void
version_init(void)
{
int i = 0;
uschar today[20];
version_string = US"2.06";
Ustrcpy(today, __DATE__);
if (today[4] == ' ') i = 1;
today[3] = today[6] = '-';
version_date = (uschar *)malloc(32);
version_date[0] = 0;
Ustrncat(version_date, today+4+i, 3-i);
Ustrncat(version_date, today, 4);
Ustrncat(version_date, today+7, 4);
Ustrcat(version_date, " ");
Ustrcat(version_date, __TIME__);
}
static void set_output_name(EDITINFO *einf)
{
int i=0,l;
if (einf->outputname) free(einf->outputname);
i= Ustrlen(latexdir);
l = i+Ustrlen(einf->filename)+15;
einf->outputname = (Char*) malloc(sizeof(Char)*l);
if (latexdir[i-1]=='/')
concat_in(einf->outputname,latexdir,einf->filename);
else {
Ustrcpy(einf->outputname,latexdir);
einf->outputname[i]='/';
einf->outputname[i+1]=0;
Ustrcat(einf->outputname, einf->filename);
}
if (output_mode==ASCII)
Ustrncat(einf->outputname, translate(".asc"),l);
else
Ustrncat(einf->outputname, translate(".tex"),l);
}
int dcc_process(uschar **listptr) {
int sep = 0;
uschar *list = *listptr;
FILE *data_file;
uschar *dcc_daemon_ip = US"";
uschar *dcc_default_ip_option = US"127.0.0.1";
uschar *dcc_ip_option = US"";
uschar *dcc_helo_option = US"localhost";
uschar *dcc_reject_message = US"Rejected by DCC";
uschar *xtra_hdrs = NULL;
/* from local_scan */
int i, j, k, c, retval, sockfd, resp, line;
unsigned int portnr;
struct sockaddr_un serv_addr;
struct sockaddr_in serv_addr_in;
struct hostent *ipaddress;
uschar sockpath[128];
uschar sockip[40], client_ip[40];
uschar opts[128];
uschar rcpt[128], from[128];
uschar sendbuf[4096];
uschar recvbuf[4096];
uschar dcc_return_text[1024];
uschar mbox_path[1024];
uschar message_subdir[2];
struct header_line *dcchdr;
uschar *dcc_acl_options;
uschar dcc_acl_options_buffer[10];
uschar dcc_xtra_hdrs[1024];
/* grep 1st option */
if ((dcc_acl_options = string_nextinlist(&list, &sep,
dcc_acl_options_buffer,
sizeof(dcc_acl_options_buffer))) != NULL)
{
/* parse 1st option */
if ( (strcmpic(dcc_acl_options,US"false") == 0) ||
(Ustrcmp(dcc_acl_options,"0") == 0) ) {
/* explicitly no matching */
return FAIL;
};
/* special cases (match anything except empty) */
if ( (strcmpic(dcc_acl_options,US"true") == 0) ||
(Ustrcmp(dcc_acl_options,"*") == 0) ||
(Ustrcmp(dcc_acl_options,"1") == 0) ) {
dcc_acl_options = dcc_acl_options;
};
}
else {
/* empty means "don't match anything" */
return FAIL;
};
sep = 0;
/* if we scanned this message last time, just return */
if ( dcc_ok )
return dcc_rc;
/* open the spooled body */
message_subdir[1] = '\0';
for (i = 0; i < 2; i++) {
message_subdir[0] = (split_spool_directory == (i == 0))? message_id[5] : 0;
sprintf(CS mbox_path, "%s/input/%s/%s-D", spool_directory, message_subdir, message_id);
data_file = Ufopen(mbox_path,"rb");
if (data_file != NULL)
break;
};
if (data_file == NULL) {
/* error while spooling */
log_write(0, LOG_MAIN|LOG_PANIC,
"dcc acl condition: error while opening spool file");
return DEFER;
};
/* Initialize the variables */
bzero(sockip,sizeof(sockip));
if (dccifd_address) {
if (dccifd_address[0] == '/')
Ustrncpy(sockpath, dccifd_address, sizeof(sockpath));
else
if( sscanf(CS dccifd_address, "%s %u", sockip, &portnr) != 2) {
log_write(0, LOG_MAIN,
"dcc acl condition: warning - invalid dccifd address: '%s'", dccifd_address);
