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/*++
/* NAME
/* argv 3
/* SUMMARY
/* string array utilities
/* SYNOPSIS
/* #include <argv.h>
/*
/* ARGV *argv_alloc(len)
/* ssize_t len;
/*
/* ARGV *argv_sort(argvp)
/* ARGV *argvp;
/*
/* ARGV *argv_free(argvp)
/* ARGV *argvp;
/*
/* void argv_add(argvp, arg, ..., ARGV_END)
/* ARGV *argvp;
/* char *arg;
/*
/* void argv_addn(argvp, arg, arg_len, ..., ARGV_END)
/* ARGV *argvp;
/* char *arg;
/* ssize_t arg_len;
/*
/* void argv_terminate(argvp);
/* ARGV *argvp;
/*
/* void argv_truncate(argvp, len);
/* ARGV *argvp;
/* ssize_t len;
/*
/* void argv_insert_one(argvp, pos, arg)
/* ARGV *argvp;
/* ssize_t pos;
/* const char *arg;
/*
/* void argv_replace_one(argvp, pos, arg)
/* ARGV *argvp;
/* ssize_t pos;
/* const char *arg;
/*
/* void argv_delete(argvp, pos, how_many)
/* ARGV *argvp;
/* ssize_t pos;
/* ssize_t how_many;
/*
/* void ARGV_FAKE_BEGIN(argv, arg)
/* const char *arg;
/*
/* void ARGV_FAKE_END
/* DESCRIPTION
/* The functions in this module manipulate arrays of string
/* pointers. An ARGV structure contains the following members:
/* .IP len
/* The length of the \fIargv\fR array member.
/* .IP argc
/* The number of \fIargv\fR elements used.
/* .IP argv
/* An array of pointers to null-terminated strings.
/* .PP
/* argv_alloc() returns an empty string array of the requested
/* length. The result is ready for use by argv_add(). The array
/* is null terminated.
/*
/* argv_sort() sorts the elements of argvp in place returning
/* the original array.
/*
/* argv_add() copies zero or more strings and adds them to the
/* specified string array. The array is null terminated.
/* Terminate the argument list with a null pointer. The manifest
/* constant ARGV_END provides a convenient notation for this.
/*
/* argv_addn() is like argv_add(), but each string is followed
/* by a string length argument.
/*
/* argv_free() releases storage for a string array, and conveniently
/* returns a null pointer.
/*
/* argv_terminate() null-terminates its string array argument.
/*
/* argv_truncate() trucates its argument to the specified
/* number of entries, but does not reallocate memory. The
/* result is null-terminated.
/*
/* argv_insert_one() inserts one string at the specified array
/* position.
/*
/* argv_replace_one() replaces one string at the specified
/* position. The old string is destroyed after the update is
/* made.
/*
/* argv_delete() deletes the specified number of elements
/* starting at the specified array position. The result is
/* null-terminated.
/*
/* ARGV_FAKE_BEGIN/END are an optimization for the case where
/* a single string needs to be passed into an ARGV-based
/* interface. ARGV_FAKE_BEGIN() opens a statement block and
/* allocates a stack-based ARGV structure named after the first
/* argument, that encapsulates the second argument. This
/* implementation allocates no heap memory and creates no copy
/* of the second argument. ARGV_FAKE_END closes the statement
/* block and thereby releases storage.
/* SEE ALSO
/* msg(3) diagnostics interface
/* DIAGNOSTICS
/* Fatal errors: memory allocation problem.
/* LICENSE
/* .ad
/* .fi
/* The Secure Mailer license must be distributed with this software.
/* AUTHOR(S)
/* Wietse Venema
/* IBM T.J. Watson Research
/* P.O. Box 704
/* Yorktown Heights, NY 10598, USA
/*--*/
/* System libraries. */
#include <sys_defs.h>
#include <stdlib.h> /* 44BSD stdarg.h uses abort() */
#include <stdarg.h>
#include <string.h>
/* Application-specific. */
#include "mymalloc.h"
#include "msg.h"
#include "argv.h"
/* argv_free - destroy string array */
ARGV *argv_free(ARGV *argvp)
{
char **cpp;
for (cpp = argvp->argv; cpp < argvp->argv + argvp->argc; cpp++)
myfree(*cpp);
myfree((void *) argvp->argv);
myfree((void *) argvp);
return (0);
}
/* argv_alloc - initialize string array */
ARGV *argv_alloc(ssize_t len)
{
ARGV *argvp;
ssize_t sane_len;
/*
* Make sure that always argvp->argc < argvp->len.
