/* * Locking here is not quite right. * Calling qlock(&z->lk) can block the proc, * and when it comes back, boxes and msgs might have been freed * (if the refresh proc was holding the lock and in the middle of a * redial). I've tried to be careful about not assuming boxes continue * to exist across imap commands, but maybe this isn't really tenable. * Maybe instead we should ref count the boxes and messages. */ #include "a.h" #include struct Imap { int connected; int autoreconnect; int ticks; /* until boom! */ char* server; int mode; int fd; Biobuf b; Ioproc* io; QLock lk; QLock rlk; Rendez r; Box* inbox; Box* box; Box* nextbox; /* SEARCH results */ uint *uid; uint nuid; }; static struct { char *name; int flag; } flagstab[] = { "Junk", FlagJunk, "NonJunk", FlagNonJunk, "\\Answered", FlagReplied, "\\Flagged", FlagFlagged, "\\Deleted", FlagDeleted, "\\Draft", FlagDraft, "\\Recent", FlagRecent, "\\Seen", FlagSeen, "\\NoInferiors", FlagNoInferiors, "\\NoSelect", FlagNoSelect, "\\Marked", FlagMarked, "\\UnMarked", FlagUnMarked }; int chattyimap; static char *tag = "#"; static void checkbox(Imap*, Box*); static char* copyaddrs(Sx*); static void freeup(UserPasswd*); static int getbox(Imap*, Box*); static int getboxes(Imap*); static char* gsub(char*, char*, char*); static int imapcmd(Imap*, Box*, char*, ...); static Sx* imapcmdsx(Imap*, Box*, char*, ...); static Sx* imapcmdsx0(Imap*, char*, ...); static Sx* imapvcmdsx(Imap*, Box*, char*, va_list); static Sx* imapvcmdsx0(Imap*, char*, va_list); static int imapdial(char*, int); static int imaplogin(Imap*); static int imapquote(Fmt*); static int imapreconnect(Imap*); static void imaprefreshthread(void*); static void imaptimerproc(void*); static Sx* imapwaitsx(Imap*); static int isatom(Sx *v, char *name); static int islist(Sx *v); static int isnil(Sx *v); static int isnumber(Sx *sx); static int isstring(Sx *sx); static int ioimapdial(Ioproc*, char*, int); static char* nstring(Sx*); static void unexpected(Imap*, Sx*); static Sx* zBrdsx(Imap*); /* * Imap connection maintenance and login. */ Imap* imapconnect(char *server, int mode) { Imap *z; fmtinstall('H', encodefmt); fmtinstall('Z', imapquote); z = emalloc(sizeof *z); z->server = estrdup(server); z->mode = mode; z->fd = -1; z->autoreconnect = 0; z->io = ioproc(); qlock(&z->lk); if(imapreconnect(z) < 0){ free(z); return nil; } z->r.l = &z->rlk; z->autoreconnect = 1; qunlock(&z->lk); proccreate(imaptimerproc, z, STACK); mailthread(imaprefreshthread, z); return z; } void imaphangup(Imap *z, int ticks) { z->ticks = ticks; if(ticks == 0){ close(z->fd); z->fd = -1; } } static int imapreconnect(Imap *z) { Sx *sx; z->autoreconnect = 0; z->box = nil; z->inbox = nil; if(z->fd >= 0){ close(z->fd); z->fd = -1; } if(chattyimap) fprint(2, "dial %s...\n", z->server); if((z->fd = ioimapdial(z->io, z->server, z->mode)) < 0) return -1; z->connected = 1; Binit(&z->b, z->fd, OREAD); if((sx = zBrdsx(z)) == nil){ werrstr("no greeting"); goto err; } if(chattyimap) fprint(2, "nsx >= 2 && isatom(sx->sx[0], "*") && isatom(sx->sx[1], "PREAUTH")){ freesx(sx); goto preauth; } if(!oksx(sx)){ werrstr("bad greeting - %#$", sx); goto err; } freesx(sx); sx = nil; if(imaplogin(z) < 0) goto err; preauth: if(getboxes(z) < 0 || getbox(z, z->inbox) < 0) goto err; z->autoreconnect = 1; return 0; err: if(z->fd >= 0){ close(z->fd); z->fd = -1; } if(sx) freesx(sx); z->autoreconnect = 1; z->connected = 0; return -1; } static