isync/src/drv_imap.c

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/*
* mbsync - mailbox synchronizer
* Copyright (C) 2000-2002 Michael R. Elkins <me@mutt.org>
2013-04-20 14:57:16 +00:00
* Copyright (C) 2002-2006,2008,2010-2013 Oswald Buddenhagen <ossi@users.sf.net>
* Copyright (C) 2004 Theodore Y. Ts'o <tytso@mit.edu>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
* As a special exception, mbsync may be linked with the OpenSSL library,
* despite that library's more restrictive license.
*/
#include "driver.h"
#include "socket.h"
#include <assert.h>
#include <unistd.h>
#include <stdlib.h>
#include <stdio.h>
2004-09-08 16:14:12 +00:00
#include <stddef.h>
#include <limits.h>
#include <string.h>
#include <ctype.h>
#include <time.h>
#include <sys/wait.h>
#ifdef HAVE_LIBSASL
# include <sasl/sasl.h>
# include <sasl/saslutil.h>
#endif
#ifdef HAVE_LIBSSL
enum { SSL_None, SSL_STARTTLS, SSL_IMAPS };
#endif
typedef struct imap_server_conf {
struct imap_server_conf *next;
char *name;
server_conf_t sconf;
char *user;
char *pass;
char *pass_cmd;
int max_in_progress;
int cap_mask;
string_list_t *auth_mechs;
#ifdef HAVE_LIBSSL
char ssl_type;
#endif
char failed;
} imap_server_conf_t;
typedef struct {
store_conf_t gen;
imap_server_conf_t *server;
char delimiter;
char use_namespace;
} imap_store_conf_t;
typedef struct {
message_t gen;
/* int seq; will be needed when expunges are tracked */
} imap_message_t;
#define NIL (void*)0x1
#define LIST (void*)0x2
typedef struct _list {
struct _list *next, *child;
char *val;
int len;
} list_t;
#define MAX_LIST_DEPTH 5
typedef struct imap_store imap_store_t;
typedef struct {
list_t *head, **stack[MAX_LIST_DEPTH];
int (*callback)( imap_store_t *ctx, list_t *list, char *cmd );
int level, need_bytes;
} parse_list_state_t;
typedef struct imap_cmd imap_cmd_t;
struct imap_store {
store_t gen;
const char *label; /* foreign */
const char *prefix;
const char *name;
int ref_count;
uint opts;
enum { SST_BAD, SST_HALF, SST_GOOD } state;
/* trash folder's existence is not confirmed yet */
enum { TrashUnknown, TrashChecking, TrashKnown } trashnc;
uint got_namespace:1;
char delimiter[2]; /* hierarchy delimiter */
list_t *ns_personal, *ns_other, *ns_shared; /* NAMESPACE info */
string_list_t *boxes; // _list results
char listed; // was _list already run with these flags?
// note that the message counts do _not_ reflect stats from msgs,
// but mailbox totals. also, don't trust them beyond the initial load.
int total_msgs, recent_msgs;
uint uidvalidity, uidnext;
message_t *msgs;
message_t **msgapp; /* FETCH results */
uint caps; /* CAPABILITY results */
string_list_t *auth_mechs;
parse_list_state_t parse_list_sts;
/* command queue */
int nexttag, num_in_progress;
imap_cmd_t *pending, **pending_append;
imap_cmd_t *in_progress, **in_progress_append;
int buffer_mem; /* memory currently occupied by buffers in the queue */
/* Used during sequential operations like connect */
enum { GreetingPending = 0, GreetingBad, GreetingOk, GreetingPreauth } greeting;
int expectBYE; /* LOGOUT is in progress */
int expectEOF; /* received LOGOUT's OK or unsolicited BYE */
int canceling; /* imap_cancel() is in progress */
union {
void (*imap_open)( int sts, void *aux );
void (*imap_cancel)( void *aux );
} callbacks;
void *callback_aux;
#ifdef HAVE_LIBSASL
sasl_conn_t *sasl;
int sasl_cont;
#endif
void (*bad_callback)( void *aux );
void *bad_callback_aux;
conn_t conn; /* this is BIG, so put it last */
};
struct imap_cmd {
struct imap_cmd *next;
char *cmd;
int tag;
struct {
/* Will be called on each continuation request until it resets this pointer.
* Needs to invoke bad_callback and return -1 on error, otherwise return 0. */
int (*cont)( imap_store_t *ctx, imap_cmd_t *cmd, const char *prompt );
void (*done)( imap_store_t *ctx, imap_cmd_t *cmd, int response );
char *data;
int data_len;
uint uid; /* to identify fetch responses */
char high_prio; /* if command is queued, put it at the front of the queue. */
char to_trash; /* we are storing to trash, not current. */
char create; /* create the mailbox if we get an error which suggests so. */
char failok; /* Don't complain about NO response. */
char lastuid; /* querying the last UID in the mailbox. */
} param;
};
typedef struct {
imap_cmd_t gen;
void (*callback)( int sts, void *aux );
void *callback_aux;
} imap_cmd_simple_t;
typedef struct {
imap_cmd_simple_t gen;
msg_data_t *msg_data;
} imap_cmd_fetch_msg_t;
typedef struct {
imap_cmd_t gen;
void (*callback)( int sts, uint uid, void *aux );
void *callback_aux;
uint out_uid;
} imap_cmd_out_uid_t;
typedef struct {
imap_cmd_t gen;
void (*callback)( int sts, message_t *msgs, void *aux );
void *callback_aux;
message_t **out_msgs;
uint uid;
} imap_cmd_find_new_t;
typedef struct {
int ref_count;
int ret_val;
} imap_cmd_refcounted_state_t;
typedef struct {
imap_cmd_t gen;
imap_cmd_refcounted_state_t *state;
} imap_cmd_refcounted_t;
#define CAP(cap) (ctx->caps & (1 << (cap)))
enum CAPABILITY {
NOLOGIN = 0,
#ifdef HAVE_LIBSASL
SASLIR,
#endif
#ifdef HAVE_LIBSSL
STARTTLS,
#endif
UIDPLUS,
LITERALPLUS,
MOVE,
NAMESPACE,
COMPRESS_DEFLATE
};
static const char *cap_list[] = {
"LOGINDISABLED",
#ifdef HAVE_LIBSASL
"SASL-IR",
#endif
#ifdef HAVE_LIBSSL
"STARTTLS",
#endif
"UIDPLUS",
"LITERAL+",
"MOVE",
"NAMESPACE",
"COMPRESS=DEFLATE"
};
#define RESP_OK 0
#define RESP_NO 1
#define RESP_CANCEL 2
static INLINE void imap_ref( imap_store_t *ctx ) { ++ctx->ref_count; }
static int imap_deref( imap_store_t *ctx );
static void imap_invoke_bad_callback( imap_store_t *ctx );
static const char *Flags[] = {
"Draft",
"Flagged",
"Answered",
"Seen",
"Deleted",
};
static imap_cmd_t *
new_imap_cmd( int size )
{
imap_cmd_t *cmd = nfmalloc( size );
memset( &cmd->param, 0, sizeof(cmd->param) );
return cmd;
}
#define INIT_IMAP_CMD(type, cmdp, cb, aux) \
cmdp = (type *)new_imap_cmd( sizeof(*cmdp) ); \
cmdp->callback = cb; \
cmdp->callback_aux = aux;
#define INIT_IMAP_CMD_X(type, cmdp, cb, aux) \
cmdp = (type *)new_imap_cmd( sizeof(*cmdp) ); \
cmdp->gen.callback = cb; \
cmdp->gen.callback_aux = aux;
2011-03-27 10:34:25 +00:00
static void
done_imap_cmd( imap_store_t *ctx, imap_cmd_t *cmd, int response )
2011-03-27 10:34:25 +00:00
{
cmd->param.done( ctx, cmd, response );
if (cmd->param.data) {
free( cmd->param.data );
ctx->buffer_mem -= cmd->param.data_len;
}
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free( cmd->cmd );
free( cmd );
}
static void
send_imap_cmd( imap_store_t *ctx, imap_cmd_t *cmd )
{
int bufl, litplus, iovcnt = 1;
const char *buffmt;
conn_iovec_t iov[3];
char buf[1024];
cmd->tag = ++ctx->nexttag;
if (!cmd->param.data) {
buffmt = "%d %s\r\n";
litplus = 0;
} else if ((cmd->param.to_trash && ctx->trashnc == TrashUnknown) || !CAP(LITERALPLUS) || cmd->param.data_len >= 100*1024) {
buffmt = "%d %s{%d}\r\n";
litplus = 0;
} else {
buffmt = "%d %s{%d+}\r\n";
litplus = 1;
}
bufl = nfsnprintf( buf, sizeof(buf), buffmt,
cmd->tag, cmd->cmd, cmd->param.data_len );
if (DFlags & DEBUG_NET) {
if (ctx->num_in_progress)
printf( "(%d in progress) ", ctx->num_in_progress );
if (starts_with( cmd->cmd, -1, "LOGIN", 5 ))
printf( "%s>>> %d LOGIN <user> <pass>\n", ctx->label, cmd->tag );
else if (starts_with( cmd->cmd, -1, "AUTHENTICATE PLAIN", 18 ))
printf( "%s>>> %d AUTHENTICATE PLAIN <authdata>\n", ctx->label, cmd->tag );
else
printf( "%s>>> %s", ctx->label, buf );
fflush( stdout );
}
iov[0].buf = buf;
iov[0].len = bufl;
iov[0].takeOwn = KeepOwn;
if (litplus) {
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if (DFlags & DEBUG_NET_ALL) {
printf( "%s>>>>>>>>>\n", ctx->label );
fwrite( cmd->param.data, cmd->param.data_len, 1, stdout );
printf( "%s>>>>>>>>>\n", ctx->label );
fflush( stdout );
}
iov[1].buf = cmd->param.data;
iov[1].len = cmd->param.data_len;
iov[1].takeOwn = GiveOwn;
cmd->param.data = 0;
ctx->buffer_mem -= cmd->param.data_len;
iov[2].buf = "\r\n";
iov[2].len = 2;
iov[2].takeOwn = KeepOwn;
iovcnt = 3;
}
socket_write( &ctx->conn, iov, iovcnt );
if (cmd->param.to_trash && ctx->trashnc == TrashUnknown)
ctx->trashnc = TrashChecking;
cmd->next = 0;
*ctx->in_progress_append = cmd;
ctx->in_progress_append = &cmd->next;
ctx->num_in_progress++;
2015-04-06 14:49:33 +00:00
socket_expect_read( &ctx->conn, 1 );
}
static int
cmd_sendable( imap_store_t *ctx, imap_cmd_t *cmd )
{
if (ctx->conn.write_buf) {
/* Don't build up a long queue in the socket, so we can
* control when the commands are actually sent.
