#include #include #include #include #include #include #include #include #include #include "util.h" #include "xml.h" #define ISINCONTENT(ctx) ((ctx).iscontent && !((ctx).iscontenttag)) #define ISCONTENTTAG(ctx) (!((ctx).iscontent) && (ctx).iscontenttag) /* string and byte-length */ #define STRP(s) s,sizeof(s)-1 enum FeedType { FeedTypeNone = 0, FeedTypeRSS = 1, FeedTypeAtom = 2 }; static const char *feedtypes[] = { "", "rss", "atom" }; enum ContentType { ContentTypeNone = 0, ContentTypePlain = 1, ContentTypeHTML = 2 }; static const char *contenttypes[] = { "", "plain", "html" }; /* String data / memory pool */ typedef struct string { char *data; /* data */ size_t len; /* string length */ size_t bufsiz; /* allocated size */ } String; /* NOTE: the order of these fields (content, date, author) indicate the * priority to use them, from least important to high. */ enum TagId { TagUnknown = 0, /* RSS */ RSSTagDcdate, RSSTagPubdate, RSSTagTitle, RSSTagMediaDescription, RSSTagDescription, RSSTagContentEncoded, RSSTagGuid, RSSTagLink, RSSTagAuthor, RSSTagDccreator, /* Atom */ AtomTagUpdated, AtomTagPublished, AtomTagTitle, AtomTagMediaDescription, AtomTagSummary, AtomTagContent, AtomTagId, AtomTagLink, AtomTagAuthor, TagLast, }; typedef struct feedtag { char *name; /* name of tag to match */ size_t len; /* len of `name` */ enum TagId id; /* unique ID */ } FeedTag; typedef struct field { String str; enum TagId tagid; /* tagid set previously, used for tag priority */ } FeedField; enum { FeedFieldTime = 0, FeedFieldTitle, FeedFieldLink, FeedFieldContent, FeedFieldId, FeedFieldAuthor, FeedFieldLast }; typedef struct feedcontext { String *field; /* current FeedItem field String */ FeedField fields[FeedFieldLast]; /* data for current feed item */ enum TagId tagid; /* unique number for parsed tag */ int iscontent; /* in content data */ int iscontenttag; /* in content tag */ int attrcount; enum ContentType contenttype; /* content-type for current item. */ enum FeedType feedtype; } FeedContext; static enum TagId gettag(enum FeedType, const char *, size_t); static int gettimetz(const char *, char *, size_t, int *); static int isattr(const char *, size_t, const char *, size_t); static int istag(const char *, size_t, const char *, size_t); static int parsetime(const char *, char *, size_t, time_t *); static void printfields(void); static void string_append(String *, const char *, size_t); static void string_buffer_realloc(String *, size_t); static void string_clear(String *); static void string_print_encoded(String *); static void string_print_trimmed(String *); static void xml_handler_attr(XMLParser *, const char *, size_t, const char *, size_t, const char *, size_t); static void xml_handler_attr_end(XMLParser *, const char *, size_t, const char *, size_t); static void xml_handler_attr_start(XMLParser *, const char *, size_t, const char *, size_t); static void xml_handler_cdata(XMLParser *, const char *, size_t); static void xml_handler_data(XMLParser *, const char *, size_t); static void xml_handler_data_entity(XMLParser *, const char *, size_t); static void xml_handler_end_el(XMLParser *, const char *, size_t, int); static void xml_handler_start_el(XMLParser *, const char *, size_t); static void xml_handler_start_el_parsed(XMLParser *, const char *, size_t, int); /* map tag type to field */ static int fieldmap[TagLast] = { /* RSS */ [RSSTagDcdate] = FeedFieldTime, [RSSTagPubdate] = FeedFieldTime, [RSSTagTitle] = FeedFieldTitle, [RSSTagMediaDescription] = FeedFieldContent, [RSSTagDescription] = FeedFieldContent, [RSSTagContentEncoded] = FeedFieldContent, [RSSTagGuid] = FeedFieldId, [RSSTagLink] = FeedFieldLink, [RSSTagAuthor] = FeedFieldAuthor, [RSSTagDccreator] = FeedFieldAuthor, /* Atom */ [AtomTagUpdated] = FeedFieldTime, [AtomTagPublished] = FeedFieldTime, [AtomTagTitle] = FeedFieldTitle, [AtomTagMediaDescription] = FeedFieldContent, [AtomTagSummary] = FeedFieldContent, [AtomTagContent] = FeedFieldContent, [AtomTagId] = FeedFieldId, [AtomTagLink] = FeedFieldLink, [AtomTagAuthor] = FeedFieldAuthor }; static const int FieldSeparator = '\t'; /* output field seperator character */ static const char *baseurl = ""; static FeedContext ctx; static XMLParser parser; /* XML parser state */ /* Unique id for parsed tag. */ static enum TagId gettag(enum FeedType feedtype, const char *name, size_t namelen) { /* RSS, alphabetical order */ static FeedTag rsstags[] = { { STRP("author"), RSSTagAuthor }, { STRP("content:encoded"), RSSTagContentEncoded }, { STRP("dc:creator"), RSSTagDccreator }, { STRP("dc:date"), RSSTagDcdate }, { STRP("description"), RSSTagDescription }, { STRP("guid"), RSSTagGuid }, { STRP("link"), RSSTagLink }, { STRP("media:description"), RSSTagMediaDescription }, { STRP("pubdate"), RSSTagPubdate }, { STRP("title"), RSSTagTitle }, { NULL, 0, -1 } }; /* Atom, alphabetical order */ static FeedTag atomtags[] = { { STRP("author"), AtomTagAuthor }, { STRP("content"), AtomTagContent }, { STRP("id"), AtomTagId }, { STRP("link"), AtomTagLink }, { STRP("media:description"), AtomTagMediaDescription }, { STRP("published"), AtomTagPublished }, { STRP("summary"), AtomTagSummary }, { STRP("title"), AtomTagTitle }, { STRP("updated"), AtomTagUpdated }, { NULL, 0, -1 } }; const FeedTag *tags; int i, n; /* optimization: these are always non-matching */ if (namelen < 2 || namelen > 17) return TagUnknown; switch (feedtype) { case FeedTypeRSS: tags = &rsstags[0]; break; case FeedTypeAtom: tags = &atomtags[0]; break; default: return TagUnknown; } /* search */ for (i = 0; tags[i].name; i++) { if (!(n = strcasecmp(tags[i].name, name))) return tags[i].id; /* found */ /* optimization: tags are sorted so nothing after matches. */ if (n > 0) return TagUnknown; } return TagUnknown; /* NOTREACHED */ } /* Clear string only; don't free, prevents unnecessary reallocation. */ static void string_clear(String *s) { if (s->data) s->data[0] = '\0'; s->len = 0; } static void string_buffer_realloc(String *s, size_t newlen) { char *p; size_t alloclen; for (alloclen = 64; alloclen <= newlen; alloclen *= 2) ; if (!(p = realloc(s->data, alloclen))) err(1, "realloc"); s->bufsiz = alloclen; s->data = p; } static void string_append(String *s, const char *data, size_t len) { if (!len || *data == '\0') return; /* check if allocation is necesary, don't shrink buffer, * should be more than bufsiz ofcourse. */ if (s->len + len >= s->bufsiz) string_buffer_realloc(s, s->len + len + 1); memcpy(s->data + s->len, data, len); s->len += len; s->data[s->len] = '\0'; } /* Get timezone from string, return as formatted string and time offset, * for the offset it assumes UTC. * NOTE: only parses timezones in RFC-822, other timezones are ambiguous * anyway. If needed you can add some yourself, like "cest", "cet" etc. */ static int gettimetz(const char *s, char *buf, size_t bufsiz, int *tzoffset) { static struct tzone { char *name; int offhour; int offmin; } tzones[] = { { "CDT", -5, 0 }, { "CST", -6, 0 }, { "EDT", -4, 0 }, { "EST", -5, 0 }, { "GMT", 0, 0 }, { "MDT", -6, 0 }, { "MST", -7, 0 }, { "PDT", -7, 0 }, { "PST", -8, 0 }, { "UT", 0, 0 }, { "UTC", 0, 0 }, { "A", -1, 0 }, { "M", -12, 0 }, { "N", 1, 0 }, { "Y", 12, 0 }, { "Z", 0, 0 } }; char tzbuf[5] = "", *tz = "", c = '+'; int tzhour = 0, tzmin = 0, r; size_t i; /* skip milliseconds for: %Y-%m-%dT%H:%M:%S.000Z */ if (*s == '.') { for (s++; *s && isdigit((int)*s); s++) ; } if (!