somake/bin/misc.cc

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/*
* 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 <errno.h>
#include <mk/defs.h>
#include <mksh/macro.h> /* SETVAR() */
#include <mksh/misc.h> /* enable_interrupt() */
#include <stdarg.h> /* va_list, va_start(), va_end() */
#include <vroot/report.h> /* SUNPRO_DEPENDENCIES */
#include <libintl.h>
#include <time.h>
#include <unistd.h>
#include <comp/progname.h>
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);
}
}
}