*/
argvp = (ARGV *) mymalloc(sizeof(*argvp));
argvp->len = 0;
sane_len = (len < 2 ? 2 : len);
argvp->argv = (char **) mymalloc((sane_len + 1) * sizeof(char *));
argvp->len = sane_len;
argvp->argc = 0;
argvp->argv[0] = 0;
return (argvp);
}
static int argv_cmp(const void *e1, const void *e2)
{
const char *s1 = *(const char **) e1;
const char *s2 = *(const char **) e2;
return strcmp(s1, s2);
}
/* argv_sort - sort array in place */
ARGV *argv_sort(ARGV *argvp)
{
qsort(argvp->argv, argvp->argc, sizeof(argvp->argv[0]), argv_cmp);
return (argvp);
}
/* argv_extend - extend array */
static void argv_extend(ARGV *argvp)
{
ssize_t new_len;
new_len = argvp->len * 2;
argvp->argv = (char **)
myrealloc((void *) argvp->argv, (new_len + 1) * sizeof(char *));
argvp->len = new_len;
}
/* argv_add - add string to vector */
void argv_add(ARGV *argvp,...)
{
char *arg;
va_list ap;
/*
* Make sure that always argvp->argc < argvp->len.
*/
#define ARGV_SPACE_LEFT(a) ((a)->len - (a)->argc - 1)
va_start(ap, argvp);
while ((arg = va_arg(ap, char *)) != 0) {
if (ARGV_SPACE_LEFT(argvp) <= 0)
argv_extend(argvp);
argvp->argv[argvp->argc++] = mystrdup(arg);
}
va_end(ap);
argvp->argv[argvp->argc] = 0;
}
/* argv_addn - add string to vector */
void argv_addn(ARGV *argvp,...)
{
char *arg;
ssize_t len;
va_list ap;
/*
* Make sure that always argvp->argc < argvp->len.
*/
va_start(ap, argvp);
while ((arg = va_arg(ap, char *)) != 0) {
if ((len = va_arg(ap, ssize_t)) < 0)
msg_panic("argv_addn: bad string length %ld", (long) len);
if (ARGV_SPACE_LEFT(argvp) <= 0)
argv_extend(argvp);
argvp->argv[argvp->argc++] = mystrndup(arg, len);
}
va_end(ap);
argvp->argv[argvp->argc] = 0;
}
/* argv_terminate - terminate string array */
void argv_terminate(ARGV *argvp)
{
/*
* Trust that argvp->argc < argvp->len.
*/
argvp->argv[argvp->argc] = 0;
}
/* argv_truncate - truncate string array */
void argv_truncate(ARGV *argvp, ssize_t len)
{
char **cpp;
/*
* Sanity check.
*/
if (len < 0)
msg_panic("argv_truncate: bad length %ld", (long) len);
if (len < argvp->argc) {
for (cpp = argvp->argv + len; cpp < argvp->argv + argvp->argc; cpp++)
myfree(*cpp);
argvp->argc = len;
argvp->argv[argvp->argc] = 0;
}
}
/* argv_insert_one - insert one string into array */
void argv_insert_one(ARGV *argvp, ssize_t where, const char *arg)
{
ssize_t pos;
/*
* Sanity check.
*/
if (where < 0 || where > argvp->argc)
msg_panic("argv_insert_one bad position: %ld", (long) where);
if (ARGV_SPACE_LEFT(argvp) <= 0)
argv_extend(argvp);
for (pos = argvp->argc; pos >= where; pos--)
argvp->argv[pos + 1] = argvp->argv[pos];
argvp->argv[where] = mystrdup(arg);
argvp->argc += 1;
}
/* argv_replace_one - replace one string in array */
void argv_replace_one(ARGV *argvp, ssize_t where, const char *arg)
{
char *temp;
/*
* Sanity check.
*/
if (where < 0 || where >= argvp->argc)
msg_panic("argv_replace_one bad position: %ld", (long) where);
temp = argvp->argv[where];
argvp->argv[where] = mystrdup(arg);
myfree(temp);
}
/* argv_delete - remove string(s) from array */
void argv_delete(ARGV *argvp, ssize_t first, ssize_t how_many)
{
ssize_t pos;
/*
* Sanity check.
*/
if (first < 0 || how_many < 0 || first + how_many > argvp->argc)
msg_panic("argv_delete bad range: (start=%ld count=%ld)",
(long) first, (long) how_many);
for (pos = first; pos < first + how_many; pos++)
myfree(argvp->argv[pos]);
for (pos = first; pos <= argvp->argc - how_many; pos++)
argvp->argv[pos] = argvp->argv[pos + how_many];
argvp->argc -= how_many;
}
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