* This allows reliable cancelation of pending commands,
* injecting commands in front of other pending commands,
* and keeping num_in_progress accurate. */
return 0;
}
if (ctx->in_progress) {
/* If the last command in flight ... */
imap_cmd_t *cmdp = (imap_cmd_t *)((char *)ctx->in_progress_append -
offsetof(imap_cmd_t, next));
if (cmdp->param.cont || cmdp->param.data) {
/* ... is expected to trigger a continuation request, we need to
* wait for that round-trip before sending the next command. */
return 0;
}
}
if (cmd->param.to_trash && ctx->trashnc == TrashChecking) {
/* Don't build a queue of MOVE/COPY/APPEND commands that may all fail. */
return 0;
}
if (ctx->num_in_progress >= ((imap_store_conf_t *)ctx->gen.conf)->server->max_in_progress) {
/* Too many commands in flight. */
return 0;
}
return 1;
}
static void
flush_imap_cmds( imap_store_t *ctx )
{
imap_cmd_t *cmd;
if ((cmd = ctx->pending) && cmd_sendable( ctx, cmd )) {
if (!(ctx->pending = cmd->next))
ctx->pending_append = &ctx->pending;
send_imap_cmd( ctx, cmd );
}
}
static void
cancel_pending_imap_cmds( imap_store_t *ctx )
{
imap_cmd_t *cmd;
while ((cmd = ctx->pending)) {
if (!(ctx->pending = cmd->next))
ctx->pending_append = &ctx->pending;
done_imap_cmd( ctx, cmd, RESP_CANCEL );
}
}
static void
cancel_sent_imap_cmds( imap_store_t *ctx )
{
imap_cmd_t *cmd;
2015-04-06 14:49:33 +00:00
socket_expect_read( &ctx->conn, 0 );
while ((cmd = ctx->in_progress)) {
ctx->in_progress = cmd->next;
/* don't update num_in_progress and in_progress_append - store is dead */
2011-03-27 10:34:25 +00:00
done_imap_cmd( ctx, cmd, RESP_CANCEL );
}
}
static void
submit_imap_cmd( imap_store_t *ctx, imap_cmd_t *cmd )
{
assert( ctx );
assert( ctx->bad_callback );
assert( cmd );
assert( cmd->param.done );
if ((ctx->pending && !cmd->param.high_prio) || !cmd_sendable( ctx, cmd )) {
if (ctx->pending && cmd->param.high_prio) {
cmd->next = ctx->pending;
ctx->pending = cmd;
} else {
cmd->next = 0;
*ctx->pending_append = cmd;
ctx->pending_append = &cmd->next;
}
} else {
send_imap_cmd( ctx, cmd );
}
}
/* Minimal printf() replacement that supports an %\s format sequence to print backslash-escaped
* string literals. Note that this does not automatically add quotes around the printed string,
* so it is possible to concatenate multiple segments. */
static char *
imap_vprintf( const char *fmt, va_list ap )
{
const char *s;
char *d, *ed;
int maxlen;
char c;
char buf[1024]; /* Minimal supported command buffer size per IMAP spec. */
d = buf;
ed = d + sizeof(buf);
s = fmt;
for (;;) {
c = *fmt;
if (!c || c == '%') {
int l = fmt - s;
if (d + l > ed)
oob();
memcpy( d, s, l );
d += l;
2016-11-06 16:22:04 +00:00
if (!c)
return nfstrndup( buf, d - buf );
maxlen = INT_MAX;
c = *++fmt;
if (c == '\\') {
c = *++fmt;
if (c != 's') {
fputs( "Fatal: unsupported escaped format specifier. Please report a bug.\n", stderr );
abort();
}
s = va_arg( ap, const char * );
while ((c = *s++)) {
if (d + 2 > ed)
oob();
if (c == '\\' || c == '"')
*d++ = '\\';
*d++ = c;
}
} else { /* \\ cannot be combined with anything else. */
if (c == '.') {
c = *++fmt;
if (c != '*') {
fputs( "Fatal: unsupported string length specification. Please report a bug.\n", stderr );
abort();
}
maxlen = va_arg( ap , int );
c = *++fmt;
}
if (c == 'c') {
if (d + 1 > ed)
oob();
*d++ = (char)va_arg( ap , int );
} else if (c == 's') {
s = va_arg( ap, const char * );
l = strnlen( s, maxlen );
if (d + l > ed)
oob();
memcpy( d, s, l );
d += l;
} else if (c == 'd') {
d += nfsnprintf( d, ed - d, "%d", va_arg( ap , int ) );
} else if (c == 'u') {
d += nfsnprintf( d, ed - d, "%u", va_arg( ap , uint ) );
} else {
fputs( "Fatal: unsupported format specifier. Please report a bug.\n", stderr );
abort();
}
}
s = ++fmt;
} else {
fmt++;
}
}
}
static void
imap_exec( imap_store_t *ctx, imap_cmd_t *cmdp,
void (*done)( imap_store_t *ctx, imap_cmd_t *cmd, int response ),
const char *fmt, ... )
{
va_list ap;
if (!cmdp)
cmdp = new_imap_cmd( sizeof(*cmdp) );
cmdp->param.done = done;
va_start( ap, fmt );
cmdp->cmd = imap_vprintf( fmt, ap );
va_end( ap );
submit_imap_cmd( ctx, cmdp );
}
static void
transform_box_response( int *response )
{
switch (*response) {
case RESP_CANCEL: *response = DRV_CANCELED; break;
case RESP_NO: *response = DRV_BOX_BAD; break;
default: *response = DRV_OK; break;
}
}
static void
imap_done_simple_box( imap_store_t *ctx ATTR_UNUSED,
imap_cmd_t *cmd, int response )
{
imap_cmd_simple_t *cmdp = (imap_cmd_simple_t *)cmd;
transform_box_response( &response );
cmdp->callback( response, cmdp->callback_aux );
}
static void
transform_msg_response( int *response )
{
switch (*response) {
case RESP_CANCEL: *response = DRV_CANCELED; break;
case RESP_NO: *response = DRV_MSG_BAD; break;
default: *response = DRV_OK; break;
}
}
static void
imap_done_simple_msg( imap_store_t *ctx ATTR_UNUSED,
imap_cmd_t *cmd, int response )
{
imap_cmd_simple_t *cmdp = (imap_cmd_simple_t *)cmd;
transform_msg_response( &response );
cmdp->callback( response, cmdp->callback_aux );
}
static imap_cmd_refcounted_state_t *
imap_refcounted_new_state( int sz )
{
imap_cmd_refcounted_state_t *sts = nfmalloc( sz );
sts->ref_count = 1; /* so forced sync does not cause an early exit */
sts->ret_val = DRV_OK;
return sts;
}
#define INIT_REFCOUNTED_STATE(type, sts, cb, aux) \
type *sts = (type *)imap_refcounted_new_state( sizeof(type) ); \
sts->callback = cb; \
sts->callback_aux = aux;
static imap_cmd_t *
imap_refcounted_new_cmd( imap_cmd_refcounted_state_t *sts )
{
imap_cmd_refcounted_t *cmd = (imap_cmd_refcounted_t *)new_imap_cmd( sizeof(*cmd) );
cmd->state = sts;
sts->ref_count++;
return &cmd->gen;
}
#define DONE_REFCOUNTED_STATE(sts) \
if (!--sts->gen.ref_count) { \
sts->callback( sts->gen.ret_val, sts->callback_aux ); \
free( sts ); \
}
#define DONE_REFCOUNTED_STATE_ARGS(sts, ...) \
if (!--sts->gen.ref_count) { \
sts->callback( sts->gen.ret_val, __VA_ARGS__, sts->callback_aux ); \
free( sts ); \
}
static void
transform_refcounted_box_response( imap_cmd_refcounted_state_t *sts, int response )
{
switch (response) {
case RESP_CANCEL:
sts->ret_val = DRV_CANCELED;
break;
case RESP_NO:
if (sts->ret_val == DRV_OK) /* Don't override cancelation. */
sts->ret_val = DRV_BOX_BAD;
break;
}
}
static void
transform_refcounted_msg_response( imap_cmd_refcounted_state_t *sts, int response )
{
switch (response) {
case RESP_CANCEL:
sts->ret_val = DRV_CANCELED;
break;
case RESP_NO:
if (sts->ret_val == DRV_OK) /* Don't override cancelation. */
sts->ret_val = DRV_MSG_BAD;
break;
}
}
static const char *
imap_strchr( const char *s, char tc )
{
for (;; s++) {
char c = *s;
if (c == '\\')
c = *++s;
if (!c)
return 0;
if (c == tc)
return s;
}
}
static char *
next_arg( char **ps )
{
char *ret, *s, *d;
char c;
assert( ps );
s = *ps;
if (!s)
return 0;
while (isspace( (uchar)*s ))
s++;
if (!*s) {
*ps = 0;
return 0;
}
if (*s == '"') {
s++;
ret = d = s;
while ((c = *s++) != '"') {
if (c == '\\')
c = *s++;
if (!c) {
*ps = 0;
return 0;
}
*d++ = c;
}
*d = 0;
} else {
ret = s;
while ((c = *s)) {
if (isspace( (uchar)c )) {
*s++ = 0;
break;
}
s++;
}
}
if (!*s)
s = 0;
*ps = s;
return ret;
}
static int
is_opt_atom( list_t *list )
{
return list && list->val && list->val != LIST;
}
static int
is_atom( list_t *list )
{
return list && list->val && list->val != NIL && list->val != LIST;
}
static int
is_list( list_t *list )
{
return list && list->val == LIST;
}
static void
free_list( list_t *list )
{
list_t *tmp;
for (; list; list = tmp) {
tmp = list->next;
if (is_list( list ))
free_list( list->child );
else if (is_atom( list ))
free( list->val );
free( list );
}
}
enum {
LIST_OK,
LIST_PARTIAL,
LIST_BAD
};
static int
parse_imap_list( imap_store_t *ctx, char **sp, parse_list_state_t *sts )
{
list_t *cur, **curp;
char *s = *sp, *d, *p;
int n, bytes;
char c;
assert( sts );
assert( sts->level > 0 );
curp = sts->stack[--sts->level];
bytes = sts->need_bytes;
if (bytes >= 0) {
sts->need_bytes = -1;
if (!bytes)
goto getline;
cur = (list_t *)((char *)curp - offsetof(list_t, next));
s = cur->val + cur->len - bytes;
goto getbytes;
}
if (!s)
return LIST_BAD;
for (;;) {
while (isspace( (uchar)*s ))
s++;
if (sts->level && *s == ')') {
s++;
curp = sts->stack[--sts->level];
goto next;
}
*curp = cur = nfmalloc( sizeof(*cur) );
cur->val = 0; /* for clean bail */
curp = &cur->next;
*curp = 0; /* ditto */
if (*s == '(') {
/* sublist */
if (sts->level == MAX_LIST_DEPTH)
goto bail;
s++;
cur->val = LIST;
sts->stack[sts->level++] = curp;
curp = &cur->child;
*curp = 0; /* for clean bail */
goto next2;
} else if (ctx && *s == '{') {
/* literal */
bytes = cur->len = strtol( s + 1, &s, 10 );
if (*s != '}' || *++s)
goto bail;
s = cur->val = nfmalloc( cur->len + 1 );
s[cur->len] = 0;
getbytes:
n = socket_read( &ctx->conn, s, bytes );
if (n < 0) {
badeof:
error( "IMAP error: unexpected EOF from %s\n", ctx->conn.name );
goto bail;
}
bytes -= n;
if (bytes > 0)
goto postpone;
if (DFlags & DEBUG_NET_ALL) {
printf( "%s=========\n", ctx->label );
fwrite( cur->val, cur->len, 1, stdout );
printf( "%s=========\n", ctx->label );
fflush( stdout );
}
getline:
if (!(s = socket_read_line( &ctx->conn )))
goto postpone;
if (s == (void *)~0)
goto badeof;
if (DFlags & DEBUG_NET) {
printf( "%s%s\n", ctx->label, s );
fflush( stdout );
}
} else if (*s == '"') {
/* quoted string */
s++;
p = d = s;
while ((c = *s++) != '"') {
if (c == '\\')
c = *s++;
if (!c)
goto bail;
*d++ = c;
}
cur->len = d - p;
2016-11-06 16:22:04 +00:00
cur->val = nfstrndup( p, cur->len );
} else {
/* atom */
p = s;
for (; *s && !isspace( (uchar)*s ); s++)
if (sts->level && *s == ')')
break;
cur->len = s - p;
if (equals( p, cur->len, "NIL", 3 ))
cur->val = NIL;
2016-11-06 16:22:04 +00:00
else
cur->val = nfstrndup( p, cur->len );
}
next:
if (!sts->level)
break;
next2:
if (!*s)
goto bail;
}
*sp = s;
return LIST_OK;
postpone:
if (sts->level < MAX_LIST_DEPTH) {
sts->stack[sts->level++] = curp;
sts->need_bytes = bytes;
return LIST_PARTIAL;
}
bail:
free_list( sts->head );
return LIST_BAD;
}
static void
parse_list_init( parse_list_state_t *sts )
{
sts->need_bytes = -1;
sts->level = 1;
sts->head = 0;
sts->stack[0] = &sts->head;
}
static int
parse_list_continue( imap_store_t *ctx, char *s )
{
list_t *list;
int resp;
if ((resp = parse_imap_list( ctx, &s, &ctx->parse_list_sts )) != LIST_PARTIAL) {
list = (resp == LIST_BAD) ? 0 : ctx->parse_list_sts.head;
ctx->parse_list_sts.head = 0;
resp = ctx->parse_list_sts.callback( ctx, list, s );
}
return resp;
}
static int
parse_list( imap_store_t *ctx, char *s, int (*cb)( imap_store_t *ctx, list_t *list, char *s ) )
{
parse_list_init( &ctx->parse_list_sts );
ctx->parse_list_sts.callback = cb;
return parse_list_continue( ctx, s );
}
static int parse_namespace_rsp_p2( imap_store_t *, list_t *, char * );
static int parse_namespace_rsp_p3( imap_store_t *, list_t *, char * );
static int
parse_namespace_check( list_t *list )
{
if (!list)
goto bad;
if (list->val == NIL)
return 0;
if (list->val != LIST)
goto bad;
for (list = list->child; list; list = list->next) {
if (list->val != LIST)
goto bad;
if (!is_atom( list->child ))
goto bad;
if (!is_opt_atom( list->child->next ))
goto bad;
/* Namespace response extensions may follow here; we don't care. */
}
return 0;
bad:
error( "IMAP error: malformed NAMESPACE response\n" );
return -1;
}
static int
parse_namespace_rsp( imap_store_t *ctx, list_t *list, char *s )
{
if (parse_namespace_check( (ctx->ns_personal = list) ))
return LIST_BAD;
return parse_list( ctx, s, parse_namespace_rsp_p2 );
}
static int
parse_namespace_rsp_p2( imap_store_t *ctx, list_t *list, char *s )
{
if (parse_namespace_check( (ctx->ns_other = list) ))
return LIST_BAD;
return parse_list( ctx, s, parse_namespace_rsp_p3 );
}
static int
parse_namespace_rsp_p3( imap_store_t *ctx, list_t *list, char *s ATTR_UNUSED )
{
if (parse_namespace_check( (ctx->ns_shared = list) ))
return LIST_BAD;
return LIST_OK;
}
static time_t
parse_date( const char *str )
{
char *end;
time_t date;
int hours, mins;
struct tm datetime;
memset( &datetime, 0, sizeof(datetime) );
if (!(end = strptime( str, "%d-%b-%Y %H:%M:%S ", &datetime )))
return -1;
if ((date = timegm( &datetime )) == -1)
return -1;
if (sscanf( end, "%3d%2d", &hours, &mins ) != 2)
return -1;
return date - (hours * 60 + mins) * 60;
}
static int
parse_fetch_rsp( imap_store_t *ctx, list_t *list, char *s ATTR_UNUSED )
{
list_t *tmp, *flags;
char *body = 0, *tuid = 0, *msgid = 0, *ep;
imap_message_t *cur;
msg_data_t *msgdata;
imap_cmd_t *cmdp;
int mask = 0, status = 0, size = 0;
uint i, uid = 0;
time_t date = 0;
if (!is_list( list )) {
error( "IMAP error: bogus FETCH response\n" );
free_list( list );
return LIST_BAD;
}
for (tmp = list->child; tmp; tmp = tmp->next) {
if (is_atom( tmp )) {
if (!strcmp( "UID", tmp->val )) {
tmp = tmp->next;
if (!is_atom( tmp ) || (uid = strtoul( tmp->val, &ep, 10 ), *ep))
error( "IMAP error: unable to parse UID\n" );
} else if (!strcmp( "FLAGS", tmp->val )) {
tmp = tmp->next;
if (is_list( tmp )) {
for (flags = tmp->child; flags; flags = flags->next) {
if (is_atom( flags )) {
if (flags->val[0] == '\\') { /* ignore user-defined flags for now */
if (!strcmp( "Recent", flags->val + 1)) {
status |= M_RECENT;
goto flagok;
}
for (i = 0; i < as(Flags); i++)
if (!strcmp( Flags[i], flags->val + 1 )) {
mask |= 1 << i;
goto flagok;
}
2008-04-12 08:13:44 +00:00
if (flags->val[1] == 'X' && flags->val[2] == '-')
goto flagok; /* ignore system flag extensions */
error( "IMAP warning: unknown system flag %s\n", flags->val );
}
flagok: ;
} else
error( "IMAP error: unable to parse FLAGS list\n" );
}
status |= M_FLAGS;
} else
error( "IMAP error: unable to parse FLAGS\n" );
} else if (!strcmp( "INTERNALDATE", tmp->val )) {
tmp = tmp->next;
if (is_atom( tmp )) {
if ((date = parse_date( tmp->val )) == -1)
error( "IMAP error: unable to parse INTERNALDATE format\n" );
} else
error( "IMAP error: unable to parse INTERNALDATE\n" );
} else if (!strcmp( "RFC822.SIZE", tmp->val )) {
tmp = tmp->next;
if (!is_atom( tmp ) || (size = strtoul( tmp->val, &ep, 10 ), *ep))
error( "IMAP error: unable to parse RFC822.SIZE\n" );
} else if (!strcmp( "BODY[]", tmp->val )) {
tmp = tmp->next;
if (is_atom( tmp )) {
body = tmp->val;
tmp->val = 0; /* don't free together with list */
size = tmp->len;
} else
error( "IMAP error: unable to parse BODY[]\n" );
} else if (!strcmp( "BODY[HEADER.FIELDS", tmp->val )) {
tmp = tmp->next;
if (is_list( tmp )) {
tmp = tmp->next;
if (!is_atom( tmp ) || strcmp( tmp->val, "]" ))
goto bfail;
tmp = tmp->next;
if (!is_atom( tmp ))
goto bfail;
int off, in_msgid = 0;
for (char *val = tmp->val, *end; (end = strchr( val, '\n' )); val = end + 1) {
int len = (int)(end - val);
if (len && end[-1] == '\r')
len--;
if (!len)
break;
if (starts_with_upper( val, len, "X-TUID: ", 8 )) {
if (len < 8 + TUIDL) {
error( "IMAP error: malformed X-TUID header (UID %u)\n", uid );
continue;
}
tuid = val + 8;
in_msgid = 0;
continue;
}
if (starts_with_upper( val, len, "MESSAGE-ID:", 11 )) {
off = 11;
} else if (in_msgid) {
if (!isspace( val[0] )) {
in_msgid = 0;
continue;
}
off = 1;
} else {
continue;
}
while (off < len && isspace( val[off] ))
off++;
if (off == len) {
in_msgid = 1;
continue;
}
msgid = nfstrndup( val + off, len - off );
in_msgid = 0;
}
} else {
bfail:
error( "IMAP error: unable to parse BODY[HEADER.FIELDS ...]\n" );
}
}
}
}
if (!uid) {
assert( !body && !tuid && !msgid );
// Ignore async flag updates for now.
