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|
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <ctype.h>
#include "xml.h"
#include "compat.h"
enum { FeedTypeNone = 0, FeedTypeRSS = 1, FeedTypeAtom = 2 };
const char *feedtypes[] = { "", "rss", "atom" };
enum { ContentTypeNone = 0, ContentTypePlain = 1, ContentTypeHTML = 2 };
const char *contenttypes[] = { "", "plain", "html" };
typedef struct string { /* String data / pool */
char *data; /* data */
size_t len; /* string length */
size_t bufsiz; /* allocated size */
} String;
typedef struct feeditem { /* Feed item */
String timestamp;
String title;
String link;
String content;
int contenttype; /* ContentTypePlain or ContentTypeHTML */
String id;
String author;
int feedtype; /* FeedTypeRSS or FeedTypeAtom */
} FeedItem;
void die(const char *s);
void cleanup(void);
String *currentfield = NULL; /* TODO */
const int FieldSeparator = '\t';
FeedItem feeditem; /* data for current feed item */
char feeditemtag[256] = ""; /* current tag _inside_ a feeditem */
size_t feeditemtaglen = 0;
int feeditemtagid = 0;
int iscontent = 0;
int iscontenttag = 0;
size_t attrcount = 0;
char *standardtz = NULL; /* TZ variable at start of program */
XMLParser parser; /* XML parser state */
enum {
TagUnknown = 0,
/* RSS */
RSSTagDcdate, RSSTagPubdate, RSSTagTitle,
RSSTagLink, RSSTagDescription, RSSTagContentencoded,
RSSTagGuid, RSSTagAuthor, RSSTagDccreator,
/* Atom */
AtomTagPublished, AtomTagUpdated, AtomTagTitle,
AtomTagSummary, AtomTagContent,
AtomTagId, AtomTagLink, AtomTagAuthor
};
typedef struct feedtag {
char *name;
size_t namelen;
int id;
} FeedTag;
/* TODO: optimize lookup */
int
gettag(int feedtype, const char *name, size_t namelen) {
/* RSS, alphabetical order */
static FeedTag rsstag[] = {
{ "author", 6, RSSTagAuthor },
{ "content:encoded", 15, RSSTagContentencoded },
{ "dc:creator", 10, RSSTagDccreator },
{ "dc:date", 7, RSSTagDcdate },
{ "description", 11, RSSTagDescription },
{ "guid", 4, RSSTagGuid },
{ "link", 4, RSSTagLink },
{ "pubdate", 7, RSSTagPubdate },
{ "title", 5, RSSTagTitle },
{ NULL, 0, -1 }
};
/* Atom, alphabetical order */
static FeedTag atomtag[] = {
{ "author", 6, AtomTagAuthor }, /* assume this is: <author><name></name></author> */
{ "content", 7, AtomTagContent },
{ "id", 2, AtomTagId },
{ "link", 4, AtomTagLink },
{ "published", 9, AtomTagPublished },
{ "summary", 7, AtomTagSummary },
{ "title", 5, AtomTagTitle },
{ "updated", 7, AtomTagUpdated },
{ NULL, 0, -1 }
};
int i, n;
if(namelen >= 2 && namelen <= 15) {
if(feedtype == FeedTypeRSS) {
for(i = 0; rsstag[i].name; i++) {
if(!(n = xstrncasecmp(rsstag[i].name, name, rsstag[i].namelen)))
return rsstag[i].id;
/* optimization: it's sorted so nothing after it matches. */
if(n > 0)
return TagUnknown;
}
} else if(feedtype == FeedTypeAtom) {
for(i = 0; atomtag[i].name; i++) {
if(!(n = xstrncasecmp(atomtag[i].name, name, atomtag[i].namelen)))
return atomtag[i].id;
/* optimization: it's sorted so nothing after it matches. */
if(n > 0)
return TagUnknown;
}
}
}
return TagUnknown;
}
int
entitytostr(const char *e, char *buffer, size_t bufsiz) {
/* TODO: optimize lookup? */
char *entities[6][2] = {
{ "<", "<" },
{ ">", ">" },
{ "'", "'" },
{ "&", "&" },
{ """, "\"" },
{ NULL, NULL }
};
size_t i;
if(*e != '&' || bufsiz < 2) /* doesnt start with & */
return 0;
for(i = 0; entities[i][0]; i++) {
/* NOTE: compares max 7 chars */
