/* * Copyright (c) 1993, 19801990 * The Regents of the University of California. All rights reserved. * * 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. * 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. */ #ifndef lint #if 0 static char sccsid[] = "@(#)mkmakefile.c 8.1 (Berkeley) 6/6/93"; #endif static const char rcsid[] = "$FreeBSD$"; #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 #include #include #include #include "y.tab.h" #include "config.h" #include "configvers.h" #define next_word(fp, wd) \ { char *word = get_word(fp); \ if (word == (char *)EOF) \ return; \ else \ wd = word; \ } #define next_quoted_word(fp, wd) \ { char *word = get_quoted_word(fp); \ if (word == (char *)EOF) \ return; \ else \ wd = word; \ } static char *tail(char *); static void do_clean(FILE *); static void do_rules(FILE *); static void do_xxfiles(char *, FILE *); static void do_objs(FILE *); static void do_before_depend(FILE *); static int opteq(const char *, const char *); static void read_files(void); /* * Lookup a file, by name. */ static struct file_list * fl_lookup(char *file) { struct file_list *fp; STAILQ_FOREACH(fp, &ftab, f_next) { if (eq(fp->f_fn, file)) return (fp); } return (0); } /* * Make a new file list entry */ static struct file_list * new_fent(void) { struct file_list *fp; fp = (struct file_list *) calloc(1, sizeof *fp); if (fp == NULL) err(EXIT_FAILURE, "calloc"); STAILQ_INSERT_TAIL(&ftab, fp, f_next); return (fp); } /* * Open the correct Makefile and return it, or error out. */ FILE * open_makefile_template(void) { FILE *ifp; char line[BUFSIZ]; snprintf(line, sizeof(line), "../../conf/Makefile.%s", machinename); ifp = fopen(line, "r"); if (ifp == 0) { snprintf(line, sizeof(line), "Makefile.%s", machinename); ifp = fopen(line, "r"); } if (ifp == 0) err(1, "%s", line); return (ifp); } /* * Build the makefile from the skeleton */ void makefile(void) { FILE *ifp, *ofp; char line[BUFSIZ]; struct opt *op, *t; read_files(); ifp = open_makefile_template(); ofp = fopen(path("Makefile.new"), "w"); if (ofp == 0) err(1, "%s", path("Makefile.new")); fprintf(ofp, "KERN_IDENT=%s\n", ident); SLIST_FOREACH_SAFE(op, &mkopt, op_next, t) { fprintf(ofp, "%s=%s", op->op_name, op->op_value); while ((op = SLIST_NEXT(op, op_append)) != NULL) fprintf(ofp, " %s", op->op_value); fprintf(ofp, "\n"); } if (debugging) fprintf(ofp, "DEBUG=-g\n"); if (profiling) fprintf(ofp, "PROFLEVEL=%d\n", profiling); if (*srcdir != '\0') fprintf(ofp,"S=%s\n", srcdir); while (fgets(line, BUFSIZ, ifp) != 0) { if (*line != '%') { fprintf(ofp, "%s", line); continue; } if (eq(line, "%BEFORE_DEPEND\n")) do_before_depend(ofp); else if (eq(line, "%OBJS\n")) do_objs(ofp); else if (strncmp(line, "%FILES.", 7) == 0) do_xxfiles(line, ofp); else if (eq(line, "%RULES\n")) do_rules(ofp); else if (eq(line, "%CLEAN\n")) do_clean(ofp); else if (strncmp(line, "%VERSREQ=", 9) == 0) line[0] = '\0'; /* handled elsewhere */ else fprintf(stderr, "Unknown %% construct in generic makefile: %s", line); } (void) fclose(ifp); (void) fclose(ofp); moveifchanged(path("Makefile.new"), path("Makefile")); } /* * Build hints.c from the skeleton */ void makehints(void) { FILE *ifp, *ofp; char line[BUFSIZ]; char *s; struct hint *hint; ofp = fopen(path("hints.c.new"), "w"); if (ofp == NULL) err(1, "%s", path("hints.c.new")); fprintf(ofp, "#include \n"); fprintf(ofp, "#include \n"); fprintf(ofp, "\n"); fprintf(ofp, "int