/* * (C) Copyright 1993-94, Herve Schauer Consultants * * This module written by Christophe.Wolfhugel@hsc-sec.fr * is to be used under the same conditions and terms (and absence * or warranties) than the other modules of the Sendmail package. * * ABSOLUTELY NO WARRANTY. USE AT YOUR OWN RISKS. * * Version: 940417, applied a patch from Paul Graham * (lockfile syntax in xla.c did not reflect anymore the * new one used by sendmail, now fine). * */ #ifdef XLA #ifndef MAXLARULES # define MAXLARULES 20 #endif # include "sendmail.h" typedef struct { short queue; /* # of connexions to have queueing */ short reject; /* # of conn. to reject */ short num; /* # of increments this process */ char *mask; /* Mask (domain) */ } XLARULE; char *XlaFname; /* Work file name */ char XlaHostName[1024]; /* Temporary */ int XlaNext; /* # of XlaRules */ pid_t XlaPid; /* Pid updating the tables */ XLARULE XlaRules[MAXLARULES]; /* The rules themselves */ short XlaCtr[MAXLARULES]; /* Counter (for work file only) */ extern bool lockfile(); /* ** XLAMATCH -- Matches a fnmatch like expression. ** ** Parameters: ** mask -- mask to match the string too; ** name -- string. ** ** Mask can either be a plain string or a simplified fnmatch like mask: ** *.string or string.* ** No other alternatives are accepted. ** ** Returns: ** none. ** ** Side Effects: ** none. */ bool XlaMatch(mask, name) char *mask, *name; { int l1, l2; l1 = strlen(mask); l2 = strlen(name); if (l1 == 1 && mask[0] == '*') return(TRUE); if (mask[0] == '*' && mask[1] == '.') { if (l2 < (l1 - 2)) return(FALSE); if (strcasecmp(&mask[2], name) == 0) return(TRUE); if (strcasecmp(&mask[1], name + l2 - l1 + 1) == 0) return(TRUE); return(FALSE); } if (l1 < 3) return(FALSE); if (mask[l1 -1] == '*') { if (l2 < l1 - 1) return(FALSE); if (strncasecmp(mask, name, l1 - 1) == 0) return(TRUE); return(FALSE); } if (strcasecmp(mask, name) == 0) return(TRUE); return(FALSE); } /* ** XLAZERO -- Zeroes the used variables ** ** Just initializes some variables, called once at sendmail ** startup. ** ** Parameters: ** none. ** ** Returns: ** none. ** ** Side Effects: ** none. */ xla_zero() { if (tTd(59, 1)) { printf("xla_zero\n"); } XlaFname = NULL; XlaNext = 0; XlaPid = 0; memset((char *) &XlaRules[0], 0, sizeof(XLARULE) * MAXLARULES); } /* ** XLAINIT -- initialized extended load average stuff ** ** This routine handles the L lines appearing in the configuration ** file. ** ** L/etc/sendmail.la indicates the working file ** Lmask #1 #2 Xtended LA to apply to mask ** #1 = Queueing # of connections ** #2 = Reject connections. ** ** Parameters: ** line -- the cf file line to parse. ** ** Returns: ** none. ** ** Side Effects: ** Builds several internal tables. */ xla_init(line) char *line; { char *s; if (tTd(59, 1)) { printf("xla_init line: %s\n", line); } if (XlaFname == NULL && *line == '/') { /* Work file name */ XlaFname = newstr(line); if (tTd(59, 10)) printf("xla_init: fname = %s\n", XlaFname); return; } if (XlaNext == MAXLARULES) { syserr("too many xla rules defined (%d max)", MAXLARULES); return; } s = strtok(line, " \t"); if (s == NULL) { syserr("xla: line unparseable"); return; } XlaRules[XlaNext].mask = newstr(s); s = strtok(NULL, " \t"); if (s == NULL) { syserr("xla: line unparseable"); return; } XlaRules[XlaNext].queue = atoi(s); s = strtok(NULL, " \t"); if (s == NULL) { syserr("xla: line unparseable"); return; } XlaRules[XlaNext].reject = atoi(s); if (tTd(59, 10)) printf("xla_init: rule #%d = %s q=%d r=%d\n", XlaNext, XlaRules[XlaNext].mask, XlaRules[XlaNext].queue, XlaRules[XlaNext].reject); XlaNext++; } /* ** XLACREATEFILE -- Create the working file ** ** Tries to create the working file, called each time sendmail is ** invoked with the -bd option. ** ** Parameters: ** none. ** ** Returns: ** none. ** ** Side Effects: ** Creates the working file (sendmail.la) and zeroes it. */ xla_create_file() { int fd, i; if (tTd(59, 1)) printf("xla_create_file:\n"); if (XlaFname == NULL) return; fd = open(XlaFname, O_RDWR|O_CREAT, 0644); if (fd == -1) { XlaFname = NULL; syserr("xla_create_file: open failed"); return; } if (!lockfile(fd, XlaFname, NULL, LOCK_EX)) { close(fd); XlaFname = NULL; syserr("xla_create_file: can't set lock"); return; } if (ftruncate(fd, 0) == -1) { close(fd); XlaFname = NULL; syserr("xla_create_file: can't truncate XlaFname"); return; } if (write(fd, XlaCtr, sizeof(XlaCtr)) != sizeof(XlaCtr)) { XlaFname == NULL; syserr("xla_create_file: can't write XlaFname"); } close(fd); } /* ** XLASMTPOK -- Checks if all slots are in use ** ** Check is there are still some slots available for an SMTP ** connection. ** ** Parameters: ** none. ** ** Returns: ** TRUE -- slots are available; ** FALSE -- no more slots. ** ** Side Effects: ** Reads a file, uses a lock and updates sendmail.la if a slot ** is free for use. */ bool xla_smtp_ok() { int fd, i; if (tTd(59, 1)) printf("xla_smtp_ok:\n"); if (XlaFname == NULL) return(TRUE); fd = open(XlaFname, O_RDWR, 0644); if (fd == -1) { XlaFname = NULL; syserr("xla_smtp_ok: open failed"); return(TRUE); } if (!lockfile(fd, XlaFname, NULL, LOCK_EX)) { close(fd); XlaFname = NULL; syserr("xla_smtp_ok: can't set lock"); return(TRUE); } if (read(fd, XlaCtr, sizeof(XlaCtr)) != sizeof(XlaCtr)) { close(fd); XlaFname = NULL; syserr("xla_smtp_ok: can't read XlaFname"); return(TRUE); } close(fd); for (i = 0; i < XlaNext; i++) { if (XlaCtr[i] < XlaRules[i].reject) return(TRUE); } return(FALSE); } /* ** XLAHOSTOK -- Can we accept a connection from this host ** ** Check the quota for the indicated host ** ** Parameters: ** name -- host name or IP# (string) ** ** Returns: ** TRUE -- we can accept the connection; ** FALSE -- we must refuse the connection.1 ** ** Side Effects: ** Reads and writes a file, uses a lock and still updates ** sendmail.la is a slot gets assigned. */ bool xla_host_ok(name) char *name; { int fd, i; if (tTd(59, 1)) printf("xla_host_ok:\n"); if (XlaFname == NULL) return(TRUE); fd = open(XlaFname, O_RDWR, 0644); if (fd == -1) { XlaFname = NULL; syserr("xla_host_ok: open failed"); return(TRUE); } XlaPid = getpid(); if (!lockfile(fd, XlaFname, NULL, LOCK_EX)) { close(fd); XlaFname = NULL; syserr("xla_host_ok: can't set lock"); return(TRUE); } if (read(fd, XlaCtr, sizeof(XlaCtr)) != sizeof(XlaCtr)) { close(fd); XlaFname = NULL; syserr("xla_smtp_ok: can't read XlaFname"); return(TRUE); } strncpy(XlaHostName, name, sizeof(XlaHostName) -1); XlaHostName[sizeof(XlaHostName) -1] = 0; i = strlen(name) - 1; if (i >= 0 && XlaHostName[i] == '.') XlaHostName[i] = 0; for (i = 0; i < XlaNext; i++) { if (XlaMatch(XlaRules[i].mask, XlaHostName)) { if (XlaCtr[i] < XlaRules[i].reject) { if (XlaRules[i].num++ == 0) { XlaCtr[i]++; lseek(fd, i*sizeof(XlaCtr[i]), SEEK_SET); if (write(fd, &XlaCtr[i], sizeof(XlaCtr[i])) != sizeof(XlaCtr[i])) XlaFname = NULL; } close(fd); return(TRUE); } close(fd); return(FALSE); } } close(fd); return(TRUE); } /* ** XLANOQUEUEOK -- Can we sent this message to the remote host ** ** Check if we can send to the remote host ** ** Parameters: ** name -- host name or IP# (string) ** ** Returns: ** TRUE -- we can send the message to the remote site; ** FALSE -- we can't connect the