} else if ((cmdp = ctx->in_progress) && cmdp->param.lastuid) {
assert( !body && !tuid && !msgid );
// Workaround for server not sending UIDNEXT and/or APPENDUID.
ctx->uidnext = uid + 1;
} else if (body) {
assert( !tuid && !msgid );
for (cmdp = ctx->in_progress; cmdp; cmdp = cmdp->next)
if (cmdp->param.uid == uid)
goto gotuid;
error( "IMAP error: unexpected FETCH response (UID %u)\n", uid );
free_list( list );
return LIST_BAD;
gotuid:
msgdata = ((imap_cmd_fetch_msg_t *)cmdp)->msg_data;
msgdata->data = body;
msgdata->len = size;
msgdata->date = date;
if (status & M_FLAGS)
msgdata->flags = mask;
} else {
/* XXX this will need sorting for out-of-order (multiple queries) */
cur = nfcalloc( sizeof(*cur) );
*ctx->msgapp = &cur->gen;
ctx->msgapp = &cur->gen.next;
cur->gen.next = 0;
cur->gen.uid = uid;
cur->gen.flags = mask;
cur->gen.status = status;
cur->gen.size = size;
cur->gen.srec = 0;
cur->gen.msgid = msgid;
if (tuid)
memcpy( cur->gen.tuid, tuid, TUIDL );
else
cur->gen.tuid[0] = 0;
}
free_list( list );
return LIST_OK;
}
static void
parse_capability( imap_store_t *ctx, char *cmd )
{
char *arg;
uint i;
free_string_list( ctx->auth_mechs );
ctx->auth_mechs = 0;
ctx->caps = 0x80000000;
while ((arg = next_arg( &cmd ))) {
if (starts_with( arg, -1, "AUTH=", 5 )) {
add_string_list( &ctx->auth_mechs, arg + 5 );
} else {
for (i = 0; i < as(cap_list); i++)
if (!strcmp( cap_list[i], arg ))
ctx->caps |= 1 << i;
}
}
ctx->caps &= ~((imap_store_conf_t *)ctx->gen.conf)->server->cap_mask;
if (!CAP(NOLOGIN))
add_string_list( &ctx->auth_mechs, "LOGIN" );
}
static int
parse_response_code( imap_store_t *ctx, imap_cmd_t *cmd, char *s )
{
char *arg, *earg, *p;
if (!s || *s != '[')
return RESP_OK; /* no response code */
s++;
if (!(p = strchr( s, ']' ))) {
bad_resp:
error( "IMAP error: malformed response code\n" );
return RESP_CANCEL;
}
*p++ = 0;
if (!(arg = next_arg( &s )))
goto bad_resp;
if (!strcmp( "UIDVALIDITY", arg )) {
if (!(arg = next_arg( &s )) ||
(ctx->uidvalidity = strtoul( arg, &earg, 10 ), *earg))
{
error( "IMAP error: malformed UIDVALIDITY status\n" );
return RESP_CANCEL;
}
} else if (!strcmp( "UIDNEXT", arg )) {
if (!(arg = next_arg( &s )) ||
(ctx->uidnext = strtoul( arg, &earg, 10 ), *earg))
{
error( "IMAP error: malformed NEXTUID status\n" );
return RESP_CANCEL;
}
} else if (!strcmp( "CAPABILITY", arg )) {
parse_capability( ctx, s );
} else if (!strcmp( "ALERT", arg )) {
/* RFC2060 says that these messages MUST be displayed
* to the user
*/
for (; isspace( (uchar)*p ); p++);
error( "*** IMAP ALERT *** %s\n", p );
} else if (cmd && !strcmp( "APPENDUID", arg )) {
if (!(arg = next_arg( &s )) ||
(ctx->uidvalidity = strtoul( arg, &earg, 10 ), *earg) ||
!(arg = next_arg( &s )) ||
(((imap_cmd_out_uid_t *)cmd)->out_uid = strtoul( arg, &earg, 10 ), *earg))
{
error( "IMAP error: malformed APPENDUID status\n" );
return RESP_CANCEL;
}
}
return RESP_OK;
}
static int parse_list_rsp_p2( imap_store_t *, list_t *, char * );
static int
parse_list_rsp( imap_store_t *ctx, list_t *list, char *cmd )
{
char *arg;
list_t *lp;
if (!is_list( list )) {
free_list( list );
bad_list:
error( "IMAP error: malformed LIST response\n" );
return LIST_BAD;
}
for (lp = list->child; lp; lp = lp->next)
if (is_atom( lp ) && !strcasecmp( lp->val, "\\NoSelect" )) {
free_list( list );
return LIST_OK;
}
free_list( list );
if (!(arg = next_arg( &cmd )))
goto bad_list;
if (!ctx->delimiter[0])
ctx->delimiter[0] = arg[0];
return parse_list( ctx, cmd, parse_list_rsp_p2 );
}
static int
is_inbox( imap_store_t *ctx, const char *arg, int argl )
{
if (!starts_with( arg, argl, "INBOX", 5 ))
return 0;
if (arg[5] && arg[5] != ctx->delimiter[0])
return 0;
return 1;
}
static int
parse_list_rsp_p2( imap_store_t *ctx, list_t *list, char *cmd ATTR_UNUSED )
{
string_list_t *narg;
char *arg;
int argl, l;
if (!is_atom( list )) {
error( "IMAP error: malformed LIST response\n" );
free_list( list );
return LIST_BAD;
}
arg = list->val;
argl = list->len;
if ((l = strlen( ctx->prefix ))) {
if (starts_with( arg, argl, ctx->prefix, l )) {
arg += l;
argl -= l;
if (is_inbox( ctx, arg, argl )) {
if (!arg[5])
warn( "IMAP warning: ignoring INBOX in %s\n", ctx->prefix );
goto skip;
}
} else if (!is_inbox( ctx, arg, argl )) {
goto skip;
2012-08-11 16:34:46 +00:00
}
}
if (argl >= 5 && !memcmp( arg + argl - 5, ".lock", 5 )) /* workaround broken servers */
goto skip;
if (map_name( arg, (char **)&narg, offsetof(string_list_t, string), ctx->delimiter, "/") < 0) {
2012-08-11 16:34:46 +00:00
warn( "IMAP warning: ignoring mailbox %s (reserved character '/' in name)\n", arg );
goto skip;
2012-08-11 16:34:46 +00:00
}
narg->next = ctx->boxes;
ctx->boxes = narg;
skip:
free_list( list );
return LIST_OK;
}
2012-08-11 16:34:46 +00:00
static int
prepare_name( char **buf, const imap_store_t *ctx, const char *prefix, const char *name )
2012-08-11 16:34:46 +00:00
{
int pl = strlen( prefix );
2012-08-11 16:34:46 +00:00
switch (map_name( name, buf, pl, "/", ctx->delimiter )) {
2012-08-11 16:34:46 +00:00
case -1:
error( "IMAP error: mailbox name %s contains server's hierarchy delimiter\n", name );
2012-08-11 16:34:46 +00:00
return -1;
case -2:
error( "IMAP error: server's hierarchy delimiter not known\n" );
return -1;
default:
memcpy( *buf, prefix, pl );
2012-08-11 16:34:46 +00:00
return 0;
}
}
static int
prepare_box( char **buf, const imap_store_t *ctx )
2012-08-11 16:34:46 +00:00
{
const char *name = ctx->name;
2012-08-11 16:34:46 +00:00
return prepare_name( buf, ctx,
(starts_with( name, -1, "INBOX", 5 ) && (!name[5] || name[5] == '/')) ? "" : ctx->prefix, name );
2012-08-11 16:34:46 +00:00
}
static int
prepare_trash( char **buf, const imap_store_t *ctx )
2012-08-11 16:34:46 +00:00
{
return prepare_name( buf, ctx, ctx->prefix, ctx->gen.conf->trash );
}
typedef struct {
imap_cmd_t gen;
imap_cmd_t *orig_cmd;
} imap_cmd_trycreate_t;
static void imap_open_store_greeted( imap_store_t * );
static void get_cmd_result_p2( imap_store_t *, imap_cmd_t *, int );
static void
imap_socket_read( void *aux )
{
imap_store_t *ctx = (imap_store_t *)aux;
imap_cmd_t *cmdp, **pcmdp;
char *cmd, *arg, *arg1, *p;
int resp, resp2, tag;
conn_iovec_t iov[2];
for (;;) {
if (ctx->parse_list_sts.level) {
resp = parse_list_continue( ctx, 0 );
listret:
if (resp == LIST_PARTIAL)
return;
if (resp == LIST_BAD)
break;
continue;
}
if (!(cmd = socket_read_line( &ctx->conn )))
return;
if (cmd == (void *)~0) {
if (!ctx->expectEOF)
error( "IMAP error: unexpected EOF from %s\n", ctx->conn.name );
/* A clean shutdown sequence ends with bad_callback as well (see imap_cleanup()). */
break;
}
if (DFlags & DEBUG_NET) {
printf( "%s%s\n", ctx->label, cmd );
fflush( stdout );
}
arg = next_arg( &cmd );
if (!arg) {
error( "IMAP error: empty response\n" );
break;
}
if (*arg == '*') {
arg = next_arg( &cmd );
if (!arg) {
error( "IMAP error: malformed untagged response\n" );
break;
}
if (ctx->greeting == GreetingPending && !strcmp( "PREAUTH", arg )) {
parse_response_code( ctx, 0, cmd );
ctx->greeting = GreetingPreauth;
dogreet:
imap_ref( ctx );
imap_open_store_greeted( ctx );
if (imap_deref( ctx ))
return;
} else if (!strcmp( "OK", arg )) {
parse_response_code( ctx, 0, cmd );
if (ctx->greeting == GreetingPending) {
ctx->greeting = GreetingOk;
goto dogreet;
}
} else if (!strcmp( "BYE", arg )) {
if (!ctx->expectBYE) {
ctx->greeting = GreetingBad;
error( "IMAP error: unexpected BYE response: %s\n", cmd );
/* We just wait for the server to close the connection now. */
ctx->expectEOF = 1;
} else {
/* We still need to wait for the LOGOUT's tagged OK. */
}
} else if (ctx->greeting == GreetingPending) {
error( "IMAP error: bogus greeting response %s\n", arg );
break;
} else if (!strcmp( "NO", arg )) {
warn( "Warning from IMAP server: %s\n", cmd );
} else if (!strcmp( "BAD", arg )) {
error( "Error from IMAP server: %s\n", cmd );
} else if (!strcmp( "CAPABILITY", arg )) {
parse_capability( ctx, cmd );
} else if (!strcmp( "LIST", arg )) {
resp = parse_list( ctx, cmd, parse_list_rsp );
goto listret;
} else if (!strcmp( "NAMESPACE", arg )) {
resp = parse_list( ctx, cmd, parse_namespace_rsp );
goto listret;
} else if ((arg1 = next_arg( &cmd ))) {
if (!strcmp( "EXISTS", arg1 ))
ctx->total_msgs = atoi( arg );
else if (!strcmp( "RECENT", arg1 ))
ctx->recent_msgs = atoi( arg );
else if(!strcmp ( "FETCH", arg1 )) {
resp = parse_list( ctx, cmd, parse_fetch_rsp );
goto listret;
}
} else {
error( "IMAP error: unrecognized untagged response '%s'\n", arg );
break; /* this may mean anything, so prefer not to spam the log */
}
continue;
} else if (!ctx->in_progress) {
error( "IMAP error: unexpected reply: %s %s\n", arg, cmd ? cmd : "" );
break; /* this may mean anything, so prefer not to spam the log */
} else if (*arg == '+') {
2015-04-06 14:49:33 +00:00
socket_expect_read( &ctx->conn, 0 );
/* There can be any number of commands in flight, but only the last
* one can require a continuation, as it enforces a round-trip. */
cmdp = (imap_cmd_t *)((char *)ctx->in_progress_append -
offsetof(imap_cmd_t, next));
if (cmdp->param.data) {
if (cmdp->param.to_trash)
ctx->trashnc = TrashKnown; /* Can't get NO [TRYCREATE] any more. */
2017-01-28 17:26:12 +00:00
if (DFlags & DEBUG_NET_ALL) {
printf( "%s>>>>>>>>>\n", ctx->label );
fwrite( cmdp->param.data, cmdp->param.data_len, 1, stdout );
printf( "%s>>>>>>>>>\n", ctx->label );
fflush( stdout );
}
iov[0].buf = cmdp->param.data;
iov[0].len = cmdp->param.data_len;
iov[0].takeOwn = GiveOwn;
cmdp->param.data = 0;
ctx->buffer_mem -= cmdp->param.data_len;
iov[1].buf = "\r\n";
iov[1].len = 2;
iov[1].takeOwn = KeepOwn;
socket_write( &ctx->conn, iov, 2 );
} else if (cmdp->param.cont) {
if (cmdp->param.cont( ctx, cmdp, cmd ))
return;
} else {
error( "IMAP error: unexpected command continuation request\n" );
break;
}
2015-04-06 14:49:33 +00:00
socket_expect_read( &ctx->conn, 1 );
} else {
tag = atoi( arg );
for (pcmdp = &ctx->in_progress; (cmdp = *pcmdp); pcmdp = &cmdp->next)
if (cmdp->tag == tag)
goto gottag;
error( "IMAP error: unexpected tag %s\n", arg );
break;
gottag:
if (!(*pcmdp = cmdp->next))
ctx->in_progress_append = pcmdp;
2015-04-06 14:49:33 +00:00
if (!--ctx->num_in_progress)
socket_expect_read( &ctx->conn, 0 );
arg = next_arg( &cmd );
if (!arg) {
error( "IMAP error: malformed tagged response\n" );
break;
}
if (!strcmp( "OK", arg )) {
if (cmdp->param.to_trash)
ctx->trashnc = TrashKnown; /* Can't get NO [TRYCREATE] any more. */
resp = RESP_OK;
} else {
if (!strcmp( "NO", arg )) {
if (cmdp->param.create && cmd && starts_with( cmd, -1, "[TRYCREATE]", 11 )) { /* APPEND or UID COPY */
imap_cmd_trycreate_t *cmd2 =
(imap_cmd_trycreate_t *)new_imap_cmd( sizeof(*cmd2) );
cmd2->orig_cmd = cmdp;
cmd2->gen.param.high_prio = 1;
p = strchr( cmdp->cmd, '"' );
imap_exec( ctx, &cmd2->gen, get_cmd_result_p2,
"CREATE %.*s", imap_strchr( p + 1, '"' ) - p + 1, p );
continue;
}
resp = RESP_NO;
if (cmdp->param.failok)
goto doresp;
} else /*if (!strcmp( "BAD", arg ))*/
resp = RESP_CANCEL;
error( "IMAP command '%s' returned an error: %s %s\n",
starts_with( cmdp->cmd, -1, "LOGIN", 5 ) ?
"LOGIN <user> <pass>" :
starts_with( cmdp->cmd, -1, "AUTHENTICATE PLAIN", 18 ) ?
