#pragma ident "%Z%%M% %I% %E% SMI"

#include <sm/gen.h>

SM_RCSID("@(#)$Id: smfi.c,v 8.82 2007/01/20 06:37:19 ca Exp $")

#include <sm/varargs.h>

#include "libmilter.h"

static int smfi_header __P((SMFICTX *, int, int, char *, char *));

static int myisenhsc __P((const char *, int));

#define MAXREPLYLEN 980 /* max. length of a reply string */

#define MAXREPLIES 32 /* max. number of reply strings */

static int

smfi_header(ctx, cmd, hdridx, headerf, headerv)

SMFICTX *ctx;

int cmd;

int hdridx;

char *headerf;

char *headerv;

{

size_t len, l1, l2, offset;

int r;

mi_int32 v;

char *buf;

struct timeval timeout;

if (headerf == NULL || *headerf == '\0' || headerv == NULL)

return MI_FAILURE;

timeout.tv_sec = ctx->ctx_timeout;

timeout.tv_usec = 0;

l1 = strlen(headerf) + 1;

l2 = strlen(headerv) + 1;

len = l1 + l2;

if (hdridx >= 0)

len += MILTER_LEN_BYTES;

buf = malloc(len);

if (buf == NULL)

return MI_FAILURE;

offset = 0;

if (hdridx >= 0)

{

v = htonl(hdridx);

(void) memcpy(&(buf[0]), (void *) &v, MILTER_LEN_BYTES);

offset += MILTER_LEN_BYTES;

}

(void) memcpy(buf + offset, headerf, l1);

(void) memcpy(buf + offset + l1, headerv, l2);

r = mi_wr_cmd(ctx->ctx_sd, &timeout, cmd, buf, len);

free(buf);

return r;

}

smfi_addheader(ctx, headerf, headerv)

SMFICTX *ctx;

char *headerf;

char *headerv;

{

if (!mi_sendok(ctx, SMFIF_ADDHDRS))

return MI_FAILURE;

return smfi_header(ctx, SMFIR_ADDHEADER, -1, headerf, headerv);

}

smfi_insheader(ctx, hdridx, headerf, headerv)

SMFICTX *ctx;

int hdridx;

char *headerf;

char *headerv;

{

if (!mi_sendok(ctx, SMFIF_ADDHDRS) || hdridx < 0)

return MI_FAILURE;

return smfi_header(ctx, SMFIR_INSHEADER, hdridx, headerf, headerv);

}

smfi_chgheader(ctx, headerf, hdridx, headerv)

SMFICTX *ctx;

char *headerf;

mi_int32 hdridx;

char *headerv;

{

if (!mi_sendok(ctx, SMFIF_CHGHDRS) || hdridx < 0)

return MI_FAILURE;

if (headerv == NULL)

headerv = "";

return smfi_header(ctx, SMFIR_CHGHEADER, hdridx, headerf, headerv);

}

#if 0

static int

buf_crt_send __P((SMFICTX *, int cmd, char *, char **));

static int

buf_crt_send(ctx, cmd, arg0, argv)

SMFICTX *ctx;

int cmd;

char *arg0;

char **argv;

{

size_t len, l0, l1, offset;

int r;

char *buf, *arg, **argvl;

struct timeval timeout;

if (arg0 == NULL || *arg0 == '\0')

return MI_FAILURE;

timeout.tv_sec = ctx->ctx_timeout;

timeout.tv_usec = 0;

l0 = strlen(arg0) + 1;

len = l0;

argvl = argv;

while (argvl != NULL && (arg = *argv) != NULL && *arg != '\0')

{

l1 = strlen(arg) + 1;

len += l1;

SM_ASSERT(len > l1);

}

buf = malloc(len);

if (buf == NULL)

return MI_FAILURE;

(void) memcpy(buf, arg0, l0);

offset = l0;

argvl = argv;

while (argvl != NULL && (arg = *argv) != NULL && *arg != '\0')

{

l1 = strlen(arg) + 1;

SM_ASSERT(offset < len);

SM_ASSERT(offset + l1 <= len);

(void) memcpy(buf + offset, arg, l1);

offset += l1;

SM_ASSERT(offset > l1);

}

r = mi_wr_cmd(ctx->ctx_sd, &timeout, cmd, buf, len);

free(buf);

return r;