remote host, queue. ** ** Side Effects: ** Reads and writes a file, uses a lock. ** And still updates the sendmail.la file. */ bool xla_noqueue_ok(name) char *name; { int fd, i; if (tTd(59, 1)) printf("xla_noqueue_ok:\n"); if (XlaFname == NULL) return(TRUE); fd = open(XlaFname, O_RDWR, 0644); if (fd == -1) { XlaFname = NULL; syserr("xla_noqueue_ok: open failed"); return(TRUE); } if (!lockfile(fd, XlaFname, NULL, LOCK_EX)) { close(fd); XlaFname = NULL; syserr("xla_noqueue_ok: can't set lock"); return(TRUE); } XlaPid = getpid(); if (read(fd, XlaCtr, sizeof(XlaCtr)) != sizeof(XlaCtr)) { close(fd); XlaFname = NULL; syserr("xla_noqueue_ok: can't read XlaFname"); return(TRUE); } strncpy(XlaHostName, name, sizeof(XlaHostName) -1); XlaHostName[sizeof(XlaHostName) -1] = 0; i = strlen(name) - 1; if (i >= 0 && XlaHostName[i] == '.') XlaHostName[i] = 0; for (i = 0; i < XlaNext; i++) { if (XlaMatch(XlaRules[i].mask, XlaHostName)) { if (XlaCtr[i] < XlaRules[i].queue) { if (XlaRules[i].num++ == 0) { XlaCtr[i]++; lseek(fd, i*sizeof(XlaCtr[i]), SEEK_SET); if (write(fd, &XlaCtr[i], sizeof(XlaCtr[i])) != sizeof(XlaCtr[i])) XlaFname = NULL; } close(fd); return(TRUE); } close(fd); return(FALSE); } } close(fd); return(TRUE); } /* ** XLAHOSTEND -- Notice that a connection is terminated. ** ** Updates the counters to reflect the end of an SMTP session ** (in or outgoing). ** ** Parameters: ** name -- host name or IP# (string) ** ** Returns: ** none. ** ** Side Effects: ** Reads and writes a file, uses a lock. ** And still updates sendmail.la. */ xla_host_end(name) char *name; { int fd, i; if (tTd(59, 1)) printf("xla_host_end:\n"); if (XlaFname == NULL || XlaPid != getpid()) return; fd = open(XlaFname, O_RDWR, 0644); if (fd == -1) { XlaFname = NULL; syserr("xla_host_end: open failed"); return; } if (!lockfile(fd, XlaFname, NULL, LOCK_EX)) { close(fd); XlaFname = NULL; syserr("xla_host_end: can't set lock"); return; } if (read(fd, XlaCtr, sizeof(XlaCtr)) != sizeof(XlaCtr)) { close(fd); XlaFname = NULL; syserr("xla_host_end: can't read XlaFname"); return(TRUE); } strncpy(XlaHostName, name, sizeof(XlaHostName) -1); XlaHostName[sizeof(XlaHostName) -1] = 0; i = strlen(name) - 1; if (i >= 0 && XlaHostName[i] == '.') XlaHostName[i] = 0; for (i = 0; i < XlaNext; i++) { if (XlaMatch(XlaRules[i].mask, XlaHostName)) { if (XlaRules[i].num > 0 && XlaRules[i].num-- == 1) { if (XlaCtr[i]) XlaCtr[i]--; lseek(fd, i*sizeof(XlaCtr[i]), SEEK_SET); if (write(fd, &XlaCtr[i], sizeof(XlaCtr[i])) != sizeof(XlaCtr[i])) XlaFname = NULL; } close(fd); return; } } close(fd); } /* ** XLAALLEND -- Mark all connections as closed. ** ** Generally due to an emergency exit. ** ** Parameters: ** name -- host name or IP# (string) ** ** Returns: ** none. ** ** Side Effects: ** Reads and writes a file, uses a lock. ** And guess what: updates sendmail.la. */ xla_all_end() { int fd, i; if (tTd(59, 1)) printf("xla_all_end:\n"); if (XlaFname == NULL || XlaPid != getpid()) return; fd = open(XlaFname, O_RDWR, 0644); if (fd == -1) { XlaFname = NULL; syserr("xla_all_end: open failed"); return; } if (!lockfile(fd, XlaFname, NULL, LOCK_EX)) { close(fd); XlaFname = NULL; syserr("xla_all_end: can't set lock"); return; } if (read(fd, XlaCtr, sizeof(XlaCtr)) != sizeof(XlaCtr)) { close(fd); XlaFname = NULL; syserr("xla_all_end: can't read XlaFname"); return(TRUE); } for (i = 0; i < XlaNext; i++) { if (XlaCtr[i] > 0 && XlaRules[i].num > 0) { XlaCtr[i]--; XlaRules[i].num = 0; } } lseek(fd, 0, SEEK_SET); if (write(fd, XlaCtr, sizeof(XlaCtr)) != sizeof(XlaCtr)) { XlaFname = NULL; } close(fd); } #endif /* XLA */