*s || *s == 'Z' || *s == 'z') goto time_ok; /* skip whitespace */ s = &s[strspn(s, " \t")]; /* look until some common timezone delimiters are found */ for (i = 0; s[i] && isalpha((int)s[i]); i++) ; /* copy tz name */ if (i >= sizeof(tzbuf)) return -1; /* timezone too long */ memcpy(tzbuf, s, i); tzbuf[i] = '\0'; if ((sscanf(s, "%c%02d:%02d", &c, &tzhour, &tzmin)) == 3) ; else if (sscanf(s, "%c%02d%02d", &c, &tzhour, &tzmin) == 3) ; else if (sscanf(s, "%c%d", &c, &tzhour) == 2) tzmin = 0; else tzhour = tzmin = 0; if (!tzhour && !tzmin) c = '+'; /* compare tz and adjust offset relative to UTC */ for (i = 0; i < LEN(tzones); i++) { if (!strcmp(tzbuf, tzones[i].name)) { tz = "UTC"; tzhour = tzones[i].offhour; tzmin = tzones[i].offmin; c = tzones[i].offhour < 0 ? '-' : '+'; break; } } tzhour = abs(tzhour); tzmin = abs(tzmin); time_ok: /* timezone set but non-match */ if (tzbuf[0] && !tz[0]) { if (strlcpy(buf, tzbuf, bufsiz) >= bufsiz) return -1; /* truncation */ tzhour = tzmin = 0; c = '+'; } else { r = snprintf(buf, bufsiz, "%s%c%02d:%02d", tz[0] ? tz : "UTC", c, tzhour, tzmin); if (r < 0 || (size_t)r >= bufsiz) return -1; /* truncation or error */ } if (tzoffset) *tzoffset = ((tzhour * 3600) + (tzmin * 60)) * (c == '-' ? -1 : 1); return 0; } static int parsetime(const char *s, char *buf, size_t bufsiz, time_t *tp) { time_t t; struct tm tm; const char *formats[] = { "%a, %d %b %Y %H:%M:%S", "%Y-%m-%d %H:%M:%S", "%Y-%m-%dT%H:%M:%S", NULL }; char tz[16], *p; size_t i; int tzoffset, r; memset(&tm, 0, sizeof(tm)); for (i = 0; formats[i]; i++) { if (!(p = strptime(s, formats[i], &tm))) continue; tm.tm_isdst = -1; /* don't use DST */ if ((t = mktime(&tm)) == -1) /* error */ return -1; if (gettimetz(p, tz, sizeof(tz), &tzoffset) == -1) return -1; t -= tzoffset; if (buf) { r = snprintf(buf, bufsiz, "%04d-%02d-%02d %02d:%02d:%02d %s", tm.tm_year + 1900, tm.tm_mon + 1, tm.tm_mday, tm.tm_hour, tm.tm_min, tm.tm_sec, tz); if (r == -1 || (size_t)r >= bufsiz) return -1; /* truncation */ } if (tp) *tp = t; return 0; } return -1; } /* Print text, encode TABs, newlines and '\', remove other whitespace. * Remove leading and trailing whitespace. */ static void string_print_encoded(String *s) { const char *p, *e; if (!s->data || !s->len) return; /* skip leading whitespace */ for (p = s->data; *p && isspace((int)*p); p++) ; /* seek offset of trailing whitespace */ for (e = p + strlen(p); e > p && isspace((int)*(e - 1)); e--) ; for (; *p && p != e; p++) { switch (*p) { case '\n': fputs("\\n", stdout); break; case '\\': fputs("\\\\", stdout); break; case '\t': fputs("\\t", stdout); break; default: /* ignore control chars */ if (!iscntrl((int)*p)) putchar(*p); break; } } } /* Print text, replace TABs, carriage return and other whitespace with ' '. * Other control chars are removed. Remove leading and trailing whitespace. */ static void string_print_trimmed(String *s) { const char *p, *e; if (!s->data || !s->len) return; /* skip leading whitespace */ for (p = s->data; *p && isspace((int)*p); p++) ; /* seek offset of trailing whitespace */ for (e = p + strlen(p); e > p && isspace((int)*(e - 1)); e--) ; for (; *p && p != e; p++) { if (isspace((int)*p)) putchar(' '); /* any