int imaplogin(Imap *z) { Sx *sx; UserPasswd *up; if((up = auth_getuserpasswd(auth_getkey, "proto=pass role=client service=imap server=%q", z->server)) == nil){ werrstr("getuserpasswd - %r"); return -1; } sx = imapcmdsx(z, nil, "LOGIN %Z %Z", up->user, up->passwd); freeup(up); if(sx == nil) return -1; if(!oksx(sx)){ freesx(sx); werrstr("login rejected - %#$", sx); return -1; } return 0; } static int getboxes(Imap *z) { int i; Box **r, **w, **e; for(i=0; imark = 1; boxes[i]->exists = 0; boxes[i]->maxseen = 0; } if(imapcmd(z, nil, "LIST %Z *", "") < 0) return -1; if(z->nextbox && z->nextbox->mark) z->nextbox = nil; for(r=boxes, w=boxes, e=boxes+nboxes; rmark) {fprint(2, "*** free box %s %s\n", (*r)->name, (*r)->imapname); boxfree(*r); } else *w++ = *r; } nboxes = w - boxes; return 0; } static int getbox(Imap *z, Box *b) { int i; Msg **r, **w, **e; if(b == nil) return 0; for(i=0; inmsg; i++) b->msg[i]->imapid = 0; if(imapcmd(z, b, "UID FETCH 1:* FLAGS") < 0) return -1; for(r=b->msg, w=b->msg, e=b->msg+b->nmsg; rimapid == 0) msgfree(*r); else{ (*r)->ix = w-b->msg; *w++ = *r; } } b->nmsg = w - b->msg; b->imapinit = 1; checkbox(z, b); return 0; } static void freeup(UserPasswd *up) { memset(up->user, 0, strlen(up->user)); memset(up->passwd, 0, strlen(up->passwd)); free(up); } static void imaptimerproc(void *v) { Imap *z; z = v; for(;;){ sleep(60*1000); qlock(z->r.l); rwakeup(&z->r); qunlock(z->r.l); } } static void checkbox(Imap *z, Box *b) { if(imapcmd(z, b, "NOOP") >= 0){ if(!b->imapinit) getbox(z, b); if(!b->imapinit) return; if(b==z->box && b->exists > b->maxseen){ imapcmd(z, b, "UID FETCH %d:* FULL", b->uidnext); } } } static void imaprefreshthread(void *v) { Imap *z; z = v; for(;;){ qlock(z->r.l); rsleep(&z->r); qunlock(z->r.l); qlock(&z->lk); if(z->inbox) checkbox(z, z->inbox); qunlock(&z->lk); } } /* * Run a single command and return the Sx. Does NOT redial. */ static Sx* imapvcmdsx0(Imap *z, char *fmt, va_list arg) { char *s; Fmt f; int prefix, len; Sx *sx; if(canqlock(&z->lk)) abort(); if(z->fd < 0 || !z->connected) return nil; prefix = strlen(tag)+1; fmtstrinit(&f); fmtprint(&f, "%s ", tag); fmtvprint(&f, fmt, arg); fmtprint(&f, "\r\n"); s = fmtstrflush(&f); len = strlen(s); s[len-2] = 0; if(chattyimap) fprint(2, "I> %s\n", s); s[len-2] = '\r'; if(iowrite(z->io, z->fd, s, len) < 0){ z->connected = 0; free(s); return nil; } sx = imapwaitsx(z); free(s); return sx; } static Sx* imapcmdsx0(Imap *z, char *fmt, ...) { va_list arg; Sx *sx; va_start(arg, fmt); sx = imapvcmdsx0(z, fmt, arg); va_end(arg); return sx; } /* * Run a single command on box b. Does redial. */ static Sx* imapvcmdsx(Imap *z, Box *b, char *fmt, va_list arg) { int tries; Sx *sx; tries = 0; z->nextbox = b; if(z->fd < 0 || !z->connected){ reconnect: if(!z->autoreconnect) return nil; if(imapreconnect(z) < 0) return nil; if(b && z->nextbox == nil) /* box disappeared on reconnect */ return nil; } if(b && b != z->box){ if(z->box) z->box->imapinit = 0; z->box = b; if((sx=imapcmdsx0(z, "SELECT %Z", b->imapname)) == nil){ z->box = nil; if(tries++ == 0 && (z->fd < 0 || !z->connected)) goto reconnect; return nil; } freesx(sx); } if((sx=imapvcmdsx0(z, fmt, arg)) == nil){ if(tries++ == 0 && (z->fd < 0 || !z->connected)) goto reconnect; return nil; } return sx; } static int imapcmd(Imap *z, Box *b, char *fmt, ...) { Sx *sx; va_list arg; va_start(arg, fmt); sx = imapvcmdsx(z, b, fmt, arg); va_end(arg); if(sx == nil) return -1; if(sx->nsx < 2 || !isatom(sx->sx[1], "OK")){ werrstr("%$", sx); freesx(sx); return -1; } freesx(sx); return 0; } static Sx* imapcmdsx(Imap *z, Box *b, char *fmt, ...) { Sx *sx; va_list arg; va_start(arg, fmt); sx = imapvcmdsx(z, b, fmt, arg); va_end(arg); return sx; } static Sx* imapwaitsx(Imap *z) { Sx *sx; while((sx = zBrdsx(z)) != nil){ if(chattyimap) fprint(2, "<| %#$\n", sx); if(sx->nsx >= 1 && sx->sx[0]->type == SxAtom && cistrcmp(sx->sx[0]->data, tag) == 0) return sx; if(sx->nsx >= 1 && sx->sx[0]->type == SxAtom && strcmp(sx->sx[0]->data, "*") == 0) unexpected(z, sx); if(sx->type == SxList && sx->nsx == 0){ freesx(sx); break; } freesx(sx); } z->connected = 0; return nil; } /* * Imap interface to mail file system. */ static void _bodyname(char *buf, char *ebuf, Part *p, char *extra) { if(buf >= ebuf){ fprint(2, "***** BUFFER TOO SMALL\n"); return; } *buf = 0; if(p->parent){ _bodyname(buf, ebuf, p->parent, ""); buf += strlen(buf); seprint(buf, ebuf, ".%d", p->pix+1); } buf += strlen(buf); seprint(buf, ebuf, "%s", extra); } static char* bodyname(Part *p, char *extra) { static char buf[256]; memset(buf, 0, sizeof buf); /* can't see why this is necessary, but it is */ _bodyname(buf, buf+sizeof buf, p, extra); return buf+1; /* buf[0] == '.' */ } static void fetch1(Imap *z, Part *p, char *s) { qlock(&z->lk); imapcmd(z, p->msg->box, "UID FETCH %d BODY[%s]", p->msg->imapuid, bodyname(p, s)); qunlock(&z->lk); } void imapfetchrawheader(Imap *z, Part *p) { fetch1(z, p, ".HEADER"); } void imapfetchrawmime(Imap *z, Part *p) { fetch1(z, p, ".MIME"); } void imapfetchrawbody(Imap *z, Part *p) { fetch1(z, p, ".TEXT"); } void imapfetchraw(Imap *z, Part *p) { fetch1(z, p, ""); } static int imaplistcmd(Imap *z, Box *box, char *before, Msg **m, uint nm, char *after) { int i, r; char *cmd; Fmt fmt; if(nm == 0) return 0; fmtstrinit(&fmt); fmtprint(&fmt, "%s ", before); for(i=0; i 0) fmtrune(&fmt, ','); fmtprint(&fmt, "%ud", m[i]->imapuid); } fmtprint(&fmt, " %s", after); cmd = fmtstrflush(&fmt); r = 0; if(imapcmd(z, box, "%s", cmd) < 0) r = -1; free(cmd); return r; } int imapcopylist(Imap *z, char *nbox, Msg **m, uint nm) { int rv; char *name; if(nm == 0) return 0; qlock(&z->lk); name = esmprint("%Z", nbox); rv = imaplistcmd(z, m[0]->box, "UID COPY", m, nm, name); free(name); qunlock(&z->lk); return rv; } int imapremovelist(Imap *z, Msg **m, uint nm) { int rv; if(nm == 0) return 0; qlock(&z->lk); rv = imaplistcmd(z, m[0]->box, "UID STORE", m, nm, "+FLAGS.SILENT (\\Deleted)"); /* careful - box might be gone; use z->box instead */ if(rv == 0 && z->box) rv = imapcmd(z, z->box, "EXPUNGE"); qunlock(&z->lk); return rv; } int imapflaglist(Imap *z, int op, int flag, Msg **m, uint nm) { char *mod, *s, *sep; int i, rv; Fmt fmt; if(op > 0) mod = "+"; else if(op == 0) mod = ""; else mod = "-"; fmtstrinit(&fmt); fmtprint(&fmt, "%sFLAGS (", mod); sep = ""; for(i=0; ilk); rv = imaplistcmd(z, m[0]->box, "UID STORE", m, nm, s); qunlock(&z->lk); free(s); return rv; } int imapsearchbox(Imap *z, Box *b, char *search, Msg ***mm) { uint *uid; int i, nuid; Msg **m; int nm; qlock(&z->lk); if(imapcmd(z, b, "UID SEARCH CHARSET UTF-8 TEXT %Z", search) < 0){ qunlock(&z->lk); return -1; } uid = z->uid; nuid = z->nuid; z->uid = nil; z->nuid = 0; qunlock(&z->lk); m = emalloc(nuid*sizeof m[0]); nm = 0; for(i=0; ilk); checkbox(z, b); qunlock(&z->lk); } /* * Imap utility routines */ static long _ioimapdial(va_list *arg) { char *server; int mode; server = va_arg(*arg, char*); mode = va_arg(*arg, int); return imapdial(server, mode); } static int ioimapdial(Ioproc *io, char *server, int mode) { return iocall(io, _ioimapdial, server, mode); } static long _ioBrdsx(va_list *arg) { Biobuf *b; Sx **sx; b = va_arg(*arg, Biobuf*); sx = va_arg(*arg, Sx**); *sx = Brdsx(b); if((*sx) && (*sx)->type == SxList && (*sx)->nsx == 0){ freesx(*sx); *sx = nil; } return 0; } static Sx* ioBrdsx(Ioproc *io, Biobuf *b) { Sx *sx; iocall(io, _ioBrdsx, b, &sx); return sx; } static Sx* zBrdsx(Imap *z) { if(z->ticks && --z->ticks==0){ close(z->fd); z->fd = -1; return nil; } return ioBrdsx(z->io, &z->b); } static int imapdial(char *server, int mode) { int p[2]; int fd[3]; char *tmp; switch(mode){ default: case Unencrypted: return dial(netmkaddr(server, "tcp", "143"), nil, nil, nil); case Starttls: werrstr("starttls not supported"); return -1; case Tls: if(pipe(p) < 0) return -1; fd[0] = dup(p[0], -1); fd[1] = dup(p[0], -1); fd[2] = dup(2, -1); tmp = esmprint("%s:993", server); if(threadspawnl(fd, "/usr/sbin/stunnel", "stunnel", "-c", "-r", tmp, nil) < 0){ free(tmp); close(p[0]); close(p[1]); close(fd[0]); close(fd[1]); close(fd[2]); return -1; } free(tmp); close(p[0]); return p[1]; case Cmd: if(pipe(p) < 0) return -1; fd[0] = dup(p[0], -1); fd[1] = dup(p[0], -1); fd[2] = dup(2, -1); if(threadspawnl(fd, "/usr/local/plan9/bin/rc", "rc", "-c", server, nil) < 0){ close(p[0]); close(p[1]); close(fd[0]); close(fd[1]); close(fd[2]); return -1; } close(p[0]); return p[1]; } } enum { Qok = 0, Qquote, Qbackslash }; static int needtoquote(Rune r) { if(r >= Runeself) return Qquote; if(r <= ' ') return Qquote; if(r=='\\' || r=='"') return Qbackslash; return Qok; } static int imapquote(Fmt *f) { char *s, *t; int w, quotes; Rune r; s = va_arg(f->args, char*); if(s == nil || *s == '\0') return fmtstrcpy(f, "\"\""); quotes = 0; if(f->flags&FmtSharp) quotes = 1; for(t=s; *t; t+=w){ w = chartorune(&r, t); quotes |= needtoquote(r); } if(quotes == 0) return fmtstrcpy(f, s); fmtrune(f, '"'); for(t=s; *t; t+=w){ w = chartorune(&r, t); if(needtoquote(r) == Qbackslash) fmtrune(f, '\\'); fmtrune(f, r); } return fmtrune(f, '"'); } static int fmttype(char c) { switch(c){ case 'A': return SxAtom; case 'L': return SxList; case 'N': return SxNumber; case 'S': return SxString; default: return -1; } } /* * Check S expression against format string. */ static int sxmatch(Sx *sx, char *fmt) { int i; for(i=0; fmt[i]; i++){ if(fmt[i] == '*') fmt--; /* like i-- but better */ if(i == sx->nsx && fmt[i+1] == '*') return 1; if(i >= sx->nsx) return 0; if(sx->sx[i] == nil) return 0; if(sx->sx[i]->type == SxAtom && strcmp(sx->sx[i]->data, "NIL") == 0){ if(fmt[i] == 'L'){ free(sx->sx[i]->data); sx->sx[i]->data = nil; sx->sx[i]->type = SxList; sx->sx[i]->sx = nil; sx->sx[i]->nsx = 0; } else if(fmt[i] == 'S'){ free(sx->sx[i]->data); sx->sx[i]->data = nil; sx->sx[i]->type = SxString; } } if(sx->sx[i]->type == SxAtom && fmt[i]=='S') sx->sx[i]->type = SxString; if(sx->sx[i]->type != fmttype(fmt[i])){ fprint(2, "sxmatch: %$ not %c\n", sx->sx[i], fmt[i]); return 0; } } if(i != sx->nsx) return 0; return 1; } /* * Check string against format string. */ static int stringmatch(char *fmt, char *s) { for(; *fmt && *s; fmt++, s++){ switch(*fmt){ case '0': if(*s == ' ') break; /* fall through */ case '1': if(*s < '0' || *s > '9') return 0; break; case 'A': if(*s < 'A' || *s > 