}

#endif /* 0 */

static int

send2 __P((SMFICTX *, int cmd, char *, char *));

static int

send2(ctx, cmd, arg0, arg1)

SMFICTX *ctx;

int cmd;

char *arg0;

char *arg1;

{

size_t len, l0, l1, offset;

int r;

char *buf;

struct timeval timeout;

if (arg0 == NULL || *arg0 == '\0')

return MI_FAILURE;

timeout.tv_sec = ctx->ctx_timeout;

timeout.tv_usec = 0;

l0 = strlen(arg0) + 1;

len = l0;

if (arg1 != NULL)

{

l1 = strlen(arg1) + 1;

len += l1;

SM_ASSERT(len > l1);

}

buf = malloc(len);

if (buf == NULL)

return MI_FAILURE;

(void) memcpy(buf, arg0, l0);

offset = l0;

if (arg1 != NULL)

{

l1 = strlen(arg1) + 1;

SM_ASSERT(offset < len);

SM_ASSERT(offset + l1 <= len);

(void) memcpy(buf + offset, arg1, l1);

offset += l1;

SM_ASSERT(offset > l1);

}

r = mi_wr_cmd(ctx->ctx_sd, &timeout, cmd, buf, len);

free(buf);

return r;

}

smfi_chgfrom(ctx, from, args)

SMFICTX *ctx;

char *from;

char *args;

{

if (from == NULL || *from == '\0')

return MI_FAILURE;

if (!mi_sendok(ctx, SMFIF_CHGFROM))

return MI_FAILURE;

return send2(ctx, SMFIR_CHGFROM, from, args);

}

smfi_setsymlist(ctx, where, macros)

SMFICTX *ctx;

int where;

char *macros;

{

SM_ASSERT(ctx != NULL);

if (macros == NULL || *macros == '\0')

return MI_FAILURE;

if (where < SMFIM_FIRST || where > SMFIM_LAST)

return MI_FAILURE;

if (where < 0 || where >= MAX_MACROS_ENTRIES)

return MI_FAILURE;

if (ctx->ctx_mac_list[where] != NULL)

return MI_FAILURE;

ctx->ctx_mac_list[where] = strdup(macros);

if (ctx->ctx_mac_list[where] == NULL)

return MI_FAILURE;

return MI_SUCCESS;

}

smfi_addrcpt_par(ctx, rcpt, args)

SMFICTX *ctx;

char *rcpt;

char *args;

{

if (rcpt == NULL || *rcpt == '\0')

return MI_FAILURE;

if (!mi_sendok(ctx, SMFIF_ADDRCPT_PAR))

return MI_FAILURE;

return send2(ctx, SMFIR_ADDRCPT_PAR, rcpt, args);

}

smfi_addrcpt(ctx, rcpt)

SMFICTX *ctx;

char *rcpt;

{

size_t len;

struct timeval timeout;

if (rcpt == NULL || *rcpt == '\0')

return MI_FAILURE;

if (!mi_sendok(ctx, SMFIF_ADDRCPT))

return MI_FAILURE;

timeout.tv_sec = ctx->ctx_timeout;

timeout.tv_usec = 0;

len = strlen(rcpt) + 1;

return mi_wr_cmd(ctx->ctx_sd, &timeout, SMFIR_ADDRCPT, rcpt, len);

}

smfi_delrcpt(ctx, rcpt)

SMFICTX *ctx;

char *rcpt;

{

size_t len;

struct timeval timeout;

if (rcpt == NULL || *rcpt == '\0')

return MI_FAILURE;

if (!mi_sendok(ctx, SMFIF_DELRCPT))

return MI_FAILURE;

timeout.tv_sec = ctx->ctx_timeout;

timeout.tv_usec = 0;

len = strlen(rcpt) + 1;

return mi_wr_cmd(ctx->ctx_sd, &timeout, SMFIR_DELRCPT, rcpt, len);

}

smfi_replacebody(ctx, bodyp, bodylen)

SMFICTX *ctx;

unsigned char *bodyp;

int bodylen;

{

int len, off, r;

struct timeval timeout;

if (bodylen < 0 ||

(bodyp == NULL && bodylen > 0))

return MI_FAILURE;

if (!mi_sendok(ctx, SMFIF_CHGBODY))

return MI_FAILURE;

timeout.tv_sec = ctx->ctx_timeout;

timeout.tv_usec = 0;

