#include "common.h"
#include <ctype.h>
#include <plumb.h>
#include <libsec.h>
#include "dat.h"
typedef struct Header Header;
struct Header {
char *type;
void (*f)(Message*, Header*, char*);
int len;
};
/* headers */
static void ctype(Message*, Header*, char*);
static void cencoding(Message*, Header*, char*);
static void cdisposition(Message*, Header*, char*);
static void date822(Message*, Header*, char*);
static void from822(Message*, Header*, char*);
static void to822(Message*, Header*, char*);
static void sender822(Message*, Header*, char*);
static void replyto822(Message*, Header*, char*);
static void subject822(Message*, Header*, char*);
static void inreplyto822(Message*, Header*, char*);
static void cc822(Message*, Header*, char*);
static void bcc822(Message*, Header*, char*);
static void messageid822(Message*, Header*, char*);
static void mimeversion(Message*, Header*, char*);
static void nullsqueeze(Message*);
enum
{
Mhead= 11, /* offset of first mime header */
};
Header head[] =
{
{ "date:", date822, },
{ "from:", from822, },
{ "to:", to822, },
{ "sender:", sender822, },
{ "reply-to:", replyto822, },
{ "subject:", subject822, },
{ "cc:", cc822, },
{ "bcc:", bcc822, },
{ "in-reply-to:", inreplyto822, },
{ "mime-version:", mimeversion, },
{ "message-id:", messageid822, },
[Mhead] { "content-type:", ctype, },
{ "content-transfer-encoding:", cencoding, },
{ "content-disposition:", cdisposition, },
{ 0, },
};
static void fatal(char *fmt, ...);
static void initquoted(void);
static void startheader(Message*);
static void startbody(Message*);
static char* skipwhite(char*);
static char* skiptosemi(char*);
static char* getstring(char*, String*, int);
static void setfilename(Message*, char*);
static char* lowercase(char*);
static int is8bit(Message*);
static int headerline(char**, String*);
static void initheaders(void);
static void parseattachments(Message*, Mailbox*);
int debug;
char *Enotme = "path not served by this file server";
enum
{
Chunksize = 1024,
};
Mailboxinit *boxinit[] = {
imap4mbox,
pop3mbox,
planbmbox,
planbvmbox,
plan9mbox,
};
char*
syncmbox(Mailbox *mb, int doplumb)
{
return (*mb->sync)(mb, doplumb);
}
/* create a new mailbox */
char*
newmbox(char *path, char *name, int std)
{
Mailbox *mb, **l;
char *p, *rv;
int i;
initheaders();
mb = emalloc(sizeof(*mb));
strncpy(mb->path, path, sizeof(mb->path)-1);
if(name == nil){
p = strrchr(path, '/');
if(p == nil)
p = path;
else
p++;
if(*p == 0){
free(mb);
return "bad mbox name";
}
strncpy(mb->name, p, sizeof(mb->name)-1);
} else {
strncpy(mb->name, name, sizeof(mb->name)-1);
}
rv = nil;
// check for a mailbox type
for(i=0; i<nelem(boxinit); i++)
if((rv = (*boxinit[i])(mb, path)) != Enotme)
break;
if(i == nelem(boxinit)){
free(mb);
return "bad path";
}
// on error, give up
if(rv){
free(mb);
return rv;
}
// make sure name isn't taken
qlock(&mbllock);
for(l = &mbl; *l != nil; l = &(*l)->next){
if(strcmp((*l)->name, mb->name) == 0){
if(strcmp(path, (*l)->path) == 0)
rv = nil;
else
rv = "mbox name in use";
if(mb->close)
(*mb->close)(mb);
free(mb);
qunlock(&mbllock);
return rv;
}
}
// always try locking
mb->dolock = 1;
mb->refs = 1;
mb->next = nil;