"AUTHENTICATE PLAIN <authdata>" :
cmdp->cmd,
arg, cmd ? cmd : "" );
}
doresp:
if ((resp2 = parse_response_code( ctx, cmdp, cmd )) > resp)
resp = resp2;
imap_ref( ctx );
if (resp == RESP_CANCEL)
imap_invoke_bad_callback( ctx );
2011-03-27 10:34:25 +00:00
done_imap_cmd( ctx, cmdp, resp );
if (imap_deref( ctx ))
return;
if (ctx->canceling && !ctx->in_progress) {
ctx->canceling = 0;
ctx->callbacks.imap_cancel( ctx->callback_aux );
return;
}
}
flush_imap_cmds( ctx );
}
imap_invoke_bad_callback( ctx );
}
static void
get_cmd_result_p2( imap_store_t *ctx, imap_cmd_t *cmd, int response )
{
imap_cmd_trycreate_t *cmdp = (imap_cmd_trycreate_t *)cmd;
imap_cmd_t *ocmd = cmdp->orig_cmd;
if (response != RESP_OK) {
2011-03-27 10:34:25 +00:00
done_imap_cmd( ctx, ocmd, response );
} else {
ctx->uidnext = 1;
if (ocmd->param.to_trash)
ctx->trashnc = TrashKnown;
ocmd->param.create = 0;
ocmd->param.high_prio = 1;
submit_imap_cmd( ctx, ocmd );
}
}
/******************* imap_cancel_store *******************/
static void
imap_cleanup_store( imap_store_t *ctx )
{
free_generic_messages( ctx->msgs );
free_string_list( ctx->boxes );
}
static void
imap_cancel_store( store_t *gctx )
{
imap_store_t *ctx = (imap_store_t *)gctx;
#ifdef HAVE_LIBSASL
sasl_dispose( &ctx->sasl );
#endif
socket_close( &ctx->conn );
cancel_sent_imap_cmds( ctx );
cancel_pending_imap_cmds( ctx );
free_list( ctx->ns_personal );
free_list( ctx->ns_other );
free_list( ctx->ns_shared );
free_string_list( ctx->auth_mechs );
imap_cleanup_store( ctx );
imap_deref( ctx );
}
static int
imap_deref( imap_store_t *ctx )
{
if (!--ctx->ref_count) {
free( ctx );
return -1;
}
return 0;
}
static void
imap_set_bad_callback( store_t *gctx, void (*cb)( void *aux ), void *aux )
{
imap_store_t *ctx = (imap_store_t *)gctx;
ctx->bad_callback = cb;
ctx->bad_callback_aux = aux;
}
static void
imap_invoke_bad_callback( imap_store_t *ctx )
{
ctx->bad_callback( ctx->bad_callback_aux );
}
/******************* imap_free_store *******************/
static store_t *unowned;
static void
imap_cancel_unowned( void *gctx )
{
store_t *store, **storep;
for (storep = &unowned; (store = *storep); storep = &store->next)
if (store == gctx) {
*storep = store->next;
break;
}
imap_cancel_store( gctx );
}
static void
imap_free_store( store_t *gctx )
{
imap_store_t *ctx = (imap_store_t *)gctx;
free_generic_messages( ctx->msgs );
ctx->msgs = 0;
imap_set_bad_callback( gctx, imap_cancel_unowned, gctx );
gctx->next = unowned;
unowned = gctx;
}
/******************* imap_cleanup *******************/
static void imap_cleanup_p2( imap_store_t *, imap_cmd_t *, int );
static void
imap_cleanup( void )
{
store_t *ctx, *nctx;
for (ctx = unowned; ctx; ctx = nctx) {
nctx = ctx->next;
imap_set_bad_callback( ctx, (void (*)(void *))imap_cancel_store, ctx );
if (((imap_store_t *)ctx)->state != SST_BAD) {
((imap_store_t *)ctx)->expectBYE = 1;
imap_exec( (imap_store_t *)ctx, 0, imap_cleanup_p2, "LOGOUT" );
} else {
imap_cancel_store( ctx );
}
}
}
static void
imap_cleanup_p2( imap_store_t *ctx,
imap_cmd_t *cmd ATTR_UNUSED, int response )
{
if (response == RESP_NO)
imap_cancel_store( &ctx->gen );
else if (response == RESP_OK)
ctx->expectEOF = 1;
}
/******************* imap_open_store *******************/
static void imap_open_store_connected( int, void * );
#ifdef HAVE_LIBSSL
static void imap_open_store_tlsstarted1( int, void * );
#endif
static void imap_open_store_p2( imap_store_t *, imap_cmd_t *, int );
static void imap_open_store_authenticate( imap_store_t * );
#ifdef HAVE_LIBSSL
static void imap_open_store_authenticate_p2( imap_store_t *, imap_cmd_t *, int );
static void imap_open_store_tlsstarted2( int, void * );
static void imap_open_store_authenticate_p3( imap_store_t *, imap_cmd_t *, int );
#endif
static void imap_open_store_authenticate2( imap_store_t * );
static void imap_open_store_authenticate2_p2( imap_store_t *, imap_cmd_t *, int );
static void imap_open_store_compress( imap_store_t * );
#ifdef HAVE_LIBZ
static void imap_open_store_compress_p2( imap_store_t *, imap_cmd_t *, int );
#endif
static void imap_open_store_namespace( imap_store_t * );
static void imap_open_store_namespace_p2( imap_store_t *, imap_cmd_t *, int );
static void imap_open_store_namespace2( imap_store_t * );
static void imap_open_store_finalize( imap_store_t * );
#ifdef HAVE_LIBSSL
static void imap_open_store_ssl_bail( imap_store_t * );
#endif
static void imap_open_store_bail( imap_store_t *, int );
static store_t *
imap_alloc_store( store_conf_t *conf, const char *label )
{
imap_store_conf_t *cfg = (imap_store_conf_t *)conf;
imap_server_conf_t *srvc = cfg->server;
imap_store_t *ctx;
store_t **ctxp;
/* First try to recycle a whole store. */
for (ctxp = &unowned; (ctx = (imap_store_t *)*ctxp); ctxp = &ctx->gen.next)
if (ctx->state == SST_GOOD && ctx->gen.conf == conf) {
*ctxp = ctx->gen.next;
ctx->label = label;
return &ctx->gen;
}
/* Then try to recycle a server connection. */
for (ctxp = &unowned; (ctx = (imap_store_t *)*ctxp); ctxp = &ctx->gen.next)
if (ctx->state != SST_BAD && ((imap_store_conf_t *)ctx->gen.conf)->server == srvc) {
*ctxp = ctx->gen.next;
imap_cleanup_store( ctx );
/* One could ping the server here, but given that the idle timeout
* is at least 30 minutes, this sounds pretty pointless. */
ctx->state = SST_HALF;
goto gotsrv;
}
/* Finally, schedule opening a new server connection. */
ctx = nfcalloc( sizeof(*ctx) );
socket_init( &ctx->conn, &srvc->sconf,
(void (*)( void * ))imap_invoke_bad_callback,
imap_socket_read, (void (*)(void *))flush_imap_cmds, ctx );
ctx->in_progress_append = &ctx->in_progress;
ctx->pending_append = &ctx->pending;
gotsrv:
ctx->gen.driver = &imap_driver;
ctx->gen.conf = conf;
ctx->label = label;
ctx->ref_count = 1;
return &ctx->gen;
}
static void
imap_connect_store( store_t *gctx,
void (*cb)( int sts, void *aux ), void *aux )
{
imap_store_t *ctx = (imap_store_t *)gctx;
if (ctx->state == SST_GOOD) {
cb( DRV_OK, aux );
} else {
ctx->callbacks.imap_open = cb;
ctx->callback_aux = aux;
if (ctx->state == SST_HALF)
imap_open_store_namespace( ctx );
else
socket_connect( &ctx->conn, imap_open_store_connected );
}
}
static void
imap_open_store_connected( int ok, void *aux )
{
imap_store_t *ctx = (imap_store_t *)aux;
#ifdef HAVE_LIBSSL
imap_store_conf_t *cfg = (imap_store_conf_t *)ctx->gen.conf;
imap_server_conf_t *srvc = cfg->server;
#endif
if (!ok)
imap_open_store_bail( ctx, FAIL_WAIT );
#ifdef HAVE_LIBSSL
else if (srvc->ssl_type == SSL_IMAPS)
socket_start_tls( &ctx->conn, imap_open_store_tlsstarted1 );
#endif
2015-04-06 14:49:33 +00:00
else
socket_expect_read( &ctx->conn, 1 );
}
#ifdef HAVE_LIBSSL
static void
imap_open_store_tlsstarted1( int ok, void *aux )
{
imap_store_t *ctx = (imap_store_t *)aux;
if (!ok)
imap_open_store_ssl_bail( ctx );
2015-04-06 14:49:33 +00:00
else
socket_expect_read( &ctx->conn, 1 );
}
#endif
static void
imap_open_store_greeted( imap_store_t *ctx )
{
2015-04-06 14:49:33 +00:00
socket_expect_read( &ctx->conn, 0 );
if (!ctx->caps)
imap_exec( ctx, 0, imap_open_store_p2, "CAPABILITY" );
else
imap_open_store_authenticate( ctx );
}
static void
imap_open_store_p2( imap_store_t *ctx, imap_cmd_t *cmd ATTR_UNUSED, int response )
{
if (response == RESP_NO)
imap_open_store_bail( ctx, FAIL_FINAL );
else if (response == RESP_OK)
imap_open_store_authenticate( ctx );
}
static void
imap_open_store_authenticate( imap_store_t *ctx )
{
#ifdef HAVE_LIBSSL
don't ignore RequireSSL for PREAUTHenticated connections such connections don't support STARTTLS. that is reasonable, as whatever makes the connection preauthenticated (typically a Tunnel used to launch imapd via a shell login) must already rely on the connection's security. consequently, we would not try to use STARTTLS with such connections. unfortunately, we'd also skip the RequireSSL check as a side effect. this means that a rogue server (via a MITM attack) could simply offer a preauthenticated connection to make us not use SSL, and thus bypass server authentication. as a result, we could send potentially sensitive data to the attacker: - with Patterns used, we would send a LIST command which reveals the remote Path setting. this isn't very useful to an attacker. also, IMAP Accounts usually rely on the server-provided NAMESPACE to start with. - with Create enabled for the remote Store, we would upload messages from newly appeared local folders. this isn't a very likely situation, unless the attacker manages to convince the victim to move/copy interesting mails to a new folder right before the attack. - with Expunge enabled for the local Store, previously synchronized folders would be wiped. however, this would require the attacker to know the correct UIDVALIDITY of each remote folder, which would require incredible luck or convincing the victim to disclose them. the first mismatch would likely tip off the victim. in practice, someone with the level of technical and social engineering skills required for this attack would very likely find more attractive attack vectors. therefore, i don't consider this a particularly serious issue. configurations with UseIMAPS enabled or using a secure Tunnel were not affected to start with. a side effect of this fix is that most users of Tunnel will now need to explicitly set RequireSSL to false. an alternative approach would be defaulting all SSL-related settings to off when Tunnel is used. this would be too invasive for a patch release, but i'll consider it for 1.2. see also CVE-2014-2567 for the Trojita MUA.
2014-07-05 20:52:40 +00:00
imap_store_conf_t *cfg = (imap_store_conf_t *)ctx->gen.conf;
imap_server_conf_t *srvc = cfg->server;
#endif
don't ignore RequireSSL for PREAUTHenticated connections such connections don't support STARTTLS. that is reasonable, as whatever makes the connection preauthenticated (typically a Tunnel used to launch imapd via a shell login) must already rely on the connection's security. consequently, we would not try to use STARTTLS with such connections. unfortunately, we'd also skip the RequireSSL check as a side effect. this means that a rogue server (via a MITM attack) could simply offer a preauthenticated connection to make us not use SSL, and thus bypass server authentication. as a result, we could send potentially sensitive data to the attacker: - with Patterns used, we would send a LIST command which reveals the remote Path setting. this isn't very useful to an attacker. also, IMAP Accounts usually rely on the server-provided NAMESPACE to start with. - with Create enabled for the remote Store, we would upload messages from newly appeared local folders. this isn't a very likely situation, unless the attacker manages to convince the victim to move/copy interesting mails to a new folder right before the attack. - with Expunge enabled for the local Store, previously synchronized folders would be wiped. however, this would require the attacker to know the correct UIDVALIDITY of each remote folder, which would require incredible luck or convincing the victim to disclose them. the first mismatch would likely tip off the victim. in practice, someone with the level of technical and social engineering skills required for this attack would very likely find more attractive attack vectors. therefore, i don't consider this a particularly serious issue. configurations with UseIMAPS enabled or using a secure Tunnel were not affected to start with. a side effect of this fix is that most users of Tunnel will now need to explicitly set RequireSSL to false. an alternative approach would be defaulting all SSL-related settings to off when Tunnel is used. this would be too invasive for a patch release, but i'll consider it for 1.2. see also CVE-2014-2567 for the Trojita MUA.
2014-07-05 20:52:40 +00:00
if (ctx->greeting != GreetingPreauth) {
#ifdef HAVE_LIBSSL
if (srvc->ssl_type == SSL_STARTTLS) {
if (CAP(STARTTLS)) {
imap_exec( ctx, 0, imap_open_store_authenticate_p2, "STARTTLS" );
return;
} else {
error( "IMAP error: SSL support not available\n" );
imap_open_store_bail( ctx, FAIL_FINAL );
return;
}
}
#endif
imap_open_store_authenticate2( ctx );
} else {
don't ignore RequireSSL for PREAUTHenticated connections such connections don't support STARTTLS. that is reasonable, as whatever makes the connection preauthenticated (typically a Tunnel used to launch imapd via a shell login) must already rely on the connection's security. consequently, we would not try to use STARTTLS with such connections. unfortunately, we'd also skip the RequireSSL check as a side effect. this means that a rogue server (via a MITM attack) could simply offer a preauthenticated connection to make us not use SSL, and thus bypass server authentication. as a result, we could send potentially sensitive data to the attacker: - with Patterns used, we would send a LIST command which reveals the remote Path setting. this isn't very useful to an attacker. also, IMAP Accounts usually rely on the server-provided NAMESPACE to start with. - with Create enabled for the remote Store, we would upload messages from newly appeared local folders. this isn't a very likely situation, unless the attacker manages to convince the victim to move/copy interesting mails to a new folder right before the attack. - with Expunge enabled for the local Store, previously synchronized folders would be wiped. however, this would require the attacker to know the correct UIDVALIDITY of each remote folder, which would require incredible luck or convincing the victim to disclose them. the first mismatch would likely tip off the victim. in practice, someone with the level of technical and social engineering skills required for this attack would very likely find more attractive attack vectors. therefore, i don't consider this a particularly serious issue. configurations with UseIMAPS enabled or using a secure Tunnel were not affected to start with. a side effect of this fix is that most users of Tunnel will now need to explicitly set RequireSSL to false. an alternative approach would be defaulting all SSL-related settings to off when Tunnel is used. this would be too invasive for a patch release, but i'll consider it for 1.2. see also CVE-2014-2567 for the Trojita MUA.
