/* nt_add adds an item to the nodetree */
struct nt_node *
nt_add (struct nt *nt, void *data)
{
struct nt_node *prev;
struct nt_c c;
struct nt_node *node = c_nt_first (nt, &c);
void *vptr;
if (nt->insert) {
prev = nt->insert;
} else {
prev = 0;
while (node)
{
prev = node;
node = node->next;
}
}
nt->items++;
if (nt->nodetype == NT_CHAR)
{
long size = strlen ((char *) data) + 1;
vptr = malloc (size);
if (vptr == NULL)
{
LOG (LOG_CRIT, ERR_MEM_ALLOC);
return NULL;
}
strlcpy (static_cast<char *>(vptr), static_cast <const char*>(data), size);
}
else
{
vptr = data;
}
if (prev)
{
node = nt_node_create (vptr);
prev->next = node;
nt->insert = node;
return (node);
}
else
{
node = nt_node_create (vptr);
nt->first = node;
nt->insert = node;
return (node);
}
}
int
_ds_shutdown_storage (DSPAM_CTX * CTX)
{
struct _hash_drv_storage *s;
struct nt_node *node_nt;
struct nt_c c_nt;
int lock_result;
if (!CTX || !CTX->storage)
return EINVAL;
s = (struct _hash_drv_storage *) CTX->storage;
/* Close open file handles to directories (iteration functions) */
node_nt = c_nt_first (s->dir_handles, &c_nt);
while (node_nt != NULL)
{
DIR *dir;
dir = (DIR *) node_nt->ptr;
closedir (dir);
node_nt = c_nt_next (s->dir_handles, &c_nt);
}
nt_destroy (s->dir_handles);
if (CTX->operating_mode != DSM_CLASSIFY)
_hash_drv_set_spamtotals (CTX);
/* Close connection to hash database only if we're not concurrent */
if (!s->dbh_attached) {
_hash_drv_close(s->map);
free(s->map);
lock_result =
_hash_drv_lock_free (s, (CTX->group) ? CTX->group : CTX->username);
if (lock_result < 0)
return EUNKNOWN;
}
free (CTX->storage);
CTX->storage = NULL;
return 0;
}
int
_ds_shutdown_storage (DSPAM_CTX * CTX)
{
struct _sqlite_drv_storage *s = (struct _sqlite_drv_storage *) CTX->storage;
struct nt_node *node_nt;
struct nt_c c_nt;
if (s->dbh == NULL)
{
LOGDEBUG ("_ds_shutdown_storage: invalid database handle (NULL)");
return EINVAL;
}
node_nt = c_nt_first (s->dir_handles, &c_nt);
while (node_nt != NULL)
{
DIR *dir;
dir = (DIR *) node_nt->ptr;
closedir (dir);
node_nt = c_nt_next (s->dir_handles, &c_nt);
}
nt_destroy (s->dir_handles);
/* Store spam totals on shutdown */
if (CTX->username != NULL && CTX->operating_mode != DSM_CLASSIFY)
{
_sqlite_drv_set_spamtotals (CTX);
}
if (!s->dbh_attached)
sqlite_close(s->dbh);
s->dbh = NULL;
free(s);
CTX->storage = NULL;
return 0;
}
int _ds_tokenize_ngram(
DSPAM_CTX *CTX,
char *headers,
char *body,
ds_diction_t diction)
{
char *token; /* current token */
char *previous_token = NULL; /* used for bigrams (chained tokens) */
char *line = NULL; /* header broken up into lines */
char *ptrptr;
char heading[128]; /* current heading */
int l, tokenizer = CTX->tokenizer;
struct nt *header = NULL;
struct nt_node *node_nt;
struct nt_c c_nt;
/* Tokenize URLs in message */
if (_ds_match_attribute(CTX->config->attributes, "ProcessorURLContext", "on")) {
_ds_url_tokenize(diction, body, "http://");
_ds_url_tokenize(diction, body, "www.");
_ds_url_tokenize(diction, body, "href=");
}
/*
* Header Tokenization
*/
header = nt_create (NT_CHAR);
if (header == NULL)
{
LOG (LOG_CRIT, ERR_MEM_ALLOC);