mb->id = newid();
mb->root = newmessage(nil);
mb->std = std;
*l = mb;
qunlock(&mbllock);
qlock(mb);
if(mb->ctl){
henter(PATH(mb->id, Qmbox), "ctl",
(Qid){PATH(mb->id, Qmboxctl), 0, QTFILE}, nil, mb);
}
rv = syncmbox(mb, 0);
qunlock(mb);
return rv;
}
// close the named mailbox
void
freembox(char *name)
{
Mailbox **l, *mb;
qlock(&mbllock);
for(l=&mbl; *l != nil; l=&(*l)->next){
if(strcmp(name, (*l)->name) == 0){
mb = *l;
*l = mb->next;
mboxdecref(mb);
break;
}
}
hfree(PATH(0, Qtop), name);
qunlock(&mbllock);
}
static void
initheaders(void)
{
Header *h;
static int already;
if(already)
return;
already = 1;
for(h = head; h->type != nil; h++)
h->len = strlen(h->type);
}
/*
* parse a Unix style header
*/
void
parseunix(Message *m)
{
char *p;
String *h;
h = s_new();
for(p = m->start + 5; *p && *p != '\r' && *p != '\n'; p++)
s_putc(h, *p);
s_terminate(h);
s_restart(h);
m->unixfrom = s_parse(h, s_reset(m->unixfrom));
m->unixdate = s_append(s_reset(m->unixdate), h->ptr);
s_free(h);
}
/*
* parse a message
*/
void
parseheaders(Message *m, int justmime, Mailbox *mb, int addfrom)
{
String *hl;
Header *h;
char *p, *q;
int i;
if(m->whole == m->whole->whole){
henter(PATH(mb->id, Qmbox), m->name,
(Qid){PATH(m->id, Qdir), 0, QTDIR}, m, mb);
} else {
henter(PATH(m->whole->id, Qdir), m->name,
(Qid){PATH(m->id, Qdir), 0, QTDIR}, m, mb);
}
for(i = 0; i < Qmax; i++)
henter(PATH(m->id, Qdir), dirtab[i],
(Qid){PATH(m->id, i), 0, QTFILE}, m, mb);
// parse mime headers
p = m->header;
hl = s_new();
while(headerline(&p, hl)){
if(justmime)
h = &head[Mhead];
else
h = head;
for(; h->type; h++){
if(cistrncmp(s_to_c(hl), h->type, h->len) == 0){
(*h->f)(m, h, s_to_c(hl));
break;
}
}
s_reset(hl);
}
s_free(hl);
// the blank line isn't really part of the body or header
if(justmime){
m->mhend = p;
m->hend = m->header;
} else {
m->hend = p;
}
if(*p == '\n')
p++;
m->rbody = m->body = p;
// if type is text, get any nulls out of the body. This is
// for the two seans and imap clients that get confused.
if(strncmp(s_to_c(m->type), "text/", 5) == 0)
nullsqueeze(m);
//
// cobble together Unix-style from line
// for local mailbox messages, we end up recreating the
// original header.
// for pop3 messages, the best we can do is
// use the From: information and the RFC822 date.
//
if(m->unixdate == nil || strcmp(s_to_c(m->unixdate), "???") == 0
|| strcmp(s_to_c(m->unixdate), "Thu Jan 1 00:00:00 GMT 1970") == 0){
if(m->unixdate){
s_free(m->unixdate);
m->unixdate = nil;
}
// look for the date in the first Received: line.
// it's likely to be the right time zone (it's
// the local system) and in a convenient format.
if(cistrncmp(m->header, "received:", 9)==0){
if((q = strchr(m->header, ';')) != nil){
p = q;
while((p = strchr(p, '\n')) != nil){
if(p[1] != ' ' && p[1] != '\t' && p[1] != '\n')
break;
p++;
}
if(p){
*p = '\0';
m->unixdate = date822tounix(q+1);
*p = '\n';
}
}
}
// fall back on the rfc822 date
if(m->unixdate==nil && m->date822)
m->unixdate = date822tounix(s_to_c(m->date822));
}
if(m->unixheader != nil)
s_free(m->unixheader);
// only fake header for top-level messages for pop3 and imap4
// clients (those protocols don't include the unix header).
