/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * misc.cc * * This file contains various unclassified routines. Some main groups: * getname * Memory allocation * String handling * Property handling * Error message handling * Make internal state dumping * main routine support */ /* * Included files */ #include #include #include /* SETVAR() */ #include /* enable_interrupt() */ #include /* va_list, va_start(), va_end() */ #include /* SUNPRO_DEPENDENCIES */ #include #include #include #include extern void job_adjust_fini(); /* * Defined macros */ /* * typedefs & structs */ /* * Static variables */ /* * File table of contents */ static void print_rule(register Name target); static void print_target_n_deps(register Name target); /***************************************** * * getname */ /***************************************** * * Memory allocation */ /* * free_chain() * * frees a chain of Name_vector's * * Parameters: * ptr Pointer to the first element in the chain * to be freed. * * Global variables used: */ void free_chain(Name_vector ptr) { if (ptr != NULL) { if (ptr->next != NULL) { free_chain(ptr->next); } free((char *) ptr); } } /***************************************** * * String manipulation */ /***************************************** * * Nameblock property handling */ /***************************************** * * Error message handling */ /* * fatal(format, args...) * * Print a message and die * * Parameters: * format printf type format string * args Arguments to match the format * * Global variables used: * fatal_in_progress Indicates if this is a recursive call * parallel_process_cnt Do we need to wait for anything? * report_pwd Should we report the current path? */ /*VARARGS*/ void fatal(const char *message, ...) { va_list args; va_start(args, message); (void) fflush(stdout); (void) fprintf(stderr, gettext("%s: Fatal error: "), getprogname()); (void) vfprintf(stderr, message, args); (void) fprintf(stderr, "\n"); va_end(args); if (report_pwd) { (void) fprintf(stderr, gettext("Current working directory %s\n"), get_current_path()); } (void) fflush(stderr); if (fatal_in_progress) { exit_status = 1; exit(1); } fatal_in_progress = true; /* Let all parallel children finish */ if ((dmake_mode_type == parallel_mode) && (parallel_process_cnt > 0)) { (void) fprintf(stderr, gettext("Waiting for %d %s to finish\n"), parallel_process_cnt, parallel_process_cnt == 1 ? gettext("job") : gettext("jobs")); (void) fflush(stderr); } while (parallel_process_cnt > 0) { await_parallel(true); finish_children(false); } job_adjust_fini(); exit_status = 1; exit(1); } /* * warning(format, args...) * * Print a message and continue. * * Parameters: * format printf type format string * args Arguments to match the format * * Global variables used: * report_pwd Should we report the current path? */ /*VARARGS*/ void warning(char * message, ...) { va_list args; va_start(args, message); (void) fflush(stdout); (void) fprintf(stderr, gettext("%s: Warning: "), getprogname()); (void) vfprintf(stderr, message, args); (void) fprintf(stderr, "\n"); va_end(args); if (report_pwd) { (void) fprintf(stderr, gettext("Current working directory %s\n"), get_current_path()); } (void) fflush(stderr); } /* * time_to_string(time) * * Take a numeric time value and produce * a proper string representation. * * Return value: * The string representation of the time * * Parameters: * time The time we need to translate * * Global variables used: */ char * time_to_string(const timestruc_t &time) { struct tm *tm; char buf[128]; if (time == file_doesnt_exist) { return gettext("File does not exist"); } if (time == file_max_time) { return gettext("Younger than any file"); } tm = localtime(&time.tv_sec); strftime(buf, sizeof (buf), "%c %Z", tm); buf[127] = (int) nul_char; return strdup(buf); } /* * get_current_path() * * Stuff current_path with the current path if it isnt there already. * * Parameters: * * Global variables used: */ char * get_current_path(void) { char pwd[(MAXPATHLEN * MB_LEN_MAX)]; static char *current_path; if (current_path == NULL) { getcwd(pwd, sizeof(pwd)); if (pwd[0] == (int) nul_char) { pwd[0] = (int) slash_char; pwd[1] = (int) nul_char; } current_path = strdup(pwd); } return