hintmode = %d;\n", hintmode); fprintf(ofp, "char static_hints[] = {\n"); STAILQ_FOREACH(hint, &hints, hint_next) { ifp = fopen(hint->hint_name, "r"); if (ifp == NULL) err(1, "%s", hint->hint_name); while (fgets(line, BUFSIZ, ifp) != 0) { /* zap trailing CR and/or LF */ while ((s = rindex(line, '\n')) != NULL) *s = '\0'; while ((s = rindex(line, '\r')) != NULL) *s = '\0'; /* remove # comments */ s = index(line, '#'); if (s) *s = '\0'; /* remove any whitespace and " characters */ s = line; while (*s) { if (*s == ' ' || *s == '\t' || *s == '"') { while (*s) { s[0] = s[1]; s++; } /* start over */ s = line; continue; } s++; } /* anything left? */ if (*line == '\0') continue; fprintf(ofp, "\"%s\\0\"\n", line); } fclose(ifp); } fprintf(ofp, "\"\\0\"\n};\n"); fclose(ofp); moveifchanged(path("hints.c.new"), path("hints.c")); } /* * Build env.c from the skeleton */ void makeenv(void) { FILE *ifp, *ofp; char line[BUFSIZ]; char *s; if (env) { ifp = fopen(env, "r"); if (ifp == NULL) err(1, "%s", env); } else { ifp = NULL; } ofp = fopen(path("env.c.new"), "w"); if (ofp == NULL) err(1, "%s", path("env.c.new")); fprintf(ofp, "#include \n"); fprintf(ofp, "#include \n"); fprintf(ofp, "\n"); fprintf(ofp, "int envmode = %d;\n", envmode); fprintf(ofp, "char static_env[] = {\n"); if (ifp) { while (fgets(line, BUFSIZ, ifp) != 0) { /* zap trailing CR and/or LF */ while ((s = rindex(line, '\n')) != NULL) *s = '\0'; while ((s = rindex(line, '\r')) != NULL) *s = '\0'; /* remove # comments */ s = index(line, '#'); if (s) *s = '\0'; /* remove any whitespace and " characters */ s = line; while (*s) { if (*s == ' ' || *s == '\t' || *s == '"') { while (*s) { s[0] = s[1]; s++; } /* start over */ s = line; continue; } s++; } /* anything left? */ if (*line == '\0') continue; fprintf(ofp, "\"%s\\0\"\n", line); } } fprintf(ofp, "\"\\0\"\n};\n"); if (ifp) fclose(ifp); fclose(ofp); moveifchanged(path("env.c.new"), path("env.c")); } static void read_file(char *fname) { char ifname[MAXPATHLEN]; FILE *fp; struct file_list *tp; struct device *dp; struct opt *op; char *wd, *this, *compilewith, *depends, *clean, *warning; int compile, match, nreqs, std, filetype, imp_rule, no_obj, before_depend, mandatory, nowerror; fp = fopen(fname, "r"); if (fp == 0) err(1, "%s", fname); next: /* * include "filename" * filename [ standard | mandatory | optional ] * [ dev* [ | dev* ... ] | profiling-routine ] [ no-obj ] * [ compile-with "compile rule" [no-implicit-rule] ] * [ dependency "dependency-list"] [ before-depend ] * [ clean "file-list"] [ warning "text warning" ] */ wd = get_word(fp); if (wd == (char *)EOF) { (void) fclose(fp); return; } if (wd == 0) goto next; if (wd[0] == '#') { while (((wd = get_word(fp)) != (char *)EOF) && wd) ; goto next; } if (eq(wd, "include")) { next_quoted_word(fp, wd); if (wd == 0) { printf("%s: missing include filename.\n", fname); exit(1); } (void) snprintf(ifname, sizeof(ifname), "../../%s", wd); read_file(ifname); while (((wd = get_word(fp)) != (char *)EOF) && wd) ; goto next; } this = ns(wd); next_word(fp, wd); if (wd == 0) { printf("%s: No type for %s.