2014-07-05 20:52:40 +00:00
#ifdef HAVE_LIBSSL
if (srvc->ssl_type == SSL_STARTTLS) {
don't ignore RequireSSL for PREAUTHenticated connections such connections don't support STARTTLS. that is reasonable, as whatever makes the connection preauthenticated (typically a Tunnel used to launch imapd via a shell login) must already rely on the connection's security. consequently, we would not try to use STARTTLS with such connections. unfortunately, we'd also skip the RequireSSL check as a side effect. this means that a rogue server (via a MITM attack) could simply offer a preauthenticated connection to make us not use SSL, and thus bypass server authentication. as a result, we could send potentially sensitive data to the attacker: - with Patterns used, we would send a LIST command which reveals the remote Path setting. this isn't very useful to an attacker. also, IMAP Accounts usually rely on the server-provided NAMESPACE to start with. - with Create enabled for the remote Store, we would upload messages from newly appeared local folders. this isn't a very likely situation, unless the attacker manages to convince the victim to move/copy interesting mails to a new folder right before the attack. - with Expunge enabled for the local Store, previously synchronized folders would be wiped. however, this would require the attacker to know the correct UIDVALIDITY of each remote folder, which would require incredible luck or convincing the victim to disclose them. the first mismatch would likely tip off the victim. in practice, someone with the level of technical and social engineering skills required for this attack would very likely find more attractive attack vectors. therefore, i don't consider this a particularly serious issue. configurations with UseIMAPS enabled or using a secure Tunnel were not affected to start with. a side effect of this fix is that most users of Tunnel will now need to explicitly set RequireSSL to false. an alternative approach would be defaulting all SSL-related settings to off when Tunnel is used. this would be too invasive for a patch release, but i'll consider it for 1.2. see also CVE-2014-2567 for the Trojita MUA.
2014-07-05 20:52:40 +00:00
error( "IMAP error: SSL support not available\n" );
imap_open_store_bail( ctx, FAIL_FINAL );
don't ignore RequireSSL for PREAUTHenticated connections such connections don't support STARTTLS. that is reasonable, as whatever makes the connection preauthenticated (typically a Tunnel used to launch imapd via a shell login) must already rely on the connection's security. consequently, we would not try to use STARTTLS with such connections. unfortunately, we'd also skip the RequireSSL check as a side effect. this means that a rogue server (via a MITM attack) could simply offer a preauthenticated connection to make us not use SSL, and thus bypass server authentication. as a result, we could send potentially sensitive data to the attacker: - with Patterns used, we would send a LIST command which reveals the remote Path setting. this isn't very useful to an attacker. also, IMAP Accounts usually rely on the server-provided NAMESPACE to start with. - with Create enabled for the remote Store, we would upload messages from newly appeared local folders. this isn't a very likely situation, unless the attacker manages to convince the victim to move/copy interesting mails to a new folder right before the attack. - with Expunge enabled for the local Store, previously synchronized folders would be wiped. however, this would require the attacker to know the correct UIDVALIDITY of each remote folder, which would require incredible luck or convincing the victim to disclose them. the first mismatch would likely tip off the victim. in practice, someone with the level of technical and social engineering skills required for this attack would very likely find more attractive attack vectors. therefore, i don't consider this a particularly serious issue. configurations with UseIMAPS enabled or using a secure Tunnel were not affected to start with. a side effect of this fix is that most users of Tunnel will now need to explicitly set RequireSSL to false. an alternative approach would be defaulting all SSL-related settings to off when Tunnel is used. this would be too invasive for a patch release, but i'll consider it for 1.2. see also CVE-2014-2567 for the Trojita MUA.
2014-07-05 20:52:40 +00:00
return;
}
#endif
imap_open_store_compress( ctx );
}
}
#ifdef HAVE_LIBSSL
static void
imap_open_store_authenticate_p2( imap_store_t *ctx, imap_cmd_t *cmd ATTR_UNUSED, int response )
{
if (response == RESP_NO)
imap_open_store_bail( ctx, FAIL_FINAL );
else if (response == RESP_OK)
socket_start_tls( &ctx->conn, imap_open_store_tlsstarted2 );
}
static void
imap_open_store_tlsstarted2( int ok, void *aux )
{
imap_store_t *ctx = (imap_store_t *)aux;
if (!ok)
imap_open_store_ssl_bail( ctx );
else
imap_exec( ctx, 0, imap_open_store_authenticate_p3, "CAPABILITY" );
}
static void
imap_open_store_authenticate_p3( imap_store_t *ctx, imap_cmd_t *cmd ATTR_UNUSED, int response )
{
if (response == RESP_NO)
imap_open_store_bail( ctx, FAIL_FINAL );
else if (response == RESP_OK)
imap_open_store_authenticate2( ctx );
}
#endif
static const char *
ensure_user( imap_server_conf_t *srvc )
{
if (!srvc->user) {
error( "Skipping account %s, no user\n", srvc->name );
return 0;
}
return srvc->user;
}
static const char *
ensure_password( imap_server_conf_t *srvc )
{
char *cmd = srvc->pass_cmd;
if (cmd) {
FILE *fp;
int ret;
char buffer[80];
if (*cmd == '+') {
flushn();
cmd++;
}
if (!(fp = popen( cmd, "r" ))) {
pipeerr:
sys_error( "Skipping account %s, password command failed", srvc->name );
return 0;
}
if (!fgets( buffer, sizeof(buffer), fp ))
buffer[0] = 0;
if ((ret = pclose( fp )) < 0)
goto pipeerr;
if (ret) {
if (WIFSIGNALED( ret ))
error( "Skipping account %s, password command crashed\n", srvc->name );
else
error( "Skipping account %s, password command exited with status %d\n", srvc->name, WEXITSTATUS( ret ) );
return 0;
}
if (!buffer[0]) {
error( "Skipping account %s, password command produced no output\n", srvc->name );
return 0;
}
buffer[strcspn( buffer, "\n" )] = 0; /* Strip trailing newline */
free( srvc->pass ); /* From previous runs */
srvc->pass = nfstrdup( buffer );
} else if (!srvc->pass) {
char *pass, prompt[80];
flushn();
sprintf( prompt, "Password (%s): ", srvc->name );
pass = getpass( prompt );
if (!pass) {
perror( "getpass" );
exit( 1 );
}
if (!*pass) {
error( "Skipping account %s, no password\n", srvc->name );
return 0;
}
/* getpass() returns a pointer to a static buffer. Make a copy for long term storage. */
srvc->pass = nfstrdup( pass );
}
return srvc->pass;
}
#ifdef HAVE_LIBSASL
static sasl_callback_t sasl_callbacks[] = {
{ SASL_CB_USER, NULL, NULL },
{ SASL_CB_AUTHNAME, NULL, NULL },
{ SASL_CB_PASS, NULL, NULL },
{ SASL_CB_LIST_END, NULL, NULL }
};
static int
process_sasl_interact( sasl_interact_t *interact, imap_server_conf_t *srvc )
{
const char *val;
for (;; ++interact) {
switch (interact->id) {
case SASL_CB_LIST_END:
return 0;
case SASL_CB_USER:
case SASL_CB_AUTHNAME:
val = ensure_user( srvc );
break;
case SASL_CB_PASS:
val = ensure_password( srvc );
break;
default:
error( "Error: Unknown SASL interaction ID\n" );
return -1;
}
if (!val)
return -1;
interact->result = val;
interact->len = strlen( val );
}
}
static int
process_sasl_step( imap_store_t *ctx, int rc, const char *in, uint in_len,
sasl_interact_t *interact, const char **out, uint *out_len )
{
imap_server_conf_t *srvc = ((imap_store_conf_t *)ctx->gen.conf)->server;
while (rc == SASL_INTERACT) {
if (process_sasl_interact( interact, srvc ) < 0)
return -1;
rc = sasl_client_step( ctx->sasl, in, in_len, &interact, out, out_len );
}
if (rc == SASL_CONTINUE) {
ctx->sasl_cont = 1;
} else if (rc == SASL_OK) {
ctx->sasl_cont = 0;
} else {
error( "Error: %s\n", sasl_errdetail( ctx->sasl ) );
return -1;
}
return 0;
}
static int
decode_sasl_data( const char *prompt, char **in, uint *in_len )
{
if (prompt) {
int rc;
uint prompt_len = strlen( prompt );
/* We're decoding, the output will be shorter than prompt_len. */
*in = nfmalloc( prompt_len );
rc = sasl_decode64( prompt, prompt_len, *in, prompt_len, in_len );
if (rc != SASL_OK) {
free( *in );
error( "Error: SASL(%d): %s\n", rc, sasl_errstring( rc, NULL, NULL ) );
return -1;
}
} else {
*in = NULL;
*in_len = 0;
}
return 0;
}
static int
encode_sasl_data( const char *out, uint out_len, char **enc, uint *enc_len )
{
int rc;
uint enc_len_max = ((out_len + 2) / 3) * 4 + 1;
*enc = nfmalloc( enc_len_max );
rc = sasl_encode64( out, out_len, *enc, enc_len_max, enc_len );
if (rc != SASL_OK) {
free( *enc );
error( "Error: SASL(%d): %s\n", rc, sasl_errstring( rc, NULL, NULL ) );
return -1;
}
return 0;
}
static int
do_sasl_auth( imap_store_t *ctx, imap_cmd_t *cmdp ATTR_UNUSED, const char *prompt )
{
int rc, ret, iovcnt = 0;
uint in_len, out_len, enc_len;
const char *out;
char *in, *enc;
sasl_interact_t *interact = NULL;
conn_iovec_t iov[2];
if (!ctx->sasl_cont) {
error( "Error: IMAP wants more steps despite successful SASL authentication.\n" );
goto bail;
}
if (decode_sasl_data( prompt, &in, &in_len ) < 0)
goto bail;
rc = sasl_client_step( ctx->sasl, in, in_len, &interact, &out, &out_len );
ret = process_sasl_step( ctx, rc, in, in_len, interact, &out, &out_len );
free( in );
if (ret < 0)
goto bail;
if (out) {
if (encode_sasl_data( out, out_len, &enc, &enc_len ) < 0)
goto bail;
iov[0].buf = enc;
iov[0].len = enc_len;
iov[0].takeOwn = GiveOwn;
iovcnt = 1;
if (DFlags & DEBUG_NET) {
printf( "%s>+> %s\n", ctx->label, enc );
fflush( stdout );
}
} else {
if (DFlags & DEBUG_NET) {
printf( "%s>+>\n", ctx->label );
fflush( stdout );
}
}
iov[iovcnt].buf = "\r\n";
iov[iovcnt].len = 2;
iov[iovcnt].takeOwn = KeepOwn;
iovcnt++;
socket_write( &ctx->conn, iov, iovcnt );
return 0;
bail:
imap_open_store_bail( ctx, FAIL_FINAL );
return -1;
}
static void
done_sasl_auth( imap_store_t *ctx, imap_cmd_t *cmd ATTR_UNUSED, int response )
{
if (response == RESP_OK && ctx->sasl_cont) {
sasl_interact_t *interact = NULL;
const char *out;
uint out_len;
int rc = sasl_client_step( ctx->sasl, NULL, 0, &interact, &out, &out_len );
if (process_sasl_step( ctx, rc, NULL, 0, interact, &out, &out_len ) < 0)
warn( "Warning: SASL reported failure despite successful IMAP authentication. Ignoring...\n" );
else if (out)
warn( "Warning: SASL wants more steps despite successful IMAP authentication. Ignoring...\n" );
}
imap_open_store_authenticate2_p2( ctx, NULL, response );
}
#endif
static void
imap_open_store_authenticate2( imap_store_t *ctx )
{
imap_store_conf_t *cfg = (imap_store_conf_t *)ctx->gen.conf;
imap_server_conf_t *srvc = cfg->server;
string_list_t *mech, *cmech;
int auth_login = 0;
int skipped_login = 0;
#ifdef HAVE_LIBSASL
const char *saslavail;
char saslmechs[1024], *saslend = saslmechs;
#endif
info( "Logging in...\n" );
for (mech = srvc->auth_mechs; mech; mech = mech->next) {
int any = !strcmp( mech->string, "*" );
for (cmech = ctx->auth_mechs; cmech; cmech = cmech->next) {
if (any || !strcasecmp( mech->string, cmech->string )) {
if (!strcasecmp( cmech->string, "LOGIN" )) {
#ifdef HAVE_LIBSSL
if (ctx->conn.ssl || !any)
#else
if (!any)
#endif
auth_login = 1;
else
skipped_login = 1;
#ifdef HAVE_LIBSASL
} else {
int len = strlen( cmech->string );
if (saslend + len + 2 > saslmechs + sizeof(saslmechs))
oob();
*saslend++ = ' ';
memcpy( saslend, cmech->string, len + 1 );
saslend += len;
#endif
}
}
}
}
#ifdef HAVE_LIBSASL
if (saslend != saslmechs) {
int rc;
uint out_len = 0;
char *enc = NULL;