(void)fclose(data_file);
return DEFER;
}
}
/* opts is what we send as dccifd options - see man dccifd */
/* We don't support any other option than 'header' so just copy that */
bzero(opts,sizeof(opts));
Ustrncpy(opts, "header", sizeof(opts)-1);
Ustrncpy(client_ip, dcc_ip_option, sizeof(client_ip)-1);
/* If the dcc_client_ip is not provided use the
* sender_host_address or 127.0.0.1 if it is NULL */
DEBUG(D_acl)
debug_printf("my_ip_option = %s - client_ip = %s - sender_host_address = %s\n", dcc_ip_option, client_ip, sender_host_address);
if(!(Ustrcmp(client_ip, ""))){
/* Do we have a sender_host_address or is it NULL? */
if(sender_host_address){
Ustrncpy(client_ip, sender_host_address, sizeof(client_ip)-1);
} else {
/* sender_host_address is NULL which means it comes from localhost */
Ustrncpy(client_ip, dcc_default_ip_option, sizeof(client_ip)-1);
}
}
DEBUG(D_acl)
debug_printf("Client IP: %s\n", client_ip);
Ustrncpy(sockip, dcc_daemon_ip, sizeof(sockip)-1);
/* strncat(opts, my_request, strlen(my_request)); */
Ustrcat(opts, "\n");
Ustrncat(opts, client_ip, sizeof(opts)-Ustrlen(opts)-1);
Ustrncat(opts, "\nHELO ", sizeof(opts)-Ustrlen(opts)-1);
Ustrncat(opts, dcc_helo_option, sizeof(opts)-Ustrlen(opts)-2);
Ustrcat(opts, "\n");
/* initialize the other variables */
dcchdr = header_list;
/* we set the default return value to DEFER */
retval = DEFER;
bzero(sendbuf,sizeof(sendbuf));
bzero(dcc_header_str,sizeof(dcc_header_str));
bzero(rcpt,sizeof(rcpt));
bzero(from,sizeof(from));
/* send a null return path as "<>". */
if (Ustrlen(sender_address) > 0)
Ustrncpy(from, sender_address, sizeof(from));
else
Ustrncpy(from, "<>", sizeof(from));
Ustrncat(from, "\n", sizeof(from)-Ustrlen(from)-1);
/**************************************
* Now creating the socket connection *
**************************************/
/* If there is a dcc_daemon_ip, we use a tcp socket, otherwise a UNIX socket */
if(Ustrcmp(sockip, "")){
ipaddress = gethostbyname((char *)sockip);
bzero((char *) &serv_addr_in, sizeof(serv_addr_in));
serv_addr_in.sin_family = AF_INET;
bcopy((char *)ipaddress->h_addr, (char *)&serv_addr_in.sin_addr.s_addr, ipaddress->h_length);
serv_addr_in.sin_port = htons(portnr);
if ((sockfd = socket(AF_INET, SOCK_STREAM,0)) < 0){
DEBUG(D_acl)
debug_printf("Creating socket failed: %s\n", strerror(errno));
log_write(0,LOG_REJECT,"Creating socket failed: %s\n", strerror(errno));
/* if we cannot create the socket, defer the mail */
(void)fclose(data_file);
return retval;
}
/* Now connecting the socket (INET) */
if (connect(sockfd, (struct sockaddr *)&serv_addr_in, sizeof(serv_addr_in)) < 0){
DEBUG(D_acl)
debug_printf("Connecting socket failed: %s\n", strerror(errno));
log_write(0,LOG_REJECT,"Connecting socket failed: %s\n", strerror(errno));
/* if we cannot contact the socket, defer the mail */
(void)fclose(data_file);
return retval;
}
} else {
/* connecting to the dccifd UNIX socket */
bzero((char *)&serv_addr,sizeof(serv_addr));
serv_addr.sun_family = AF_UNIX;
Ustrcpy(serv_addr.sun_path, sockpath);
if ((sockfd = socket(AF_UNIX, SOCK_STREAM,0)) < 0){
DEBUG(D_acl)
debug_printf("Creating socket failed: %s\n", strerror(errno));
log_write(0,LOG_REJECT,"Creating socket failed: %s\n", strerror(errno));