// adding the unix header all the time screws up mime-attached
// rfc822 messages.
if(!addfrom && !m->unixfrom){
m->unixheader = nil;
return;
}
m->unixheader = s_copy("From ");
if(m->unixfrom && strcmp(s_to_c(m->unixfrom), "???") != 0)
s_append(m->unixheader, s_to_c(m->unixfrom));
else if(m->from822)
s_append(m->unixheader, s_to_c(m->from822));
else
s_append(m->unixheader, "???");
s_append(m->unixheader, " ");
if(m->unixdate)
s_append(m->unixheader, s_to_c(m->unixdate));
else
s_append(m->unixheader, "Thu Jan 1 00:00:00 GMT 1970");
s_append(m->unixheader, "\n");
}
String*
promote(String **sp)
{
String *s;
if(*sp != nil)
s = s_clone(*sp);
else
s = nil;
return s;
}
void
parsebody(Message *m, Mailbox *mb)
{
Message *nm;
// recurse
if(strncmp(s_to_c(m->type), "multipart/", 10) == 0){
parseattachments(m, mb);
} else if(strcmp(s_to_c(m->type), "message/rfc822") == 0){
decode(m);
parseattachments(m, mb);
nm = m->part;
// promote headers
if(m->replyto822 == nil && m->from822 == nil && m->sender822 == nil){
m->from822 = promote(&nm->from822);
m->to822 = promote(&nm->to822);
m->date822 = promote(&nm->date822);
m->sender822 = promote(&nm->sender822);
m->replyto822 = promote(&nm->replyto822);
m->subject822 = promote(&nm->subject822);
m->unixdate = promote(&nm->unixdate);
}
}
}
void
parse(Message *m, int justmime, Mailbox *mb, int addfrom)
{
parseheaders(m, justmime, mb, addfrom);
parsebody(m, mb);
}
static void
parseattachments(Message *m, Mailbox *mb)
{
Message *nm, **l;
char *p, *x;
// if there's a boundary, recurse...
if(m->boundary != nil){
p = m->body;
nm = nil;
l = &m->part;
for(;;){
x = strstr(p, s_to_c(m->boundary));
/* no boundary, we're done */
if(x == nil){
if(nm != nil)
nm->rbend = nm->bend = nm->end = m->bend;
break;
}
/* boundary must be at the start of a line */
if(x != m->body && *(x-1) != '\n'){
p = x+1;
continue;
}
if(nm != nil)
nm->rbend = nm->bend = nm->end = x;
x += strlen(s_to_c(m->boundary));
/* is this the last part? ignore anything after it */
if(strncmp(x, "--", 2) == 0)
break;
p = strchr(x, '\n');
if(p == nil)
break;
nm = newmessage(m);
nm->start = nm->header = nm->body = nm->rbody = ++p;
nm->mheader = nm->header;
*l = nm;
l = &nm->next;
}
for(nm = m->part; nm != nil; nm = nm->next)
parse(nm, 1, mb, 0);
return;
}
// if we've got an rfc822 message, recurse...
if(strcmp(s_to_c(m->type), "message/rfc822") == 0){
nm = newmessage(m);
m->part = nm;
nm->start = nm->header = nm->body = nm->rbody = m->body;
nm->end = nm->bend = nm->rbend = m->bend;
parse(nm, 0, mb, 0);
}
}
/*
* pick up a header line
*/
static int
headerline(char **pp, String *hl)
{
char *p, *x;
s_reset(hl);
p = *pp;
x = strpbrk(p, ":\n");
if(x == nil || *x == '\n')
return 0;
for(;;){
x = strchr(p, '\n');
if(x == nil)
x = p + strlen(p);
s_nappend(hl, p, x-p);
p = x;
if(*p != '\n' || *++p != ' ' && *p != '\t')
break;
while(*p == ' ' || *p == '\t')
p++;
s_putc(hl, ' ');
}
*pp = p;
return 1;
}
/* returns nil iff there are no addressees */
static String*
addr822(char *p)
{
String *s, *list;
int incomment, addrdone, inanticomment, quoted;
int n;
int c;
list = s_new();
s = s_new();
quoted = incomment = addrdone = inanticomment = 0;
n = 0;