if(!xstrncasecmp(e, entities[i][0], 6)) {
buffer[0] = *(entities[i][1]);
buffer[1] = '\0';
return 1;
}
}
return 0;
}
void
string_clear(String *s) {
if(s->data)
s->data[0] = '\0'; /* clear string only; don't free, prevents
unnecessary reallocation */
s->len = 0;
}
void
string_buffer_init(String *s, size_t len) {
if(!(s->data = malloc(len)))
die("can't allocate enough memory");
s->bufsiz = len;
string_clear(s);
}
void
string_free(String *s) {
free(s->data);
s->data = NULL;
s->bufsiz = 0;
s->len = 0;
}
int
string_buffer_expand(String *s, size_t newlen) {
char *p;
size_t alloclen;
/* check if allocation is necesary, dont shrink buffer
should be more than bufsiz ofcourse */
for(alloclen = 16; alloclen <= newlen; alloclen *= 2);
if(!(p = realloc(s->data, alloclen))) {
string_free(s); /* free previous allocation */
die("can't allocate enough memory");
}
s->bufsiz = alloclen;
s->data = p;
return s->bufsiz;
}
void
string_append(String *s, const char *data, size_t len) {
if(!len || *data == '\0')
return;
if(s->len + len > s->bufsiz)
string_buffer_expand(s, s->len + len);
memcpy(s->data + s->len, data, len);
s->len += len;
s->data[s->len] = '\0';
}
void /* cleanup parser, free allocated memory, etc */
cleanup(void) {
string_free(&feeditem.timestamp);
string_free(&feeditem.title);
string_free(&feeditem.link);
string_free(&feeditem.content);
string_free(&feeditem.id);
string_free(&feeditem.author);
}
void /* print error message to stderr */
die(const char *s) {
fputs("sfeed: ", stderr);
fputs(s, stderr);
fputc('\n', stderr);
exit(EXIT_FAILURE);
}
/* get timezone from string, return as formatted string and time offset,
* for the offset it assumes GMT */
int
gettimetz(const char *s, char *buf, size_t bufsiz) {
const char *p = s;
char tzname[16] = "", *t = NULL;
int tzhour = 0, tzmin = 0;
unsigned int i;
char c;
buf[0] = '\0';
if(bufsiz < sizeof(tzname) + 7)
return 0;
for(; *p && isspace((int)*p); p++); /* skip whitespace */
/* loop until some common timezone delimiters are found */
for(;*p && (*p != '+' && *p != '-' && *p != 'Z' && *p != 'z'); p++);
/* TODO: cleanup / simplify */
if(isalpha((int)*p)) {
if(*p == 'Z' || *p == 'z') {
memcpy(buf, "GMT+00:00", strlen("GMT+00:00") + 1);
return 0;
} else {
for(i = 0, t = &tzname[0]; i < (sizeof(tzname) - 1) &&
(*p && isalpha((int)*p)); i++)
*(t++) = *(p++);
*t = '\0';
}
} else
memcpy(tzname, "GMT", strlen("GMT") + 1);
if(!(*p)) {
strncpy(buf, tzname, bufsiz);
return 0;
}
if((sscanf(p, "%c%02d:%02d", &c, &tzhour, &tzmin)) > 0);
else if(sscanf(p, "%c%02d%02d", &c, &tzhour, &tzmin) > 0);
else if(sscanf(p, "%c%d", &c, &tzhour) > 0)
tzmin = 0;
sprintf(buf, "%s%c%02d%02d", tzname, c, tzhour, tzmin);
/* TODO: test + or - offset */
return (tzhour * 3600) + (tzmin * 60) * (c == '-' ? -1 : 1);
}
/* parses everything in a format similar to:
* "%a, %d %b %Y %H:%M:%S" or "%Y-%m-%d %H:%M:%S" */
/* TODO: calculate time offset (GMT only) from gettimetz ? */
int
parsetimeformat(const char *s, struct tm *t, const char **end) {
static const char *months[] = {
"Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct",
"Nov", "Dec"
};
const char *p = s;
unsigned int i, fm;
unsigned long l;
memset(t, 0, sizeof(struct tm));
if((l = strtoul(p, (void *)&p, 10))) {
t->tm_year = abs(l) - 1900;
if(!(l = strtoul(p, (void *)&p, 10)))
return 0;
t->tm_mon = abs(l) - 1;
if(!(t->tm_mday = abs(strtoul(p, (void *)&p, 10))))
return 0;