'Z') return 0; break; case 'a': if(*s < 'a' || *s > 'z') return 0; break; case '+': if(*s != '-' && *s != '+') return 0; break; default: if(*s != *fmt) return 0; break; } } if(*fmt || *s) return 0; return 1; } /* * Parse simple S expressions and IMAP elements. */ static int isatom(Sx *v, char *name) { int n; if(v == nil || v->type != SxAtom) return 0; n = strlen(name); if(cistrncmp(v->data, name, n) == 0) if(v->data[n] == 0 || (n>0 && v->data[n-1] == '[')) return 1; return 0; } static int isstring(Sx *sx) { if(sx->type == SxAtom) sx->type = SxString; return sx->type == SxString; } static int isnumber(Sx *sx) { return sx->type == SxNumber; } static int isnil(Sx *v) { return v == nil || (v->type==SxList && v->nsx == 0) || (v->type==SxAtom && strcmp(v->data, "NIL") == 0); } static int islist(Sx *v) { return isnil(v) || v->type==SxList; } static uint parseflags(Sx *v) { int f, i, j; if(v->type != SxList){ warn("malformed flags: %$", v); return 0; } f = 0; for(i=0; insx; i++){ if(v->sx[i]->type != SxAtom) continue; for(j=0; jsx[i]->data, flagstab[j].name) == 0) f |= flagstab[j].flag; } return f; } static char months[] = "JanFebMarAprMayJunJulAugSepOctNovDec"; static int parsemon(char *s) { int i; for(i=0; months[i]; i+=3) if(memcmp(s, months+i, 3) == 0) return i/3; return -1; } static uint parsedate(Sx *v) { Tm tm; uint t; int delta; char *p; if(v->type != SxString || !stringmatch("01-Aaa-1111 01:11:11 +1111", v->data)){ bad: warn("bad date: %$", v); return 0; } /* cannot use atoi because 09 is malformed octal! */ memset(&tm, 0, sizeof tm); p = v->data; tm.mday = strtol(p, 0, 10); tm.mon = parsemon(p+3); if(tm.mon == -1) goto bad; tm.year = strtol(p+7, 0, 10) - 1900; tm.hour = strtol(p+12, 0, 10); tm.min = strtol(p+15, 0, 10); tm.sec = strtol(p+18, 0, 10); strcpy(tm.zone, "GMT"); t = tm2sec(&tm); delta = ((p[22]-'0')*10+p[23]-'0')*3600 + ((p[24]-'0')*10+p[25]-'0')*60; if(p[21] == '-') delta = -delta; t -= delta; return t; } static uint parsenumber(Sx *v) { if(v->type != SxNumber) return 0; return v->number; } static void hash(DigestState *ds, char *tag, char *val) { if(val == nil) val = ""; md5((uchar*)tag, strlen(tag)+1, nil, ds); md5((uchar*)val, strlen(val)+1, nil, ds); } static Hdr* parseenvelope(Sx *v) { Hdr *hdr; uchar digest[16]; DigestState ds; if(v->type != SxList || !sxmatch(v, "SSLLLLLLSS")){ warn("bad envelope: %$", v); return nil; } hdr = emalloc(sizeof *hdr); hdr->date = nstring(v->sx[0]); hdr->subject = unrfc2047(nstring(v->sx[1])); hdr->from = copyaddrs(v->sx[2]); hdr->sender = copyaddrs(v->sx[3]); hdr->replyto = copyaddrs(v->sx[4]); hdr->to = copyaddrs(v->sx[5]); hdr->cc = copyaddrs(v->sx[6]); hdr->bcc = copyaddrs(v->sx[7]); hdr->inreplyto = unrfc2047(nstring(v->sx[8])); hdr->messageid = unrfc2047(nstring(v->sx[9])); memset(&ds, 0, sizeof ds); hash(&ds, "date", hdr->date); hash(&ds, "subject", hdr->subject); hash(&ds, "from", hdr->from); hash(&ds, "sender", hdr->sender); hash(&ds, "replyto", hdr->replyto); hash(&ds, "to", hdr->to); hash(&ds, "cc", hdr->cc); hash(&ds, "bcc", hdr->bcc); hash(&ds, "inreplyto", hdr->inreplyto); hash(&ds, "messageid", hdr->messageid); md5(0, 0, digest, &ds); hdr->digest = esmprint("%.16H", digest); return hdr; } static void strlwr(char *s) { char *t; if(s == nil) return; for(t=s; *t; t++) if('A' <= *t && *t <= 'Z') *t += 'a' - 'A'; } static void nocr(char *s) { char *r, *w; if(s == nil) return; for(r=w=s; *r; r++) if(*r != '\r') *w++ = *r; *w = 0; } /* * substitute all occurrences of a with b in s. */ static char* gsub(char *s, char *a, char *b) { char *p, *t, *w, *last; int n; n = 0; for(p=s; (p=strstr(p, a)) != nil; p+=strlen(a)) n++; if(n == 0) return s; t = emalloc(strlen(s)+n*strlen(b)+1); w = t; for(p=s; last=p, (p=strstr(p, a)) != nil; p+=strlen(a)){ memmove(w, last, p-last); w += p-last; memmove(w, b, strlen(b)); w += strlen(b); } strcpy(w, last); free(s); return t; } /* * Table-driven IMAP "unexpected response" parser. * All the interesting data is in the unexpected responses. */ static void xlist(Imap*, Sx*); static void xrecent(Imap*, Sx*); static void xexists(Imap*, Sx*); static void xok(Imap*, Sx*); static void xflags(Imap*, Sx*); static void xfetch(Imap*, Sx*); static void xexpunge(Imap*, Sx*); static void xbye(Imap*, Sx*); static void xsearch(Imap*, Sx*); static struct { int num; char *name; char *fmt; void (*fn)(Imap*, Sx*); } unextab[] = { 0, "BYE", nil, xbye, 0, "FLAGS", "AAL", xflags, 0, "LIST", "AALSS", xlist, 0, "OK", nil, xok, 0, "SEARCH", "AAN*", xsearch, 1, "EXISTS", "ANA", xexists, 1, "EXPUNGE", "ANA", xexpunge, 1, "FETCH", "ANAL", xfetch, 1, "RECENT", "ANA", xrecent }; static void unexpected(Imap *z, Sx *sx) { int i, num; char *name; if(sx->nsx >= 3 && sx->sx[1]->type == SxNumber && sx->sx[2]->type == SxAtom){ num = 1; name = sx->sx[2]->data; }else if(sx->nsx >= 2 && sx->sx[1]->type == SxAtom){ num = 0; name = sx->sx[1]->data; }else return; for(i=0; isx[4]->data); if(sx->sx[3]->data && strcmp(sx->sx[3]->data, "/") != 0){ s = gsub(s, "/", "_"); s = gsub(s, sx->sx[3]->data, "/"); } /* * Plan 9 calls the main mailbox mbox. * Rename any existing mbox by appending a $. */ inbox = 0; if(strncmp(s, "mbox", 4) == 0 && alldollars(s+4)){ t = emalloc(strlen(s)+2); strcpy(t, s); strcat(t, "$"); free(s); s = t; }else if(cistrcmp(s, "INBOX") == 0){ inbox = 1; free(s); s = estrdup("mbox"); } box = boxcreate(s); if(box == nil) return; box->imapname = estrdup(sx->sx[4]->data); if(inbox) z->inbox = box; box->mark = 0; box->flags = parseflags(sx->sx[2]); } static void xrecent(Imap *z, Sx *sx) { if(z->box) z->box->recent = sx->sx[1]->number; } static void xexists(Imap *z, Sx *sx) { if(z->box){ z->box->exists = sx->sx[1]->number; if(z->box->exists < z->box->maxseen) z->box->maxseen = z->box->exists; } } static void xflags(Imap *z, Sx *sx) { /* * This response contains in sx->sx[2] the list of flags * that can be validly attached to messages in z->box. * We don't have any use for this list, since we * use only the standard flags. */ } static void xbye(Imap *z, Sx *sx) { close(z->fd); z->fd = -1; z->connected = 0; } static void xexpunge(Imap *z, Sx *sx) { int i, n; Box *b; if((b=z->box) == nil) return; n = sx->sx[1]->number; for(i=0; inmsg; i++){ if(b->msg[i]->imapid == n){ msgplumb(b->msg[i], 1); msgfree(b->msg[i]); b->nmsg--; memmove(b->msg+i, b->msg+i+1, (b->nmsg-i)*sizeof b->msg[0]); i--; b->maxseen--; b->exists--; continue; } if(b->msg[i]->imapid > n) b->msg[i]->imapid--; b->msg[i]->ix = i; } } static void xsearch(Imap *z, Sx *sx) { int i; free(z->uid); z->uid = emalloc((sx->nsx-2)*sizeof z->uid[0]); z->nuid = sx->nsx-2; for(i=0; inuid; i++) z->uid[i] = sx->sx[i+2]->number; } /* * Table-driven FETCH message info parser. */ static void xmsgflags(Msg*, Sx*, Sx*); static void xmsgdate(Msg*, Sx*, Sx*); static void xmsgrfc822size(Msg*, Sx*, Sx*); static void xmsgenvelope(Msg*, Sx*, Sx*); static void