static void
check_relation_LHS_RANGE(const char *relation_string, FtypeCanFunc can_func _U_,
gboolean allow_partial_value,
stnode_t *st_node,
stnode_t *st_arg1, stnode_t *st_arg2)
{
stnode_t *new_st;
sttype_id_t type1, type2;
header_field_info *hfinfo1, *hfinfo2;
df_func_def_t *funcdef;
ftenum_t ftype1, ftype2;
fvalue_t *fvalue;
char *s;
drange_node *rn;
type1 = stnode_type_id(st_arg1);
type2 = stnode_type_id(st_arg2);
hfinfo1 = sttype_range_hfinfo(st_arg1);
ftype1 = hfinfo1->type;
DebugLog((" 5 check_relation_LHS_RANGE(%s)\n", relation_string));
if (!ftype_can_slice(ftype1)) {
dfilter_fail("\"%s\" is a %s and cannot be sliced into a sequence of bytes.",
hfinfo1->abbrev, ftype_pretty_name(ftype1));
THROW(TypeError);
}
check_drange_sanity(st_arg1);
if (type2 == STTYPE_FIELD) {
DebugLog((" 5 check_relation_LHS_RANGE(type2 = STTYPE_FIELD)\n"));
hfinfo2 = stnode_data(st_arg2);
ftype2 = hfinfo2->type;
if (!is_bytes_type(ftype2)) {
if (!ftype_can_slice(ftype2)) {
dfilter_fail("\"%s\" is a %s and cannot be converted into a sequence of bytes.",
hfinfo2->abbrev,
ftype_pretty_name(ftype2));
THROW(TypeError);
}
/* Convert entire field to bytes */
new_st = stnode_new(STTYPE_RANGE, NULL);
rn = drange_node_new();
drange_node_set_start_offset(rn, 0);
drange_node_set_to_the_end(rn);
/* st_arg2 is freed in this step */
sttype_range_set1(new_st, st_arg2, rn);
sttype_test_set2_args(st_node, st_arg1, new_st);
}
}
else if (type2 == STTYPE_STRING) {
DebugLog((" 5 check_relation_LHS_RANGE(type2 = STTYPE_STRING)\n"));
s = stnode_data(st_arg2);
if (strcmp(relation_string, "matches") == 0) {
/* Convert to a FT_PCRE */
fvalue = fvalue_from_string(FT_PCRE, s, dfilter_fail);
} else {
fvalue = fvalue_from_string(FT_BYTES, s, dfilter_fail);
}
if (!fvalue) {
DebugLog((" 5 check_relation_LHS_RANGE(type2 = STTYPE_STRING): Could not convert from string!\n"));
THROW(TypeError);
}
new_st = stnode_new(STTYPE_FVALUE, fvalue);
sttype_test_set2_args(st_node, st_arg1, new_st);
stnode_free(st_arg2);
}
else if (type2 == STTYPE_UNPARSED) {
DebugLog((" 5 check_relation_LHS_RANGE(type2 = STTYPE_UNPARSED)\n"));
s = stnode_data(st_arg2);
if (strcmp(relation_string, "matches") == 0) {
/* Convert to a FT_PCRE */
fvalue = fvalue_from_unparsed(FT_PCRE, s, FALSE, dfilter_fail);
} else {
fvalue = fvalue_from_unparsed(FT_BYTES, s, allow_partial_value, dfilter_fail);
}
if (!fvalue) {
DebugLog((" 5 check_relation_LHS_RANGE(type2 = STTYPE_UNPARSED): Could not convert from string!\n"));
THROW(TypeError);
}
new_st = stnode_new(STTYPE_FVALUE, fvalue);
sttype_test_set2_args(st_node, st_arg1, new_st);
stnode_free(st_arg2);
}
else if (type2 == STTYPE_RANGE) {
DebugLog((" 5 check_relation_LHS_RANGE(type2 = STTYPE_RANGE)\n"));
check_drange_sanity(st_arg2);
}
else if (type2 == STTYPE_FUNCTION) {
funcdef = sttype_function_funcdef(st_arg2);
ftype2 = funcdef->retval_ftype;
if (!is_bytes_type(ftype2)) {
if (!ftype_can_slice(ftype2)) {
dfilter_fail("Return value of function \"%s\" is a %s and cannot be converted into a sequence of bytes.",
