILES\n")) { do_files(ofp, "SFILES=", 's'); do_objs(ofp, "SOBJS=", 's'); } else if (eq(line, "%MACHDEP\n")) { do_machdep(ofp); } else if (eq(line, "%RULES\n")) do_rules(ofp); else fprintf(stderr, "Unknown %% construct in generic makefile: %s", line); } if (dfp != NULL) { copy_dependencies(dfp, ofp); (void) fclose(dfp); } (void) fclose(ifp); (void) fclose(ofp); } /* * Read in the information about files used in making the system. * Store it in the ftab linked list. */ void read_files(void) { FILE *fp; register struct file_list *tp, *pf; register struct device *dp; register struct opt *op; const char *wd; char *this, *needs; const char *devorprof; int options; int not_option; char pname[BUFSIZ]; char fname[1024]; char *rest = (char *) 0; int nreqs, first = 1, isdup; ftab = 0; (void) sprintf(fname, "%s/files", config_directory); openit: fp = fopenp(VPATH, fname, pname, "r"); if (fp == 0) { perror(fname); exit(1); } next: options = 0; rest = (char *) 0; /* * filename [ standard | optional ] * [ dev* | profiling-routine ] [ device-driver] */ wd = get_word(fp); if (wd == (char *)EOF) { (void) fclose(fp); if (first == 1) { (void) sprintf(fname, "%s/files.%s", config_directory, machinename); first++; goto openit; } return; } if (wd == 0) goto next; /* * Allow comment lines beginning witha '#' character. */ if (*wd == '#') { while ((wd=get_word(fp)) && wd != (char *)EOF) ; goto next; } this = ns(wd); next_word(fp, wd); if (wd == 0) { printf("%s: No type for %s.\n", fname, this); exit(1); } if ((pf = fl_lookup(this)) && (pf->f_type != INVISIBLE || pf->f_flags)) isdup = 1; else isdup = 0; tp = 0; nreqs = 0; devorprof = ""; needs = 0; if (eq(wd, "standard")) goto checkdev; if (!eq(wd, "optional")) { printf("%s: %s must be optional or standard\n", fname, this); exit(1); } if (strncmp(this, "OPTIONS/", 8) == 0) options++; not_option = 0; nextopt: next_word(fp, wd); if (wd == 0) goto doneopt; if (eq(wd, "not")) { not_option = !not_option; goto nextopt; } devorprof = wd; if (eq(wd, "device-driver") || eq(wd, "profiling-routine")) { next_word(fp, wd); goto save; } nreqs++; if (needs == 0 && nreqs == 1) needs = ns(wd); if (isdup) goto invis; if (options) { struct opt *lop = 0; struct device tdev; /* * Allocate a pseudo-device entry which we will insert into * the device list below. The flags field is set non-zero to * indicate an internal entry rather than one generated from * the configuration file. The slave field is set to define * the corresponding symbol as 0 should we fail to find the * option in the option list. */ init_dev(&tdev); tdev.d_name = ns(wd); tdev.d_type = PSEUDO_DEVICE; tdev.d_flags++; tdev.d_slave = 0; for (op=opt; op; lop=op, op=op->op_next) { char *od = allCaps(ns(wd)); /* * Found an option which matches the current device * dependency identifier. Set the slave field to * define the option in the header file. */ if (strcmp(op->op_name, od) == 0) { tdev.d_slave = 1; if (lop == 0) opt = op->op_next; else lop->op_next = op->op_next; free(op); op = 0; } free(od); if (op == 0) break; } newdev(&tdev); } for (dp = dtab; dp != 0; dp = dp->d_next) { if (eq(dp->d_name, wd) && (dp->d_type != PSEUDO_DEVICE || dp->d_slave)) { if (not_option) goto invis; /* dont