ref: 02a26802ffbd64ebf993119e1599920ffee01ef0
dir: /sys/src/cmd/ip/imap4d/msg.c/
#include <u.h> #include <libc.h> #include <bio.h> #include <libsec.h> #include <auth.h> #include <fcall.h> #include "imap4d.h" static void body64(int in, int out); static void bodystrip(int in, int out); static void cleanupHeader(Header *h); static char *domBang(char *s); static void freeMAddr(MAddr *a); static void freeMimeHdr(MimeHdr *mh); static char *headAddrSpec(char *e, char *w); static MAddr *headAddresses(void); static MAddr *headAddress(void); static char *headAtom(char *disallowed); static int headChar(int eat); static char *headDomain(char *e); static MAddr *headMAddr(MAddr *old); static char *headPhrase(char *e, char *w); static char *headQuoted(int start, int stop); static char *headSkipWhite(int); static void headSkip(void); static char *headSubDomain(void); static char *headText(void); static void headToEnd(void); static char *headWord(void); static void mimeDescription(Header *h); static void mimeDisposition(Header *h); static void mimeEncoding(Header *h); static void mimeId(Header *h); static void mimeLanguage(Header *h); static void mimeMd5(Header *h); static MimeHdr *mimeParams(void); static void mimeType(Header *h); static MimeHdr *mkMimeHdr(char *s, char *t, MimeHdr *next); static void msgAddDate(Msg *m); static void msgAddHead(Msg *m, char *head, char *body); static int msgBodySize(Msg *m); static int msgHeader(Msg *m, Header *h, char *file); static long msgReadFile(Msg *m, char *file, char **ss); static int msgUnix(Msg *m, int top); static void stripQuotes(char *q); static MAddr *unixFrom(char *s); static char bogusBody[] = "This message contains null characters, so it cannot be displayed correctly.\r\n" "Most likely you were sent a bogus message or a binary file.\r\n" "\r\n" "Each of the following attachments has a different version of the message.\r\n" "The first is inlined with all non-printable characters stripped.\r\n" "The second contains the message as it was stored in your mailbox.\r\n" "The third has the initial header stripped.\r\n"; static char bogusMimeText[] = "Content-Disposition: inline\r\n" "Content-Type: text/plain; charset=\"US-ASCII\"\r\n" "Content-Transfer-Encoding: 7bit\r\n"; static char bogusMimeBinary[] = "Content-Disposition: attachment\r\n" "Content-Type: application/octet-stream\r\n" "Content-Transfer-Encoding: base64\r\n"; /* * stop list for header fields */ static char *headFieldStop = ":"; static char *mimeTokenStop = "()<>@,;:\\\"/[]?="; static char *headAtomStop = "()<>@,;:\\\".[]"; static uchar *headStr; static uchar *lastWhite; long selectFields(char *dst, long n, char *hdr, SList *fields, int matches) { SList *f; uchar *start; char *s; long m, nf; headStr = (uchar*)hdr; m = 0; for(;;){ start = headStr; s = headAtom(headFieldStop); if(s == nil) break; headSkip(); for(f = fields; f != nil; f = f->next){ if(cistrcmp(s, f->s) == !matches){ nf = headStr - start; if(m + nf > n) return 0; memmove(&dst[m], start, nf); m += nf; } } free(s); } if(m + 3 > n) return 0; dst[m++] = '\r'; dst[m++] = '\n'; dst[m] = '\0'; return m; } void freeMsg(Msg *m) { Msg *k, *last; free(m->iBuf); freeMAddr(m->to); if(m->replyTo != m->from) freeMAddr(m->replyTo); if(m->sender != m->from) freeMAddr(m->sender); if(m->from != m->unixFrom) freeMAddr(m->from); freeMAddr(m->unixFrom); freeMAddr(m->cc); freeMAddr(m->bcc); free(m->unixDate); cleanupHeader(&m->head); cleanupHeader(&m->mime); for(k = m->kids; k != nil; ){ last = k; k = k->next; freeMsg(last); } free(m->fs); free(m); } ulong msgSize(Msg *m) { return m->head.size + m->size; } int