return EUNKNOWN;
}
line = strtok_r (headers, "\n", &ptrptr);
while (line) {
nt_add (header, line);
line = strtok_r (NULL, "\n", &ptrptr);
}
node_nt = c_nt_first (header, &c_nt);
heading[0] = 0;
while (node_nt) {
int multiline;
#ifdef VERBOSE
LOGDEBUG("processing line: %s", node_nt->ptr);
#endif
line = node_nt->ptr;
token = strtok_r (line, ":", &ptrptr);
if (token && token[0] != 32 && token[0] != 9 && !strstr (token, " "))
{
multiline = 0;
strlcpy (heading, token, 128);
previous_token = NULL;
} else {
multiline = 1;
}
#ifdef VERBOSE
LOGDEBUG ("Reading '%s' header from: '%s'", heading, line);
#endif
if (CTX->flags & DSF_WHITELIST) {
/* Use the entire From: line for auto-whitelisting */
if (!strcmp(heading, "From")) {
char wl[256];
char *fromline = line + 5;
unsigned long long whitelist_token;
if (fromline[0] == 32)
fromline++;
snprintf(wl, sizeof(wl), "%s*%s", heading, fromline);
whitelist_token = _ds_getcrc64(wl);
ds_diction_touch(diction, whitelist_token, wl, 0);
diction->whitelist_token = whitelist_token;
}
}
/* Received headers use a different set of delimiters to preserve things
like ip addresses */
token = strtok_r ((multiline) ? line : NULL, DELIMITERS_HEADING, &ptrptr);
while (token)
{
l = strlen(token);
if (l >= 1 && l < 50)
{
#ifdef VERBOSE
LOGDEBUG ("Processing '%s' token in '%s' header", token, heading);
#endif
/* Process "current" token */
if (!_ds_process_header_token
(CTX, token, previous_token, diction, heading) &&
(tokenizer == DSZ_CHAIN))
{
previous_token = token;
}
}
token = strtok_r (NULL, DELIMITERS_HEADING, &ptrptr);
}
previous_token = NULL;
node_nt = c_nt_next (header, &c_nt);
}
nt_destroy (header);
/*
* Body Tokenization
*/
#ifdef VERBOSE
LOGDEBUG("parsing message body");
#endif
token = strtok_r (body, DELIMITERS, &ptrptr);
while (token != NULL)
{
l = strlen (token);
if (l >= 1 && l < 50)
{
#ifdef VERBOSE
LOGDEBUG ("Processing body token '%s'", token);
#endif
/* Process "current" token */
if ( !_ds_process_body_token(CTX, token, previous_token, diction)
&& tokenizer == DSZ_CHAIN)
{
previous_token = token;
}
}
token = strtok_r (NULL, DELIMITERS, &ptrptr);
}
#ifdef VERBOSE
LOGDEBUG("Finished tokenizing (ngram) message");
#endif
/* Final token reassembly (anything left in the buffer) */
return 0;
}
int _ds_degenerate_message(DSPAM_CTX *CTX, buffer * header, buffer * body)
{
char *decode = NULL;
struct nt_node *node_nt, *node_header;
struct nt_c c_nt, c_nt2;
int i = 0;
char heading[1024];
if (! CTX->message)
{
LOG (LOG_WARNING, "_ds_degenerate_message() failed: CTX->message is NULL");
return EUNKNOWN;
}
/* Iterate through each component and create large header/body buffers */
node_nt = c_nt_first (CTX->message->components, &c_nt);
while (node_nt != NULL)
{
struct _ds_message_part *block = (struct _ds_message_part *) node_nt->ptr;
#ifdef VERBOSE
LOGDEBUG ("Processing component %d", i);
#endif
if (! block->headers || ! block->headers->items)
{
#ifdef VERBOSE
LOGDEBUG (" : End of Message Identifier");
#endif
}
else
{
struct _ds_header_field *current_header;
/* Accumulate the headers */
node_header = c_nt_first (block->headers, &c_nt2);