\n", fname, this); exit(1); } tp = fl_lookup(this); compile = 0; match = 1; nreqs = 0; compilewith = 0; depends = 0; clean = 0; warning = 0; std = mandatory = 0; imp_rule = 0; no_obj = 0; before_depend = 0; nowerror = 0; filetype = NORMAL; if (eq(wd, "standard")) { std = 1; /* * If an entry is marked "mandatory", config will abort if it's * not called by a configuration line in the config file. Apart * from this, the device is handled like one marked "optional". */ } else if (eq(wd, "mandatory")) { mandatory = 1; } else if (!eq(wd, "optional")) { printf("%s: %s must be optional, mandatory or standard\n", fname, this); exit(1); } nextparam: next_word(fp, wd); if (wd == 0) { compile += match; if (compile && tp == NULL) goto doneparam; goto next; } if (eq(wd, "|")) { if (nreqs == 0) { printf("%s: syntax error describing %s\n", fname, this); exit(1); } compile += match; match = 1; nreqs = 0; goto nextparam; } if (eq(wd, "no-obj")) { no_obj++; goto nextparam; } if (eq(wd, "no-implicit-rule")) { if (compilewith == 0) { printf("%s: alternate rule required when " "\"no-implicit-rule\" is specified.\n", fname); } imp_rule++; goto nextparam; } if (eq(wd, "before-depend")) { before_depend++; goto nextparam; } if (eq(wd, "dependency")) { next_quoted_word(fp, wd); if (wd == 0) { printf("%s: %s missing compile command string.\n", fname, this); exit(1); } depends = ns(wd); goto nextparam; } if (eq(wd, "clean")) { next_quoted_word(fp, wd); if (wd == 0) { printf("%s: %s missing clean file list.\n", fname, this); exit(1); } clean = ns(wd); goto nextparam; } if (eq(wd, "compile-with")) { next_quoted_word(fp, wd); if (wd == 0) { printf("%s: %s missing compile command string.\n", fname, this); exit(1); } compilewith = ns(wd); goto nextparam; } if (eq(wd, "warning")) { next_quoted_word(fp, wd); if (wd == 0) { printf("%s: %s missing warning text string.\n", fname, this); exit(1); } warning = ns(wd); goto nextparam; } nreqs++; if (eq(wd, "local")) { filetype = LOCAL; goto nextparam; } if (eq(wd, "no-depend")) { filetype = NODEPEND; goto nextparam; } if (eq(wd, "profiling-routine")) { filetype = PROFILING; goto nextparam; } if (eq(wd, "nowerror")) { nowerror = 1; goto nextparam; } STAILQ_FOREACH(dp, &dtab, d_next) if (eq(dp->d_name, wd)) { dp->d_done |= DEVDONE; goto nextparam; } if (mandatory) { printf("%s: mandatory device \"%s\" not found\n", fname, wd); exit(1); } if (std) { printf("standard entry %s has a device keyword - %s!\n", this, wd); exit(1); } SLIST_FOREACH(op, &opt, op_next) if (op->op_value == 0 && opteq(op->op_name, wd)) goto nextparam; match = 0; goto nextparam; doneparam: if (std == 0 && nreqs == 0) { printf("%s: what is %s optional on?\n", fname, this); exit(1); } if (wd) { printf("%s: syntax error describing %s\n", fname, this); exit(1); } if (filetype == PROFILING && profiling == 0) goto next; tp = new_fent(); tp->f_fn = this; tp->f_type = filetype; if (imp_rule) tp->f_flags |= NO_IMPLCT_RULE; if (no_obj) tp->f_flags |= NO_OBJ; if (before_depend) tp->f_flags |= BEFORE_DEPEND; if (nowerror) tp->f_flags |= NOWERROR; tp->f_compilewith = compilewith; tp->f_depends = depends; tp->f_clean = clean; tp->f_warn = warning; goto next; } /* * Read in the information about files used in making the system. * Store it in the ftab linked list. */ static void read_files(void) { char fname[MAXPATHLEN]; struct files_name *nl, *tnl; (void) snprintf(fname, sizeof(fname), "../../conf/files"); read_file(fname); (void) snprintf(fname, sizeof(fname), "../../conf/files.