infoIsNil(char *s) { return s == nil || s[0] == '\0'; } char* maddrStr(MAddr *a) { char *host, *addr; int n; host = a->host; if(host == nil) host = ""; n = strlen(a->box) + strlen(host) + 2; if(a->personal != nil) n += strlen(a->personal) + 3; addr = emalloc(n); if(a->personal != nil) snprint(addr, n, "%s <%s@%s>", a->personal, a->box, host); else snprint(addr, n, "%s@%s", a->box, host); return addr; } /* * return actual name of f in m's fs directory * this is special cased when opening m/rawbody, m/mimeheader, or m/rawheader, * if the message was corrupted. in that case, * a temporary file is made to hold the base64 encoding of m/raw. */ int msgFile(Msg *m, char *f) { Msg *parent, *p; Dir d; Tm tm; char buf[64], nbuf[2]; uchar dbuf[64]; int i, n, fd, fd1, fd2; if(!m->bogus || strcmp(f, "") != 0 && strcmp(f, "rawbody") != 0 && strcmp(f, "rawheader") != 0 && strcmp(f, "mimeheader") != 0 && strcmp(f, "info") != 0 && strcmp(f, "unixheader") != 0){ if(strlen(f) > MsgNameLen) bye("internal error: msgFile name too long"); strcpy(m->efs, f); return cdOpen(m->fsDir, m->fs, OREAD); } /* * walk up the stupid runt message parts for non-multipart messages */ parent = m->parent; if(parent != nil && parent->parent != nil){ m = parent; parent = m->parent; } p = m; if(parent != nil) p = parent; if(strcmp(f, "info") == 0 || strcmp(f, "unixheader") == 0){ strcpy(p->efs, f); return cdOpen(p->fsDir, p->fs, OREAD); } fd = imapTmp(); if(fd < 0) return -1; /* * craft the message parts for bogus messages */ if(strcmp(f, "") == 0){ /* * make a fake directory for each kid * all we care about is the name */ if(parent == nil){ nulldir(&d); d.mode = DMDIR|0600; d.qid.type = QTDIR; d.name = nbuf; nbuf[1] = '\0'; for(i = '1'; i <= '4'; i++){ nbuf[0] = i; n = convD2M(&d, dbuf, sizeof(dbuf)); if(n <= BIT16SZ) fprint(2, "bad convD2M %d\n", n); write(fd, dbuf, n); } } }else if(strcmp(f, "mimeheader") == 0){ if(parent != nil){ switch(m->id){ case 1: case 2: fprint(fd, "%s", bogusMimeText); break; case 3: case 4: fprint(fd, "%s", bogusMimeBinary); break; } } }else if(strcmp(f, "rawheader") == 0){ if(parent == nil){ date2tm(&tm, m->unixDate); rfc822date(buf, sizeof(buf), &tm); fprint(fd, "Date: %s\r\n" "From: imap4 daemon <%s@%s>\r\n" "To: <%s@%s>\r\n" "Subject: This message was illegal or corrupted\r\n" "MIME-Version: 1.0\r\n" "Content-Type: multipart/mixed;\r\n\tboundary=\"upas-%s\"\r\n", buf, username, site, username, site, m->info[IDigest]); } }else if(strcmp(f, "rawbody") == 0){ fd1 = msgFile(p, "raw"); strcpy(p->efs, "rawbody"); fd2 = cdOpen(p->fsDir, p->fs, OREAD); if(fd1 < 0 || fd2 < 0){ close(fd); close(fd1); close(fd2); return -1; } if(parent == nil){ fprint(fd, "This is a multi-part message in MIME format.\r\n" "--upas-%s\r\n" "%s" "\r\n" "%s" "\r\n", m->info[IDigest], bogusMimeText, bogusBody); fprint(fd, "--upas-%s\r\n" "%s" "\r\n", m->info[IDigest], bogusMimeText); bodystrip(fd1, fd); fprint(fd, "--upas-%s\r\n" "%s" "\r\n", m->info[IDigest], bogusMimeBinary); seek(fd1, 0, 0); body64(fd1, fd); fprint(fd, "--upas-%s\r\n" "%s" "\r\n", m->info[IDigest], bogusMimeBinary); body64(fd2, fd); fprint(fd, "--upas-%s--\r\n", m->info[IDigest]); }else{ switch(m->id){ case 1: fprint(fd, "%s", bogusBody); break; case 2: bodystrip(fd1, fd); break; case 3: body64(fd1, fd); break; case 4: body64(fd2, fd); break; } } close(fd1); close(fd2); } seek(fd, 0, 0); return fd; } int msgIsMulti(Header *h) { return h->type != nil && cistrcmp("multipart", h->type->s) == 0; } int msgIsRfc822(Header *h) { return h->type != nil && cistrcmp("message", h->type->s) == 0 && cistrcmp("rfc822", h->type->t) == 