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|
/* $NetBSD: rcorder.c,v 1.6 2000/07/19 09:58:03 enami Exp $ */
/*
* Copyright (c) 1998, 1999 Matthew R. Green
* All rights reserved.
* Copyright (c) 1998
* Perry E. Metzger. 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.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed for the NetBSD Project
* by Perry E. Metzger.
* 4. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 AUTHOR 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.
*/
#include <sys/types.h>
#include <sys/stat.h>
#include <err.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <util.h>
#include "ealloc.h"
#include "sprite.h"
#include "hash.h"
#ifdef DEBUG
int debug = 0;
# define DPRINTF(args) if (debug) { fflush(stdout); fprintf args; }
#else
# define DPRINTF(args)
#endif
#define REQUIRE_STR "# REQUIRE:"
#define REQUIRE_LEN (sizeof(REQUIRE_STR) - 1)
#define REQUIRES_STR "# REQUIRES:"
#define REQUIRES_LEN (sizeof(REQUIRES_STR) - 1)
#define PROVIDE_STR "# PROVIDE:"
#define PROVIDE_LEN (sizeof(PROVIDE_STR) - 1)
#define PROVIDES_STR "# PROVIDES:"
#define PROVIDES_LEN (sizeof(PROVIDES_STR) - 1)
#define BEFORE_STR "# BEFORE:"
#define BEFORE_LEN (sizeof(BEFORE_STR) - 1)
#define KEYWORD_STR "# KEYWORD:"
#define KEYWORD_LEN (sizeof(KEYWORD_STR) - 1)
#define KEYWORDS_STR "# KEYWORDS:"
#define KEYWORDS_LEN (sizeof(KEYWORDS_STR) - 1)
int exit_code;
int file_count;
char **file_list;
typedef int bool;
#define TRUE 1
#define FALSE 0
typedef bool flag;
#define SET TRUE
#define RESET FALSE
Hash_Table provide_hash_s, *provide_hash;
typedef struct provnode provnode;
typedef struct filenode filenode;
typedef struct f_provnode f_provnode;
typedef struct f_reqnode f_reqnode;
typedef struct strnodelist strnodelist;
struct provnode {
flag head;
flag in_progress;
filenode *fnode;
provnode *next, *last;
};
struct f_provnode {
provnode *pnode;
f_provnode *next;
};
struct f_reqnode {
Hash_Entry *entry;
f_reqnode *next;
};
struct strnodelist {
filenode *node;
strnodelist *next;
char s[1];
};
struct filenode {
char *filename;
flag in_progress;
filenode *next, *last;
f_reqnode *req_list;
f_provnode *prov_list;
strnodelist *keyword_list;
};
filenode fn_head_s, *fn_head;
strnodelist *bl_list;
strnodelist *keep_list;
strnodelist *skip_list;
void do_file __P((filenode *fnode));
void strnode_add __P((strnodelist **, char *, filenode *));
int skip_ok __P((filenode *fnode));
int keep_ok __P((filenode *fnode));
void satisfy_req __P((f_reqnode *rnode, char *filename));
void crunch_file __P((char *));
void parse_require __P((filenode *, char *));
void parse_provide __P((filenode *, char *));
void parse_before __P((filenode *, char *));
void parse_keywords __P((filenode *, char *));
filenode *filenode_new __P((char *));
void add_require __P((filenode *, char *));
void add_provide __P((filenode *, char *));
void add_before __P((filenode *, char *));
void add_keyword __P((filenode *, char *));
void insert_before __P((void));
Hash_Entry *make_fake_provision __P((filenode *));
void crunch_all_files __P((void));
void initialize __P((void));
void generate_ordering __P((void));
int main __P((int, char *[]));
int
main(argc, argv)
int argc;
char *argv[];
{
int ch;
while ((ch = getopt(argc, argv, "dk:s:")) != -1)
switch (ch) {
case 'd':
#ifdef DEBUG
debug = 1;
#else
warnx("debugging not compiled in, -d ignored");
#endif
break;
case 'k':
strnode_add(&keep_list, optarg, 0);
break;
case 's':
strnode_add(&skip_list, optarg, 0);
break;
default:
/* XXX should crunch it? */
break;
}
argc -= optind;
argv += optind;
file_count = argc;
file_list = argv;
DPRINTF((stderr, "parse_args\n"));
initialize();
DPRINTF((stderr, "initialize\n"));
crunch_all_files();
DPRINTF((stderr, "crunch_all_files\n"));
generate_ordering();
DPRINTF((stderr, "generate_ordering\n"));
exit(exit_code);
}
/*
* initialise various variables.