while (node_header != NULL)
{
current_header = (struct _ds_header_field *) node_header->ptr;
snprintf (heading, sizeof (heading),
"%s: %s\n", current_header->heading,
current_header->data);
buffer_cat (header, heading);
node_header = c_nt_next (block->headers, &c_nt2);
}
decode = block->body->data;
if (block->media_type == MT_TEXT ||
block->media_type == MT_MESSAGE ||
block->media_type == MT_UNKNOWN ||
(block->media_type == MT_MULTIPART && !i))
{
/* Accumulate the bodies, skip attachments */
if (
( block->encoding == EN_BASE64
|| block->encoding == EN_QUOTED_PRINTABLE)
&& ! block->original_signed_body)
{
if (block->content_disposition != PCD_ATTACHMENT)
{
LOGDEBUG ("decoding message block from encoding type %d",
block->encoding);
decode = _ds_decode_block (block);
}
}
/* We found a tokenizable body component, add prefilters */
if (decode)
{
char *decode2 = NULL;
char *decode3 = NULL;
/* -- PREFILTERS BEGIN -- */
/* Hexadecimal 8-Bit Encodings */
if (block->encoding == EN_8BIT) {
decode2 = _ds_decode_hex8bit(decode);
} else {
decode2 = strdup(decode);
}
/* HTML-Specific Filters */
if (decode2) {
if (block->media_subtype == MST_HTML) {
decode3 = _ds_strip_html(decode2);
} else {
decode3 = strdup(decode2);
}
free(decode2);
}
/* -- PREFILTERS END -- */
if (decode3) {
buffer_cat (body, decode3);
free(decode3);
}
/* If we've decoded the body, save the original copy */
if (decode != block->body->data)
{
block->original_signed_body = block->body;
block->body = buffer_create (decode);
free (decode);
}
}
}
}
#ifdef VERBOSE
LOGDEBUG ("Getting next message component");
#endif
node_nt = c_nt_next (CTX->message->components, &c_nt);
i++;
} /* while (node_nt != NULL) */
if (header->data == NULL)
buffer_cat (header, " ");
if (body->data == NULL)
buffer_cat (body, " ");
return 0;
}
int _ds_tokenize_sparse(
DSPAM_CTX *CTX,
char *headers,
char *body,
ds_diction_t diction)
{
int i;
char *token; /* current token */
char *previous_tokens[SPARSE_WINDOW_SIZE]; /* sparse chain */
char *line = NULL; /* header broken up into lines */
char *ptrptr;
char *bitpattern;
char heading[128]; /* current heading */
int l;
struct nt *header = NULL;
struct nt_node *node_nt;
struct nt_c c_nt;
for(i=0;i<SPARSE_WINDOW_SIZE;i++)
previous_tokens[i] = NULL;
bitpattern = _ds_generate_bitpattern(_ds_pow2(SPARSE_WINDOW_SIZE));
/* Tokenize URLs in message */
if (_ds_match_attribute(CTX->config->attributes, "ProcessorURLContext", "on"))
{
_ds_url_tokenize(diction, body, "http://");
_ds_url_tokenize(diction, body, "www.");
_ds_url_tokenize(diction, body, "href=");
}
/*
* Header Tokenization
*/
header = nt_create (NT_CHAR);
if (header == NULL)
{
LOG (LOG_CRIT, ERR_MEM_ALLOC);
free(bitpattern);
return EUNKNOWN;
}
line = strtok_r (headers, "\n", &ptrptr);
while (line) {
nt_add (header, line);
line = strtok_r (NULL, "\n", &ptrptr);
}
node_nt = c_nt_first (header, &c_nt);
heading[0] = 0;
while (node_nt) {
int multiline;
#ifdef VERBOSE
LOGDEBUG("processing line: %s", node_nt->ptr);
#endif
_ds_sparse_clear(previous_tokens);
line = node_nt->ptr;
token = strtok_r (line, ":", &ptrptr);