0; } /* * check if a message has been deleted by someone else */ void msgDead(Msg *m) { if(m->expunged) return; *m->efs = '\0'; if(!cdExists(m->fsDir, m->fs)) m->expunged = 1; } /* * make sure the message has valid associated info * used for ISubject, IDigest, IInReplyTo, IMessageId. */ int msgInfo(Msg *m) { char *s; int i; if(m->info[0] != nil) return 1; i = msgReadFile(m, "info", &m->iBuf); if(i < 0) return 0; s = m->iBuf; for(i = 0; i < IMax; i++){ m->info[i] = s; s = strchr(s, '\n'); if(s == nil) break; *s++ = '\0'; } for(; i < IMax; i++) m->info[i] = nil; for(i = 0; i < IMax; i++) if(infoIsNil(m->info[i])) m->info[i] = nil; return 1; } /* * make sure the message has valid mime structure * and sub-messages */ int msgStruct(Msg *m, int top) { Msg *k, head, *last; Dir *d; char *s; ulong max, id; int i, nd, fd, ns; if(m->kids != nil) return 1; if(m->expunged || !msgInfo(m) || !msgUnix(m, top) || !msgBodySize(m) || !msgHeader(m, &m->mime, "mimeheader") || (top || msgIsRfc822(&m->mime) || msgIsMulti(&m->mime)) && !msgHeader(m, &m->head, "rawheader")){ if(top && m->bogus && !(m->bogus & BogusTried)){ m->bogus |= BogusTried; return msgStruct(m, top); } msgDead(m); return 0; } /* * if a message has no kids, it has a kid which is just the body of the real message */ if(!msgIsMulti(&m->head) && !msgIsMulti(&m->mime) && !msgIsRfc822(&m->head) && !msgIsRfc822(&m->mime)){ k = MKZ(Msg); k->id = 1; k->fsDir = m->fsDir; k->bogus = m->bogus; k->parent = m->parent; ns = m->efs - m->fs; k->fs = emalloc(ns + (MsgNameLen + 1)); memmove(k->fs, m->fs, ns); k->efs = k->fs + ns; *k->efs = '\0'; k->size = m->size; m->kids = k; return 1; } /* * read in all child messages messages */ fd = msgFile(m, ""); if(fd < 0){ msgDead(m); return 0; } max = 0; head.next = nil; last = &head; while((nd = dirread(fd, &d)) > 0){ for(i = 0; i < nd; i++){ s = d[i].name; id = strtol(s, &s, 10); if(id <= max || *s != '\0' || (d[i].mode & DMDIR) != DMDIR) continue; max = id; k = MKZ(Msg); k->id = id; k->fsDir = m->fsDir; k->bogus = m->bogus; k->parent = m; ns = strlen(m->fs); k->fs = emalloc(ns + 2 * (MsgNameLen + 1)); k->efs = seprint(k->fs, k->fs + ns + (MsgNameLen + 1), "%s%lud/", m->fs, id); k->prev = last; k->size = ~0UL; k->lines = ~0UL; last->next = k; last = k; } } close(fd); m->kids = head.next; /* * if kids fail, just whack them */ top = top && (msgIsRfc822(&m->head) || msgIsMulti(&m->head)); for(k = m->kids; k != nil; k = k->next){ if(!msgStruct(k, top)){ for(k = m->kids; k != nil; ){ last = k; k = k->next; freeMsg(last); } m->kids = nil; break; } } return 1; } static long msgReadFile(Msg *m, char *file, char **ss) { Dir *d; char *s, buf[BufSize]; vlong length; long n, nn; int fd; fd = msgFile(m, file); if(fd < 0){ msgDead(m); return -1; } n = read(fd, buf, BufSize); if(n < BufSize){ close(fd); if(n < 0){ *ss = nil; return -1; } s = emalloc(n + 1); memmove(s, buf, n); s[n] = '\0'; *ss = s; return n; } d = dirfstat(fd); if(d == nil){ close(fd); return -1; } length = d->length; free(d); nn = length; s = emalloc(nn + 1); memmove(s, buf, n); if(nn > n) nn = readn(fd, s+n, nn-n) + n; close(fd); if(nn != length){ free(s); return -1; } s[nn] = '\0'; *ss = s; return nn; } static void freeMAddr(MAddr *a) { MAddr *p; while(a != nil){ p = a; a = a->next; free(p->personal); free(p->box); free(p->host); free(p); } } /* * the message is corrupted or illegal. * reset message fields. msgStruct will reparse the message, * relying on msgFile to make up corrected body parts. */ static int msgBogus(Msg *m, int flags) { if(!