*/
void
initialize()
{
fn_head = &fn_head_s;
provide_hash = &provide_hash_s;
Hash_InitTable(provide_hash, file_count);
}
/* generic function to insert a new strnodelist element */
void
strnode_add(listp, s, fnode)
strnodelist **listp;
char *s;
filenode *fnode;
{
strnodelist *ent;
ent = emalloc(sizeof *ent + strlen(s));
ent->node = fnode;
strcpy(ent->s, s);
ent->next = *listp;
*listp = ent;
}
/*
* below are the functions that deal with creating the lists
* from the filename's given and the dependancies and provisions
* in each of these files. no ordering or checking is done here.
*/
/*
* we have a new filename, create a new filenode structure.
* fill in the bits, and put it in the filenode linked list
*/
filenode *
filenode_new(filename)
char *filename;
{
filenode *temp;
temp = emalloc(sizeof(*temp));
memset(temp, 0, sizeof(*temp));
temp->filename = estrdup(filename);
temp->req_list = NULL;
temp->prov_list = NULL;
temp->keyword_list = NULL;
temp->in_progress = RESET;
/*
* link the filenode into the list of filenodes.
* note that the double linking means we can delete a
* filenode without searching for where it belongs.
*/
temp->next = fn_head->next;
if (temp->next != NULL)
temp->next->last = temp;
temp->last = fn_head;
fn_head->next = temp;
return (temp);
}
/*
* add a requirement to a filenode.
*/
void
add_require(fnode, s)
filenode *fnode;
char *s;
{
Hash_Entry *entry;
f_reqnode *rnode;
int new;
entry = Hash_CreateEntry(provide_hash, s, &new);
if (new)
Hash_SetValue(entry, NULL);
rnode = emalloc(sizeof(*rnode));
rnode->entry = entry;
rnode->next = fnode->req_list;
fnode->req_list = rnode;
}
/*
* add a provision to a filenode. if this provision doesn't
* have a head node, create one here.
*/
void
add_provide(fnode, s)
filenode *fnode;
char *s;
{
Hash_Entry *entry;
f_provnode *f_pnode;
provnode *pnode, *head;
int new;
entry = Hash_CreateEntry(provide_hash, s, &new);
head = Hash_GetValue(entry);
/* create a head node if necessary. */
if (head == NULL) {
head = emalloc(sizeof(*head));
head->head = SET;
head->in_progress = RESET;
head->fnode = NULL;
head->last = head->next = NULL;
Hash_SetValue(entry, head);
}
#if 0
/*
* Don't warn about this. We want to be able to support
* scripts that do two complex things:
*
* - Two independent scripts which both provide the
* same thing. Both scripts must be executed in
* any order to meet the barrier. An example:
*
* Script 1:
*
* PROVIDE: mail
* REQUIRE: LOGIN
*
* Script 2:
*
* PROVIDE: mail
* REQUIRE: LOGIN
*
* - Two interdependent scripts which both provide the
* same thing. Both scripts must be executed in
* graph order to meet the barrier. An example:
*
* Script 1:
*
* PROVIDE: nameservice dnscache
* REQUIRE: SERVERS
*
* Script 2:
*
* PROVIDE: nameservice nscd
* REQUIRE: dnscache
*/
else if (new == 0) {
warnx("file `%s' provides `%s'.", fnode->filename, s);
warnx("\tpreviously seen in `%s'.",
head->next->fnode->filename);
}
#endif
pnode = emalloc(sizeof(*pnode));
pnode->head = RESET;
pnode->in_progress = RESET;
pnode->fnode = fnode;
pnode->next = head->next;
pnode->last = head;
head->next = pnode;
if (pnode->next != NULL)
pnode->next->last = pnode;
f_pnode = emalloc(sizeof(*f_pnode));
f_pnode->pnode = pnode;
f_pnode->next = fnode->prov_list;
fnode->prov_list = f_pnode;
}
/*
* put the BEFORE: lines to a list and handle them later.