want file if option present */ else goto nextopt; } } if (not_option) goto nextopt; /* want file if option missing */ for (op = opt; op != 0; op = op->op_next) if (op->op_value == 0 && opteq(op->op_name, wd)) { if (nreqs == 1) { free(needs); needs = 0; } goto nextopt; } invis: while ((wd = get_word(fp)) != 0) ; if (tp == 0) tp = new_fent(); tp->f_fn = this; tp->f_type = INVISIBLE; tp->f_needs = needs; tp->f_flags = isdup; goto next; doneopt: if (nreqs == 0) { printf("%s: what is %s optional on?\n", fname, this); exit(1); } checkdev: if (wd) { if (*wd == '|') goto getrest; next_word(fp, wd); if (wd) { devorprof = wd; next_word(fp, wd); } } save: getrest: if (wd) { if (*wd == '|') { rest = ns(get_rest(fp)); } else { printf("%s: syntax error describing %s\n", fname, this); exit(1); } } if (eq(devorprof, "profiling-routine") && profiling == 0) goto next; if (tp == 0) tp = new_fent(); tp->f_fn = this; tp->f_extra = rest; if (options) tp->f_type = INVISIBLE; else if (eq(devorprof, "device-driver")) tp->f_type = DRIVER; else if (eq(devorprof, "profiling-routine")) tp->f_type = PROFILING; else tp->f_type = NORMAL; tp->f_flags = 0; tp->f_needs = needs; if (pf && pf->f_type == INVISIBLE) pf->f_flags = 1; /* mark as duplicate */ goto next; } int opteq(const char *cp, const char *dp) { char c, d; for (; ; cp++, dp++) { if (*cp != *dp) { c = isupper(*cp) ? tolower(*cp) : *cp; d = isupper(*dp) ? tolower(*dp) : *dp; if (c != d) return (0); } if (*cp == 0) return (1); } } void put_source_file_name(FILE *fp, struct file_list *tp) { if ((tp->f_fn[0] == '.') && (tp->f_fn[1] == '/')) fprintf(fp, "%s ", tp->f_fn); else fprintf(fp, "$(SOURCE_DIR)/%s ", tp->f_fn); } void do_objs(FILE *fp, const char *msg, int ext) { register struct file_list *tp; register int lpos, len; char *cp; char och; const char *sp; fprintf(fp, "%s", msg); lpos = strlen(msg); for (tp = ftab; tp != 0; tp = tp->f_next) { if (tp->f_type == INVISIBLE) continue; /* * Check for '.o' file in list */ cp = tp->f_fn + (len = strlen(tp->f_fn)) - 1; if (ext != -1 && *cp != ext) continue; else if (*cp == 'o') { if (len + lpos > 72) { lpos = 8; fprintf(fp, "\\\n\t"); } put_source_file_name(fp, tp); fprintf(fp, " "); lpos += len + 1; continue; } sp = tail(tp->f_fn); cp = (char *)sp + (len = strlen(sp)) - 1; och = *cp; *cp = 'o'; if (len + lpos > 72) { lpos = 8; fprintf(fp, "\\\n\t"); } fprintf(fp, "%s ", sp); lpos += len + 1; *cp = och; } putc('\n', fp); } void do_files(FILE *fp, const char *msg, char ext) { register struct file_list *tp; register int lpos, len=0; /* dvw: init to 0 */ fprintf(fp, "%s", msg); lpos = 8; for (tp = ftab; tp != 0; tp = tp->f_next) { if (tp->f_type == INVISIBLE) continue; if (tp->f_fn[strlen(tp->f_fn)-1] != ext) continue; /* * Always generate a newline. * Our Makefile's aren't readable anyway. */ lpos = 8; fprintf(fp, "\\\n\t"); put_source_file_name(fp, tp); lpos += len + 1; } putc('\n', fp); } /* * Include machine dependent makefile in output */ void do_machdep(FILE *ofp) { FILE *ifp; char pname[BUFSIZ]; char line[BUFSIZ]; (void) sprintf(line, "%s/Makefile.