funcdef->name,
ftype_pretty_name(ftype2));
THROW(TypeError);
}
/* XXX should I add a new drange node? */
}
check_function(st_arg2);
}
else {
g_assert_not_reached();
}
}
/* If the LHS of a relation test is a FUNCTION, run some checks
* and possibly some modifications of syntax tree nodes. */
static void
check_relation_LHS_FUNCTION(const char *relation_string, FtypeCanFunc can_func,
gboolean allow_partial_value,
stnode_t *st_node, stnode_t *st_arg1, stnode_t *st_arg2)
{
stnode_t *new_st;
sttype_id_t type2;
header_field_info *hfinfo2;
ftenum_t ftype1, ftype2;
fvalue_t *fvalue;
char *s;
drange_node *rn;
df_func_def_t *funcdef;
df_func_def_t *funcdef2;
GSList *params;
check_function(st_arg1);
type2 = stnode_type_id(st_arg2);
funcdef = sttype_function_funcdef(st_arg1);
ftype1 = funcdef->retval_ftype;
params = sttype_function_params(st_arg1);
DebugLog((" 5 check_relation_LHS_FUNCTION(%s)\n", relation_string));
if (!can_func(ftype1)) {
dfilter_fail("Function %s (type=%s) cannot participate in '%s' comparison.",
funcdef->name, ftype_pretty_name(ftype1),
relation_string);
THROW(TypeError);
}
if (type2 == STTYPE_FIELD) {
hfinfo2 = stnode_data(st_arg2);
ftype2 = hfinfo2->type;
if (!compatible_ftypes(ftype1, ftype2)) {
dfilter_fail("Function %s and %s are not of compatible types.",
funcdef->name, hfinfo2->abbrev);
THROW(TypeError);
}
/* Do this check even though you'd think that if
* they're compatible, then can_func() would pass. */
if (!can_func(ftype2)) {
dfilter_fail("%s (type=%s) cannot participate in specified comparison.",
hfinfo2->abbrev, ftype_pretty_name(ftype2));
THROW(TypeError);
}
}
else if (type2 == STTYPE_STRING) {
s = stnode_data(st_arg2);
if (strcmp(relation_string, "matches") == 0) {
/* Convert to a FT_PCRE */
fvalue = fvalue_from_string(FT_PCRE, s, dfilter_fail);
} else {
fvalue = fvalue_from_string(ftype1, s, dfilter_fail);
}
if (!fvalue) {
THROW(TypeError);
}
new_st = stnode_new(STTYPE_FVALUE, fvalue);
sttype_test_set2_args(st_node, st_arg1, new_st);
stnode_free(st_arg2);
}
else if (type2 == STTYPE_UNPARSED) {
s = stnode_data(st_arg2);
if (strcmp(relation_string, "matches") == 0) {
/* Convert to a FT_PCRE */
fvalue = fvalue_from_unparsed(FT_PCRE, s, FALSE, dfilter_fail);
} else {
fvalue = fvalue_from_unparsed(ftype1, s, allow_partial_value, dfilter_fail);
}
if (!fvalue) {
THROW(TypeError);
}
new_st = stnode_new(STTYPE_FVALUE, fvalue);
sttype_test_set2_args(st_node, st_arg1, new_st);
stnode_free(st_arg2);
}
else if (type2 == STTYPE_RANGE) {
check_drange_sanity(st_arg2);
if (!is_bytes_type(ftype1)) {
if (!ftype_can_slice(ftype1)) {
dfilter_fail("Function \"%s\" is a %s and cannot be converted into a sequence of bytes.",
funcdef->name,
ftype_pretty_name(ftype1));
THROW(TypeError);
}
/* Convert entire field to bytes */
new_st = stnode_new(STTYPE_RANGE, NULL);
rn = drange_node_new();
drange_node_set_start_offset(rn, 0);
drange_node_set_to_the_end(rn);
/* st_arg1 is freed in this step */
sttype_range_set1(new_st, st_arg1, rn);
sttype_test_set2_args(st_node, new_st, st_arg2);