const char *gotmech = NULL, *out = NULL;
sasl_interact_t *interact = NULL;
imap_cmd_t *cmd;
static int sasl_inited;
if (!sasl_inited) {
rc = sasl_client_init( sasl_callbacks );
if (rc != SASL_OK) {
saslbail:
error( "Error: SASL(%d): %s\n", rc, sasl_errstring( rc, NULL, NULL ) );
goto bail;
}
sasl_inited = 1;
}
rc = sasl_client_new( "imap", srvc->sconf.host, NULL, NULL, NULL, 0, &ctx->sasl );
if (rc != SASL_OK) {
if (rc == SASL_NOMECH)
goto notsasl;
if (!ctx->sasl)
goto saslbail;
error( "Error: %s\n", sasl_errdetail( ctx->sasl ) );
goto bail;
}
rc = sasl_client_start( ctx->sasl, saslmechs + 1, &interact, CAP(SASLIR) ? &out : NULL, &out_len, &gotmech );
if (rc == SASL_NOMECH)
goto notsasl;
if (gotmech)
info( "Authenticating with SASL mechanism %s...\n", gotmech );
/* Technically, we are supposed to loop over sasl_client_start(),
* but it just calls sasl_client_step() anyway. */
if (process_sasl_step( ctx, rc, NULL, 0, interact, CAP(SASLIR) ? &out : NULL, &out_len ) < 0)
goto bail;
if (out) {
if (!out_len)
enc = nfstrdup( "=" ); /* A zero-length initial response is encoded as padding. */
else if (encode_sasl_data( out, out_len, &enc, NULL ) < 0)
goto bail;
}
cmd = new_imap_cmd( sizeof(*cmd) );
cmd->param.cont = do_sasl_auth;
imap_exec( ctx, cmd, done_sasl_auth, enc ? "AUTHENTICATE %s %s" : "AUTHENTICATE %s", gotmech, enc );
free( enc );
return;
notsasl:
if (!ctx->sasl || sasl_listmech( ctx->sasl, NULL, "", "", "", &saslavail, NULL, NULL ) != SASL_OK)
saslavail = "(none)"; /* EXTERNAL is always there anyway. */
if (!auth_login) {
error( "IMAP error: selected SASL mechanism(s) not available;\n"
" selected:%s\n available: %s\n", saslmechs, saslavail );
goto skipnote;
}
info( "NOT using available SASL mechanism(s): %s\n", saslavail );
sasl_dispose( &ctx->sasl );
}
#endif
if (auth_login) {
if (!ensure_user( srvc ) || !ensure_password( srvc ))
goto bail;
#ifdef HAVE_LIBSSL
if (!ctx->conn.ssl)
#endif
warn( "*** IMAP Warning *** Password is being sent in the clear\n" );
imap_exec( ctx, 0, imap_open_store_authenticate2_p2,
"LOGIN \"%\\s\" \"%\\s\"", srvc->user, srvc->pass );
return;
}
error( "IMAP error: server supports no acceptable authentication mechanism\n" );
#ifdef HAVE_LIBSASL
skipnote:
#endif
if (skipped_login)
error( "Note: not using LOGIN because connection is not encrypted;\n"
" use 'AuthMechs LOGIN' explicitly to force it.\n" );
bail:
imap_open_store_bail( ctx, FAIL_FINAL );
}
static void
imap_open_store_authenticate2_p2( imap_store_t *ctx, imap_cmd_t *cmd ATTR_UNUSED, int response )
{
if (response == RESP_NO)
imap_open_store_bail( ctx, FAIL_FINAL );
else if (response == RESP_OK)
imap_open_store_compress( ctx );
}
static void
imap_open_store_compress( imap_store_t *ctx )
{
#ifdef HAVE_LIBZ
if (CAP(COMPRESS_DEFLATE)) {
imap_exec( ctx, 0, imap_open_store_compress_p2, "COMPRESS DEFLATE" );
return;
}
#endif
imap_open_store_namespace( ctx );
}
#ifdef HAVE_LIBZ
static void
imap_open_store_compress_p2( imap_store_t *ctx, imap_cmd_t *cmd ATTR_UNUSED, int response )
{
if (response == RESP_NO) {
/* We already reported an error, but it's not fatal to us. */
imap_open_store_namespace( ctx );
} else if (response == RESP_OK) {
socket_start_deflate( &ctx->conn );
imap_open_store_namespace( ctx );
}
}
#endif
static void
imap_open_store_namespace( imap_store_t *ctx )
{
imap_store_conf_t *cfg = (imap_store_conf_t *)ctx->gen.conf;
ctx->state = SST_HALF;
2012-08-11 16:34:46 +00:00
ctx->prefix = cfg->gen.path;
ctx->delimiter[0] = cfg->delimiter ? cfg->delimiter : 0;
if (((!ctx->prefix && cfg->use_namespace) || !cfg->delimiter) && CAP(NAMESPACE)) {
/* get NAMESPACE info */
if (!ctx->got_namespace)
imap_exec( ctx, 0, imap_open_store_namespace_p2, "NAMESPACE" );
else
imap_open_store_namespace2( ctx );
return;
}
imap_open_store_finalize( ctx );
}
static void
imap_open_store_namespace_p2( imap_store_t *ctx, imap_cmd_t *cmd ATTR_UNUSED, int response )
{
if (response == RESP_NO) {
imap_open_store_bail( ctx, FAIL_FINAL );
} else if (response == RESP_OK) {
ctx->got_namespace = 1;
imap_open_store_namespace2( ctx );
}
}
static void
imap_open_store_namespace2( imap_store_t *ctx )
{
2012-08-11 16:34:46 +00:00
imap_store_conf_t *cfg = (imap_store_conf_t *)ctx->gen.conf;
list_t *nsp, *nsp_1st;
2012-08-11 16:34:46 +00:00
/* XXX for now assume 1st personal namespace */
if (is_list( (nsp = ctx->ns_personal) ) &&
is_list( (nsp_1st = nsp->child) ))
2012-08-11 16:34:46 +00:00
{
list_t *nsp_1st_ns = nsp_1st->child;
list_t *nsp_1st_dl = nsp_1st_ns->next;
if (!ctx->prefix && cfg->use_namespace)
2012-08-11 16:34:46 +00:00
ctx->prefix = nsp_1st_ns->val;
if (!ctx->delimiter[0] && is_atom( nsp_1st_dl ))
ctx->delimiter[0] = nsp_1st_dl->val[0];
2012-08-11 16:34:46 +00:00
}
imap_open_store_finalize( ctx );
}
static void
imap_open_store_finalize( imap_store_t *ctx )
{
ctx->state = SST_GOOD;
if (!ctx->prefix)
ctx->prefix = "";
ctx->trashnc = TrashUnknown;
ctx->callbacks.imap_open( DRV_OK, ctx->callback_aux );
}
#ifdef HAVE_LIBSSL
static void
imap_open_store_ssl_bail( imap_store_t *ctx )
{
/* This avoids that we try to send LOGOUT to an unusable socket. */
socket_close( &ctx->conn );
imap_open_store_bail( ctx, FAIL_FINAL );
}
#endif
static void
imap_open_store_bail( imap_store_t *ctx, int failed )
{
((imap_store_conf_t *)ctx->gen.conf)->server->failed = failed;
ctx->callbacks.imap_open( DRV_STORE_BAD, ctx->callback_aux );
}
/******************* imap_open_box *******************/
static int
imap_select_box( store_t *gctx, const char *name )
{
imap_store_t *ctx = (imap_store_t *)gctx;
free_generic_messages( ctx->msgs );
ctx->msgs = 0;
ctx->msgapp = &ctx->msgs;
ctx->name = name;
return DRV_OK;
}
static const char *
imap_get_box_path( store_t *gctx ATTR_UNUSED )
{
return 0;
}
typedef struct {
imap_cmd_t gen;
void (*callback)( int sts, int uidvalidity, void *aux );
void *callback_aux;
} imap_cmd_open_box_t;
static void imap_open_box_p2( imap_store_t *, imap_cmd_t *, int );
static void imap_open_box_p3( imap_store_t *, imap_cmd_t *, int );
static void imap_open_box_p4( imap_store_t *, imap_cmd_open_box_t *, int );
static void
imap_open_box( store_t *gctx,
void (*cb)( int sts, int uidvalidity, void *aux ), void *aux )
{
imap_store_t *ctx = (imap_store_t *)gctx;
imap_cmd_open_box_t *cmd;
char *buf;
if (prepare_box( &buf, ctx ) < 0) {
cb( DRV_BOX_BAD, UIDVAL_BAD, aux );
2012-08-11 16:34:46 +00:00
return;
}
ctx->uidvalidity = UIDVAL_BAD;
ctx->uidnext = 0;
INIT_IMAP_CMD(imap_cmd_open_box_t, cmd, cb, aux)
cmd->gen.param.failok = 1;
imap_exec( ctx, &cmd->gen, imap_open_box_p2,
"SELECT \"%\\s\"", buf );
free( buf );
}
static void
imap_open_box_p2( imap_store_t *ctx, imap_cmd_t *gcmd, int response )
{
imap_cmd_open_box_t *cmdp = (imap_cmd_open_box_t *)gcmd;
imap_cmd_open_box_t *cmd;
if (response != RESP_OK || ctx->uidnext) {
imap_open_box_p4( ctx, cmdp, response );
return;
}
INIT_IMAP_CMD(imap_cmd_open_box_t, cmd, cmdp->callback, cmdp->callback_aux)
cmd->gen.param.lastuid = 1;
imap_exec( ctx, &cmd->gen, imap_open_box_p3,
"UID FETCH *:* (UID)" );
}
static void
imap_open_box_p3( imap_store_t *ctx, imap_cmd_t *gcmd, int response )
{
imap_cmd_open_box_t *cmdp = (imap_cmd_open_box_t *)gcmd;
// This will happen if the box is empty.
if (!ctx->uidnext)
ctx->uidnext = 1;
imap_open_box_p4( ctx, cmdp, response );
}
static void
imap_open_box_p4( imap_store_t *ctx, imap_cmd_open_box_t *cmdp, int response )
{
transform_box_response( &response );
cmdp->callback( response, ctx->uidvalidity, cmdp->callback_aux );
}
static int
imap_get_uidnext( store_t *gctx )
{
imap_store_t *ctx = (imap_store_t *)gctx;
return ctx->uidnext;
}
/******************* imap_create_box *******************/
static void
imap_create_box( store_t *gctx,
void (*cb)( int sts, void *aux ), void *aux )
{
imap_store_t *ctx = (imap_store_t *)gctx;
imap_cmd_simple_t *cmd;
char *buf;
if (prepare_box( &buf, ctx ) < 0) {
cb( DRV_BOX_BAD, aux );
return;
}
INIT_IMAP_CMD(imap_cmd_simple_t, cmd, cb, aux)
imap_exec( ctx, &cmd->gen, imap_done_simple_box,
"CREATE \"%\\s\"", buf );
free( buf );
}
/******************* imap_delete_box *******************/
static int
imap_confirm_box_empty( store_t *gctx )
{
imap_store_t *ctx = (imap_store_t *)gctx;
return ctx->total_msgs ? DRV_BOX_BAD : DRV_OK;
}
static void imap_delete_box_p2( imap_store_t *, imap_cmd_t *, int );
static void
imap_delete_box( store_t *gctx,
void (*cb)( int sts, void *aux ), void *aux )
{
imap_store_t *ctx = (imap_store_t *)gctx;
imap_cmd_simple_t *cmd;
INIT_IMAP_CMD(imap_cmd_simple_t, cmd, cb, aux)
imap_exec( ctx, &cmd->gen, imap_delete_box_p2, "CLOSE" );
}
static void
imap_delete_box_p2( imap_store_t *ctx, imap_cmd_t *gcmd, int response )
{
imap_cmd_simple_t *cmdp = (imap_cmd_simple_t *)gcmd;
imap_cmd_simple_t *cmd;
char *buf;
if (response != RESP_OK) {
imap_done_simple_box( ctx, &cmdp->gen, response );
return;
}
if (prepare_box( &buf, ctx ) < 0) {
imap_done_simple_box( ctx, &cmdp->gen, RESP_NO );
return;
}
INIT_IMAP_CMD(imap_cmd_simple_t, cmd, cmdp->callback, cmdp->callback_aux)
imap_exec( ctx, &cmd->gen, imap_done_simple_box,
"DELETE \"%\\s\"", buf );
free( buf );
}
static int
imap_finish_delete_box( store_t *gctx ATTR_UNUSED )
{
return DRV_OK;
}
/******************* imap_load_box *******************/
static int
imap_prepare_load_box( store_t *gctx, int opts )
{
imap_store_t *ctx = (imap_store_t *)gctx;
ctx->opts = opts;
return opts;
}
enum { WantSize = 1, WantTuids = 2, WantMsgids = 4 };
typedef struct {
int first, last, flags;
} imap_range_t;
static void
imap_set_range( imap_range_t *ranges, int *nranges, int low_flags, int high_flags, int maxlow )
{
if (low_flags != high_flags) {
for (int r = 0; r < *nranges; r++) {
if (ranges[r].first > maxlow)
break; /* Range starts above split point; so do all subsequent ranges. */
if (ranges[r].last < maxlow)
continue; /* Range ends below split point; try next one. */
if (ranges[r].last != maxlow) {
/* Range does not end exactly at split point; need to split. */
memmove( &ranges[r + 1], &ranges[r], ((*nranges)++ - r) * sizeof(*ranges) );
ranges[r].last = maxlow;
ranges[r + 1].first = maxlow + 1;
}
break;
}
}
for (int r = 0; r < *nranges; r++)
ranges[r].flags |= (ranges[r].last <= maxlow) ? low_flags : high_flags;
}
typedef struct {
imap_cmd_refcounted_state_t gen;
void (*callback)( int sts, message_t *msgs, int total_msgs, int recent_msgs, void *aux );
void *callback_aux;
} imap_load_box_state_t;
static void imap_submit_load( imap_store_t *, const char *, int, imap_load_box_state_t * );
static void imap_submit_load_p3( imap_store_t *ctx, imap_load_box_state_t * );
static void
imap_load_box( store_t *gctx, uint minuid, uint maxuid, uint newuid, uint seenuid, uint_array_t excs,
void (*cb)( int sts, message_t *msgs, int total_msgs, int recent_msgs, void *aux ), void *aux )
{
imap_store_t *ctx = (imap_store_t *)gctx;
int i, j, bl;
char buf[1000];
if (!ctx->total_msgs) {
free( excs.data );
cb( DRV_OK, 0, 0, 0, aux );
} else {
INIT_REFCOUNTED_STATE(imap_load_box_state_t, sts, cb, aux)
for (i = 0; i < excs.size; ) {
for (bl = 0; i < excs.size && bl < 960; i++) {
if (bl)
buf[bl++] = ',';
bl += sprintf( buf + bl, "%u", excs.data[i] );
j = i;
for (; i + 1 < excs.size && excs.data[i + 1] == excs.data[i] + 1; i++) {}
if (i != j)
bl += sprintf( buf + bl, ":%u", excs.data[i] );
}
imap_submit_load( ctx, buf, shifted_bit( ctx->opts, OPEN_OLD_IDS, WantMsgids ), sts );
}
if (maxuid == UINT_MAX)
maxuid = ctx->uidnext - 1;
if (maxuid >= minuid) {
imap_range_t ranges[3];
ranges[0].first = minuid;
ranges[0].last = maxuid;
ranges[0].flags = 0;
int nranges = 1;
if (ctx->opts & (OPEN_OLD_SIZE | OPEN_NEW_SIZE))