if (token && token[0] != 32 && token[0] != 9 && !strstr (token, " "))
{
multiline = 0;
strlcpy (heading, token, 128);
_ds_sparse_clear(previous_tokens);
} else {
multiline = 1;
}
#ifdef VERBOSE
LOGDEBUG ("Reading '%s' header from: '%s'", heading, line);
#endif
if (CTX->flags & DSF_WHITELIST) {
/* Use the entire From: line for auto-whitelisting */
if (!strcmp(heading, "From")) {
char wl[256];
char *fromline = line + 5;
unsigned long long whitelist_token;
if (fromline[0] == 32)
fromline++;
snprintf(wl, sizeof(wl), "%s*%s", heading, fromline);
whitelist_token = _ds_getcrc64(wl);
ds_diction_touch(diction, whitelist_token, wl, 0);
diction->whitelist_token = whitelist_token;
}
}
/* Received headers use a different set of delimiters to preserve things
like ip addresses */
token = strtok_r ((multiline) ? line : NULL, SPARSE_DELIMITERS_HEADING, &ptrptr);
while (token)
{
l = strlen(token);
if (l > 0 && l < 50)
{
#ifdef VERBOSE
LOGDEBUG ("Processing '%s' token in '%s' header", token, heading);
#endif
_ds_map_header_token (CTX, token, previous_tokens, diction, heading, bitpattern);
}
token = strtok_r (NULL, SPARSE_DELIMITERS_HEADING, &ptrptr);
}
for(i=0;i<SPARSE_WINDOW_SIZE;i++) {
_ds_map_header_token(CTX, NULL, previous_tokens, diction, heading, bitpattern);
}
_ds_sparse_clear(previous_tokens);
node_nt = c_nt_next (header, &c_nt);
}
nt_destroy (header);
/*
* Body Tokenization
*/
#ifdef VERBOSE
LOGDEBUG("parsing message body");
#endif
token = strtok_r (body, SPARSE_DELIMITERS, &ptrptr);
while (token != NULL)
{
l = strlen (token);
if (l > 0 && l < 50)
{
#ifdef VERBOSE
LOGDEBUG ("Processing body token '%s'", token);
#endif
/* Process "current" token */
_ds_map_body_token (CTX, token, previous_tokens, diction, bitpattern);
}
token = strtok_r (NULL, SPARSE_DELIMITERS, &ptrptr);
}
for(i=0;i<SPARSE_WINDOW_SIZE;i++) {
_ds_map_body_token(CTX, NULL, previous_tokens, diction, bitpattern);
}
_ds_sparse_clear(previous_tokens);
free(bitpattern);
#ifdef VERBOSE
LOGDEBUG("Finished tokenizing (sparse) message");
#endif
return 0;
}
char *
_ds_get_nextuser (DSPAM_CTX * CTX)
{
static char user[MAX_FILENAME_LENGTH];
static char path[MAX_FILENAME_LENGTH];
struct _sqlite_drv_storage *s = (struct _sqlite_drv_storage *) CTX->storage;
struct nt_node *node_nt, *prev;
struct nt_c c_nt;
char *x = NULL, *y;
DIR *dir = NULL;
struct dirent *entry;
if (s->dir_handles->items == 0)
{
char filename[MAX_FILENAME_LENGTH];
snprintf(filename, MAX_FILENAME_LENGTH, "%s/data", CTX->home);
dir = opendir (filename);
if (dir == NULL)
{
LOG (LOG_WARNING,
"unable to open directory '%s' for reading: %s",
CTX->home, strerror (errno));
return NULL;
}
nt_add (s->dir_handles, (void *) dir);
strlcpy (path, filename, sizeof (path));
}
else
{
node_nt = c_nt_first (s->dir_handles, &c_nt);
while (node_nt != NULL)
{
if (node_nt->next == NULL)
dir = (DIR *) node_nt->ptr;
node_nt = c_nt_next (s->dir_handles, &c_nt);
}
}
while ((entry = readdir (dir)) != NULL)
{
struct stat st;
char filename[MAX_FILENAME_LENGTH];
snprintf (filename, sizeof (filename), "%s/%s", path, entry->d_name);
if (!strcmp (entry->d_name, ".") || !strcmp (entry->d_name, ".."))