*/
void
add_before(fnode, s)
filenode *fnode;
char *s;
{
strnodelist *bf_ent;
bf_ent = emalloc(sizeof *bf_ent + strlen(s));
bf_ent->node = fnode;
strcpy(bf_ent->s, s);
bf_ent->next = bl_list;
bl_list = bf_ent;
}
/*
* add a key to a filenode.
*/
void
add_keyword(fnode, s)
filenode *fnode;
char *s;
{
strnode_add(&fnode->keyword_list, s, fnode);
}
/*
* loop over the rest of a REQUIRE line, giving each word to
* add_require() to do the real work.
*/
void
parse_require(node, buffer)
filenode *node;
char *buffer;
{
char *s;
while ((s = strsep(&buffer, " \t\n")) != NULL)
if (*s != '\0')
add_require(node, s);
}
/*
* loop over the rest of a PROVIDE line, giving each word to
* add_provide() to do the real work.
*/
void
parse_provide(node, buffer)
filenode *node;
char *buffer;
{
char *s;
while ((s = strsep(&buffer, " \t\n")) != NULL)
if (*s != '\0')
add_provide(node, s);
}
/*
* loop over the rest of a BEFORE line, giving each word to
* add_before() to do the real work.
*/
void
parse_before(node, buffer)
filenode *node;
char *buffer;
{
char *s;
while ((s = strsep(&buffer, " \t\n")) != NULL)
if (*s != '\0')
add_before(node, s);
}
/*
* loop over the rest of a KEYWORD line, giving each word to
* add_keyword() to do the real work.
*/
void
parse_keywords(node, buffer)
filenode *node;
char *buffer;
{
char *s;
while ((s = strsep(&buffer, " \t\n")) != NULL)
if (*s != '\0')
add_keyword(node, s);
}
/*
* given a file name, create a filenode for it, read in lines looking
* for provision and requirement lines, building the graphs as needed.
*/
void
crunch_file(filename)
char *filename;
{
FILE *fp;
char *buf;
int require_flag, provide_flag, before_flag, keywords_flag;
enum { BEFORE_PARSING, PARSING, PARSING_DONE } state;
filenode *node;
char delims[3] = { '\\', '\\', '\0' };
struct stat st;
if ((fp = fopen(filename, "r")) == NULL) {
warn("could not open %s", filename);
return;
}
if (fstat(fileno(fp), &st) == -1) {
warn("could not stat %s", filename);
fclose(fp);
return;
}
if (!S_ISREG(st.st_mode)) {
warnx("%s is not a file", filename);
fclose(fp);
return;
}
node = filenode_new(filename);
/*
* we don't care about length, line number, don't want # for comments,
* and have no flags.