(m->bogus & flags)) m->bogus |= flags; m->lines = ~0; free(m->head.buf); free(m->mime.buf); memset(&m->head, 0, sizeof(Header)); memset(&m->mime, 0, sizeof(Header)); return 0; } /* * stolen from upas/marshal; base64 encodes from one fd to another. * * the size of buf is very important to enc64. Anything other than * a multiple of 3 will cause enc64 to output a termination sequence. * To ensure that a full buf corresponds to a multiple of complete lines, * we make buf a multiple of 3*18 since that's how many enc64 sticks on * a single line. This avoids short lines in the output which is pleasing * but not necessary. */ static int enc64x18(char *out, int lim, uchar *in, int n) { int m, mm, nn; for(nn = 0; n > 0; n -= m, nn += mm){ m = 18 * 3; if(m > n) m = n; nn += 2; /* \r\n */ assert(nn < lim); mm = enc64(out, lim - nn, in, m); assert(mm > 0); in += m; out += mm; *out++ = '\r'; *out++ = '\n'; } return nn; } static void body64(int in, int out) { uchar buf[3*18*54]; char obuf[3*18*54*2]; int m, n; for(;;){ n = readn(in, buf, sizeof(buf)); if(n < 0) return; if(n == 0) break; m = enc64x18(obuf, sizeof(obuf), buf, n); if(write(out, obuf, m) < 0) return; } } /* * strip all non-printable characters from a file */ static void bodystrip(int in, int out) { uchar buf[3*18*54]; int m, n, i, c; for(;;){ n = read(in, buf, sizeof(buf)); if(n < 0) return; if(n == 0) break; m = 0; for(i = 0; i < n; i++){ c = buf[i]; if(c > 0x1f && c < 0x7f /* normal characters */ || c >= 0x9 && c <= 0xd) /* \t, \n, vertical tab, form feed, \r */ buf[m++] = c; } if(m && write(out, buf, m) < 0) return; } } /* * read in the message body to count \n without a preceding \r */ static int msgBodySize(Msg *m) { Dir *d; char buf[BufSize + 2], *s, *se; vlong length; ulong size, lines, bad; int n, fd, c; if(m->lines != ~0UL) return 1; fd = msgFile(m, "rawbody"); if(fd < 0) return 0; d = dirfstat(fd); if(d == nil){ close(fd); return 0; } length = d->length; free(d); size = 0; lines = 0; bad = 0; buf[0] = ' '; for(;;){ n = read(fd, &buf[1], BufSize); if(n <= 0) break; size += n; se = &buf[n + 1]; for(s = &buf[1]; s < se; s++){ c = *s; if(c == '\0'){ close(fd); return msgBogus(m, BogusBody); } if(c != '\n') continue; if(s[-1] != '\r') bad++; lines++; } buf[0] = buf[n]; } if(size != length) bye("bad length reading rawbody"); size += bad; m->size = size; m->lines = lines; close(fd); return 1; } /* * retrieve information from the unixheader file */ static int msgUnix(Msg *m, int top) { Tm tm; char *s, *ss; if(m->unixDate != nil) return 1; if(!top){ bogus: m->unixDate = estrdup(""); m->unixFrom = unixFrom(nil); return 1; } if(msgReadFile(m, "unixheader", &ss) < 0) return 0; s = ss; s = strchr(s, ' '); if(s == nil){ free(ss); goto bogus; } s++; m->unixFrom = unixFrom(s); s = (char*)headStr; if(date2tm(&tm, s) == nil) s = m->info[IUnixDate]; if(s == nil){ free(ss); goto bogus; } m->unixDate = estrdup(s); free(ss); return 1; } /* * parse the address in the unix header * last line of defence, so must return something */ static MAddr * unixFrom(char *s) { MAddr *a; char *e, *t; if(s == nil) return nil; headStr = (uchar*)s; t = emalloc(strlen(s) + 2); e = headAddrSpec(t, nil); if(e == nil) a = nil; else{ if(*e != '\0') *e++ = '\0'; else e = site; a = MKZ(MAddr); a->box = estrdup(t); a->host = estrdup(e); } free(t); return a; } /* * read in the entire header, * and parse out any existing mime headers */ static int msgHeader(Msg *m, Header *h, char *file) { char *s, *ss, *t, *te; ulong lines, n, nn; long ns; int dated, c; if(h->buf != nil) return 1; ns = msgReadFile(m, file, &ss); if(ns < 0) return 0; s = ss; n = ns; /* * count lines ending with \n and \r\n * add an