for(; *p; p++){
c = *p;
// whitespace is ignored
if(!quoted && isspace(c) || c == '\r')
continue;
// strings are always treated as atoms
if(!quoted && c == '"'){
if(!addrdone && !incomment)
s_putc(s, c);
for(p++; *p; p++){
if(!addrdone && !incomment)
s_putc(s, *p);
if(!quoted && *p == '"')
break;
if(*p == '\\')
quoted = 1;
else
quoted = 0;
}
if(*p == 0)
break;
quoted = 0;
continue;
}
// ignore everything in an expicit comment
if(!quoted && c == '('){
incomment = 1;
continue;
}
if(incomment){
if(!quoted && c == ')')
incomment = 0;
quoted = 0;
continue;
}
// anticomments makes everything outside of them comments
if(!quoted && c == '<' && !inanticomment){
inanticomment = 1;
s = s_reset(s);
continue;
}
if(!quoted && c == '>' && inanticomment){
addrdone = 1;
inanticomment = 0;
continue;
}
// commas separate addresses
if(!quoted && c == ',' && !inanticomment){
s_terminate(s);
addrdone = 0;
if(n++ != 0)
s_append(list, " ");
s_append(list, s_to_c(s));
s = s_reset(s);
continue;
}
// what's left is part of the address
s_putc(s, c);
// quoted characters are recognized only as characters
if(c == '\\')
quoted = 1;
else
quoted = 0;
}
if(*s_to_c(s) != 0){
s_terminate(s);
if(n++ != 0)
s_append(list, " ");
s_append(list, s_to_c(s));
}
s_free(s);
if(n == 0){ /* no addressees given, just the keyword */
s_free(list);
return nil;
}
return list;
}
/*
* per rfc2822 §4.5.3, permit multiple to, cc and bcc headers by
* concatenating their values.
*/
static void
to822(Message *m, Header *h, char *p)
{
String *s;
p += strlen(h->type);
s = addr822(p);
if (m->to822 == nil)
m->to822 = s;
else if (s != nil) {
s_append(m->to822, " ");
s_append(m->to822, s_to_c(s));
s_free(s);
}
}
static void
cc822(Message *m, Header *h, char *p)
{
String *s;
p += strlen(h->type);
s = addr822(p);
if (m->cc822 == nil)
m->cc822 = s;
else if (s != nil) {
s_append(m->cc822, " ");
s_append(m->cc822, s_to_c(s));
s_free(s);
}
}
static void
bcc822(Message *m, Header *h, char *p)
{
String *s;
p += strlen(h->type);
s = addr822(p);
if (m->bcc822 == nil)
m->bcc822 = s;
else if (s != nil) {
s_append(m->bcc822, " ");
s_append(m->bcc822, s_to_c(s));
s_free(s);
}
}
static void
from822(Message *m, Header *h, char *p)
{
p += strlen(h->type);
s_free(m->from822);
m->from822 = addr822(p);
}
static void
sender822(Message *m, Header *h, char *p)
{
p += strlen(h->type);
s_free(m->sender822);
m->sender822 = addr822(p);
}
static void
replyto822(Message *m, Header *h, char *p)
{
p += strlen(h->type);
s_free(m->replyto822);
m->replyto822 = addr822(p);
}
static void
mimeversion(Message *m, Header *h, char *p)
{
p += strlen(h->type);
s_free(m->mimeversion);
m->mimeversion = addr822(p);
}
static void
killtrailingwhite(char *p)
{
char *e;
e = p + strlen(p) - 1;
while(e > p && isspace(*e))
*e-- = 0;
}
static void
date822(Message *m, Header *h, char *p)
{
p += strlen(h->type);
p = skipwhite(p);
s_free(m->date822);
m->date822 = s_copy(p);
p = s_to_c(m->date822);
killtrailingwhite(p);
}
static void
subject822(Message *m, Header *h, char *p)
{
p += strlen(h->type);
p = skipwhite(p);
s_free(m->subject822);
m->subject822 = s_copy(p);
p = s_to_c(m->subject822);
killtrailingwhite(p);
}
static void