*/
for (state = BEFORE_PARSING; state != PARSING_DONE &&
(buf = fparseln(fp, NULL, NULL, delims, 0)) != NULL; free(buf)) {
require_flag = provide_flag = before_flag = keywords_flag = 0;
if (strncmp(REQUIRE_STR, buf, REQUIRE_LEN) == 0)
require_flag = REQUIRE_LEN;
else if (strncmp(REQUIRES_STR, buf, REQUIRES_LEN) == 0)
require_flag = REQUIRES_LEN;
else if (strncmp(PROVIDE_STR, buf, PROVIDE_LEN) == 0)
provide_flag = PROVIDE_LEN;
else if (strncmp(PROVIDES_STR, buf, PROVIDES_LEN) == 0)
provide_flag = PROVIDES_LEN;
else if (strncmp(BEFORE_STR, buf, BEFORE_LEN) == 0)
before_flag = BEFORE_LEN;
else if (strncmp(KEYWORD_STR, buf, KEYWORD_LEN) == 0)
keywords_flag = KEYWORD_LEN;
else if (strncmp(KEYWORDS_STR, buf, KEYWORDS_LEN) == 0)
keywords_flag = KEYWORDS_LEN;
else {
if (state == PARSING)
state = PARSING_DONE;
continue;
}
state = PARSING;
if (require_flag)
parse_require(node, buf + require_flag);
else if (provide_flag)
parse_provide(node, buf + provide_flag);
else if (before_flag)
parse_before(node, buf + before_flag);
else if (keywords_flag)
parse_keywords(node, buf + keywords_flag);
}
fclose(fp);
}
Hash_Entry *
make_fake_provision(node)
filenode *node;
{
Hash_Entry *entry;
f_provnode *f_pnode;
provnode *head, *pnode;
static int i = 0;
int new;
char buffer[30];
do {
snprintf(buffer, sizeof buffer, "fake_prov_%08d", i++);
entry = Hash_CreateEntry(provide_hash, buffer, &new);
} while (new == 0);
head = emalloc(sizeof(*head));
head->head = SET;
head->in_progress = RESET;
head->fnode = NULL;
head->last = head->next = NULL;
Hash_SetValue(entry, head);
pnode = emalloc(sizeof(*pnode));
pnode->head = RESET;
pnode->in_progress = RESET;
pnode->fnode = node;
pnode->next = head->next;
pnode->last = head;
head->next = pnode;
if (pnode->next != NULL)
pnode->next->last = pnode;
f_pnode = emalloc(sizeof(*f_pnode));
f_pnode->pnode = pnode;
f_pnode->next = node->prov_list;
node->prov_list = f_pnode;
return (entry);
}
/*
* go through the BEFORE list, inserting requirements into the graph(s)
* as required. in the before list, for each entry B, we have a file F
* and a string S. we create a "fake" provision (P) that F provides.
* for each entry in the provision list for S, add a requirement to
* that provisions filenode for P.
*/
void
insert_before()
{
Hash_Entry *entry, *fake_prov_entry;
provnode *pnode;
f_reqnode *rnode;
strnodelist *bl;
int new;
while (bl_list != NULL) {
bl = bl_list->next;
fake_prov_entry = make_fake_provision(bl_list->node);
entry = Hash_CreateEntry(provide_hash, bl_list->s, &new);
if (new == 1)
warnx("file `%s' is before unknown provision `%s'", bl_list->node->filename, bl_list->s);
for (pnode = Hash_GetValue(entry); pnode; pnode = pnode->next) {
if (pnode->head)
continue;
rnode = emalloc(sizeof(*rnode));
rnode->entry = fake_prov_entry;
rnode->next = pnode->fnode->req_list;
pnode->fnode->req_list = rnode;
}
free(bl_list);
bl_list = bl;
}
}
/*
* loop over all the files calling crunch_file() on them to do the
* real work. after we have built all the nodes, insert the BEFORE:
* lines into graph(s).
*/
void
crunch_all_files()
{
int i;
for (i = 0; i < file_count; i++)
crunch_file(file_list[i]);
insert_before();
}
/*
* below are the functions that traverse the graphs we have built
* finding out the desired ordering, printing each file in turn.
* if missing requirements, or cyclic graphs are detected, a
* warning will be issued, and we will continue on..
*/
/*
* given a requirement node (in a filename) we attempt to satisfy it.
* we do some sanity checking first, to ensure that we have providers,
* aren't already satisfied and aren't already being satisfied (ie,
* cyclic). if we pass all this, we loop over the provision list
* calling do_file() (enter recursion) for each filenode in this
* provision.