extra line at the end, since upas/fs headers * don't have a terminating \r\n */ lines = 1; te = s + ns; for(t = s; t < te; t++){ c = *t; if(c == '\0') return msgBogus(m, BogusHeader); if(c != '\n') continue; if(t == s || t[-1] != '\r') n++; lines++; } if(t > s && t[-1] != '\n'){ if(t[-1] != '\r') n++; n++; } n += 2; h->buf = emalloc(n + 1); h->size = n; h->lines = lines; /* * make sure all headers end in \r\n */ nn = 0; for(t = s; t < te; t++){ c = *t; if(c == '\n'){ if(!nn || h->buf[nn - 1] != '\r') h->buf[nn++] = '\r'; lines++; } h->buf[nn++] = c; } if(nn && h->buf[nn-1] != '\n'){ if(h->buf[nn-1] != '\r') h->buf[nn++] = '\r'; h->buf[nn++] = '\n'; } h->buf[nn++] = '\r'; h->buf[nn++] = '\n'; h->buf[nn] = '\0'; if(nn != n) bye("misconverted header %ld %ld", nn, n); free(s); /* * and parse some mime headers */ headStr = (uchar*)h->buf; dated = 0; while(s = headAtom(headFieldStop)){ if(cistrcmp(s, "content-type") == 0) mimeType(h); else if(cistrcmp(s, "content-transfer-encoding") == 0) mimeEncoding(h); else if(cistrcmp(s, "content-id") == 0) mimeId(h); else if(cistrcmp(s, "content-description") == 0) mimeDescription(h); else if(cistrcmp(s, "content-disposition") == 0) mimeDisposition(h); else if(cistrcmp(s, "content-md5") == 0) mimeMd5(h); else if(cistrcmp(s, "content-language") == 0) mimeLanguage(h); else if(h == &m->head && cistrcmp(s, "from") == 0) m->from = headMAddr(m->from); else if(h == &m->head && cistrcmp(s, "to") == 0) m->to = headMAddr(m->to); else if(h == &m->head && cistrcmp(s, "reply-to") == 0) m->replyTo = headMAddr(m->replyTo); else if(h == &m->head && cistrcmp(s, "sender") == 0) m->sender = headMAddr(m->sender); else if(h == &m->head && cistrcmp(s, "cc") == 0) m->cc = headMAddr(m->cc); else if(h == &m->head && cistrcmp(s, "bcc") == 0) m->bcc = headMAddr(m->bcc); else if(h == &m->head && cistrcmp(s, "date") == 0) dated = 1; headSkip(); free(s); } if(h == &m->head){ if(m->from == nil){ m->from = m->unixFrom; if(m->from != nil){ s = maddrStr(m->from); msgAddHead(m, "From", s); free(s); } } if(m->sender == nil) m->sender = m->from; if(m->replyTo == nil) m->replyTo = m->from; if(infoIsNil(m->info[IDate])) m->info[IDate] = m->unixDate; if(!dated && m->from != nil) msgAddDate(m); } return 1; } /* * prepend head: body to the cached header */ static void msgAddHead(Msg *m, char *head, char *body) { char *s; long size, n; n = strlen(head) + strlen(body) + 4; size = m->head.size + n; s = emalloc(size + 1); snprint(s, size + 1, "%s: %s\r\n%s", head, body, m->head.buf); free(m->head.buf); m->head.buf = s; m->head.size = size; m->head.lines++; } static void msgAddDate(Msg *m) { Tm tm; char buf[64]; /* don't bother if we don't have a date */ if(infoIsNil(m->info[IDate])) return; date2tm(&tm, m->info[IDate]); rfc822date(buf, sizeof(buf), &tm); msgAddHead(m, "Date", buf); } static MimeHdr* mkMimeHdr(char *s, char *t, MimeHdr *next) { MimeHdr *mh; mh = MK(MimeHdr); mh->s = s; mh->t = t; mh->next = next; return mh; } static void freeMimeHdr(MimeHdr *mh) { MimeHdr *last; while(mh != nil){ last = mh; mh = mh->next; free(last->s); free(last->t); free(last); } } static void cleanupHeader(Header *h) { freeMimeHdr(h->type); freeMimeHdr(h->id); freeMimeHdr(h->description); freeMimeHdr(h->encoding); freeMimeHdr(h->md5); freeMimeHdr(h->disposition); freeMimeHdr(h->language); } /* * parser for rfc822 & mime header fields */ /* * type : 'content-type' ':' token '/' token params */ static void mimeType(Header *h) { char *s, *t; if(headChar(1) != ':') return; s = headAtom(mimeTokenStop); if(s == nil || headChar(1) != '/'){ free(s); return; } t = headAtom(mimeTokenStop); if(t == nil){ free(s); return; } h->type = mkMimeHdr(s, t, mimeParams()); } /* * params : * | params ';' token '=' token * | params ';' token '=' quoted-str */ static MimeHdr* mimeParams(void) { MimeHdr head, *last; char *s, *t; head.next = nil; last = &head; for(;;){ if(headChar(1) != ';') break; s = headAtom(mimeTokenStop); if(s == nil || headChar(1) != '='){ free(s); break; } if(headChar(0) == '"'){ t = headQuoted('"', '"'); stripQuotes(t); }else t = headAtom(mimeTokenStop); if(t == nil){ free(s); break; } last->next = mkMimeHdr(s, t, nil); last = last->next; } return head.next; } /* * encoding : 'content-transfer-encoding' ':' token */ static void mimeEncoding(Header *h) { char *s; if(headChar(1) != ':') return; s = headAtom(mimeTokenStop); if(s == nil) return; h->encoding = mkMimeHdr(s, nil, nil); } /* * mailaddr : ':' addresses */ static MAddr* headMAddr(MAddr *old) { MAddr *a; if(headChar(1) != ':') return old; if(headChar(0) == '\n') return old; a = headAddresses(); if(a == nil) return old; freeMAddr(old); return a; } /* * addresses : address | addresses ',' address */ static MAddr* headAddresses(void) { MAddr *addr, *tail, *a; addr = headAddress(); if(addr == nil) return nil; tail = addr; while(headChar(0) == ','){ headChar(1); a = headAddress(); if(a == nil){ freeMAddr(addr); return nil; } tail->next = a; tail = a; } return addr; } /* * address : mailbox | group * group : phrase ':' mboxes ';' | phrase ':' ';' * mailbox : addr-spec * | optphrase '<' addr-spec '>' * | optphrase '<' route ':' addr-spec '>' * optphrase : | phrase * route : '@' domain * | route ',' '@' domain * personal names are the phrase before '<', * or a comment before or after a simple addr-spec */ static MAddr* headAddress(void) { MAddr *addr; uchar *hs; char *s, *e, *w, *personal; int c; s = emalloc(strlen((char*)headStr) + 2); e = s; personal = headSkipWhite(1); c = headChar(0); if(c == '<') w = nil; else{ w = headWord(); c = headChar(0); } if(c == '.' || c == '@' || c == ',' || c == '\n' || c == '\0'){ lastWhite = headStr; e = headAddrSpec(s, w); if(personal == nil){ hs = headStr; headStr = lastWhite; personal = headSkipWhite(1); headStr = hs; } }else{ if(c != '<' || w != nil){ free(personal); if(!headPhrase(e, w)){ free(s); return nil; } /* * ignore addresses with groups, * so the only thing left if < */ c = headChar(1); if(c != '<'){ free(s); return nil; } personal = estrdup(s); }else headChar(1); /* * after this point, we need to free personal before returning. * set e to nil to everything afterwards fails. * * ignore routes, they are useless, and heavily discouraged in rfc1123. * imap4 reports them up to, but not including, the terminating : */ e = s; c = headChar(0); if(c == '@'){ for(;;){ c = headChar(1); if(c != '@'){ e = nil; break; } headDomain(e); c = headChar(1); if(c != ','){ e = s; break; } } if(c != ':') e = nil; } if(e != nil) e = headAddrSpec(s, nil); if(headChar(1) != '>') e = nil; } /* * e points to @host, or nil if an error occured */ if(e == nil){ free(personal); addr = nil; }else{ if(*e != '\0') *e++ = '\0'; else e = site; addr = MKZ(MAddr); addr->personal = personal; addr->box = estrdup(s); addr->host = estrdup(e); } free(s); return addr; } /* * phrase : word * | phrase word * w is the optional initial word of the phrase * returns the end of the phrase, or nil if a failure occured */ static char* headPhrase(char *e, char *w) { int c; for(;;){ if(w == nil){ w = headWord(); if(w == nil) return nil; } if(w[0] == '"') stripQuotes(w); strcpy(e, w); free(w); w = nil; e = strchr(e, '\0'); c = headChar(0); if(c <= ' ' || strchr(headAtomStop, c) != nil && c != '"') break; *e++ = ' '; *e = '\0'; } return e; } /* * addr-spec : local-part '@' domain * | local-part extension to allow ! and local names * local-part : word * | local-part '.' word * * if no '@' is present, rewrite d!e!f!u as @d,@e:u@f, * where d, e, f are valid domain components. * the @d,@e: is ignored, since routes are ignored. * perhaps they should be rewritten as e!f!u@d, but that is inconsistent with upas. * * returns a pointer to '@', the end if none, or nil if there was an error */ static char* headAddrSpec(char *e, char *w) { char *s, *at, *b, *bang, *dom; int c; s = e; for(;;){ if(w == nil){ w = headWord(); if(w == nil) return nil; } strcpy(e, w); free(w); w = nil; e = strchr(e, '\0'); lastWhite = headStr; c = headChar(0); if(c != '.') break; headChar(1); *e++ = '.'; *e = '\0'; } if(c != '@'){ /* * extenstion: allow name without domain * check for domain!xxx */ bang = domBang(s); if(bang == nil) return e; /* * if dom1!dom2!xxx, ignore dom1! */ dom = s; for(; b = domBang(bang + 1); bang = b) dom = bang + 1; /* * convert dom!mbox into mbox@dom */ *bang = '@'; strrev(dom, bang); strrev(bang+1, e); strrev(dom, e); bang = &dom[e - bang - 1]; if(dom > s){ bang -= dom - s; for(e = s; *e = *dom; e++) dom++; } /* * eliminate a trailing '.' */ if(e[-1] == '.') e[-1] = '\0'; return bang; } headChar(1); at = e; *e++ = '@'; *e = '\0'; if(!headDomain(e)) return nil; return at; } /* * find the ! in domain!rest, where domain must have at least * one internal '.' */ static char* domBang(char *s) { int dot, c; dot = 0; for(; c = *s; s++){ if(c == '!'){ if(!dot || dot == 1 && s[-1] == '.' || s[1] == '\0') return nil; return s; } if(c == '"') break; if(c == '.') dot++; } return nil; } /* * domain : sub-domain * | domain '.' sub-domain * returns the end of the domain, or nil if a failure occured */ static char* headDomain(char *e) { char *w; for(;;){ w = headSubDomain(); if(w == nil) return nil; strcpy(e, w); free(w); e = strchr(e, '\0'); lastWhite = headStr; if(headChar(0) != '.') break; headChar(1); *e++ = '.'; *e = '\0'; } return e; } /* * id : 'content-id' ':' msg-id * msg-id : '<' addr-spec '>' */ static void mimeId(Header *h) { char *s, *e, *w; if(headChar(1) != ':') return; if(headChar(1) != '<') return; s = emalloc(strlen((char*)headStr) + 3); e = s; *e++ = '<'; e = headAddrSpec(e, nil); if(e == nil || headChar(1) != '>'){ free(s); return; } e = strchr(e, '\0'); *e++ = '>'; e[0] = '\0'; w = strdup(s); free(s); h->id = mkMimeHdr(w, nil, nil); } /* * description : 'content-description' ':' *text */ static void mimeDescription(Header *h) { if(headChar(1) != ':') return; headSkipWhite(0); h->description = mkMimeHdr(headText(), nil, nil); } /* * disposition : 'content-disposition' ':' token params */ static void mimeDisposition(Header *h) { char *s; if(headChar(1) != ':') return; s = headAtom(mimeTokenStop); if(s == nil) return; h->disposition = mkMimeHdr(s, nil, mimeParams()); } /* * md5 : 'content-md5' ':' token */ static void mimeMd5(Header *h) { char *s; if(headChar(1) != ':') return; s = headAtom(mimeTokenStop); if(s == nil) return; h->md5 = mkMimeHdr(s, nil, nil); } /* * language : 'content-language' ':' langs * langs : token * | langs commas token * commas : ',' * | commas ',' */ static void mimeLanguage(Header *h) { MimeHdr head, *last; char *s; head.next = nil; last = &head; for(;;){ s = headAtom(mimeTokenStop); if(s == nil) break; last->next = mkMimeHdr(s, nil, nil); last = last->next; while(headChar(0) != ',') headChar(1); } h->language = head.next; } /* * token : 1*<char 33-255, except "()<>@,;:\\\"/[]?