inreplyto822(Message *m, Header *h, char *p)
{
p += strlen(h->type);
p = skipwhite(p);
s_free(m->inreplyto822);
m->inreplyto822 = s_copy(p);
p = s_to_c(m->inreplyto822);
killtrailingwhite(p);
}
static void
messageid822(Message *m, Header *h, char *p)
{
p += strlen(h->type);
p = skipwhite(p);
s_free(m->messageid822);
m->messageid822 = s_copy(p);
p = s_to_c(m->messageid822);
killtrailingwhite(p);
}
static int
isattribute(char **pp, char *attr)
{
char *p;
int n;
n = strlen(attr);
p = *pp;
if(cistrncmp(p, attr, n) != 0)
return 0;
p += n;
while(*p == ' ')
p++;
if(*p++ != '=')
return 0;
while(*p == ' ')
p++;
*pp = p;
return 1;
}
static void
ctype(Message *m, Header *h, char *p)
{
String *s;
p += h->len;
p = skipwhite(p);
p = getstring(p, m->type, 1);
while(*p){
if(isattribute(&p, "boundary")){
s = s_new();
p = getstring(p, s, 0);
m->boundary = s_reset(m->boundary);
s_append(m->boundary, "--");
s_append(m->boundary, s_to_c(s));
s_free(s);
} else if(cistrncmp(p, "multipart", 9) == 0){
/*
* the first unbounded part of a multipart message,
* the preamble, is not displayed or saved
*/
} else if(isattribute(&p, "name")){
if(m->filename == nil)
setfilename(m, p);
} else if(isattribute(&p, "charset")){
p = getstring(p, s_reset(m->charset), 0);
}
p = skiptosemi(p);
}
}
static void
cencoding(Message *m, Header *h, char *p)
{
p += h->len;
p = skipwhite(p);
if(cistrncmp(p, "base64", 6) == 0)
m->encoding = Ebase64;
else if(cistrncmp(p, "quoted-printable", 16) == 0)
m->encoding = Equoted;
}
static void
cdisposition(Message *m, Header *h, char *p)
{
p += h->len;
p = skipwhite(p);
while(*p){
if(cistrncmp(p, "inline", 6) == 0){
m->disposition = Dinline;
} else if(cistrncmp(p, "attachment", 10) == 0){
m->disposition = Dfile;
} else if(cistrncmp(p, "filename=", 9) == 0){
p += 9;
setfilename(m, p);
}
p = skiptosemi(p);
}
}
ulong msgallocd, msgfreed;
Message*
newmessage(Message *parent)
{
static int id;
Message *m;
msgallocd++;
m = emalloc(sizeof(*m));
memset(m, 0, sizeof(*m));
m->disposition = Dnone;
m->type = s_copy("text/plain");
m->charset = s_copy("iso-8859-1");
m->id = newid();
if(parent)
sprint(m->name, "%d", ++(parent->subname));
if(parent == nil)
parent = m;
m->whole = parent;
m->hlen = -1;
return m;
}
// delete a message from a mailbox
void
delmessage(Mailbox *mb, Message *m)
{
Message **l;
int i;
mb->vers++;
msgfreed++;
if(m->whole != m){
// unchain from parent
for(l = &m->whole->part; *l && *l != m; l = &(*l)->next)
;
if(*l != nil)
*l = m->next;
// clear out of name lookup hash table
if(m->whole->whole == m->whole)
hfree(PATH(mb->id, Qmbox), m->name);
else
hfree(PATH(m->whole->id, Qdir), m->name);
for(i = 0; i < Qmax; i++)
hfree(PATH(m->id, Qdir), dirtab[i]);
}
/* recurse through sub-parts */
while(m->part)
delmessage(mb, m->part);
/* free memory */
if(m->mallocd)
free(m->start);
if(m->hallocd)
free(m->header);
if(m->ballocd)
free(m->body);
s_free(m->unixfrom);
s_free(m->unixdate);
s_free(m->unixheader);
s_free(m->from822);
s_free(m->sender822);
s_free(m->to822);
s_free(m->bcc822);
s_free(m->cc822);
s_free(m->replyto822);
s_free(m->date822);
s_free(m->inreplyto822);
s_free(m->subject822);
s_free(m->messageid822);
s_free(m->addrs);