/* if we cannot create the socket, defer the mail */
(void)fclose(data_file);
return retval;
}
/* Now connecting the socket (UNIX) */
if (connect(sockfd, (struct sockaddr *) &serv_addr, sizeof(serv_addr)) < 0){
DEBUG(D_acl)
debug_printf("Connecting socket failed: %s\n", strerror(errno));
log_write(0,LOG_REJECT,"Connecting socket failed: %s\n", strerror(errno));
/* if we cannot contact the socket, defer the mail */
(void)fclose(data_file);
return retval;
}
}
/* the socket is open, now send the options to dccifd*/
DEBUG(D_acl)
debug_printf("\n---------------------------\nSocket opened; now sending input\n-----------------\n");
/* First, fill in the input buffer */
Ustrncpy(sendbuf, opts, sizeof(sendbuf));
Ustrncat(sendbuf, from, sizeof(sendbuf)-Ustrlen(sendbuf)-1);
DEBUG(D_acl)
{
debug_printf("opts = %s\nsender = %s\nrcpt count = %d\n", opts, from, recipients_count);
debug_printf("Sending options:\n****************************\n");
}
/* let's send each of the recipients to dccifd */
for (i = 0; i < recipients_count; i++){
DEBUG(D_acl)
debug_printf("recipient = %s\n",recipients_list[i].address);
if(Ustrlen(sendbuf) + Ustrlen(recipients_list[i].address) > sizeof(sendbuf))
{
DEBUG(D_acl)
debug_printf("Writing buffer: %s\n", sendbuf);
flushbuffer(sockfd, sendbuf);
bzero(sendbuf, sizeof(sendbuf));
}
Ustrncat(sendbuf, recipients_list[i].address, sizeof(sendbuf)-Ustrlen(sendbuf)-1);
Ustrncat(sendbuf, "\r\n", sizeof(sendbuf)-Ustrlen(sendbuf)-1);
}
/* send a blank line between options and message */
Ustrncat(sendbuf, "\n", sizeof(sendbuf)-Ustrlen(sendbuf)-1);
/* Now we send the input buffer */
DEBUG(D_acl)
debug_printf("%s\n****************************\n", sendbuf);
flushbuffer(sockfd, sendbuf);
/* now send the message */
/* Clear the input buffer */
bzero(sendbuf, sizeof(sendbuf));
/* First send the headers */
/* Now send the headers */
DEBUG(D_acl)
debug_printf("Sending headers:\n****************************\n");
Ustrncpy(sendbuf, dcchdr->text, sizeof(sendbuf)-2);
while((dcchdr=dcchdr->next)) {
if(dcchdr->slen > sizeof(sendbuf)-2) {
/* The size of the header is bigger than the size of
* the input buffer, so split it up in smaller parts. */
flushbuffer(sockfd, sendbuf);
bzero(sendbuf, sizeof(sendbuf));
j = 0;
while(j < dcchdr->slen)
{
for(i = 0; i < sizeof(sendbuf)-2; i++) {
sendbuf[i] = dcchdr->text[j];
j++;
}
flushbuffer(sockfd, sendbuf);
bzero(sendbuf, sizeof(sendbuf));
}
} else if(Ustrlen(sendbuf) + dcchdr->slen > sizeof(sendbuf)-2) {
flushbuffer(sockfd, sendbuf);
bzero(sendbuf, sizeof(sendbuf));
Ustrncpy(sendbuf, dcchdr->text, sizeof(sendbuf)-2);
} else {
Ustrncat(sendbuf, dcchdr->text, sizeof(sendbuf)-Ustrlen(sendbuf)-2);
}
}
/* a blank line seperates header from body */
Ustrncat(sendbuf, "\n", sizeof(sendbuf)-Ustrlen(sendbuf)-1);
flushbuffer(sockfd, sendbuf);
DEBUG(D_acl)
debug_printf("\n****************************\n%s", sendbuf);
/* Clear the input buffer */
bzero(sendbuf, sizeof(sendbuf));
/* now send the body */
DEBUG(D_acl)
debug_printf("Writing body:\n****************************\n");
(void)fseek(data_file, SPOOL_DATA_START_OFFSET, SEEK_SET);
while((fread(sendbuf, 1, sizeof(sendbuf)-1, data_file)) > 0) {
flushbuffer(sockfd, sendbuf);
bzero(sendbuf, sizeof(sendbuf));