/* split body chunk if necessary */

off = 0;

do

{

len = (bodylen >= MILTER_CHUNK_SIZE) ? MILTER_CHUNK_SIZE :

bodylen;

if ((r = mi_wr_cmd(ctx->ctx_sd, &timeout, SMFIR_REPLBODY,

(char *) (bodyp + off), len)) != MI_SUCCESS)

return r;

off += len;

bodylen -= len;

} while (bodylen > 0);

return MI_SUCCESS;

}

smfi_quarantine(ctx, reason)

SMFICTX *ctx;

char *reason;

{

size_t len;

int r;

char *buf;

struct timeval timeout;

if (reason == NULL || *reason == '\0')

return MI_FAILURE;

if (!mi_sendok(ctx, SMFIF_QUARANTINE))

return MI_FAILURE;

timeout.tv_sec = ctx->ctx_timeout;

timeout.tv_usec = 0;

len = strlen(reason) + 1;

buf = malloc(len);

if (buf == NULL)

return MI_FAILURE;

(void) memcpy(buf, reason, len);

r = mi_wr_cmd(ctx->ctx_sd, &timeout, SMFIR_QUARANTINE, buf, len);

free(buf);

return r;

}

static int

myisenhsc(s, delim)

const char *s;

int delim;

{

int l, h;

if (s == NULL)

return 0;

if (!((*s == '2' || *s == '4' || *s == '5') && s[1] == '.'))

return 0;

h = 0;

l = 2;

while (h < 3 && isascii(s[l + h]) && isdigit(s[l + h]))

++h;

if (h == 0 || s[l + h] != '.')

return 0;

l += h + 1;

h = 0;

while (h < 3 && isascii(s[l + h]) && isdigit(s[l + h]))

++h;

if (h == 0 || s[l + h] != delim)

return 0;

return l + h;

}

smfi_setreply(ctx, rcode, xcode, message)

SMFICTX *ctx;

char *rcode;

char *xcode;

char *message;

{

size_t len;

char *buf;

if (rcode == NULL || ctx == NULL)

return MI_FAILURE;

/* ### <sp> \0 */

len = strlen(rcode) + 2;

if (len != 5)

return MI_FAILURE;

if ((rcode[0] != '4' && rcode[0] != '5') ||

!isascii(rcode[1]) || !isdigit(rcode[1]) ||

!isascii(rcode[2]) || !isdigit(rcode[2]))

return MI_FAILURE;

if (xcode != NULL)

{

if (!myisenhsc(xcode, '\0'))

return MI_FAILURE;

len += strlen(xcode) + 1;

}

if (message != NULL)

{

size_t ml;

/* XXX check also for unprintable chars? */

if (strpbrk(message, "\r\n") != NULL)

return MI_FAILURE;

ml = strlen(message);

if (ml > MAXREPLYLEN)

return MI_FAILURE;

len += ml + 1;

}

buf = malloc(len);

if (buf == NULL)

return MI_FAILURE; /* oops */

(void) sm_strlcpy(buf, rcode, len);

(void) sm_strlcat(buf, " ", len);

if (xcode != NULL)

(void) sm_strlcat(buf, xcode, len);

if (message != NULL)

{

if (xcode != NULL)

(void) sm_strlcat(buf, " ", len);

(void) sm_strlcat(buf, message, len);

}

if (ctx->ctx_reply != NULL)

free(ctx->ctx_reply);

ctx->ctx_reply = buf;

return MI_SUCCESS;

}

#if SM_VA_STD

smfi_setmlreply(SMFICTX *ctx, const char *rcode, const char *xcode, ...)

#else /* SM_VA_STD */

smfi_setmlreply(ctx, rcode, xcode, va_alist)

SMFICTX *ctx;

const char *rcode;

const char *xcode;

va_dcl

#endif /* SM_VA_STD */

{

size_t len;

size_t rlen;

int args;

char *buf, *txt;

const char *xc;

char repl[16];

SM_VA_LOCAL_DECL

if (rcode == NULL || ctx == NULL)

return MI_FAILURE;

/* ### <sp> */

len = strlen(rcode) + 1;

if (len != 4)

return MI_FAILURE;

if ((rcode[0] != '4' && rcode[0] != '5') ||

!isascii(rcode[1]) || !isdigit(rcode[1]) ||

!isascii(rcode[2]) || !isdigit(rcode[2]))

return MI_FAILURE;

if (xcode != NULL)