xmsgbody(Msg*, Sx*, Sx*); static void xmsgbodydata(Msg*, Sx*, Sx*); static struct { char *name; void (*fn)(Msg*, Sx*, Sx*); } msgtab[] = { "FLAGS", xmsgflags, "INTERNALDATE", xmsgdate, "RFC822.SIZE", xmsgrfc822size, "ENVELOPE", xmsgenvelope, "BODY", xmsgbody, "BODY[", xmsgbodydata }; static void xfetch(Imap *z, Sx *sx) { int i, j, n, uid; Msg *msg; if(z->box == nil){ warn("FETCH but no open box: %$", sx); return; } /* * 152 FETCH (UID 185 FLAGS () ...) */ if(sx->sx[3]->nsx%2){ warn("malformed FETCH: %$", sx); return; } n = sx->sx[1]->number; sx = sx->sx[3]; for(i=0; insx; i+=2){ if(isatom(sx->sx[i], "UID")){ if(sx->sx[i+1]->type == SxNumber){ uid = sx->sx[i+1]->number; goto haveuid; } } } /* This happens: too bad. warn("FETCH without UID: %$", sx); */ return; haveuid: msg = msgbyimapuid(z->box, uid, 1); if(msg->imapid && msg->imapid != n) warn("msg id mismatch: want %d have %d", msg->id, n); msg->imapid = n; for(i=0; insx; i+=2){ for(j=0; jsx[i], msgtab[j].name)) msgtab[j].fn(msg, sx->sx[i], sx->sx[i+1]); } } static void xmsgflags(Msg *msg, Sx *k, Sx *v) { USED(k); msg->flags = parseflags(v); } static void xmsgdate(Msg *msg, Sx *k, Sx *v) { USED(k); msg->date = parsedate(v); } static void xmsgrfc822size(Msg *msg, Sx *k, Sx *v) { USED(k); msg->size = parsenumber(v); } static char* nstring(Sx *v) { char *p; p = v->data; v->data = nil; return p; } static char* copyaddrs(Sx *v) { char *s, *sep; char *name, *email, *host, *mbox; int i; Fmt fmt; if(v->nsx == 0) return nil; fmtstrinit(&fmt); sep = ""; for(i=0; insx; i++){ if(!sxmatch(v->sx[i], "SSSS")) warn("bad address: %$", v->sx[i]); name = unrfc2047(nstring(v->sx[i]->sx[0])); /* ignore sx[1] - route */ mbox = unrfc2047(nstring(v->sx[i]->sx[2])); host = unrfc2047(nstring(v->sx[i]->sx[3])); if(mbox == nil || host == nil){ /* rfc822 group syntax */ free(name); free(mbox); free(host); continue; } email = esmprint("%s@%s", mbox, host); free(mbox); free(host); fmtprint(&fmt, "%s%q %q", sep, name ? name : "", email ? email : ""); free(name); free(email); sep = " "; } s = fmtstrflush(&fmt); if(s == nil) sysfatal("out of memory"); return s; } static void xmsgenvelope(Msg *msg, Sx *k, Sx *v) { hdrfree(msg->part[0]->hdr); msg->part[0]->hdr = parseenvelope(v); } static struct { char *name; int offset; } paramtab[] = { "charset", offsetof(Part, charset), "name", offsetof(Part, filename) }; static void parseparams(Part *part, Sx *v) { int i, j; char *s, *t, **p; if(isnil(v)) return; if(v->nsx%2){ warn("bad message params: %$", v); return; } for(i=0; insx; i+=2){ s = nstring(v->sx[i]); t = nstring(v->sx[i+1]); for(j=0; jtype != SxList){ bad: warn("bad structure: %$", v); return; } if(islist(v->sx[0])){ /* multipart */ for(i=0; insx && islist(v->sx[i]); i++) parsestructure(partcreate(part->msg, part), v->sx[i]); free(part->type); if(i != v->nsx-1 || !isstring(v->sx[i])){ warn("bad multipart structure: %$", v); part->type = estrdup("multipart/mixed"); return; } s = nstring(v->sx[i]); strlwr(s); part->type = esmprint("multipart/%s", s); free(s); return; } /* single part */ if(!isstring(v->sx[0]) || v->nsx < 2) goto bad; s = nstring(v->sx[0]); t = nstring(v->sx[1]); strlwr(s); strlwr(t); free(part->type); part->type = esmprint("%s/%s", s, t); if(v->nsx < 7 || !islist(v->sx[2]) || !isstring(v->sx[3]) || !isstring(v->sx[4]) || !isstring(v->sx[5]) || !isnumber(v->sx[6])) goto bad; parseparams(part, v->sx[2]); part->idstr = nstring(v->sx[3]); part->desc = nstring(v->sx[4]); part->encoding = nstring(v->sx[5]); part->size = v->sx[6]->number; if(strcmp(s, "message") == 0 && strcmp(t, "rfc822") == 0){ if(v->nsx < 10 || !islist(v->sx[7]) || !islist(v->sx[8]) || !isnumber(v->sx[9])) goto bad; part->hdr = parseenvelope(v->sx[7]); parsestructure(partcreate(part->msg, part), v->sx[8]); part->lines = v->sx[9]->number; } if(strcmp(s, "text") == 0){ if(v->nsx < 8 || !isnumber(v->sx[7])) goto bad; part->lines = v->sx[7]->number; } } static void xmsgbody(Msg *msg, Sx *k, Sx *v) { if(v->type != SxList){ warn("bad body: %$", v); return; } /* * To follow the structure exactly we should * be doing this to partcreate(msg, msg->part[0]), * and we should leave msg->part[0] with type message/rfc822, * but the extra layer is redundant - what else would be in a mailbox? */ parsestructure(msg->part[0], v); if(msg->box->maxseen < msg->imapid) msg->box->maxseen = msg->imapid; if(msg->imapuid >= msg->box->uidnext) msg->box->uidnext = msg->imapuid+1; msgplumb(msg, 0); } static void xmsgbodydata(Msg *msg, Sx *k, Sx *v) { int i; char *name, *p; Part *part; name = k->data; name += 5; /* body[ */ p = strchr(name, ']'); if(p) *p = 0; /* now name is something like 1 or 3.2.MIME - walk down parts from root */ part = msg->part[0]; while('1' <= name[0] && name[0] <= '9'){ i = strtol(name, &p, 10); if(*p == '.') p++; else if(*p != 0){ warn("bad body name: %$", k); return; } if((part = subpart(part, i-1)) == nil){ warn("unknown body part: %$", k); return; } name = p; } if(cistrcmp(name, "") == 0){ free(part->raw); part->raw = nstring(v); nocr(part->raw); }else if(cistrcmp(name, "HEADER") == 0){ free(part->rawheader); part->rawheader = nstring(v); nocr(part->rawheader); }else if(cistrcmp(name, "MIME") == 0){ free(part->mimeheader); part->mimeheader = nstring(v); nocr(part->mimeheader); }else if(cistrcmp(name, "TEXT") == 0){ free(part->rawbody); part->rawbody = nstring(v); nocr(part->rawbody); } } /* * Table-driven OK info parser. */ static void xokuidvalidity(Imap*, Sx*); static void xokpermflags(Imap*, Sx*); static void xokunseen(Imap*, Sx*); static void xokreadwrite(Imap*, Sx*); static void xokreadonly(Imap*, Sx*); struct { char *name; char fmt; void (*fn)(Imap*, Sx*); } oktab[] = { "UIDVALIDITY", 'N', xokuidvalidity, "PERMANENTFLAGS", 'L', xokpermflags, "UNSEEN", 'N', xokunseen, "READ-WRITE", 0, xokreadwrite, "READ-ONLY", 0, xokreadonly }; static void xok(Imap *z, Sx *sx) { int i; char *name; Sx *arg; if(sx->nsx >= 4 && sx->sx[2]->type == SxAtom && sx->sx[2]->data[0] == '['){ if(sx->sx[3]->type == SxAtom && sx->sx[3]->data[0] == ']') arg = nil; else if(sx->sx[4]->type == SxAtom && sx->sx[4]->data[0] == ']') arg = sx->sx[3]; else{ warn("cannot parse OK: %$", sx); return; } name = sx->sx[2]->data+1; for(i=0; itype != fmttype(oktab[i].fmt))){ warn("malformed %s: %$", name, arg); continue; } oktab[i].fn(z, arg); } } } } static void xokuidvalidity(Imap *z, Sx *sx) { int i; Box *b; if((b=z->box) == nil) return; if(b->validity != sx->number){ b->validity = sx->number; b->uidnext = 1; for(i=0; inmsg; i++) msgfree(b->msg[i]); free(b->msg); b->msg = nil; b->nmsg = 0; } } static void xokpermflags(Imap *z, Sx *sx) { /* z->permflags = parseflags(sx); */ } static void xokunseen(Imap *z, Sx *sx) { /* z->unseen = sx->number; */ } static void xokreadwrite(Imap *z, Sx *sx) { /* z->boxmode = ORDWR; */ } static void xokreadonly(Imap *z, Sx *sx) { /* z->boxmode = OREAD; */ }