}
DEBUG(D_acl)
debug_printf("\n****************************\n");
/* shutdown() the socket */
if(shutdown(sockfd, 1) < 0){
DEBUG(D_acl)
debug_printf("Couldn't shutdown socket: %s\n", strerror(errno));
log_write(0,LOG_MAIN,"Couldn't shutdown socket: %s\n", strerror(errno));
/* If there is a problem with the shutdown()
* defer the mail. */
(void)fclose(data_file);
return retval;
}
DEBUG(D_acl)
debug_printf("\n-------------------------\nInput sent.\n-------------------------\n");
/********************************
* receiving output from dccifd *
********************************/
DEBUG(D_acl)
debug_printf("\n-------------------------------------\nNow receiving output from server\n-----------------------------------\n");
/******************************************************************
* We should get 3 lines: *
* 1/ First line is overall result: either 'A' for Accept, *
* 'R' for Reject, 'S' for accept Some recipients or *
* 'T' for a Temporary error. *
* 2/ Second line contains the list of Accepted/Rejected *
* recipients in the form AARRA (A = accepted, R = rejected). *
* 3/ Third line contains the X-DCC header. *
******************************************************************/
line = 1; /* we start at the first line of the output */
j = 0; /* will be used as index for the recipients list */
k = 0; /* initializing the index of the X-DCC header: dcc_header_str[k] */
/* Let's read from the socket until there's nothing left to read */
bzero(recvbuf, sizeof(recvbuf));
while((resp = read(sockfd, recvbuf, sizeof(recvbuf)-1)) > 0) {
/* How much did we get from the socket */
c = Ustrlen(recvbuf) + 1;
DEBUG(D_acl)
debug_printf("Length of the output buffer is: %d\nOutput buffer is:\n------------\n%s\n-----------\n", c, recvbuf);
/* Now let's read each character and see what we've got */
for(i = 0; i < c; i++) {
/* First check if we reached the end of the line and
* then increment the line counter */
if(recvbuf[i] == '\n') {
line++;
}
else {
/* The first character of the first line is the
* overall response. If there's another character
* on that line it is not correct. */
if(line == 1) {
if(i == 0) {
/* Now get the value and set the
* return value accordingly */
if(recvbuf[i] == 'A') {
DEBUG(D_acl)
debug_printf("Overall result = A\treturning OK\n");
Ustrcpy(dcc_return_text, "Mail accepted by DCC");
dcc_result = US"A";
retval = OK;
}
else if(recvbuf[i] == 'R') {
DEBUG(D_acl)
debug_printf("Overall result = R\treturning FAIL\n");
dcc_result = US"R";
retval = FAIL;
if(sender_host_name) {
log_write(0, LOG_MAIN, "H=%s [%s] F=<%s>: rejected by DCC", sender_host_name, sender_host_address, sender_address);
}
else {
log_write(0, LOG_MAIN, "H=[%s] F=<%s>: rejected by DCC", sender_host_address, sender_address);
}
Ustrncpy(dcc_return_text, dcc_reject_message, Ustrlen(dcc_reject_message) + 1);
}
else if(recvbuf[i] == 'S') {
DEBUG(D_acl)
debug_printf("Overall result = S\treturning OK\n");
Ustrcpy(dcc_return_text, "Not all recipients accepted by DCC");
/* Since we're in an ACL we want a global result
* so we accept for all */
dcc_result = US"A";
retval = OK;
}
else if(recvbuf[i] == 'G') {
DEBUG(D_acl)
debug_printf("Overall result = G\treturning FAIL\n");
Ustrcpy(dcc_return_text, "Greylisted by DCC");