whitespace to space */ else if (!iscntrl((int)*p)) /* ignore other control chars */ putchar((int)*p); } } static void printfields(void) { char link[4096], timebuf[64]; time_t t; int r = -1; /* parse time, timestamp and formatted timestamp field is empty * if the parsed time is invalid */ if (ctx.fields[FeedFieldTime].str.data) r = parsetime(ctx.fields[FeedFieldTime].str.data, timebuf, sizeof(timebuf), &t); if (r != -1) printf("%ld", (long)t); putchar(FieldSeparator); if (r != -1) fputs(timebuf, stdout); putchar(FieldSeparator); string_print_trimmed(&ctx.fields[FeedFieldTitle].str); putchar(FieldSeparator); /* always print absolute urls */ if (ctx.fields[FeedFieldLink].str.data && absuri(ctx.fields[FeedFieldLink].str.data, baseurl, link, sizeof(link)) != -1) fputs(link, stdout); putchar(FieldSeparator); string_print_encoded(&ctx.fields[FeedFieldContent].str); putchar(FieldSeparator); fputs(contenttypes[ctx.contenttype], stdout); putchar(FieldSeparator); string_print_trimmed(&ctx.fields[FeedFieldId].str); putchar(FieldSeparator); string_print_trimmed(&ctx.fields[FeedFieldAuthor].str); putchar(FieldSeparator); fputs(feedtypes[ctx.feedtype], stdout); putchar('\n'); } static int istag(const char *name, size_t len, const char *name2, size_t len2) { return (len == len2 && !strcasecmp(name, name2)); } static int isattr(const char *name, size_t len, const char *name2, size_t len2) { return (len == len2 && !strcasecmp(name, name2)); } static void xml_handler_attr(XMLParser *p, const char *tag, size_t taglen, const char *name, size_t namelen, const char *value, size_t valuelen) { (void)tag; (void)taglen; /* handles transforming inline XML to data */ if (ISINCONTENT(ctx)) { if (ctx.contenttype == ContentTypeHTML) xml_handler_data(p, value, valuelen); return; } if (ctx.feedtype == FeedTypeAtom) { if (ISCONTENTTAG(ctx)) { if (isattr(name, namelen, STRP("type")) && (isattr(value, valuelen, STRP("xhtml")) || isattr(value, valuelen, STRP("text/xhtml")) || isattr(value, valuelen, STRP("html")) || isattr(value, valuelen, STRP("text/html")))) { ctx.contenttype = ContentTypeHTML; } } else if (ctx.tagid == AtomTagLink && isattr(name, namelen, STRP("href"))) { /* link href attribute */ string_append(&ctx.fields[FeedFieldLink].str, value, valuelen); } } } static void xml_handler_attr_end(XMLParser *p, const char *tag, size_t taglen, const char *name, size_t namelen) { (void)tag; (void)taglen; (void)name; (void)namelen; if (!ISINCONTENT(ctx) || ctx.contenttype != ContentTypeHTML) return; /* handles transforming inline XML to data */ xml_handler_data(p, "\"", 1); ctx.attrcount = 0; } static void xml_handler_attr_start(XMLParser *p, const char *tag, size_t taglen, const char *name, size_t namelen) { (void)tag; (void)taglen; if (!ISINCONTENT(ctx) || ctx.contenttype != ContentTypeHTML) return; /* handles transforming inline XML to data */ if (!ctx.attrcount) xml_handler_data(p, " ", 1); ctx.attrcount++; xml_handler_data(p, name, namelen); xml_handler_data(p, "=\"", 2); } static void xml_handler_cdata(XMLParser *p, const char *s, size_t len) { (void)p; if (!ctx.field) return; string_append(ctx.field, s, len); } /* NOTE: this handler can be called multiple times if the data in this * block is bigger than the buffer. */ static void xml_handler_data(XMLParser *p, const char *s, size_t len) { if (!ctx.field) return; /* add only data from inside tag * or any other non- tag */ if (ctx.tagid != AtomTagAuthor || !strcmp(p->tag, "name")) string_append(ctx.field, s, len); } static void