continue;
if (stat (filename, &st)) {
continue;
}
/* push a new directory */
if (st.st_mode & S_IFDIR)
{
DIR *ndir;
ndir = opendir (filename);
if (ndir == NULL)
continue;
strlcat (path, "/", sizeof (path));
strlcat (path, entry->d_name, sizeof (path));
nt_add (s->dir_handles, (void *) ndir);
return _ds_get_nextuser (CTX);
}
else if (!strncmp
(entry->d_name + strlen (entry->d_name) - 4, ".sdb", 4))
{
strlcpy (user, entry->d_name, sizeof (user));
user[strlen (user) - 4] = 0;
return user;
}
}
/* pop current directory */
y = strchr (path, '/');
while (y != NULL)
{
x = y;
y = strchr (x + 1, '/');
}
if (x)
x[0] = 0;
/* pop directory handle from list */
node_nt = c_nt_first (s->dir_handles, &c_nt);
prev = NULL;
while (node_nt != NULL)
{
if (node_nt->next == NULL)
{
dir = (DIR *) node_nt->ptr;
closedir (dir);
if (prev != NULL) {
prev->next = NULL;
s->dir_handles->insert = NULL;
}
else
s->dir_handles->first = NULL;
free (node_nt);
s->dir_handles->items--;
break;
}
prev = node_nt;
node_nt = c_nt_next (s->dir_handles, &c_nt);
}
if (s->dir_handles->items > 0)
return _ds_get_nextuser (CTX);
/* done */
user[0] = 0;
return NULL;
}
void *process_connection(void *ptr) {
char *server_ident = _ds_read_attribute(agent_config, "ServerIdent");
THREAD_CTX *TTX = (THREAD_CTX *) ptr;
AGENT_CTX *ATX = NULL;
char *input, *cmdline = NULL, *token, *ptrptr;
buffer *message = NULL;
char *parms=NULL, *p=NULL;
int i, locked = -1, invalid = 0;
int server_mode = SSM_DSPAM;
char *argv[64];
char buf[1024];
int tries = 0;
int argc = 0;
FILE *fd = 0;
if (_ds_read_attribute(agent_config, "ServerMode") &&
!strcasecmp(_ds_read_attribute(agent_config, "ServerMode"), "standard"))
{
server_mode = SSM_STANDARD;
}
if (_ds_read_attribute(agent_config, "ServerMode") &&
!strcasecmp(_ds_read_attribute(agent_config, "ServerMode"), "auto"))
{
server_mode = SSM_AUTO;
}
/* Initialize a file descriptor hook for dspam to use as stdout */
fd = fdopen(TTX->sockfd, "w");
if (!fd) {
close(TTX->sockfd);
goto CLOSE;
}
setbuf(fd, NULL);
TTX->packet_buffer = buffer_create(NULL);
if (TTX->packet_buffer == NULL)
goto CLOSE;
/*
* Send greeting banner
* in auto mode, we want to look like a regular LMTP server so we don't
* cause any compatibility problems. in dspam mode, we can change this.
*/
snprintf(buf, sizeof(buf), "%d DSPAM %sLMTP %s %s",
LMTP_GREETING,
(server_mode == SSM_DSPAM) ? "D" : "",
VERSION,
(server_mode == SSM_DSPAM) ? "Authentication Required" : "Ready");
if (send_socket(TTX, buf)<=0)
goto CLOSE;
TTX->authenticated = 0;
/* LHLO */
input = daemon_expect(TTX, "LHLO");
if (input == NULL)
goto CLOSE;
if (server_mode == SSM_AUTO && input[4]) {
char buff[128];
/*
* Auto-detect the server mode based on whether or not the ident is
* assigned a password in dspam.conf
*/
snprintf(buff, sizeof(buff), "ServerPass.%s", input + 5);
chomp(buff);
if (_ds_read_attribute(agent_config, buff))
server_mode = SSM_DSPAM;
else
server_mode = SSM_STANDARD;
}
free(input);
/* Advertise extensions */
if (daemon_extension(TTX, (server_ident) ? server_ident :
"localhost.localdomain")<=0)
goto CLOSE;
if (daemon_extension(TTX, "PIPELINING")<=0)
goto CLOSE;
if (daemon_extension(TTX, "ENHANCEDSTATUSCODES")<=0)
goto CLOSE;
if (server_mode == SSM_DSPAM)