s_free(m->mimeversion);
s_free(m->sdigest);
s_free(m->boundary);
s_free(m->type);
s_free(m->charset);
s_free(m->filename);
free(m);
}
// mark messages (identified by path) for deletion
void
delmessages(int ac, char **av)
{
Mailbox *mb;
Message *m;
int i, needwrite;
qlock(&mbllock);
for(mb = mbl; mb != nil; mb = mb->next)
if(strcmp(av[0], mb->name) == 0){
qlock(mb);
break;
}
qunlock(&mbllock);
if(mb == nil)
return;
needwrite = 0;
for(i = 1; i < ac; i++){
for(m = mb->root->part; m != nil; m = m->next)
if(strcmp(m->name, av[i]) == 0){
if(!m->deleted){
mailplumb(mb, m, 1);
needwrite = 1;
m->deleted = 1;
logmsg("deleting", m);
}
break;
}
}
if(needwrite)
syncmbox(mb, 1);
qunlock(mb);
}
/*
* the following are called with the mailbox qlocked
*/
void
msgincref(Message *m)
{
m->refs++;
}
void
msgdecref(Mailbox *mb, Message *m)
{
m->refs--;
if(m->refs == 0 && m->deleted)
syncmbox(mb, 1);
}
/*
* the following are called with mbllock'd
*/
void
mboxincref(Mailbox *mb)
{
assert(mb->refs > 0);
mb->refs++;
}
void
mboxdecref(Mailbox *mb)
{
assert(mb->refs > 0);
qlock(mb);
mb->refs--;
if(mb->refs == 0){
delmessage(mb, mb->root);
if(mb->ctl)
hfree(PATH(mb->id, Qmbox), "ctl");
if(mb->close)
(*mb->close)(mb);
free(mb);
} else
qunlock(mb);
}
int
cistrncmp(char *a, char *b, int n)
{
while(n-- > 0){
if(tolower(*a++) != tolower(*b++))
return -1;
}
return 0;
}
int
cistrcmp(char *a, char *b)
{
for(;;){
if(tolower(*a) != tolower(*b++))
return -1;
if(*a++ == 0)
break;
}
return 0;
}
static char*
skipwhite(char *p)
{
while(isspace(*p))
p++;
return p;
}
static char*
skiptosemi(char *p)
{
while(*p && *p != ';')
p++;
while(*p == ';' || isspace(*p))
p++;
return p;
}
static char*
getstring(char *p, String *s, int dolower)
{
s = s_reset(s);
p = skipwhite(p);
if(*p == '"'){
p++;
for(;*p && *p != '"'; p++)
if(dolower)
s_putc(s, tolower(*p));
else
s_putc(s, *p);
if(*p == '"')
p++;
s_terminate(s);
return p;
}
for(; *p && !isspace(*p) && *p != ';'; p++)
if(dolower)
s_putc(s, tolower(*p));
else
s_putc(s, *p);
s_terminate(s);
return p;
}
static void
setfilename(Message *m, char *p)
{
m->filename = s_reset(m->filename);
getstring(p, m->filename, 0);
for(p = s_to_c(m->filename); *p; p++)
if(*p == ' ' || *p == '\t' || *p == ';')
*p = '_';
}
//
// undecode message body
//
void
decode(Message *m)
{
int i, len;
char *x;
if(m->decoded)
return;
switch(m->encoding){
case Ebase64:
len = m->bend - m->body;
i = (len*3)/4+1; // room for max chars + null
x = emalloc(i);
len = dec64((uchar*)x, i, m->body, len);
if(m->ballocd)
free(m->body);
m->body = x;
m->bend = x + len;
m->ballocd = 1;
break;
case Equoted:
len = m->bend - m->body;
x = emalloc(len+2); // room for null and possible extra nl
len = decquoted(x, m->body, m->bend, 0);
if(m->ballocd)
free(m->body);
m->body = x;
m->bend = x + len;
m->ballocd = 1;
break;
default:
break;
}
m->decoded = 1;
}
// convert latin1 to utf
void
convert(Message *m)
{
int len;
char *x;
// don't convert if we're not a leaf, not text, or already converted
if(m->converted)
return;
if(m->part != nil)
return;
if(cistrncmp(s_to_c(m->type), "text", 4) != 0)
return;
len = xtoutf(s_to_c(m->charset), &x, m->body, m->bend);
if(len > 0){
if(m->ballocd)