} else {
for(; *p && !isdigit((int)*p); p++);
if(!(t->tm_mday = abs(strtoul(p, (void *)&p, 10))))
return 0;
for(; *p && !isalpha((int)*p); p++); /* skip non-alpha */
for(fm = 0, i = 0; i < 12; i++) { /* parse month names */
if(!xstrncasecmp(p, months[i], 3)) {
t->tm_mon = i;
fm = 1;
break;
}
}
if(!fm) /* can't find month */
return 0;
for(; *p && !isdigit((int)*p); p++); /* skip non-digit */
if(!(l = strtoul(p, (void *)&p, 10)))
return 0;
t->tm_year = abs(l) - 1900;
}
for(; *p && !isdigit((int)*p); p++); /* skip non-digit */
if((t->tm_hour = abs(strtoul(p, (void *)&p, 10))) > 23)
return 0;
for(; *p && !isdigit((int)*p); p++); /* skip non-digit */
if((t->tm_min = abs(strtoul(p, (void *)&p, 10))) > 59)
return 0;
for(; *p && !isdigit((int)*p); p++); /* skip non-digit */
if((t->tm_sec = abs(strtoul(p, (void *)&p, 10))) > 60)
return 0;
if(end)
*end = p;
return 1;
}
/* C defines the rounding for division in a nonsensical way */
#define Q(a,b) ((a)>0 ? (a)/(b) : -(((b)-(a)-1)/(b)))
/* copied from Musl C awesome small implementation, see LICENSE. */
time_t
tm_to_time(struct tm *tm) {
time_t year = tm->tm_year - 100;
int month = tm->tm_mon;
int day = tm->tm_mday;
int daysbeforemon[] = { 0,31,59,90,120,151,181,212,243,273,304,334 };
int z4, z100, z400;
/* normalize month */
if(month >= 12) {
year += month / 12;
month %= 12;
} else if(month < 0) {
year += month / 12;
month %= 12;
if(month) {
month += 12;
year--;
}
}
z4 = Q(year - (month < 2), 4); /* is leap? */
z100 = Q(z4, 25);
z400 = Q(z100, 4);
day += year * 365 + z4 - z100 + z400 + daysbeforemon[month];
return (time_t)day * 86400 +
tm->tm_hour * 3600 + tm->tm_min * 60 + tm->tm_sec +
946684800; /* the dawn of time, aka 1970 (30 years of seconds) :) */
}
time_t
parsetime(const char *s, char *buf) {
struct tm tm;
char tz[64];
const char *end;
int offset;
if(buf)
buf[0] = '\0';
if(parsetimeformat(s, &tm, &end)) {
offset = gettimetz(end, tz, sizeof(tz) - 1);
/* TODO: make sure snprintf cant overflow */
if(buf)
sprintf(buf, "%04d-%02d-%02d %02d:%02d:%02d %-.16s",
tm.tm_year + 1900, tm.tm_mon + 1, tm.tm_mday,
tm.tm_hour, tm.tm_min, tm.tm_sec, tz);
/* return UNIX time, reverse offset to GMT+0 */
return tm_to_time(&tm) - offset;
}
return -1; /* can't parse */
}
/* print text, ignore tabs, newline and carriage return etc
* print some HTML 2.0 / XML 1.0 as normal text */
void
string_print_trimmed(String *s) {
/* const char *entities[] = {
"&", "&", "<", "<", ">", ">", "'", "'",
""", "\"",
NULL, NULL
};
unsigned char entlen[] = { 5, 4, 4, 6, 6 };*/
/*unsigned int len, found, i;*/
const char *p, *n/*, **e*/;
char buffer[BUFSIZ + 4];
size_t buflen = 0;
if(!s->len)
return;
for(p = s->data; isspace((int)*p); p++); /* strip leading whitespace */
for(; *p; ) { /* ignore tabs, newline and carriage return etc, except space */
/*if(!isspace((int)*p) || *p == ' ') {*/
if(!((unsigned)*p - '\t' < 5)) {
if(*p == '<') { /* skip tags */
if((n = strchr(p, '>'))) {
p = n + 1;
continue;
}
}
/* TODO: not necesary anymore because xml_handler_data_entity is used with entitytostr ? */
/* else if(*p == '&') {
for(e = entities, i = 0, found = 0; *e; e += 2, i++) {
len = entlen[i];
if(!strncmp(*e, p, len)) {
buffer[buflen++] = *(e + 1)[0];
p += len;
found = 1;
break;
}
}
if(found)
continue;
}*/
buffer[buflen++] = *p;
}
if(buflen >= BUFSIZ) {
fwrite(buffer, 1, buflen, stdout);
buflen = 0;
}
p++;
}
/* printf("%d |", buflen);*/