=" aka mimeTokenStop> * atom : 1*<chars 33-255, except "()<>@,;:\\\".[]" aka headAtomStop> * note this allows 8 bit characters, which occur in utf. */ static char* headAtom(char *disallowed) { char *s; int c, ns, as; headSkipWhite(0); s = emalloc(StrAlloc); as = StrAlloc; ns = 0; for(;;){ c = *headStr++; if(c <= ' ' || strchr(disallowed, c) != nil){ headStr--; break; } s[ns++] = c; if(ns >= as){ as += StrAlloc; s = erealloc(s, as); } } if(ns == 0){ free(s); return 0; } s[ns] = '\0'; return s; } /* * sub-domain : atom | domain-lit */ static char * headSubDomain(void) { if(headChar(0) == '[') return headQuoted('[', ']'); return headAtom(headAtomStop); } /* * word : atom | quoted-str */ static char * headWord(void) { if(headChar(0) == '"') return headQuoted('"', '"'); return headAtom(headAtomStop); } /* * q is a quoted string. remove enclosing " and and \ escapes */ static void stripQuotes(char *q) { char *s; int c; if(q == nil) return; s = q++; while(c = *q++){ if(c == '\\'){ c = *q++; if(!c) return; } *s++ = c; } s[-1] = '\0'; } /* * quoted-str : '"' *(any char but '"\\\r', or '\' any char, or linear-white-space) '"' * domain-lit : '[' *(any char but '[]\\\r', or '\' any char, or linear-white-space) ']' */ static char * headQuoted(int start, int stop) { char *s; int c, ns, as; if(headChar(1) != start) return nil; s = emalloc(StrAlloc); as = StrAlloc; ns = 0; s[ns++] = start; for(;;){ c = *headStr; if(c == stop){ headStr++; break; } if(c == '\0'){ free(s); return nil; } if(c == '\r'){ headStr++; continue; } if(c == '\n'){ headStr++; while(*headStr == ' ' || *headStr == '\t' || *headStr == '\r' || *headStr == '\n') headStr++; c = ' '; }else if(c == '\\'){ headStr++; s[ns++] = c; c = *headStr; if(c == '\0'){ free(s); return nil; } headStr++; }else headStr++; s[ns++] = c; if(ns + 1 >= as){ /* leave room for \c or "0 */ as += StrAlloc; s = erealloc(s, as); } } s[ns++] = stop; s[ns] = '\0'; return s; } /* * headText : contents of rest of header line */ static char * headText(void) { uchar *v; char *s; v = headStr; headToEnd(); s = emalloc(headStr - v + 1); memmove(s, v, headStr - v); s[headStr - v] = '\0'; return s; } /* * white space is ' ' '\t' or nested comments. * skip white space. * if com and a comment is seen, * return it's contents and stop processing white space. */ static char* headSkipWhite(int com) { char *s; int c, incom, as, ns; s = nil; as = StrAlloc; ns = 0; if(com) s = emalloc(StrAlloc); incom = 0; for(; c = *headStr; headStr++){ switch(c){ case ' ': case '\t': case '\r': c = ' '; break; case '\n': c = headStr[1]; if(c != ' ' && c != '\t') goto breakout; c = ' '; break; case '\\': if(com && incom) s[ns++] = c; c = headStr[1]; if(c == '\0') goto breakout; headStr++; break; case '(': incom++; if(incom == 1) continue; break; case ')': incom--; if(com && !incom){ s[ns] = '\0'; return s; } break; default: if(!incom) goto breakout; break; } if(com && incom && (c != ' ' || ns > 0 && s[ns-1] != ' ')){ s[ns++] = c; if(ns + 1 >= as){ /* leave room for \c or 0 */ as += StrAlloc; s = erealloc(s, as); } } } breakout:; free(s); return nil; } /* * return the next non-white character */ static int headChar(int eat) { int c; headSkipWhite(0); c = *headStr; if(eat && c != '\0' && c != '\n') headStr++; return c; } static void headToEnd(void) { uchar *s; int c; for(;;){ s = headStr; c = *s++; while(c == '\r') c = *s++; if(c == '\n'){ c = *s++; if(c != ' ' && c != '\t') return; } if(c == '\0') return; headStr = s; } } static void headSkip(void) { int c; while(c = *headStr){ headStr++; if(c == '\n'){ c = *headStr; if(c == ' ' || c == '\t') continue; return; } } }