imap_set_range( ranges, &nranges, shifted_bit( ctx->opts, OPEN_OLD_SIZE, WantSize),
shifted_bit( ctx->opts, OPEN_NEW_SIZE, WantSize), seenuid );
if (ctx->opts & OPEN_FIND)
imap_set_range( ranges, &nranges, 0, WantTuids, newuid - 1 );
if (ctx->opts & OPEN_OLD_IDS)
imap_set_range( ranges, &nranges, WantMsgids, 0, seenuid );
for (int r = 0; r < nranges; r++) {
sprintf( buf, "%u:%u", ranges[r].first, ranges[r].last );
imap_submit_load( ctx, buf, ranges[r].flags, sts );
}
}
free( excs.data );
imap_submit_load_p3( ctx, sts );
}
}
static void imap_submit_load_p2( imap_store_t *, imap_cmd_t *, int );
static void
imap_submit_load( imap_store_t *ctx, const char *buf, int flags, imap_load_box_state_t *sts )
{
imap_exec( ctx, imap_refcounted_new_cmd( &sts->gen ), imap_submit_load_p2,
"UID FETCH %s (UID%s%s%s%s%s%s%s)", buf,
(ctx->opts & OPEN_FLAGS) ? " FLAGS" : "",
(flags & WantSize) ? " RFC822.SIZE" : "",
(flags & (WantTuids | WantMsgids)) ? " BODY.PEEK[HEADER.FIELDS (" : "",
(flags & WantTuids) ? "X-TUID" : "",
!(~flags & (WantTuids | WantMsgids)) ? " " : "",
(flags & WantMsgids) ? "MESSAGE-ID" : "",
(flags & (WantTuids | WantMsgids)) ? ")]" : "");
}
static void
imap_submit_load_p2( imap_store_t *ctx, imap_cmd_t *cmd, int response )
{
imap_load_box_state_t *sts = (imap_load_box_state_t *)((imap_cmd_refcounted_t *)cmd)->state;
transform_refcounted_box_response( &sts->gen, response );
imap_submit_load_p3( ctx, sts );
}
static void
imap_submit_load_p3( imap_store_t *ctx, imap_load_box_state_t *sts )
{
DONE_REFCOUNTED_STATE_ARGS(sts, ctx->msgs, ctx->total_msgs, ctx->recent_msgs)
}
/******************* imap_fetch_msg *******************/
static void imap_fetch_msg_p2( imap_store_t *, imap_cmd_t *, int );
static void
imap_fetch_msg( store_t *ctx, message_t *msg, msg_data_t *data,
void (*cb)( int sts, void *aux ), void *aux )
{
imap_cmd_fetch_msg_t *cmd;
INIT_IMAP_CMD_X(imap_cmd_fetch_msg_t, cmd, cb, aux)
cmd->gen.gen.param.uid = msg->uid;
cmd->msg_data = data;
data->data = 0;
imap_exec( (imap_store_t *)ctx, &cmd->gen.gen, imap_fetch_msg_p2,
"UID FETCH %u (%s%sBODY.PEEK[])", msg->uid,
!(msg->status & M_FLAGS) ? "FLAGS " : "",
(data->date== -1) ? "INTERNALDATE " : "" );
}
static void
imap_fetch_msg_p2( imap_store_t *ctx, imap_cmd_t *gcmd, int response )
{
imap_cmd_fetch_msg_t *cmd = (imap_cmd_fetch_msg_t *)gcmd;
if (response == RESP_OK && !cmd->msg_data->data) {
/* The FETCH succeeded, but there is no message with this UID. */
response = RESP_NO;
}
imap_done_simple_msg( ctx, gcmd, response );
}
/******************* imap_set_msg_flags *******************/
static int
imap_make_flags( int flags, char *buf )
{
const char *s;
uint i, d;
for (i = d = 0; i < as(Flags); i++)
if (flags & (1 << i)) {
buf[d++] = ' ';
buf[d++] = '\\';
for (s = Flags[i]; *s; s++)
buf[d++] = *s;
}
buf[0] = '(';
buf[d++] = ')';
return d;
}
typedef struct {
imap_cmd_refcounted_state_t gen;
void (*callback)( int sts, void *aux );
void *callback_aux;
} imap_set_msg_flags_state_t;
static void imap_set_flags_p2( imap_store_t *, imap_cmd_t *, int );
static void imap_set_flags_p3( imap_set_msg_flags_state_t * );
static void
imap_flags_helper( imap_store_t *ctx, uint uid, char what, int flags,
imap_set_msg_flags_state_t *sts )
{
char buf[256];
buf[imap_make_flags( flags, buf )] = 0;
imap_exec( ctx, imap_refcounted_new_cmd( &sts->gen ), imap_set_flags_p2,
"UID STORE %u %cFLAGS.SILENT %s", uid, what, buf );
}
static void
imap_set_msg_flags( store_t *gctx, message_t *msg, uint uid, int add, int del,
void (*cb)( int sts, void *aux ), void *aux )
{
imap_store_t *ctx = (imap_store_t *)gctx;
if (msg) {
uid = msg->uid;
add &= ~msg->flags;
del &= msg->flags;
msg->flags |= add;
msg->flags &= ~del;
}
if (add || del) {
INIT_REFCOUNTED_STATE(imap_set_msg_flags_state_t, sts, cb, aux)
if (add)
imap_flags_helper( ctx, uid, '+', add, sts );
if (del)
imap_flags_helper( ctx, uid, '-', del, sts );
imap_set_flags_p3( sts );
} else {
cb( DRV_OK, aux );
}
}
static void
imap_set_flags_p2( imap_store_t *ctx ATTR_UNUSED, imap_cmd_t *cmd, int response )
{
imap_set_msg_flags_state_t *sts = (imap_set_msg_flags_state_t *)((imap_cmd_refcounted_t *)cmd)->state;
transform_refcounted_msg_response( &sts->gen, response);
imap_set_flags_p3( sts );
}
static void
imap_set_flags_p3( imap_set_msg_flags_state_t *sts )
{
DONE_REFCOUNTED_STATE(sts)
}
/******************* imap_close_box *******************/
typedef struct {
imap_cmd_refcounted_state_t gen;
void (*callback)( int sts, void *aux );
void *callback_aux;
} imap_expunge_state_t;
static void imap_close_box_p2( imap_store_t *, imap_cmd_t *, int );
static void imap_close_box_p3( imap_expunge_state_t * );
static void
imap_close_box( store_t *gctx,
void (*cb)( int sts, void *aux ), void *aux )
{
2012-08-25 18:30:04 +00:00
imap_store_t *ctx = (imap_store_t *)gctx;
if (ctx->gen.conf->trash && CAP(UIDPLUS)) {
INIT_REFCOUNTED_STATE(imap_expunge_state_t, sts, cb, aux)
2012-08-25 18:30:04 +00:00
message_t *msg, *fmsg, *nmsg;
int bl;
char buf[1000];
for (msg = ctx->msgs; ; ) {
2012-08-25 18:30:04 +00:00
for (bl = 0; msg && bl < 960; msg = msg->next) {
if (!(msg->flags & F_DELETED))
continue;
if (bl)
buf[bl++] = ',';
bl += sprintf( buf + bl, "%u", msg->uid );
2012-08-25 18:30:04 +00:00
fmsg = msg;
for (; (nmsg = msg->next) && (nmsg->flags & F_DELETED); msg = nmsg) {}
if (msg != fmsg)
bl += sprintf( buf + bl, ":%u", msg->uid );
2012-08-25 18:30:04 +00:00
}
if (!bl)
break;
imap_exec( ctx, imap_refcounted_new_cmd( &sts->gen ), imap_close_box_p2,
"UID EXPUNGE %s", buf );
2012-08-25 18:30:04 +00:00
}
imap_close_box_p3( sts );
2012-08-25 18:30:04 +00:00
} else {
/* This is inherently racy: it may cause messages which other clients
* marked as deleted to be expunged without being trashed. */
imap_cmd_simple_t *cmd;
INIT_IMAP_CMD(imap_cmd_simple_t, cmd, cb, aux)
2012-08-25 18:30:04 +00:00
imap_exec( ctx, &cmd->gen, imap_done_simple_box, "CLOSE" );
}
}
static void
imap_close_box_p2( imap_store_t *ctx ATTR_UNUSED, imap_cmd_t *cmd, int response )
{
imap_expunge_state_t *sts = (imap_expunge_state_t *)((imap_cmd_refcounted_t *)cmd)->state;
transform_refcounted_box_response( &sts->gen, response );
imap_close_box_p3( sts );
}
static void
imap_close_box_p3( imap_expunge_state_t *sts )
{
DONE_REFCOUNTED_STATE(sts)
}
/******************* imap_trash_msg *******************/
static void
imap_trash_msg( store_t *gctx, message_t *msg,
void (*cb)( int sts, void *aux ), void *aux )
{
imap_store_t *ctx = (imap_store_t *)gctx;
imap_cmd_simple_t *cmd;
char *buf;
INIT_IMAP_CMD(imap_cmd_simple_t, cmd, cb, aux)
cmd->gen.param.create = 1;
cmd->gen.param.to_trash = 1;
if (prepare_trash( &buf, ctx ) < 0) {
2012-08-11 16:34:46 +00:00
cb( DRV_BOX_BAD, aux );
return;
}
imap_exec( ctx, &cmd->gen, imap_done_simple_msg,
CAP(MOVE) ? "UID MOVE %u \"%\\s\"" : "UID COPY %u \"%\\s\"", msg->uid, buf );
free( buf );
}
/******************* imap_store_msg *******************/
static void imap_store_msg_p2( imap_store_t *, imap_cmd_t *, int );
static size_t
my_strftime( char *s, size_t max, const char *fmt, const struct tm *tm )
{
return strftime( s, max, fmt, tm );
}
static void
imap_store_msg( store_t *gctx, msg_data_t *data, int to_trash,
void (*cb)( int sts, uint uid, void *aux ), void *aux )
{
imap_store_t *ctx = (imap_store_t *)gctx;
imap_cmd_out_uid_t *cmd;
char *buf;
int d;
char flagstr[128], datestr[64];
d = 0;
if (data->flags) {
d = imap_make_flags( data->flags, flagstr );
flagstr[d++] = ' ';
}
flagstr[d] = 0;
INIT_IMAP_CMD(imap_cmd_out_uid_t, cmd, cb, aux)
ctx->buffer_mem += data->len;
cmd->gen.param.data_len = data->len;
cmd->gen.param.data = data->data;
cmd->out_uid = 0;
if (to_trash) {
cmd->gen.param.create = 1;
cmd->gen.param.to_trash = 1;
if (prepare_trash( &buf, ctx ) < 0) {
2012-08-11 16:34:46 +00:00
cb( DRV_BOX_BAD, -1, aux );
return;
}
} else {
if (prepare_box( &buf, ctx ) < 0) {
2012-08-11 16:34:46 +00:00
cb( DRV_BOX_BAD, -1, aux );
return;
}
}
if (data->date) {
/* configure ensures that %z actually works. */
my_strftime( datestr, sizeof(datestr), "%d-%b-%Y %H:%M:%S %z", localtime( &data->date ) );
imap_exec( ctx, &cmd->gen, imap_store_msg_p2,
"APPEND \"%\\s\" %s\"%\\s\" ", buf, flagstr, datestr );
} else {
imap_exec( ctx, &cmd->gen, imap_store_msg_p2,
"APPEND \"%\\s\" %s", buf, flagstr );
}
free( buf );
}
static void
imap_store_msg_p2( imap_store_t *ctx ATTR_UNUSED, imap_cmd_t *cmd, int response )
{
imap_cmd_out_uid_t *cmdp = (imap_cmd_out_uid_t *)cmd;
transform_msg_response( &response );
cmdp->callback( response, cmdp->out_uid, cmdp->callback_aux );
}
/******************* imap_find_new_msgs *******************/
static void imap_find_new_msgs_p2( imap_store_t *, imap_cmd_t *, int );
static void imap_find_new_msgs_p3( imap_store_t *, imap_cmd_t *, int );
static void imap_find_new_msgs_p4( imap_store_t *, imap_cmd_t *, int );
static void
imap_find_new_msgs( store_t *gctx, uint newuid,
void (*cb)( int sts, message_t *msgs, void *aux ), void *aux )
{
imap_store_t *ctx = (imap_store_t *)gctx;
imap_cmd_find_new_t *cmd;
INIT_IMAP_CMD(imap_cmd_find_new_t, cmd, cb, aux)
cmd->out_msgs = ctx->msgapp;
cmd->uid = newuid;
2017-03-30 17:39:14 +00:00
// Some servers fail to enumerate recently STOREd messages without syncing first.
imap_exec( (imap_store_t *)ctx, &cmd->gen, imap_find_new_msgs_p2, "CHECK" );
}
static void
imap_find_new_msgs_p2( imap_store_t *ctx, imap_cmd_t *gcmd, int response )
{
imap_cmd_find_new_t *cmdp = (imap_cmd_find_new_t *)gcmd;
imap_cmd_find_new_t *cmd;
if (response != RESP_OK) {
imap_done_simple_box( ctx, gcmd, response );
return;
}
ctx->uidnext = 0;
INIT_IMAP_CMD(imap_cmd_find_new_t, cmd, cmdp->callback, cmdp->callback_aux)
cmd->out_msgs = cmdp->out_msgs;
cmd->uid = cmdp->uid;
cmd->gen.param.lastuid = 1;
imap_exec( ctx, &cmd->gen, imap_find_new_msgs_p3,
"UID FETCH *:* (UID)" );
}
static void
imap_find_new_msgs_p3( imap_store_t *ctx, imap_cmd_t *gcmd, int response )
{
imap_cmd_find_new_t *cmdp = (imap_cmd_find_new_t *)gcmd;
imap_cmd_find_new_t *cmd;
if (response != RESP_OK || ctx->uidnext <= cmdp->uid) {
imap_find_new_msgs_p4( ctx, gcmd, response );
return;
}
INIT_IMAP_CMD(imap_cmd_find_new_t, cmd, cmdp->callback, cmdp->callback_aux)
cmd->out_msgs = cmdp->out_msgs;
imap_exec( (imap_store_t *)ctx, &cmd->gen, imap_find_new_msgs_p4,
"UID FETCH %u:%u (UID BODY.PEEK[HEADER.FIELDS (X-TUID)])", cmdp->uid, ctx->uidnext - 1 );
}
static void
imap_find_new_msgs_p4( imap_store_t *ctx ATTR_UNUSED, imap_cmd_t *gcmd, int response )
{
imap_cmd_find_new_t *cmdp = (imap_cmd_find_new_t *)gcmd;
transform_box_response( &response );
cmdp->callback( response, *cmdp->out_msgs, cmdp->callback_aux );
}
/******************* imap_list_store *******************/
typedef struct {
imap_cmd_refcounted_state_t gen;
void (*callback)( int sts, string_list_t *, void *aux );
void *callback_aux;
} imap_list_store_state_t;
static void imap_list_store_p2( imap_store_t *, imap_cmd_t *, int );
static void imap_list_store_p3( imap_store_t *, imap_list_store_state_t * );
static void
imap_list_store( store_t *gctx, int flags,
void (*cb)( int sts, string_list_t *boxes, void *aux ), void *aux )
{
imap_store_t *ctx = (imap_store_t *)gctx;
INIT_REFCOUNTED_STATE(imap_list_store_state_t, sts, cb, aux)
2012-08-11 16:34:46 +00:00
2017-03-30 17:39:14 +00:00
// ctx->prefix may be empty, "INBOX.", or something else.
// 'flags' may be LIST_INBOX, LIST_PATH (or LIST_PATH_MAYBE), or both. 'listed'
// already containing a particular value effectively removes it from 'flags'.
// This matrix determines what to query, and what comes out as a side effect.