dcc_result = US"G";
retval = FAIL;
}
else if(recvbuf[i] == 'T') {
DEBUG(D_acl)
debug_printf("Overall result = T\treturning DEFER\n");
retval = DEFER;
log_write(0,LOG_MAIN,"Temporary error with DCC: %s\n", recvbuf);
Ustrcpy(dcc_return_text, "Temporary error with DCC");
dcc_result = US"T";
}
else {
DEBUG(D_acl)
debug_printf("Overall result = something else\treturning DEFER\n");
retval = DEFER;
log_write(0,LOG_MAIN,"Unknown DCC response: %s\n", recvbuf);
Ustrcpy(dcc_return_text, "Unknown DCC response");
dcc_result = US"T";
}
}
else {
/* We're on the first line but not on the first character,
* there must be something wrong. */
DEBUG(D_acl)
debug_printf("Line = %d but i = %d != 0 character is %c - This is wrong!\n", line, i, recvbuf[i]);
log_write(0,LOG_MAIN,"Wrong header from DCC, output is %s\n", recvbuf);
}
}
else if(line == 2) {
/* On the second line we get a list of
* answers for each recipient. We don't care about
* it because we're in an acl and take the
* global result. */
}
else if(line > 2) {
/* The third and following lines are the X-DCC header,
* so we store it in dcc_header_str. */
/* check if we don't get more than we can handle */
if(k < sizeof(dcc_header_str)) {
dcc_header_str[k] = recvbuf[i];
k++;
}
else {
DEBUG(D_acl)
debug_printf("We got more output than we can store in the X-DCC header. Truncating at 120 characters.\n");
}
}
else {
/* Wrong line number. There must be a problem with the output. */
DEBUG(D_acl)
debug_printf("Wrong line number in output. Line number is %d\n", line);
}
}
}
/* we reinitialize the output buffer before we read again */
bzero(recvbuf,sizeof(recvbuf));
}
/* We have read everything from the socket */
/* We need to terminate the X-DCC header with a '\n' character. This needs to be k-1
* since dcc_header_str[k] contains '\0'. */
dcc_header_str[k-1] = '\n';
/* Now let's sum up what we've got. */
DEBUG(D_acl)
debug_printf("\n--------------------------\nOverall result = %d\nX-DCC header: %sReturn message: %s\ndcc_result: %s\n", retval, dcc_header_str, dcc_return_text, dcc_result);
/* We only add the X-DCC header if it starts with X-DCC */
if(!(Ustrncmp(dcc_header_str, "X-DCC", 5))){
dcc_header = dcc_header_str;
if(dcc_direct_add_header) {
header_add(' ' , "%s", dcc_header_str);
/* since the MIME ACL already writes the .eml file to disk without DCC Header we've to erase it */
unspool_mbox();
}
}
else {
DEBUG(D_acl)
debug_printf("Wrong format of the X-DCC header: %s\n", dcc_header_str);
}
/* check if we should add additional headers passed in acl_m_dcc_add_header */
if(dcc_direct_add_header) {
if (((xtra_hdrs = expand_string(US"$acl_m_dcc_add_header")) != NULL) && (xtra_hdrs[0] != '\0')) {
Ustrncpy(dcc_xtra_hdrs, xtra_hdrs, sizeof(dcc_xtra_hdrs) - 2);
if (dcc_xtra_hdrs[Ustrlen(dcc_xtra_hdrs)-1] != '\n')
Ustrcat(dcc_xtra_hdrs, "\n");
header_add(' ', "%s", dcc_xtra_hdrs);
DEBUG(D_acl)
debug_printf("adding additional headers in $acl_m_dcc_add_header: %s", dcc_xtra_hdrs);
}
}
dcc_ok = 1;
/* Now return to exim main process */
DEBUG(D_acl)
debug_printf("Before returning to exim main process:\nreturn_text = %s - retval = %d\ndcc_result = %s\n", dcc_return_text, retval, dcc_result);
(void)fclose(data_file);
dcc_rc = retval;
return dcc_rc;
}