%s", config_directory, machinename); ifp = fopenp(VPATH, line, pname, "r"); if (ifp == 0) { perror(line); exit(1); } while (fgets(line, BUFSIZ, ifp) != 0) { if (profiling && (strncmp(line, "LIBS=", 5) == 0)) fprintf(ofp,"LIBS=${LIBS_P}\n"); else fputs(line, ofp); } fclose(ifp); } const char * tail(const char *fn) { register const char *cp; cp = rindex(fn, '/'); if (cp == 0) return (fn); return (cp+1); } /* * Create the makerules for each file * which is part of the system. * Devices are processed with the special c2 option -i * which avoids any problem areas with i/o addressing * (e.g. for the VAX); assembler files are processed by as. */ void do_rules(FILE *f) { char *cp; char *np, och; const char *tp; register struct file_list *ftp; const char *extras = ""; /* dvw: init to "" */ char *source_dir; char och_upper; const char *nl = ""; for (ftp = ftab; ftp != 0; ftp = ftp->f_next) { if (ftp->f_type == INVISIBLE) continue; cp = (np = ftp->f_fn) + strlen(ftp->f_fn) - 1; och = *cp; /* * Don't compile '.o' files */ if (och == 'o') continue; /* * Determine where sources should come from */ if ((np[0] == '.') && (np[1] == '/')) { source_dir = ""; np += 2; } else source_dir = "$(SOURCE_DIR)/"; *cp = '\0'; tp = tail(np); /* dvw: init tp before 'if' */ fprintf(f, "-include %sd\n", tp); fprintf(f, "%so: %s%s%c\n", tp, source_dir, np, och); if (och == 's') { fprintf(f, "\t${S_RULE_0}\n"); fprintf(f, "\t${S_RULE_1A}%s%.*s${S_RULE_1B}%s\n", source_dir, (int)(tp-np), np, nl); fprintf(f, "\t${S_RULE_2}%s\n", nl); continue; } extras = ""; switch (ftp->f_type) { case NORMAL: goto common; break; case DRIVER: extras = "_D"; goto common; break; case PROFILING: if (!profiling) continue; if (COPTS == 0) { fprintf(stderr, "config: COPTS undefined in generic makefile"); COPTS = ""; } extras = "_P"; goto common; common: och_upper = och + 'A' - 'a'; fprintf(f, "\t${%c_RULE_0%s}\n", och_upper, extras); fprintf(f, "\t${%c_RULE_1A%s}", och_upper, extras); if (ftp->f_extra) fprintf(f, "%s", ftp->f_extra); fprintf(f, "%s%.*s${%c_RULE_1B%s}%s\n", source_dir, (int)(tp-np), np, och_upper, extras, nl); /* While we are still using CTF, any build that normally does not support CTF will * a "standard" compile done as well that we can harvest CTF information from; do * that here. */ fprintf(f, "\t${%c_CTFRULE_1A%s}", och_upper, extras); if (ftp->f_extra) fprintf(f, "%s", ftp->f_extra); fprintf(f, "%s%.*s${%c_CTFRULE_1B%s}%s\n", source_dir, (int)(tp-np), np, och_upper, extras, nl); fprintf(f, "\t${%c_RULE_2%s}%s\n", och_upper, extras, nl); fprintf(f, "\t${%c_CTFRULE_2%s}%s\n", och_upper, extras, nl); break; default: printf("Don't know rules for %s\n", np); break; } *cp = och; } } char * allCaps(str) register char *str; { register char *cp = str; while (*str) { if (islower(*str)) *str = toupper(*str); str++; } return (cp); } #define OLDSALUTATION "# DO NOT DELETE THIS LINE" #define LINESIZE 1024 static char makbuf[LINESIZE]; /* one line buffer for makefile */ void copy_dependencies(FILE *makin, FILE *makout) { register int oldlen = (sizeof OLDSALUTATION - 1); while (fgets(makbuf, LINESIZE, makin) != NULL) { if (! strncmp(makbuf, OLDSALUTATION, oldlen)) break; } while (fgets(makbuf, LINESIZE, makin) != NULL) { if (oldlen != 0) { if (makbuf[0] == '\n') continue; else oldlen = 0; } fputs(makbuf, makout); } }