if(buflen)
fwrite(buffer, 1, buflen, stdout);
/* printf("|\n");*/
}
void /* print text, escape tabs, newline and carriage return etc */
string_print_textblock(String *s) {
const char *p;
char buffer[BUFSIZ + 4];
size_t i;
if(!s->len)
return;
/* skip leading whitespace */
for(p = s->data; *p && isspace((int)*p); p++);
for(i = 0; *p; p++) {
if(((unsigned)*p - '\t') < 5) {
if(*p == '\n') { /* escape newline */
buffer[i++] = '\\';
buffer[i++] = 'n';
} else if(*p == '\\') { /* escape \ */
buffer[i++] = '\\';
buffer[i++] = '\\';
} else if(*p == '\t') { /* tab */
buffer[i++] = '\\';
buffer[i++] = 't';
}
/* ignore other whitespace chars, except space */
} else {
buffer[i++] = *p;
}
if(i >= BUFSIZ) { /* TODO: align */
fwrite(buffer, 1, i, stdout);
i = 0;
}
}
if(i)
fwrite(buffer, 1, i, stdout);
}
int
istag(const char *name, size_t len, const char *name2, size_t len2) {
return (len == len2 && !xstrcasecmp(name, name2));
}
int
isattr(const char *name, size_t len, const char *name2, size_t len2) {
return (len == len2 && !xstrcasecmp(name, name2));
}
/* NOTE: this handler can be called multiple times if the data in this
* block is bigger than the buffer */
void
xml_handler_data(XMLParser *p, const char *s, size_t len) {
if(currentfield) {
if(feeditemtagid != AtomTagAuthor || !strcmp(p->tag, "name")) /* author>name */
string_append(currentfield, s, len);
}
}
void
xml_handler_cdata(XMLParser *p, const char *s, size_t len) {
if(currentfield)
string_append(currentfield, s, len);
}
void
xml_handler_attr_start(struct xmlparser *p, const char *tag, size_t taglen, const char *name, size_t namelen) {
if(iscontent && !iscontenttag) {
if(!attrcount)
xml_handler_data(p, " ", 1);
attrcount++;
xml_handler_data(p, name, namelen);
xml_handler_data(p, "=\"", 2);
return;
}
}
void
xml_handler_attr_end(struct xmlparser *p, const char *tag, size_t taglen, const char *name, size_t namelen) {
if(iscontent && !iscontenttag) {
xml_handler_data(p, "\"", 1);
attrcount = 0;
}
}
void
xml_handler_start_element_parsed(XMLParser *p, const char *tag, size_t taglen, int isshort) {
if(iscontent && !iscontenttag) {
if(isshort)
xml_handler_data(p, "/>", 2);
else
xml_handler_data(p, ">", 1);
}
}
void
xml_handler_attr(XMLParser *p, const char *tag, size_t taglen,
const char *name, size_t namelen, const char *value,
size_t valuelen) {
if(iscontent && !iscontenttag) {
xml_handler_data(p, value, valuelen);
return;
}
if(feeditem.feedtype == FeedTypeAtom) {
/*if(feeditemtagid == AtomTagContent || feeditemtagid == AtomTagSummary) {*/
if(iscontenttag) {
if(isattr(name, namelen, "type", strlen("type")) &&
(isattr(value, valuelen, "xhtml", strlen("xhtml")) || isattr(value, valuelen, "text/xhtml", strlen("text/xhtml")) ||
isattr(value, valuelen, "html", strlen("html")) || isattr(value, valuelen, "text/html", strlen("text/html")))) {
feeditem.contenttype = ContentTypeHTML;
iscontent = 1;
/* p->xmldataentity = NULL;*/
p->xmlattrstart = xml_handler_attr_start;
p->xmlattrend = xml_handler_attr_end;
p->xmltagstartparsed = xml_handler_start_element_parsed;
}
} else if(feeditemtagid == AtomTagLink && isattr(name, namelen, "href", strlen("href"))) /* link href attribute */
string_append(&feeditem.link, value, valuelen);
}
}
void
xml_handler_start_element(XMLParser *p, const char *name, size_t namelen) {
if(iscontenttag) {
/* starts with div, handle as XML, dont convert entities */
