#include <unistd.h>
#include <ctype.h>
#include <sys/stat.h>
+#include <sysexits.h>
extern int debugsw;
fflush(stdout);
fflush(stderr);
- exit(1);
+ exit(EX_SOFTWARE);
return 1;
}
HF hp;
/* allocate the content structure */
- if (!(ct = (CT) calloc(1, sizeof(*ct))))
- adios(NULL, "out of memory");
+ ct = mh_xcalloc(1, sizeof(*ct));
ct->c_fp = in;
ct->c_file = getcpy(file);
switch (state = m_getfld(state, name, buf, sizeof(buf), in)) {
case FLD:
case FLDPLUS:
- case FLDEOF:
compnum++;
/* get copies of the buffers */
/* Now add the header data to the list */
add_header(ct, np, vp);
- /* continue, if this isn't the last header field */
- if (state != FLDEOF) {
- ct->c_begin = ftell(in) + 1;
- continue;
- }
- /* else fall... */
+ ct->c_begin = ftell(in) + 1;
+ continue;
case BODY:
- case BODYEOF:
ct->c_begin = ftell(in) - strlen(buf);
break;
case LENERR:
case FMTERR:
- adios(NULL, "message format error in component #%d",
+ adios(EX_DATAERR, NULL, "message format error in component #%d",
compnum);
default:
- adios(NULL, "getfld() returned %d", state);
+ adios(EX_SOFTWARE, NULL, "getfld() returned %d", state);
}
/* break out of the loop */
HF hp;
/* allocate header field structure */
- hp = mh_xmalloc(sizeof(*hp));
+ hp = mh_xcalloc(1, sizeof(*hp));
/* link data into header structure */
hp->name = name;
*cp = '\0';
newbuf = concat(prefix, insertion, suffix,
"\n", NULL);
- free(suffix);
+ mh_free0(&suffix);
} else {
/* Append to end. */
newbuf = concat(buf, insertion, "\n", NULL);
}
- free(prefix);
- free(insertion);
- free(buf);
+ mh_free0(&prefix);
+ mh_free0(&insertion);
+ mh_free0(&buf);
}
- free(name_plus_equal);
+ mh_free0(&name_plus_equal);
}
return newbuf;
char *name_suffix_equals = strstr(value, name_suffix_plus_quote);
char *cp;
- free(name_suffix_plus_quote);
+ mh_free0(&name_suffix_plus_quote);
if (name_suffix_equals) {
char *name_suffix_begin;
for (; *cp != '"'; ++cp)
;
- extracted_name_value = mh_xmalloc(cp - name_suffix_begin + 1);
+ extracted_name_value = mh_xcalloc(cp - name_suffix_begin + 1, sizeof(char));
memcpy(extracted_name_value, name_suffix_begin,
cp - name_suffix_begin);
extracted_name_value[cp - name_suffix_begin] = '\0';
}
if (!*vp) {
advise(NULL, "invalid parameter in message %s's %s: field\n%*.*s(parameter %s)", ct->c_file, TYPE_FIELD, i, i, "", *ap);
- return NOTOK;
+ *ci->ci_values[ap - ci->ci_attrs] = '\0';
+ *ci->ci_attrs[ap - ci->ci_attrs] = '\0';
+ continue;
}
ap++;
*/
if (magic && *cp == '<') {
if (ct->c_id) {
- free(ct->c_id);
- ct->c_id = NULL;
+ mh_free0(&(ct->c_id));
}
if (!(dp = strchr(ct->c_id = ++cp, '>'))) {
advise(NULL, "invalid ID in message %s", ct->c_file);
if (istype) {
if ((dp = ci->ci_comment)) {
ci->ci_comment = concat(dp, " ", buffer, NULL);
- free(dp);
+ mh_free0(&dp);
} else {
ci->ci_comment = getcpy(buffer);
}
ct->c_subtype = kv->kv_value;
/* allocate text character set structure */
- if ((t = (struct text *) calloc(1, sizeof(*t))) == NULL)
- adios(NULL, "out of memory");
+ t = mh_xcalloc(1, sizeof(*t));
ct->c_ctparams = (void *) t;
/* scan for charset parameter */