free(m->body);
m->body = x;
m->bend = x + len;
m->ballocd = 1;
}
m->converted = 1;
}
static int
hex2int(int x)
{
if(x >= '0' && x <= '9')
return x - '0';
if(x >= 'A' && x <= 'F')
return (x - 'A') + 10;
if(x >= 'a' && x <= 'f')
return (x - 'a') + 10;
return -1;
}
// underscores are translated in 2047 headers (uscores=1)
// but not in the body (uscores=0)
static char*
decquotedline(char *out, char *in, char *e, int uscores)
{
int c, c2, soft;
/* dump trailing white space */
while(e >= in && (*e == ' ' || *e == '\t' || *e == '\r' || *e == '\n'))
e--;
/* trailing '=' means no newline */
if(*e == '='){
soft = 1;
e--;
} else
soft = 0;
while(in <= e){
c = (*in++) & 0xff;
switch(c){
case '_':
if(uscores){
*out++ = ' ';
break;
}
default:
*out++ = c;
break;
case '=':
c = hex2int(*in++);
c2 = hex2int(*in++);
if (c != -1 && c2 != -1)
*out++ = c<<4 | c2;
else {
*out++ = '=';
in -= 2;
}
break;
}
}
if(!soft)
*out++ = '\n';
*out = 0;
return out;
}
int
decquoted(char *out, char *in, char *e, int uscores)
{
char *p, *nl;
p = out;
while((nl = strchr(in, '\n')) != nil && nl < e){
p = decquotedline(p, in, nl, uscores);
in = nl + 1;
}
if(in < e)
p = decquotedline(p, in, e-1, uscores);
// make sure we end with a new line
if(*(p-1) != '\n'){
*p++ = '\n';
*p = 0;
}
return p - out;
}
static char*
lowercase(char *p)
{
char *op;
int c;
for(op = p; c = *p; p++)
if(isupper(c))
*p = tolower(c);
return op;
}
// translate latin1 directly since it fits neatly in utf
static int
latin1toutf(char **out, char *in, char *e)
{
int n;
char *p;
Rune r;
n = 0;
for(p = in; p < e; p++)
if(*p & 0x80)
n++;
if(n == 0)
return 0;
n += e-in;
*out = p = malloc(n+1);
if(p == nil)
return 0;
for(; in < e; in++){
r = (uchar)*in;
p += runetochar(p, &r);
}
*p = 0;
return p - *out;
}
// translate any thing using the tcs program
int
xtoutf(char *charset, char **out, char *in, char *e)
{
char *av[4];
int totcs[2];
int fromtcs[2];
int n, len, sofar;
char *p;
// might not need to convert
if(cistrcmp(charset, "us-ascii") == 0 || cistrcmp(charset, "utf-8") == 0)
return 0;
if(cistrcmp(charset, "iso-8859-1") == 0)
return latin1toutf(out, in, e);
len = e-in+1;
sofar = 0;
*out = p = malloc(len+1);
if(p == nil)
return 0;
av[0] = charset;
av[1] = "-f";
av[2] = charset;
av[3] = 0;
if(pipe(totcs) < 0)
goto error;
if(pipe(fromtcs) < 0){
close(totcs[0]); close(totcs[1]);
goto error;
}
switch(rfork(RFPROC|RFFDG|RFNOWAIT)){
case -1:
close(fromtcs[0]); close(fromtcs[1]);
close(totcs[0]); close(totcs[1]);
goto error;
case 0:
close(fromtcs[0]); close(totcs[1]);
dup(fromtcs[1], 1);
dup(totcs[0], 0);
close(fromtcs[1]); close(totcs[0]);
dup(open("/dev/null", OWRITE), 2);
exec("/bin/tcs", av);
_exits(0);
default:
close(fromtcs[1]); close(totcs[0]);
switch(rfork(RFPROC|RFFDG|RFNOWAIT)){
case -1:
close(fromtcs[0]); close(totcs[1]);
goto error;
case 0:
close(fromtcs[0]);
while(in < e){
n = write(totcs[1], in, e-in);
if(n <= 0)
break;
in += n;
}
close(totcs[1]);
_exits(0);
default:
close(totcs[1]);
for(;;){
n = read(fromtcs[0], &p[sofar], len-sofar);
if(n <= 0)
break;
sofar += n;
p[sofar] = 0;
if(sofar == len){
len += 1024;
p = realloc(p, len+1);
if(p == nil)
goto error;
*out = p;
}
}
close(fromtcs[0]);