/* TODO: test properly and do printf() to debug */
if(feeditem.feedtype == FeedTypeAtom && !strncmp(name, "div", strlen("div")))
p->xmldataentity = NULL;
}
if(iscontent) {
attrcount = 0;
iscontenttag = 0;
xml_handler_data(p, "<", 1);
xml_handler_data(p, name, namelen);
return;
}
/* TODO: cleanup, merge with code below ?, return function if FeedTypeNone */
/* iscontenttag = 0;*/
if(feeditem.feedtype != FeedTypeNone) { /* in item */
if(feeditemtag[0] == '\0') { /* set tag if not already set. */
/* strncpy(feeditemtag, name, sizeof(feeditemtag) - 1);*/
if(namelen >= sizeof(feeditemtag) - 2)
return;
memcpy(feeditemtag, name, namelen + 1);
feeditemtaglen = namelen; /* XXX: assumes feeditemtag had enough space */
feeditemtagid = gettag(feeditem.feedtype, feeditemtag, feeditemtaglen);
if(feeditem.feedtype == FeedTypeRSS) {
if(feeditemtagid == TagUnknown)
currentfield = NULL;
else if(feeditemtagid == RSSTagPubdate || feeditemtagid == RSSTagDcdate)
currentfield = &feeditem.timestamp;
else if(feeditemtagid == RSSTagTitle)
currentfield = &feeditem.title;
else if(feeditemtagid == RSSTagLink)
currentfield = &feeditem.link;
else if(feeditemtagid == RSSTagDescription || feeditemtagid == RSSTagContentencoded) {
/* clear previous summary, assumes previous content was not a summary text */
if(feeditemtagid == RSSTagContentencoded && feeditem.content.len)
string_clear(&feeditem.content);
/* ignore, prefer content:encoded over description */
if(!(feeditemtagid == RSSTagDescription && feeditem.content.len)) {
iscontenttag = 1;
currentfield = &feeditem.content;
}
} else if(feeditemtagid == RSSTagGuid)
currentfield = &feeditem.id;
else if(feeditemtagid == RSSTagAuthor || feeditemtagid == RSSTagDccreator)
currentfield = &feeditem.author;
} else if(feeditem.feedtype == FeedTypeAtom) {
if(feeditemtagid == TagUnknown)
currentfield = NULL;
else if(feeditemtagid == AtomTagPublished || feeditemtagid == AtomTagUpdated)
currentfield = &feeditem.timestamp;
else if(feeditemtagid == AtomTagTitle)
currentfield = &feeditem.title;
else if(feeditemtagid == AtomTagSummary || feeditemtagid == AtomTagContent) {
/* clear previous summary, assumes previous content was not a summary text */
if(feeditemtagid == AtomTagContent && feeditem.content.len)
string_clear(&feeditem.content);
/* ignore, prefer content:encoded over description */
if(!(feeditemtagid == AtomTagSummary && feeditem.content.len)) {
iscontenttag = 1;
currentfield = &feeditem.content;
}
} else if(feeditemtagid == AtomTagId)
currentfield = &feeditem.id;
else if(feeditemtagid == AtomTagLink)
currentfield = &feeditem.link;
else if(feeditemtagid == AtomTagAuthor)
currentfield = &feeditem.author;
}
/* TODO: prefer content encoded over content? */
}
} else { /* start of RSS or Atom item / entry */
if(istag(name, namelen, "entry", strlen("entry"))) { /* Atom */
feeditem.feedtype = FeedTypeAtom;
feeditem.contenttype = ContentTypePlain; /* Default content type */
currentfield = NULL; /* XXX: optimization */
} else if(istag(name, namelen, "item", strlen("item"))) { /* RSS */
feeditem.feedtype = FeedTypeRSS;
feeditem.contenttype = ContentTypeHTML; /* Default content type */
currentfield = NULL; /* XXX: optimization */
}
}
}
void
xml_handler_data_entity(XMLParser *p, const char *data, size_t datalen) {
char buffer[16];
size_t len;
#if 0
if(iscontent) {
xml_handler_data(p, data, datalen); /* TODO: for now, dont convert entities */
return;
}