if (daemon_extension(TTX, "DSPAMPROCESSMODE")<=0)
goto CLOSE;
if (daemon_extension(TTX, "8BITMIME")<=0)
goto CLOSE;
if (daemon_reply(TTX, LMTP_OK, "", "SIZE")<=0)
goto CLOSE;
/* Main protocol loop */
while(1) {
char processmode[256];
parms = NULL;
/* Configure a new agent context for each pass */
ATX = calloc(1, sizeof(AGENT_CTX));
if (ATX == NULL) {
LOG(LOG_CRIT, ERR_MEM_ALLOC);
daemon_reply(TTX, LMTP_TEMP_FAIL, "4.3.0", ERR_MEM_ALLOC);
goto CLOSE;
}
if (initialize_atx(ATX)) {
LOG(LOG_ERR, ERR_AGENT_INIT_ATX);
daemon_reply(TTX, LMTP_BAD_CMD, "5.3.0", ERR_AGENT_INIT_ATX);
goto CLOSE;
}
/* MAIL FROM (and authentication, if SSM_DSPAM) */
processmode[0] = 0;
while(!TTX->authenticated) {
input = daemon_expect(TTX, "MAIL FROM");
if (RSET(input))
goto RSET;
if (input == NULL)
goto CLOSE;
else {
char *pass, *ident;
chomp(input);
if (server_mode == SSM_STANDARD) {
TTX->authenticated = 1;
ATX->mailfrom[0] = 0;
_ds_extract_address(ATX->mailfrom, input, sizeof(ATX->mailfrom));
if (daemon_reply(TTX, LMTP_OK, "2.1.0", "OK")<=0) {
free(input);
goto CLOSE;
}
} else {
char id[256];
pass = ident = NULL;
id[0] = 0;
if (!_ds_extract_address(id, input, sizeof(id))) {
pass = strtok_r(id, "@", &ptrptr);
ident = strtok_r(NULL, "@", &ptrptr);
}
if (pass && ident) {
char *serverpass;
char *ptr, *ptr2, *ptr3;
snprintf(buf, sizeof(buf), "ServerPass.%s", ident);
serverpass = _ds_read_attribute(agent_config, buf);
snprintf(buf, sizeof(buf), "ServerPass.%s", ident);
if (serverpass && !strcmp(pass, serverpass)) {
TTX->authenticated = 1;
/* Parse PROCESSMODE service tag */
ptr = strstr(input, "DSPAMPROCESSMODE=\"");
if (ptr) {
char *mode;
int i;
ptr2 = strchr(ptr, '"')+1;
mode = ptr2;
while((ptr3 = strstr(ptr2, "\\\"")))
ptr2 = ptr3+2;
ptr3 = strchr(ptr2+2, '"');
if (ptr3)
ptr3[0] = 0;
strlcpy(processmode, mode, sizeof(processmode));
ptr = processmode;
for(i=0; ptr[i]; i++) {
if (ptr[i] == '\\' && ptr[i+1] == '"') {
strcpy(ptr+i, ptr+i+1);
}
}
LOGDEBUG("process mode: '%s'", processmode);
}
if (daemon_reply(TTX, LMTP_OK, "2.1.0", "OK")<=0) {
free(input);
goto CLOSE;
}
}
}
}
free(input);
if (!TTX->authenticated) {
LOGDEBUG("fd %d authentication failure.", TTX->sockfd);
if (daemon_reply(TTX, LMTP_AUTH_ERROR, "5.1.0",
"Authentication Required")<=0)
{
free(input);
goto CLOSE;
}
tries++;
if (tries>=3) {
struct timeval tv;
tv.tv_sec = 5;
tv.tv_usec = 0;
select(0, NULL, NULL, NULL, &tv);
goto CLOSE;
}
}
}
}
/* MAIL FROM response */
snprintf(buf, sizeof(buf), "%d OK", LMTP_OK);
argc = 1;
argv[0] = "dspam";
argv[1] = 0;
/* Load open-LMTP configuration parameters */
if (server_mode == SSM_STANDARD) {
parms = _ds_read_attribute(agent_config, "ServerParameters");
if (parms) {
p = strdup(parms);
if (p) {
token = strtok_r(p, " ", &ptrptr);
while(token != NULL && argc<63) {
argv[argc] = token;
argc++;
argv[argc] = 0;
token = strtok_r(NULL, " ", &ptrptr);
}
}
}
}
/* RCPT TO */
while(ATX->users->items == 0 || invalid) {
free(cmdline);
cmdline = daemon_getline(TTX, 300);
while(cmdline &&
(!strncasecmp(cmdline, "RCPT TO:", 8) ||
!strncasecmp(cmdline, "RSET", 4)))
{
char username[256];
char *at = NULL;
if (!strncasecmp(cmdline, "RSET", 4)) {
snprintf(buf, sizeof(buf), "%d OK", LMTP_OK);
if (send_socket(TTX, buf)<=0)
goto CLOSE;
goto RSET;
}