break;
}
break;
}
if(sofar == 0)
goto error;
return sofar;
error:
free(*out);
*out = nil;
return 0;
}
void *
emalloc(ulong n)
{
void *p;
p = mallocz(n, 1);
if(!p){
fprint(2, "%s: out of memory alloc %lud\n", argv0, n);
exits("out of memory");
}
setmalloctag(p, getcallerpc(&n));
return p;
}
void *
erealloc(void *p, ulong n)
{
if(n == 0)
n = 1;
p = realloc(p, n);
if(!p){
fprint(2, "%s: out of memory realloc %lud\n", argv0, n);
exits("out of memory");
}
setrealloctag(p, getcallerpc(&p));
return p;
}
void
mailplumb(Mailbox *mb, Message *m, int delete)
{
Plumbmsg p;
Plumbattr a[7];
char buf[256];
int ai;
char lenstr[10], *from, *subject, *date;
static int fd = -1;
if(m->subject822 == nil)
subject = "";
else
subject = s_to_c(m->subject822);
if(m->from822 != nil)
from = s_to_c(m->from822);
else if(m->unixfrom != nil)
from = s_to_c(m->unixfrom);
else
from = "";
if(m->unixdate != nil)
date = s_to_c(m->unixdate);
else
date = "";
sprint(lenstr, "%ld", m->end-m->start);
if(biffing && !delete)
print("[ %s / %s / %s ]\n", from, subject, lenstr);
if(!plumbing)
return;
if(fd < 0)
fd = plumbopen("send", OWRITE);
if(fd < 0)
return;
p.src = "mailfs";
p.dst = "seemail";
p.wdir = "/mail/fs";
p.type = "text";
ai = 0;
a[ai].name = "filetype";
a[ai].value = "mail";
a[++ai].name = "sender";
a[ai].value = from;
a[ai-1].next = &a[ai];
a[++ai].name = "length";
a[ai].value = lenstr;
a[ai-1].next = &a[ai];
a[++ai].name = "mailtype";
a[ai].value = delete?"delete":"new";
a[ai-1].next = &a[ai];
a[++ai].name = "date";
a[ai].value = date;
a[ai-1].next = &a[ai];
if(m->sdigest){
a[++ai].name = "digest";
a[ai].value = s_to_c(m->sdigest);
a[ai-1].next = &a[ai];
}
a[ai].next = nil;
p.attr = a;
snprint(buf, sizeof(buf), "%s/%s/%s",
mntpt, mb->name, m->name);
p.ndata = strlen(buf);
p.data = buf;
plumbsend(fd, &p);
}
//
// count the number of lines in the body (for imap4)
//
void
countlines(Message *m)
{
int i;
char *p;
i = 0;
for(p = strchr(m->rbody, '\n'); p != nil && p < m->rbend; p = strchr(p+1, '\n'))
i++;
sprint(m->lines, "%d", i);
}
char *LOG = "fs";
void
logmsg(char *s, Message *m)
{
int pid;
if(!logging)
return;
pid = getpid();
if(m == nil)
syslog(0, LOG, "%s.%d: %s", user, pid, s);
else
syslog(0, LOG, "%s.%d: %s msg from %s digest %s",
user, pid, s,
m->from822 ? s_to_c(m->from822) : "?",
s_to_c(m->sdigest));
}
/*
* squeeze nulls out of the body
*/
static void
nullsqueeze(Message *m)
{
char *p, *q;
q = memchr(m->body, 0, m->end-m->body);
if(q == nil)
return;
for(p = m->body; q < m->end; q++){
if(*q == 0)
continue;
*p++ = *q;
}
m->bend = m->rbend = m->end = p;
}
//
// convert an RFC822 date into a Unix style date
// for when the Unix From line isn't there (e.g. POP3).
// enough client programs depend on having a Unix date
// that it's easiest to write this conversion code once, right here.
//
// people don't follow RFC822 particularly closely,
// so we use strtotm, which is a bunch of heuristics.
//
extern int strtotm(char*, Tm*);
String*
date822tounix(char *s)
{
char *p, *q;
Tm tm;
if(strtotm(s, &tm) < 0)
return nil;
p = asctime(&tm);
if(q = strchr(p, '\n'))
*q = '\0';
return s_copy(p);
}
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