current_path; } /***************************************** * * Make internal state dumping * * This is a set of routines for dumping the internal make state * Used for the -p option */ /* * dump_make_state() * * Dump make's internal state to stdout * * Parameters: * * Global variables used: * svr4 Was ".SVR4" seen in makefile? * svr4_name The Name ".SVR4", printed * posix Was ".POSIX" seen in makefile? * posix_name The Name ".POSIX", printed * default_rule Points to the .DEFAULT rule * default_rule_name The Name ".DEFAULT", printed * default_target_to_build The first target to print * dot_keep_state The Name ".KEEP_STATE", printed * dot_keep_state_file The Name ".KEEP_STATE_FILE", printed * hashtab The make hash table for Name blocks * ignore_errors Was ".IGNORE" seen in makefile? * ignore_name The Name ".IGNORE", printed * keep_state Was ".KEEP_STATE" seen in makefile? * percent_list The list of % rules * precious The Name ".PRECIOUS", printed * sccs_get_name The Name ".SCCS_GET", printed * sccs_get_posix_name The Name ".SCCS_GET_POSIX", printed * get_name The Name ".GET", printed * get_posix_name The Name ".GET_POSIX", printed * sccs_get_rule Points to the ".SCCS_GET" rule * silent Was ".SILENT" seen in makefile? * silent_name The Name ".SILENT", printed * suffixes The suffix list from ".SUFFIXES" * suffixes_name The Name ".SUFFIX", printed */ void dump_make_state(void) { Name_set::iterator p, e; register Property prop; register Dependency dep; register Cmd_line rule; Percent percent, percent_depe; /* Default target */ if (default_target_to_build != NULL) { print_rule(default_target_to_build); } (void) printf("\n"); /* .POSIX */ if (posix) { (void) printf("%s:\n", posix_name->string_mb); } /* .DEFAULT */ if (default_rule != NULL) { (void) printf("%s:\n", default_rule_name->string_mb); for (rule = default_rule; rule != NULL; rule = rule->next) { (void) printf("\t%s\n", rule->command_line->string_mb); } } /* .IGNORE */ if (ignore_errors) { (void) printf("%s:\n", ignore_name->string_mb); } /* .KEEP_STATE: */ if (keep_state) { (void) printf("%s:\n\n", dot_keep_state->string_mb); } /* .PRECIOUS */ (void) printf("%s:", precious->string_mb); for (p = hashtab.begin(), e = hashtab.end(); p != e; p++) { if ((p->stat.is_precious) || (all_precious)) { (void) printf(" %s", p->string_mb); } } (void) printf("\n"); /* .SCCS_GET */ if (sccs_get_rule != NULL) { (void) printf("%s:\n", sccs_get_name->string_mb); for (rule = sccs_get_rule; rule != NULL; rule = rule->next) { (void) printf("\t%s\n", rule->command_line->string_mb); } } /* .SILENT */ if (silent) { (void) printf("%s:\n", silent_name->string_mb); } /* .SUFFIXES: */ (void) printf("%s:", suffixes_name->string_mb); for (dep = suffixes; dep != NULL; dep = dep->next) { (void) printf(" %s", dep->name->string_mb); build_suffix_list(dep->name); } (void) printf("\n\n"); /* % rules */ for (percent = percent_list; percent != NULL; percent = percent->next) { (void) printf("%s:", percent->name->string_mb); for (percent_depe = percent->dependencies; percent_depe != NULL; percent_depe = percent_depe->next) { (void) printf(" %s", percent_depe->name->string_mb); } (void) printf("\n"); for (rule = percent->command_template; rule != NULL; rule = rule->next) { (void) printf("\t%s\n", rule->command_line->string_mb); } } /* Suffix rules */ for (p = hashtab.begin(), e = hashtab.end(); p != e; p++) { Wstring wcb(p); if (wcb.get_string()[0] == (int) period_char) { print_rule(p); } } /* Macro assignments */ for (p = hashtab.begin(), e = hashtab.end(); p != e; p++) { if (((prop = get_prop(p->prop, macro_prop)) != NULL) && (prop->body.macro.value != NULL)) { (void) printf("%s", p->string_mb); print_value(prop->body.macro.value, (Daemon) prop->body.macro.daemon); } } (void) printf("\n"); /* Conditional macro assignments */ for (p = hashtab.begin(), e = hashtab.end(); p != e; p++) { for (prop = get_prop(p->prop, conditional_prop); prop != NULL; prop = get_prop(prop->next, conditional_prop)) { (void) printf("%s := %s", p->string_mb, prop->body.conditional.name-> string_mb); if (prop->body.conditional.append) { printf(" +"); } else { printf(" "); } print_value(prop->body.conditional.value, no_daemon); } } (void) printf("\n"); /* All other dependencies */ for (p = hashtab.begin(), e = hashtab.end(); p != e; p++) { if (p->colons != no_colon) { print_rule(p); } } (void) printf("\n"); } /* * print_rule(target) * * Print the rule for one target * * Parameters: * target Target we print rule for * * Global variables used: */ static void print_rule(register Name target) { register Cmd_line rule; register Property line; register Dependency dependency; if (target->dependency_printed || ((line = get_prop(target->prop, line_prop)) == NULL) || ((line->body.line.command_template == NULL) && (line->body.line.dependencies == NULL))) { return; } target->dependency_printed = true; (void) printf("%s:", target->string_mb); for (dependency = line->body.line.dependencies; dependency != NULL; dependency = dependency->next) { (void) printf(" %s", dependency->name->string_mb); } (void) printf("\n"); for (rule = line->body.line.command_template; rule != NULL; rule = rule->next) { (void) printf("\t%s\n", rule->command_line->string_mb); } } void dump_target_list(void) { Name_set::iterator p, e; Wstring str; for (p = hashtab.begin(), e = hashtab.end(); p != e; p++) { str.init(p); wchar_t * wcb = str.get_string(); if ((p->colons != no_colon) && ((wcb[0] != (int) period_char) || ((wcb[0] == (int) period_char) && (wcschr(wcb, (int) slash_char))))) { print_target_n_deps(p); } } } static void print_target_n_deps(register Name target) { register Cmd_line rule; register Property line; register Dependency dependency; if (target->dependency_printed) { return; } target->dependency_printed = true; (void) printf("%s\n", target->string_mb); if ((line = get_prop(target->prop, line_prop)) == NULL) { return; } for (dependency = line->body.line.dependencies; dependency != NULL; dependency = dependency->next) { if (!dependency->automatic) { print_target_n_deps(dependency->name); } } } /***************************************** * * main() support */ /* * load_cached_names() * * Load the vector of cached names * * Parameters: * * Global variables used: * Many many pointers to Name blocks. */ void load_cached_names(void) { char *cp; Name dollar; /* Load the cached_names struct */ MBSTOWCS(wcs_buffer, ".BUILT_LAST_MAKE_RUN"); built_last_make_run = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, "@"); c_at = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, " *conditionals* "); conditionals = GETNAME(wcs_buffer, FIND_LENGTH); /* * A version of make was released with NSE 1.0 that used * VERSION-1.1 but this version is identical to VERSION-1.0. * The version mismatch code makes a special case for this * situation. If the version number is changed from 1.0 * it should go to 1.2. */ MBSTOWCS(wcs_buffer, "VERSION-1.0"); current_make_version = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".SVR4"); svr4_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".POSIX"); posix_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".DEFAULT"); default_rule_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, "$"); dollar = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".DONE"); done = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, "."); dot = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".KEEP_STATE"); dot_keep_state = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".KEEP_STATE_FILE"); dot_keep_state_file = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ""); empty_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, " FORCE"); force = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, "HOST_ARCH"); host_arch = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, "HOST_MACH"); host_mach = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".IGNORE"); ignore_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".INIT"); init = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".LOCAL"); localhost_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".make.state"); make_state = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, "MAKEFLAGS"); makeflags = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".MAKE_VERSION"); make_version = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".NO_PARALLEL"); no_parallel_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".NOT_AUTO"); not_auto = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".PARALLEL"); parallel_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, "PATH"); path_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, "+"); plus = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".PRECIOUS"); precious = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, "?"); query = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, "^"); hat = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".RECURSIVE"); recursive_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".SCCS_GET"); sccs_get_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".SCCS_GET_POSIX"); sccs_get_posix_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".GET"); get_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".GET_POSIX"); get_posix_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, "SHELL"); shell_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".SILENT"); silent_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".SUFFIXES"); suffixes_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, SUNPRO_DEPENDENCIES); sunpro_dependencies = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, "TARGET_ARCH"); target_arch = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, "TARGET_MACH"); target_mach = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, "VIRTUAL_ROOT"); virtual_root = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, "VPATH"); vpath_name = GETNAME(wcs_buffer, FIND_LENGTH); MBSTOWCS(wcs_buffer, ".WAIT"); wait_name = GETNAME(wcs_buffer, FIND_LENGTH); wait_name->state = build_ok; /* Mark special targets so that the reader treats them properly */ svr4_name->special_reader = svr4_special; posix_name->special_reader = posix_special; built_last_make_run->special_reader = built_last_make_run_special; default_rule_name->special_reader = default_special; dot_keep_state->special_reader = keep_state_special; dot_keep_state_file->special_reader = keep_state_file_special; ignore_name->special_reader = ignore_special; make_version->special_reader = make_version_special; no_parallel_name->special_reader = no_parallel_special; parallel_name->special_reader = parallel_special; localhost_name->special_reader = localhost_special; precious->special_reader = precious_special; sccs_get_name->special_reader = sccs_get_special; sccs_get_posix_name->special_reader = sccs_get_posix_special; get_name->special_reader = get_special; get_posix_name->special_reader = get_posix_special; silent_name->special_reader = silent_special; suffixes_name->special_reader = suffixes_special; /* The value of $$ is $ */ (void) SETVAR(dollar, dollar, false); dollar->dollar = false; /* Set the value of $(SHELL) */ if (posix) { MBSTOWCS(wcs_buffer, "/usr/xpg4/bin/sh"); } else { MBSTOWCS(wcs_buffer, "/bin/sh"); } (void) SETVAR(shell_name, GETNAME(wcs_buffer, FIND_LENGTH), false); /* * Use " FORCE" to simulate a FRC dependency for :: type * targets with no dependencies. */ (void) append_prop(force, line_prop); force->stat.time = file_max_time; /* Make sure VPATH is defined before current dir is read */ if ((cp = getenv(vpath_name->string_mb)) != NULL) { MBSTOWCS(wcs_buffer, cp); (void) SETVAR(vpath_name, GETNAME(wcs_buffer, FIND_LENGTH), false); } /* Check if there is NO PATH variable. If not we construct one. */ if (getenv(path_name->string_mb) == NULL) { vroot_path = NULL; add_dir_to_path(".", &vroot_path, -1); add_dir_to_path("/bin", &vroot_path, -1); add_dir_to_path("/usr/bin", &vroot_path, -1); } } /* * iterate on list of conditional macros in np, and place them in * a String_rec starting with, and separated by the '$' character. */ void cond_macros_into_string(Name np, String_rec *buffer) { Macro_list macro_list; /* * Put the version number at the start of the string */ MBSTOWCS(wcs_buffer, DEPINFO_FMT_VERSION); append_string(wcs_buffer, buffer, FIND_LENGTH); /* * Add the rest of the conditional macros to the buffer */ if (np->depends_on_conditional){ for (macro_list = np->conditional_macro_list; macro_list != NULL; macro_list = macro_list->next){ append_string(macro_list->macro_name, buffer, FIND_LENGTH); append_char((int) equal_char, buffer); append_string(macro_list->value, buffer, FIND_LENGTH); append_char((int) dollar_char, buffer); } } }