xml_handler_data_entity(XMLParser *p, const char *data, size_t datalen) { char buffer[16]; ssize_t len; if (!ctx.field) return; /* try to translate entity, else just pass as data to * xml_data_handler. */ len = xml_entitytostr(data, buffer, sizeof(buffer)); /* this should never happen (buffer too small) */ if (len < 0) return; if (len > 0) xml_handler_data(p, buffer, (size_t)len); else xml_handler_data(p, data, datalen); } static void xml_handler_start_el(XMLParser *p, const char *name, size_t namelen) { enum TagId tagid; if (ISINCONTENT(ctx)) { ctx.attrcount = 0; if (ctx.contenttype == ContentTypeHTML) { xml_handler_data(p, "<", 1); xml_handler_data(p, name, namelen); } return; } /* start of RSS or Atom item / entry */ if (ctx.feedtype == FeedTypeNone) { if (istag(name, namelen, STRP("entry"))) { /* Atom */ ctx.feedtype = FeedTypeAtom; /* default content type for Atom */ ctx.contenttype = ContentTypePlain; } else if (istag(name, namelen, STRP("item"))) { /* RSS */ ctx.feedtype = FeedTypeRSS; /* default content type for RSS */ ctx.contenttype = ContentTypeHTML; } return; } /* field tagid already set: return */ if (ctx.tagid) return; /* in item */ tagid = gettag(ctx.feedtype, name, namelen); ctx.tagid = tagid; /* map tag type to field: unknown or less priority is ignored. */ if (tagid <= ctx.fields[fieldmap[ctx.tagid]].tagid) { ctx.field = NULL; return; } ctx.iscontenttag = (fieldmap[ctx.tagid] == FeedFieldContent); ctx.field = &(ctx.fields[fieldmap[ctx.tagid]].str); ctx.fields[fieldmap[ctx.tagid]].tagid = tagid; /* clear field */ string_clear(ctx.field); } static void xml_handler_start_el_parsed(XMLParser *p, const char *tag, size_t taglen, int isshort) { (void)tag; (void)taglen; if (ctx.iscontenttag) { ctx.iscontent = 1; ctx.iscontenttag = 0; return; } if (!ISINCONTENT(ctx) || ctx.contenttype != ContentTypeHTML) return; if (isshort) xml_handler_data(p, "/>", 2); else xml_handler_data(p, ">", 1); } static void xml_handler_end_el(XMLParser *p, const char *name, size_t namelen, int isshort) { size_t i; if (ctx.feedtype == FeedTypeNone) return; if (ISINCONTENT(ctx)) { /* not close content field */ if (gettag(ctx.feedtype, name, namelen) != ctx.tagid) { if (!isshort && ctx.contenttype == ContentTypeHTML) { xml_handler_data(p, "", 1); } return; } } else if (!ctx.tagid && ((ctx.feedtype == FeedTypeAtom && istag(name, namelen, STRP("entry"))) || /* Atom */ (ctx.feedtype == FeedTypeRSS && istag(name, namelen, STRP("item"))))) /* RSS */ { /* end of RSS or Atom entry / item */ printfields(); /* clear strings */ for (i = 0; i < FeedFieldLast; i++) { string_clear(&ctx.fields[i].str); ctx.fields[i].tagid = TagUnknown; } ctx.contenttype = ContentTypeNone; /* allow parsing of Atom and RSS in one XML stream. */ ctx.feedtype = FeedTypeNone; } else if (!ctx.tagid || gettag(ctx.feedtype, name, namelen) != ctx.tagid) { /* not end of field */ return; } /* close field */ ctx.iscontent = 0; ctx.tagid = TagUnknown; ctx.field = NULL; } int main(int argc, char *argv[]) { if (argc > 1) baseurl = argv[1]; if (setenv("TZ", "UTC", 1) == -1) err(1, "setenv"); tzset(); parser.xmlattr = xml_handler_attr; parser.xmlattrend = xml_handler_attr_end; parser.xmlattrstart = xml_handler_attr_start; parser.xmlcdata = xml_handler_cdata; parser.xmldata = xml_handler_data; parser.xmldataentity = xml_handler_data_entity; parser.xmltagend = xml_handler_end_el; parser.xmltagstart = xml_handler_start_el; parser.xmltagstartparsed = xml_handler_start_el_parsed; parser.getnext = getchar; xml_parse(&parser); return 0; }