{

if (!myisenhsc(xcode, '\0'))

return MI_FAILURE;

xc = xcode;

}

else

{

if (rcode[0] == '4')

xc = "4.0.0";

else

xc = "5.0.0";

}

/* add trailing space */

len += strlen(xc) + 1;

rlen = len;

args = 0;

SM_VA_START(ap, xcode);

while ((txt = SM_VA_ARG(ap, char *)) != NULL)

{

size_t tl;

tl = strlen(txt);

if (tl > MAXREPLYLEN)

break;

/* this text, reply codes, \r\n */

len += tl + 2 + rlen;

if (++args > MAXREPLIES)

break;

/* XXX check also for unprintable chars? */

if (strpbrk(txt, "\r\n") != NULL)

break;

}

SM_VA_END(ap);

if (txt != NULL)

return MI_FAILURE;

/* trailing '\0' */

++len;

buf = malloc(len);

if (buf == NULL)

return MI_FAILURE; /* oops */

(void) sm_strlcpyn(buf, len, 3, rcode, args == 1 ? " " : "-", xc);

(void) sm_strlcpyn(repl, sizeof repl, 4, rcode, args == 1 ? " " : "-",

xc, " ");

SM_VA_START(ap, xcode);

txt = SM_VA_ARG(ap, char *);

if (txt != NULL)

{

(void) sm_strlcat2(buf, " ", txt, len);

while ((txt = SM_VA_ARG(ap, char *)) != NULL)

{

if (--args <= 1)

repl[3] = ' ';

(void) sm_strlcat2(buf, "\r\n", repl, len);

(void) sm_strlcat(buf, txt, len);

}

}

if (ctx->ctx_reply != NULL)

free(ctx->ctx_reply);

ctx->ctx_reply = buf;

SM_VA_END(ap);

return MI_SUCCESS;

}

smfi_setpriv(ctx, privatedata)

SMFICTX *ctx;

void *privatedata;

{

if (ctx == NULL)

return MI_FAILURE;

ctx->ctx_privdata = privatedata;

return MI_SUCCESS;

}

void *

smfi_getpriv(ctx)

SMFICTX *ctx;

{

if (ctx == NULL)

return NULL;

return ctx->ctx_privdata;

}

char *

smfi_getsymval(ctx, symname)

SMFICTX *ctx;

char *symname;

{

int i;

char **s;

char one[2];

char braces[4];

if (ctx == NULL || symname == NULL || *symname == '\0')

return NULL;

if (strlen(symname) == 3 && symname[0] == '{' && symname[2] == '}')

{

one[0] = symname[1];

one[1] = '\0';

}

else

one[0] = '\0';

if (strlen(symname) == 1)

{

braces[0] = '{';

braces[1] = *symname;

braces[2] = '}';

braces[3] = '\0';

}

else

braces[0] = '\0';

/* search backwards through the macro array */

for (i = MAX_MACROS_ENTRIES - 1 ; i >= 0; --i)

{

if ((s = ctx->ctx_mac_ptr[i]) == NULL ||

ctx->ctx_mac_buf[i] == NULL)

continue;

while (s != NULL && *s != NULL)

{

if (strcmp(*s, symname) == 0)

return *++s;

if (one[0] != '\0' && strcmp(*s, one) == 0)

return *++s;

if (braces[0] != '\0' && strcmp(*s, braces) == 0)

return *++s;

++s; /* skip over macro value */

++s; /* points to next macro name */

}

}

return NULL;

}

smfi_progress(ctx)

SMFICTX *ctx;

{

struct timeval timeout;

if (ctx == NULL)

return MI_FAILURE;

timeout.tv_sec = ctx->ctx_timeout;

timeout.tv_usec = 0;

return mi_wr_cmd(ctx->ctx_sd, &timeout, SMFIR_PROGRESS, NULL, 0);

}

smfi_version(major, minor, patchlevel)

unsigned int *major;

unsigned int *minor;

unsigned int *patchlevel;

{

if (major != NULL)

*major = SM_LM_VRS_MAJOR(SMFI_VERSION);

if (minor != NULL)

*minor = SM_LM_VRS_MINOR(SMFI_VERSION);

if (patchlevel != NULL)

*patchlevel = SM_LM_VRS_MINOR(SMFI_VERSION);

return MI_SUCCESS;

}