if (ct->c_encoding != CE_7BIT && ct->c_encoding != CE_8BIT
&& ct->c_encoding != CE_BINARY) {
admonish(NULL, "\"%s/%s\" type in message %s must be encoded in 7bit, 8bit, or binary", ci->ci_type, ci->ci_subtype, ct->c_file);
- return NOTOK;
+ ct->c_encoding = CE_7BIT;
}
/* match subtype */
}
/* allocate primary structure for multipart info */
- if ((m = (struct multipart *) calloc(1, sizeof(*m))) == NULL)
- adios(NULL, "out of memory");
+ m = mh_xcalloc(1, sizeof(*m));
ct->c_ctparams = (void *) m;
/* check if boundary parameter contains only whitespace characters */
if (strcmp(buffer + 2, m->mp_start)!=0)
continue;
next_part:
- if ((part = (struct part *) calloc(1, sizeof(*part)))
- == NULL)
- adios(NULL, "out of memory");
+ part = mh_xcalloc(1, sizeof(*part));
*next = part;
next = &part->mp_next;
continue;
*next = NULL;
free_content(p);
- free((char *) part);
+ mh_free0(&part);
}
}
i++;
/* allocate array of pointers to the parts */
- if (!(base = (struct part **) calloc((size_t) (i + 1), sizeof(*base))))
- adios(NULL, "out of memory");
+ base = mh_xcalloc(i + 1, sizeof(*base));
bmp = base;
/* point at all the parts */
*next = NULL;
/* free array of pointers */
- free((char *) base);
+ mh_free0(&base);
}
char **ap, **ep;
struct partial *p;
- if ((p = (struct partial *) calloc(1, sizeof(*p))) == NULL)
- adios(NULL, "out of memory");
+ p = mh_xcalloc(1, sizeof(*p));
ct->c_ctparams = (void *) p;
/*
{
CE ce;
- if ((ce = (CE) calloc(1, sizeof(*ce))) == NULL)
- adios(NULL, "out of memory");
+ ce = mh_xcalloc(1, sizeof(*ce));
ct->c_cefile = ce;
ct->c_ceopenfnx = openfnx;
char *file_org = strdup(ce->ce_file);
ce->ce_file = add(cp, ce->ce_file);
if (rename(file_org, ce->ce_file)) {
- adios(ce->ce_file, "unable to rename %s to ",
+ adios(EX_IOERR, ce->ce_file, "unable to rename %s to ",
file_org);
}
- free(file_org);
+ mh_free0(&file_org);
} else {
ce->ce_file = add(cp, ce->ce_file);
}
if ((len = ct->c_end - ct->c_begin) < 0)
- adios(NULL, "internal error(1)");
+ adios(EX_SOFTWARE, NULL, "internal error(1)");
if (!ct->c_fp) {
if ((ct->c_fp = fopen(ct->c_file, "r")) == NULL) {
char *file_org = strdup(ce->ce_file);
ce->ce_file = add(cp, ce->ce_file);
if (rename(file_org, ce->ce_file)) {
- adios(ce->ce_file, "unable to rename %s to ",
+ adios(EX_IOERR, ce->ce_file, "unable to rename %s to ",
file_org);
}
- free(file_org);
+ mh_free0(&file_org);
} else {
ce->ce_file = add(cp, ce->ce_file);
}
if ((len = ct->c_end - ct->c_begin) < 0)
- adios(NULL, "internal error(2)");
+ adios(EX_SOFTWARE, NULL, "internal error(2)");
if (!ct->c_fp) {
if ((ct->c_fp = fopen(ct->c_file, "r")) == NULL) {
char *file_org = strdup(ce->ce_file);
ce->ce_file = add(cp, ce->ce_file);
if (rename(file_org, ce->ce_file)) {
- adios(ce->ce_file, "unable to rename %s to ",
+ adios(EX_IOERR, ce->ce_file, "unable to rename %s to ",
file_org);
}
- free(file_org);
+ mh_free0(&file_org);
} else {
ce->ce_file = add(cp, ce->ce_file);
}
if ((len = ct->c_end - ct->c_begin) < 0)
- adios(NULL, "internal error(3)");
+ adios(EX_SOFTWARE, NULL, "internal error(3)");
if (!ct->c_fp) {
if ((ct->c_fp = fopen(ct->c_file, "r")) == NULL) {