#endif
/* TODO: for content HTML data entities, convert & to &? */
if((len = entitytostr(data, buffer, sizeof(buffer))))
xml_handler_data(p, buffer, len);
else
xml_handler_data(p, data, datalen); /* can't convert entity, just use it's data */
}
void
xml_handler_end_element(XMLParser *p, const char *name, size_t namelen, int isshort) {
char timebuf[64];
int tagid;
/* printf("%d end tag: </%s>\n", iscontent, name);*/
if(iscontent) {
attrcount = 0;
/* TODO: optimize */
tagid = gettag(feeditem.feedtype, name, namelen);
if(feeditemtagid == tagid) { /* close content */
iscontent = 0;
iscontenttag = 0;
p->xmldataentity = xml_handler_data_entity;
p->xmlattrstart = NULL;
p->xmlattrend = NULL;
p->xmltagstartparsed = NULL;
feeditemtag[0] = '\0'; /* unset tag */
feeditemtaglen = 0;
feeditemtagid = TagUnknown;
return; /* TODO: not sure if !isshort check below should be skipped */
}
if(!isshort) {
xml_handler_data(p, "</", 2);
xml_handler_data(p, name, namelen);
xml_handler_data(p, ">", 1);
}
return;
}
if(feeditem.feedtype != FeedTypeNone) {
/* end of RSS or Atom entry / item */
/* TODO: optimize, use gettag() ? to tagid? */
if((feeditem.feedtype == FeedTypeAtom && istag(name, namelen, "entry", strlen("entry"))) || /* Atom */
(feeditem.feedtype == FeedTypeRSS && istag(name, namelen, "item", strlen("item")))) { /* RSS */
printf("%ld", (long)parsetime((&feeditem.timestamp)->data, timebuf));
putchar(FieldSeparator);
fputs(timebuf, stdout);
putchar(FieldSeparator);
string_print_trimmed(&feeditem.title);
putchar(FieldSeparator);
string_print_trimmed(&feeditem.link);
putchar(FieldSeparator);
string_print_textblock(&feeditem.content);
putchar(FieldSeparator);
fputs(contenttypes[feeditem.contenttype], stdout);
putchar(FieldSeparator);
string_print_trimmed(&feeditem.id);
putchar(FieldSeparator);
string_print_trimmed(&feeditem.author);
putchar(FieldSeparator);
fputs(feedtypes[feeditem.feedtype], stdout);
putchar('\n');
/* clear strings */
string_clear(&feeditem.timestamp);
string_clear(&feeditem.title);
string_clear(&feeditem.link);
string_clear(&feeditem.content);
string_clear(&feeditem.id);
string_clear(&feeditem.author);
feeditem.feedtype = FeedTypeNone;
feeditem.contenttype = ContentTypePlain;
feeditemtag[0] = '\0'; /* unset tag */
feeditemtaglen = 0;
feeditemtagid = TagUnknown;
/* not sure if needed */
iscontenttag = 0;
iscontent = 0;
} else if(!strcmp(feeditemtag, name)) { /* clear */ /* XXX: optimize ? */
currentfield = NULL;
feeditemtag[0] = '\0'; /* unset tag */
feeditemtaglen = 0;
feeditemtagid = TagUnknown;
/* not sure if needed */
iscontenttag = 0;
iscontent = 0;
}
}
}
int
main(void) {
atexit(cleanup);
/* init strings and initial memory pool size */
string_buffer_init(&feeditem.timestamp, 64);
string_buffer_init(&feeditem.title, 256);
string_buffer_init(&feeditem.link, 1024);
string_buffer_init(&feeditem.content, 4096);
string_buffer_init(&feeditem.id, 1024);
string_buffer_init(&feeditem.author, 256);
feeditem.contenttype = ContentTypePlain;
feeditem.feedtype = FeedTypeNone;
xmlparser_init(&parser);
parser.xmltagstart = xml_handler_start_element;
parser.xmltagend = xml_handler_end_element;
parser.xmldata = xml_handler_data;
parser.xmldataentity = xml_handler_data_entity;
parser.xmlattr = xml_handler_attr;
parser.xmlcdata = xml_handler_cdata;
xmlparser_parse(&parser);
return EXIT_SUCCESS;
}
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