%s", machinename); read_file(fname); for (nl = STAILQ_FIRST(&fntab); nl != NULL; nl = tnl) { read_file(nl->f_name); tnl = STAILQ_NEXT(nl, f_next); free(nl->f_name); free(nl); } } static 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); } } static void do_before_depend(FILE *fp) { struct file_list *tp; int lpos, len; fputs("BEFORE_DEPEND=", fp); lpos = 15; STAILQ_FOREACH(tp, &ftab, f_next) if (tp->f_flags & BEFORE_DEPEND) { len = strlen(tp->f_fn); if ((len = 3 + len) + lpos > 72) { lpos = 8; fputs("\\\n\t", fp); } if (tp->f_flags & NO_IMPLCT_RULE) fprintf(fp, "%s ", tp->f_fn); else fprintf(fp, "$S/%s ", tp->f_fn); lpos += len + 1; } if (lpos != 8) putc('\n', fp); } static void do_objs(FILE *fp) { struct file_list *tp; int lpos, len; char *cp, och, *sp; fprintf(fp, "OBJS="); lpos = 6; STAILQ_FOREACH(tp, &ftab, f_next) { if (tp->f_flags & NO_OBJ) continue; sp = tail(tp->f_fn); cp = sp + (len = strlen(sp)) - 1; och = *cp; *cp = 'o'; if (len + lpos > 72) { lpos = 8; fprintf(fp, "\\\n\t"); } fprintf(fp, "%s ", sp); lpos += len + 1; *cp = och; } if (lpos != 8) putc('\n', fp); } static void do_xxfiles(char *tag, FILE *fp) { struct file_list *tp; int lpos, len, slen; char *suff, *SUFF; if (tag[strlen(tag) - 1] == '\n') tag[strlen(tag) - 1] = '\0'; suff = ns(tag + 7); SUFF = ns(suff); raisestr(SUFF); slen = strlen(suff); fprintf(fp, "%sFILES=", SUFF); lpos = 8; STAILQ_FOREACH(tp, &ftab, f_next) if (tp->f_type != NODEPEND) { len = strlen(tp->f_fn); if (tp->f_fn[len - slen - 1] != '.') continue; if (strcasecmp(&tp->f_fn[len - slen], suff) != 0) continue; if ((len = 3 + len) + lpos > 72) { lpos = 8; fputs("\\\n\t", fp); } if (tp->f_type != LOCAL) fprintf(fp, "$S/%s ", tp->f_fn); else fprintf(fp, "%s ", tp->f_fn); lpos += len + 1; } if (lpos != 8) putc('\n', fp); } static char * tail(char *fn) { 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. */ static void do_rules(FILE *f) { char *cp, *np, och; struct file_list *ftp; char *compilewith; STAILQ_FOREACH(ftp, &ftab, f_next) { if (ftp->f_warn) printf("WARNING: %s\n", ftp->f_warn); cp = (np = ftp->f_fn) + strlen(ftp->f_fn) - 1; och = *cp; if (ftp->f_flags & NO_IMPLCT_RULE) { if (ftp->f_depends) fprintf(f, "%s: %s\n", np, ftp->f_depends); else fprintf(f, "%s: \n", np); } else { *cp = '\0'; if (och == 'o') { fprintf(f, "%so:\n\t-cp $S/%so .\n\n", tail(np), np); continue; } if (ftp->f_depends) { fprintf(f, "%sln: $S/%s%c %s\n", tail(np), np, och, ftp->f_depends); fprintf(f, "\t${NORMAL_LINT}\n\n"); fprintf(f, "%so: $S/%s%c %s\n", tail(np), np, och, ftp->f_depends); } else { fprintf(f, "%sln: $S/%s%c\n", tail(np), np, och); fprintf(f, "\t${NORMAL_LINT}\n\n"); fprintf(f, "%so: $S/%s%c\n", tail(np), np, och); } } compilewith = ftp->f_compilewith; if (compilewith == 0) { const char *ftype = NULL; static char cmd[128]; switch (ftp->f_type) { case NORMAL: ftype = "NORMAL"; break; case PROFILING: if (!profiling) continue; ftype = "PROFILE"; break; default: printf("config: don't know rules for %s\n", np); break; } snprintf(cmd, sizeof(cmd), "${%s_%c%s}\n\t@${NORMAL_CTFCONVERT}", ftype, toupper(och), ftp->f_flags & NOWERROR ? "_NOWERROR" : ""); compilewith = cmd; } *cp = och; fprintf(f, "\t%s\n\n", compilewith); } } static void do_clean(FILE *fp) { struct file_list *tp; int lpos, len; fputs("CLEAN=", fp); lpos = 7; STAILQ_FOREACH(tp, &ftab, f_next) if (tp->f_clean) { len = strlen(tp->f_clean); if (len + lpos > 72) { lpos = 8; fputs("\\\n\t", fp); } fprintf(fp, "%s ", tp->f_clean); lpos += len + 1; } if (lpos != 8) putc('\n', fp); } char * raisestr(char *str) { char *cp = str; while (*str) { if (islower(*str)) *str = toupper(*str); str++; } return (cp); }