*/
void
satisfy_req(rnode, filename)
f_reqnode *rnode;
char *filename;
{
Hash_Entry *entry;
provnode *head;
entry = rnode->entry;
head = Hash_GetValue(entry);
if (head == NULL) {
warnx("requirement `%s' in file `%s' has no providers.",
Hash_GetKey(entry), filename);
exit_code = 1;
return;
}
/* return if the requirement is already satisfied. */
if (head->next == NULL)
return;
/*
* if list is marked as in progress,
* print that there is a circular dependency on it and abort
*/
if (head->in_progress == SET) {
warnx("Circular dependency on provision `%s' in file `%s'.",
Hash_GetKey(entry), filename);
exit_code = 1;
return;
}
head->in_progress = SET;
/*
* while provision_list is not empty
* do_file(first_member_of(provision_list));
*/
while (head->next != NULL)
do_file(head->next->fnode);
}
int
skip_ok(fnode)
filenode *fnode;
{
strnodelist *s;
strnodelist *k;
for (s = skip_list; s; s = s->next)
for (k = fnode->keyword_list; k; k = k->next)
if (strcmp(k->s, s->s) == 0)
return (0);
return (1);
}
int
keep_ok(fnode)
filenode *fnode;
{
strnodelist *s;
strnodelist *k;
for (s = keep_list; s; s = s->next)
for (k = fnode->keyword_list; k; k = k->next)
if (strcmp(k->s, s->s) == 0)
return (1);
/* an empty keep_list means every one */
return (!keep_list);
}
/*
* given a filenode, we ensure we are not a cyclic graph. if this
* is ok, we loop over the filenodes requirements, calling satisfy_req()
* for each of them.. once we have done this, remove this filenode
* from each provision table, as we are now done.
*/
void
do_file(fnode)
filenode *fnode;
{
f_reqnode *r, *r_tmp;
f_provnode *p, *p_tmp;
provnode *pnode;
int was_set;
DPRINTF((stderr, "do_file on %s.\n", fnode->filename));
/*
* if fnode is marked as in progress,
* print that fnode; is circularly depended upon and abort.
*/
if (fnode->in_progress == SET) {
warnx("Circular dependency on file `%s'.",
fnode->filename);
was_set = exit_code = 1;
} else
was_set = 0;
/* mark fnode */
fnode->in_progress = SET;
/*
* for each requirement of fnode -> r
* satisfy_req(r, filename)
*/
r = fnode->req_list;
while (r != NULL) {
r_tmp = r;
satisfy_req(r, fnode->filename);
r = r->next;
free(r_tmp);
}
fnode->req_list = NULL;
/*
* for each provision of fnode -> p
* remove fnode from provision list for p in hash table
*/
p = fnode->prov_list;
while (p != NULL) {
p_tmp = p;
pnode = p->pnode;
if (pnode->next != NULL) {
pnode->next->last = pnode->last;
}
if (pnode->last != NULL) {
pnode->last->next = pnode->next;
}
free(pnode);
p = p->next;
free(p_tmp);
}
fnode->prov_list = NULL;
/* do_it(fnode) */
DPRINTF((stderr, "next do: "));
/* if we were already in progress, don't print again */
if (was_set == 0 && skip_ok(fnode) && keep_ok(fnode))
printf("%s\n", fnode->filename);
if (fnode->next != NULL) {
fnode->next->last = fnode->last;
}
if (fnode->last != NULL) {
fnode->last->next = fnode->next;
}
DPRINTF((stderr, "nuking %s\n", fnode->filename));
free(fnode->filename);
free(fnode);
}
void
generate_ordering()
{
/*
* while there remain undone files{f},
* pick an arbitrary f, and do_file(f)
* Note that the first file in the file list is perfectly
* arbitrary, and easy to find, so we use that.
*/
/*
* N.B.: the file nodes "self delete" after they execute, so
* after each iteration of the loop, the head will be pointing
* to something totally different. The loop ends up being
* executed only once for every strongly connected set of
* nodes.
*/
while (fn_head->next != NULL) {
DPRINTF((stderr, "generate on %s\n", fn_head->next->filename));
do_file(fn_head->next);
}
}
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