if (_ds_extract_address(username, cmdline, sizeof(username)) ||
username[0] == 0 || username[0] == '-' || username[0] == '@')
{
if ((server_mode == SSM_DSPAM) || (server_mode == SSM_STANDARD && _ds_validate_address(username) == 0)) {
daemon_reply(TTX, LMTP_BAD_CMD, "5.1.2", ERR_LMTP_BAD_RCPT);
goto GETCMD;
}
}
if (_ds_match_attribute(agent_config, "Broken", "case"))
lc(username, username);
/* Chop of @.* from the recipient */
if (_ds_match_attribute(agent_config, "StripRcptDomain", "on")) {
at = strchr(username, '@');
if (at != NULL)
*at = '\0';
}
if (server_mode == SSM_DSPAM) {
nt_add(ATX->users, username);
}
else {
if (!parms || !strstr(parms, "--user "))
nt_add(ATX->users, username);
if (!ATX->recipients) {
ATX->recipients = nt_create(NT_CHAR);
if (ATX->recipients == NULL) {
LOG(LOG_CRIT, ERR_MEM_ALLOC);
goto CLOSE;
}
}
if (at != NULL)
*at = '@'; /* always add complete address (user@domain) to recipient list */
nt_add(ATX->recipients, username);
}
if (daemon_reply(TTX, LMTP_OK, "2.1.5", "OK")<=0)
goto CLOSE;
GETCMD:
free(cmdline);
cmdline = daemon_getline(TTX, 300);
}
if (cmdline == NULL)
goto CLOSE;
if (!strncasecmp(cmdline, "RSET", 4)) {
snprintf(buf, sizeof(buf), "%d OK", LMTP_OK);
if (send_socket(TTX, buf)<=0)
goto CLOSE;
goto RSET;
}
if (!strncasecmp(cmdline, "quit", 4)) {
daemon_reply(TTX, LMTP_OK, "2.0.0", "OK");
goto CLOSE;
}
/* Parse DSPAMPROCESSMODE input and set up process arguments */
if (server_mode == SSM_DSPAM && processmode[0] != 0) {
token = strtok_r(processmode, " ", &ptrptr);
while(token != NULL && argc<63) {
argv[argc] = token;
argc++;
argv[argc] = 0;
token = strtok_r(NULL, " ", &ptrptr);
}
}
invalid = 0;
if (process_arguments(ATX, argc, argv) || apply_defaults(ATX))
{
LOG(LOG_ERR, ERR_AGENT_INIT_ATX);
daemon_reply(TTX, LMTP_NO_RCPT, "5.1.0", ERR_AGENT_INIT_ATX);
invalid = 1;
} else if (ATX->users->items == 0) {
daemon_reply(TTX, LMTP_NO_RCPT, "5.1.1", ERR_AGENT_USER_UNDEFINED);
}
}
ATX->sockfd = fd;
ATX->sockfd_output = 0;
/* Something's terribly misconfigured */
if (check_configuration(ATX)) {
LOG(LOG_ERR, ERR_AGENT_MISCONFIGURED);
daemon_reply(TTX, LMTP_BAD_CMD, "5.3.5", ERR_AGENT_MISCONFIGURED);
goto CLOSE;
}
/* DATA */
if (cmdline != NULL) {
if (strncasecmp(cmdline, "DATA", 4)) {
if (daemon_reply(TTX, LMTP_BAD_CMD, "5.0.0", "Need DATA Here")<0)
goto CLOSE;
input = daemon_expect(TTX, "DATA");
if (input == NULL)
goto CLOSE;
if (RSET(input))
goto RSET;
}
}
if (daemon_reply(TTX, LMTP_DATA, "", INFO_LMTP_DATA)<=0)
goto CLOSE;
/*
* Read in the message from a DATA. I personally like to just hang up on
* a client stupid enough to pass in a NULL message for DATA, but you're
* welcome to do whatever you want.
*/
message = read_sock(TTX, ATX);
if (message == NULL || message->data == NULL || message->used == 0) {
daemon_reply(TTX, LMTP_FAILURE, "5.2.0", ERR_LMTP_MSG_NULL);
goto CLOSE;
}
/*
* Lock a database handle. We currently use the modulus of the socket
* id against the number of database connections in the cache. This
* seems to work rather well, as we would need to lock up the entire
* cache to wrap back around. And if we do wrap back around, that means
* we're busy enough to justify spinning on the current lock (vs. seeking
* out a free handle, which there likely are none).