// The lowercase letters indicate unnecessary results; the queries are done
// this way to have non-overlapping result sets, so subsequent calls create
// no duplicates:
2017-03-30 17:39:14 +00:00
//
// qry \ pfx | empty | inbox | other
// ----------+-------+-------+-------
// inbox | p [I] | I [p] | I
// both | P [I] | I [P] | I + P
// path | P [i] | i [P] | P
2017-03-30 17:39:14 +00:00
//
int pfx_is_empty = !*ctx->prefix;
int pfx_is_inbox = !pfx_is_empty && is_inbox( ctx, ctx->prefix, -1 );
if (((flags & (LIST_PATH | LIST_PATH_MAYBE)) || pfx_is_empty) && !pfx_is_inbox && !(ctx->listed & LIST_PATH)) {
ctx->listed |= LIST_PATH;
if (pfx_is_empty)
ctx->listed |= LIST_INBOX;
imap_exec( ctx, imap_refcounted_new_cmd( &sts->gen ), imap_list_store_p2,
"LIST \"\" \"%\\s*\"", ctx->prefix );
}
if (((flags & LIST_INBOX) || pfx_is_inbox) && !pfx_is_empty && !(ctx->listed & LIST_INBOX)) {
ctx->listed |= LIST_INBOX;
if (pfx_is_inbox)
ctx->listed |= LIST_PATH;
imap_exec( ctx, imap_refcounted_new_cmd( &sts->gen ), imap_list_store_p2,
"LIST \"\" INBOX*" );
}
imap_list_store_p3( ctx, sts );
}
static void
imap_list_store_p2( imap_store_t *ctx, imap_cmd_t *cmd, int response )
{
imap_list_store_state_t *sts = (imap_list_store_state_t *)((imap_cmd_refcounted_t *)cmd)->state;
transform_refcounted_box_response( &sts->gen, response );
imap_list_store_p3( ctx, sts );
}
static void
imap_list_store_p3( imap_store_t *ctx, imap_list_store_state_t *sts )
{
DONE_REFCOUNTED_STATE_ARGS(sts, ctx->boxes)
}
/******************* imap_cancel_cmds *******************/
static void
imap_cancel_cmds( store_t *gctx,
void (*cb)( void *aux ), void *aux )
{
imap_store_t *ctx = (imap_store_t *)gctx;
cancel_pending_imap_cmds( ctx );
if (ctx->in_progress) {
ctx->canceling = 1;
ctx->callbacks.imap_cancel = cb;
ctx->callback_aux = aux;
} else {
cb( aux );
}
}
/******************* imap_commit_cmds *******************/
static void
imap_commit_cmds( store_t *gctx )
{
(void)gctx;
}
/******************* imap_get_memory_usage *******************/
static int
imap_get_memory_usage( store_t *gctx )
{
imap_store_t *ctx = (imap_store_t *)gctx;
return ctx->buffer_mem + ctx->conn.buffer_mem;
}
/******************* imap_get_fail_state *******************/
static int
imap_get_fail_state( store_conf_t *gconf )
{
return ((imap_store_conf_t *)gconf)->server->failed;
}
/******************* imap_parse_store *******************/
imap_server_conf_t *servers, **serverapp = &servers;
static int
imap_parse_store( conffile_t *cfg, store_conf_t **storep )
{
imap_store_conf_t *store;
imap_server_conf_t *server, *srv, sserver;
const char *type, *name, *arg;
unsigned u;
int acc_opt = 0;
#ifdef HAVE_LIBSSL
/* Legacy SSL options */
int require_ssl = -1, use_imaps = -1;
int use_sslv3 = -1, use_tlsv1 = -1, use_tlsv11 = -1, use_tlsv12 = -1;
#endif
/* Legacy SASL option */
int require_cram = -1;
if (!strcasecmp( "IMAPAccount", cfg->cmd )) {
server = nfcalloc( sizeof(*server) );
server->name = nfstrdup( cfg->val );
*serverapp = server;
serverapp = &server->next;
store = 0;
*storep = 0;
} else if (!strcasecmp( "IMAPStore", cfg->cmd )) {
store = nfcalloc( sizeof(*store) );
store->gen.driver = &imap_driver;
store->gen.name = nfstrdup( cfg->val );
store->use_namespace = 1;
*storep = &store->gen;
memset( &sserver, 0, sizeof(sserver) );
server = &sserver;
} else
return 0;
2015-04-06 14:49:33 +00:00
server->sconf.timeout = 20;
#ifdef HAVE_LIBSSL
server->ssl_type = -1;
server->sconf.ssl_versions = -1;
server->sconf.system_certs = 1;
#endif
server->max_in_progress = INT_MAX;
while (getcline( cfg ) && cfg->cmd) {
if (!strcasecmp( "Host", cfg->cmd )) {
/* The imap[s]: syntax is just a backwards compat hack. */
arg = cfg->val;
#ifdef HAVE_LIBSSL
if (starts_with( arg, -1, "imaps:", 6 )) {
arg += 6;
server->ssl_type = SSL_IMAPS;
if (server->sconf.ssl_versions == -1)
server->sconf.ssl_versions = SSLv3 | TLSv1 | TLSv1_1 | TLSv1_2;
} else
#endif
if (starts_with( arg, -1, "imap:", 5 ))
arg += 5;
if (starts_with( arg, -1, "//", 2 ))
arg += 2;
if (arg != cfg->val)
warn( "%s:%d: Notice: URL notation is deprecated; use a plain host name and possibly 'SSLType IMAPS' instead\n", cfg->file, cfg->line );
server->sconf.host = nfstrdup( arg );
}
else if (!strcasecmp( "User", cfg->cmd ))
server->user = nfstrdup( cfg->val );
else if (!strcasecmp( "Pass", cfg->cmd ))
server->pass = nfstrdup( cfg->val );
else if (!strcasecmp( "PassCmd", cfg->cmd ))
server->pass_cmd = nfstrdup( cfg->val );
else if (!strcasecmp( "Port", cfg->cmd ))
server->sconf.port = parse_int( cfg );
2015-04-06 14:49:33 +00:00
else if (!strcasecmp( "Timeout", cfg->cmd ))
server->sconf.timeout = parse_int( cfg );
else if (!strcasecmp( "PipelineDepth", cfg->cmd )) {
if ((server->max_in_progress = parse_int( cfg )) < 1) {
error( "%s:%d: PipelineDepth must be at least 1\n", cfg->file, cfg->line );
cfg->err = 1;
}
} else if (!strcasecmp( "DisableExtension", cfg->cmd ) ||
!strcasecmp( "DisableExtensions", cfg->cmd )) {
arg = cfg->val;
do {
for (u = 0; u < as(cap_list); u++) {
if (!strcasecmp( cap_list[u], arg )) {
server->cap_mask |= 1 << u;
goto gotcap;
}
}
error( "%s:%d: Unrecognized IMAP extension '%s'\n", cfg->file, cfg->line, arg );
cfg->err = 1;
gotcap: ;
} while ((arg = get_arg( cfg, ARG_OPTIONAL, 0 )));
}
#ifdef HAVE_LIBSSL
else if (!strcasecmp( "CertificateFile", cfg->cmd )) {
server->sconf.cert_file = expand_strdup( cfg->val );
if (access( server->sconf.cert_file, R_OK )) {
sys_error( "%s:%d: CertificateFile '%s'",
cfg->file, cfg->line, server->sconf.cert_file );
cfg->err = 1;
}
} else if (!strcasecmp( "SystemCertificates", cfg->cmd )) {
server->sconf.system_certs = parse_bool( cfg );
} else if (!strcasecmp( "ClientCertificate", cfg->cmd )) {
server->sconf.client_certfile = expand_strdup( cfg->val );
if (access( server->sconf.client_certfile, R_OK )) {
sys_error( "%s:%d: ClientCertificate '%s'",
cfg->file, cfg->line, server->sconf.client_certfile );
cfg->err = 1;
}
} else if (!strcasecmp( "ClientKey", cfg->cmd )) {
server->sconf.client_keyfile = expand_strdup( cfg->val );
if (access( server->sconf.client_keyfile, R_OK )) {
sys_error( "%s:%d: ClientKey '%s'",
cfg->file, cfg->line, server->sconf.client_keyfile );
cfg->err = 1;
}
} else if (!strcasecmp( "SSLType", cfg->cmd )) {
if (!strcasecmp( "None", cfg->val )) {
server->ssl_type = SSL_None;
} else if (!strcasecmp( "STARTTLS", cfg->val )) {
server->ssl_type = SSL_STARTTLS;
} else if (!strcasecmp( "IMAPS", cfg->val )) {
server->ssl_type = SSL_IMAPS;
} else {
error( "%s:%d: Invalid SSL type\n", cfg->file, cfg->line );
cfg->err = 1;
}
} else if (!strcasecmp( "SSLVersion", cfg->cmd ) ||
!strcasecmp( "SSLVersions", cfg->cmd )) {
server->sconf.ssl_versions = 0;
arg = cfg->val;
do {
if (!strcasecmp( "SSLv2", arg )) {
warn( "Warning: SSLVersion SSLv2 is no longer supported\n" );
} else if (!strcasecmp( "SSLv3", arg )) {
server->sconf.ssl_versions |= SSLv3;
} else if (!strcasecmp( "TLSv1", arg )) {
server->sconf.ssl_versions |= TLSv1;
} else if (!strcasecmp( "TLSv1.1", arg )) {
server->sconf.ssl_versions |= TLSv1_1;
} else if (!strcasecmp( "TLSv1.2", arg )) {
server->sconf.ssl_versions |= TLSv1_2;
} else {
error( "%s:%d: Unrecognized SSL version\n", cfg->file, cfg->line );
cfg->err = 1;
}
} while ((arg = get_arg( cfg, ARG_OPTIONAL, 0 )));
} else if (!strcasecmp( "RequireSSL", cfg->cmd ))
require_ssl = parse_bool( cfg );
else if (!strcasecmp( "UseIMAPS", cfg->cmd ))
use_imaps = parse_bool( cfg );
else if (!strcasecmp( "UseSSLv2", cfg->cmd ))
warn( "Warning: UseSSLv2 is no longer supported\n" );
else if (!strcasecmp( "UseSSLv3", cfg->cmd ))
use_sslv3 = parse_bool( cfg );
else if (!strcasecmp( "UseTLSv1", cfg->cmd ))
use_tlsv1 = parse_bool( cfg );
else if (!strcasecmp( "UseTLSv1.1", cfg->cmd ))
use_tlsv11 = parse_bool( cfg );
else if (!strcasecmp( "UseTLSv1.2", cfg->cmd ))
use_tlsv12 = parse_bool( cfg );
#endif
else if (!strcasecmp( "AuthMech", cfg->cmd ) ||
!strcasecmp( "AuthMechs", cfg->cmd )) {
arg = cfg->val;
do
add_string_list( &server->auth_mechs, arg );
while ((arg = get_arg( cfg, ARG_OPTIONAL, 0 )));
} else if (!strcasecmp( "RequireCRAM", cfg->cmd ))
require_cram = parse_bool( cfg );
else if (!strcasecmp( "Tunnel", cfg->cmd ))
server->sconf.tunnel = nfstrdup( cfg->val );
else if (store) {
if (!strcasecmp( "Account", cfg->cmd )) {
for (srv = servers; srv; srv = srv->next)
if (srv->name && !strcmp( srv->name, cfg->val ))
goto gotsrv;
error( "%s:%d: unknown IMAP account '%s'\n", cfg->file, cfg->line, cfg->val );
cfg->err = 1;
continue;
gotsrv:
store->server = srv;
} else if (!strcasecmp( "UseNamespace", cfg->cmd ))
store->use_namespace = parse_bool( cfg );
else if (!strcasecmp( "Path", cfg->cmd ))
store->gen.path = nfstrdup( cfg->val );
else if (!strcasecmp( "PathDelimiter", cfg->cmd )) {
if (strlen( cfg->val ) != 1) {
error( "%s:%d: Path delimiter must be exactly one character long\n", cfg->file, cfg->line );
cfg->err = 1;
continue;
}
store->delimiter = cfg->val[0];
} else
parse_generic_store( &store->gen, cfg );
continue;
} else {
error( "%s:%d: unknown/misplaced keyword '%s'\n", cfg->file, cfg->line, cfg->cmd );
cfg->err = 1;
continue;
}
acc_opt = 1;
}
if (store)
type = "IMAP store", name = store->gen.name;
else
type = "IMAP account", name = server->name;
if (!store || !store->server) {
if (!server->sconf.tunnel && !server->sconf.host) {
error( "%s '%s' has neither Tunnel nor Host\n", type, name );
cfg->err = 1;
return 1;
}
if (server->pass && server->pass_cmd) {
error( "%s '%s' has both Pass and PassCmd\n", type, name );
cfg->err = 1;
return 1;
}
#ifdef HAVE_LIBSSL
if ((use_sslv3 & use_tlsv1 & use_tlsv11 & use_tlsv12) != -1 || use_imaps >= 0 || require_ssl >= 0) {
if (server->ssl_type >= 0 || server->sconf.ssl_versions >= 0) {
2017-09-23 10:32:48 +00:00
error( "%s '%s': The deprecated UseSSL*, UseTLS*, UseIMAPS, and RequireSSL options are mutually exclusive with SSLType and SSLVersions.\n", type, name );
cfg->err = 1;
return 1;
}
warn( "Notice: %s '%s': UseSSL*, UseTLS*, UseIMAPS, and RequireSSL are deprecated. Use SSLType and SSLVersions instead.\n", type, name );
server->sconf.ssl_versions =
(use_sslv3 != 1 ? 0 : SSLv3) |
(use_tlsv1 == 0 ? 0 : TLSv1) |
(use_tlsv11 != 1 ? 0 : TLSv1_1) |
(use_tlsv12 != 1 ? 0 : TLSv1_2);
if (use_imaps == 1) {
server->ssl_type = SSL_IMAPS;
} else if (require_ssl) {
server->ssl_type = SSL_STARTTLS;
} else if (!server->sconf.ssl_versions) {
server->ssl_type = SSL_None;
} else {
warn( "Notice: %s '%s': 'RequireSSL no' is being ignored\n", type, name );
server->ssl_type = SSL_STARTTLS;
}
if (server->ssl_type != SSL_None && !server->sconf.ssl_versions) {
error( "%s '%s' requires SSL but no SSL versions enabled\n", type, name );
cfg->err = 1;
return 1;
}
} else {
if (server->sconf.ssl_versions < 0)
server->sconf.ssl_versions = TLSv1 | TLSv1_1 | TLSv1_2;
if (server->ssl_type < 0)
server->ssl_type = server->sconf.tunnel ? SSL_None : SSL_STARTTLS;
}
#endif
if (require_cram >= 0) {
if (server->auth_mechs) {
2017-09-23 10:32:48 +00:00
error( "%s '%s': The deprecated RequireCRAM option is mutually exclusive with AuthMech.\n", type, name );
cfg->err = 1;
return 1;
}
warn( "Notice: %s '%s': RequireCRAM is deprecated. Use AuthMech instead.\n", type, name );
if (require_cram)
add_string_list(&server->auth_mechs, "CRAM-MD5");
}
if (!server->auth_mechs)
add_string_list( &server->auth_mechs, "*" );
if (!server->sconf.port)
server->sconf.port =
#ifdef HAVE_LIBSSL
server->ssl_type == SSL_IMAPS ? 993 :
#endif
143;
}
if (store) {
if (!store->server) {
store->server = nfmalloc( sizeof(sserver) );
memcpy( store->server, &sserver, sizeof(sserver) );
store->server->name = store->gen.name;
} else if (acc_opt) {
error( "%s '%s' has both Account and account-specific options\n", type, name );
cfg->err = 1;
}
}
return 1;
}
static int
imap_get_caps( store_t *gctx ATTR_UNUSED )
{
return DRV_CRLF | DRV_VERBOSE;
}
struct driver imap_driver = {
imap_get_caps,
imap_parse_store,
imap_cleanup,
imap_alloc_store,
imap_set_bad_callback,
imap_connect_store,
imap_free_store,
imap_cancel_store,
imap_list_store,
imap_select_box,
imap_get_box_path,
imap_create_box,
imap_open_box,
imap_get_uidnext,
imap_confirm_box_empty,
imap_delete_box,
imap_finish_delete_box,
imap_prepare_load_box,
imap_load_box,
imap_fetch_msg,
imap_store_msg,
imap_find_new_msgs,
imap_set_msg_flags,
imap_trash_msg,
imap_close_box,
imap_cancel_cmds,
imap_commit_cmds,
imap_get_memory_usage,
imap_get_fail_state,
};