*/
i = (TTX->sockfd % TTX->DTX->connection_cache);
LOGDEBUG("using database handle id %d", i);
if (TTX->DTX->flags & DRF_RWLOCK) {
if (ATX->operating_mode == DSM_CLASSIFY ||
ATX->training_mode == DST_NOTRAIN ||
(ATX->training_mode == DST_TOE && ATX->classification == DSR_NONE))
{
pthread_rwlock_rdlock(&TTX->DTX->connections[i]->rwlock);
} else {
pthread_rwlock_wrlock(&TTX->DTX->connections[i]->rwlock);
}
} else {
pthread_mutex_lock(&TTX->DTX->connections[i]->lock);
}
LOGDEBUG("handle locked");
ATX->dbh = TTX->DTX->connections[i]->dbh;
locked = i;
/* Process the message by tying back into the agent functions */
ATX->results = nt_create(NT_PTR);
if (ATX->results == NULL) {
LOG(LOG_CRIT, ERR_MEM_ALLOC);
goto CLOSE;
}
process_users(ATX, message);
/*
* Unlock the database handle as soon as we're done. We also need to
* refresh our handle index with a new handle if for some reason we
* had to re-establish a dewedged connection.
*/
if (TTX->DTX->connections[locked]->dbh != ATX->dbh)
TTX->DTX->connections[locked]->dbh = ATX->dbh;
if (TTX->DTX->flags & DRF_RWLOCK) {
pthread_rwlock_unlock(&TTX->DTX->connections[locked]->rwlock);
} else {
pthread_mutex_unlock(&TTX->DTX->connections[locked]->lock);
}
locked = -1;
/* Send a terminating '.' if --stdout in 'dspam' mode */
if (ATX->sockfd_output) {
if (send_socket(TTX, ".")<=0)
goto CLOSE;
/* Otherwise, produce standard delivery results */
} else {
struct nt_node *node_nt, *node_res = NULL;
struct nt_c c_nt;
if (ATX->recipients)
node_nt = c_nt_first(ATX->recipients, &c_nt);
else
node_nt = c_nt_first(ATX->users, &c_nt);
if (ATX->results)
node_res = ATX->results->first;
while(node_res && node_nt != NULL) {
agent_result_t result = (agent_result_t) node_res->ptr;
if (result != NULL && result->exitcode == ERC_SUCCESS)
{
if (server_mode == SSM_DSPAM) {
snprintf(buf, sizeof(buf),
"%d 2.6.0 <%s> Message accepted for delivery: %s",
LMTP_OK, (char *) node_nt->ptr,
(result->classification == DSR_ISSPAM) ? "SPAM" : "INNOCENT");
} else {
snprintf(buf, sizeof(buf),
"%d 2.6.0 <%s> Message accepted for delivery",
LMTP_OK, (char *) node_nt->ptr);
}
}
else
{
if (result != NULL && result->exitcode == ERC_PERMANENT_DELIVERY) {
snprintf(buf, sizeof(buf), "%d 5.3.0 <%s> %s",
LMTP_FAILURE, (char *) node_nt->ptr,
(result->text[0]) ? result->text : "Permanent error occured");
} else {
if (result != NULL && result->text[0]) {
snprintf(buf, sizeof(buf),
"%d 4.3.0 <%s> %s",
LMTP_TEMP_FAIL, (char *) node_nt->ptr, result->text);
} else {
snprintf(buf, sizeof(buf),
"%d 4.3.0 <%s> Error occured during %s",
LMTP_TEMP_FAIL, (char *) node_nt->ptr,
(result != NULL && result->exitcode == ERC_DELIVERY) ? "delivery" : "processing");
}
}
}
if (send_socket(TTX, buf)<=0)
goto CLOSE;
if (ATX->recipients)
node_nt = c_nt_next(ATX->recipients, &c_nt);
else
node_nt = c_nt_next(ATX->users, &c_nt);
if (node_res)
node_res = node_res->next;
}
}
/* Cleanup and get ready for another message */
RSET:
fflush(fd);
buffer_destroy(message);
message = NULL;
if (ATX != NULL) {
nt_destroy(ATX->users);
nt_destroy(ATX->recipients);
nt_destroy(ATX->results);
free(ATX);
ATX = NULL;
free(cmdline);
cmdline = NULL;
TTX->authenticated = 0;
/* argc = 0; */
}
free(p);
p = NULL;
} /* while(1) */
/* Close connection and return */
CLOSE:
if (locked>=0)
pthread_mutex_unlock(&TTX->DTX->connections[locked]->lock);
if (fd)
fclose(fd);
buffer_destroy(TTX->packet_buffer);
if (message)
buffer_destroy(message);
if (ATX != NULL) {
nt_destroy(ATX->users);
nt_destroy(ATX->recipients);
nt_destroy(ATX->results);
}
free(ATX);
free(cmdline);
free(TTX);
decrement_thread_count();
pthread_exit(0);
return 0;
}