}
}
else if (type2 == STTYPE_FUNCTION) {
funcdef2 = sttype_function_funcdef(st_arg2);
ftype2 = funcdef2->retval_ftype;
if (!compatible_ftypes(ftype1, ftype2)) {
dfilter_fail("Return values of function %s (type=%s) and function %s (type=%s) are not of compatible types.",
funcdef->name, ftype_pretty_name(ftype1), funcdef2->name, ftype_pretty_name(ftype2));
THROW(TypeError);
}
/* Do this check even though you'd think that if
* they're compatible, then can_func() would pass. */
if (!can_func(ftype2)) {
dfilter_fail("Return value of %s (type=%s) cannot participate in specified comparison.",
funcdef2->name, ftype_pretty_name(ftype2));
THROW(TypeError);
}
check_function(st_arg2);
}
else {
g_assert_not_reached();
}
}
static void
check_relation_LHS_UNPARSED(const char* relation_string,
FtypeCanFunc can_func, gboolean allow_partial_value,
stnode_t *st_node,
stnode_t *st_arg1, stnode_t *st_arg2)
{
stnode_t *new_st;
sttype_id_t type1, type2;
header_field_info *hfinfo2;
df_func_def_t *funcdef;
ftenum_t ftype2;
fvalue_t *fvalue;
char *s;
type1 = stnode_type_id(st_arg1);
type2 = stnode_type_id(st_arg2);
DebugLog((" 5 check_relation_LHS_UNPARSED()\n"));
if (type2 == STTYPE_FIELD) {
hfinfo2 = stnode_data(st_arg2);
ftype2 = hfinfo2->type;
if (!can_func(ftype2)) {
dfilter_fail("%s (type=%s) cannot participate in '%s' comparison.",
hfinfo2->abbrev, ftype_pretty_name(ftype2),
relation_string);
THROW(TypeError);
}
s = stnode_data(st_arg1);
fvalue = fvalue_from_unparsed(ftype2, s, allow_partial_value, dfilter_fail);
if (!fvalue) {
/* check value_string */
fvalue = mk_fvalue_from_val_string(hfinfo2, s);
if (!fvalue) {
THROW(TypeError);
}
}
new_st = stnode_new(STTYPE_FVALUE, fvalue);
sttype_test_set2_args(st_node, new_st, st_arg2);
stnode_free(st_arg1);
}
else if (type2 == STTYPE_STRING || type2 == STTYPE_UNPARSED) {
/* Well now that's silly... */
dfilter_fail("Neither \"%s\" nor \"%s\" are field or protocol names.",
stnode_data(st_arg1),
stnode_data(st_arg2));
THROW(TypeError);
}
else if (type2 == STTYPE_RANGE) {
check_drange_sanity(st_arg2);
s = stnode_data(st_arg1);
fvalue = fvalue_from_unparsed(FT_BYTES, s, allow_partial_value, dfilter_fail);
if (!fvalue) {
THROW(TypeError);
}
new_st = stnode_new(STTYPE_FVALUE, fvalue);
sttype_test_set2_args(st_node, new_st, st_arg2);
stnode_free(st_arg1);
}
else if (type2 == STTYPE_FUNCTION) {
funcdef = sttype_function_funcdef(st_arg2);
ftype2 = funcdef->retval_ftype;
if (!can_func(ftype2)) {
dfilter_fail("return value of function %s() (type=%s) cannot participate in '%s' comparison.",
funcdef->name, ftype_pretty_name(ftype2), relation_string);
THROW(TypeError);
}
s = stnode_data(st_arg1);
fvalue = fvalue_from_unparsed(ftype2, s, allow_partial_value, dfilter_fail);
if (!fvalue) {
THROW(TypeError);
}
check_function(st_arg2);
new_st = stnode_new(STTYPE_FVALUE, fvalue);
sttype_test_set2_args(st_node, new_st, st_arg2);
stnode_free(st_arg1);
}
else {
g_assert_not_reached();
}
}
static void
check_relation_LHS_RANGE(const char *relation_string, FtypeCanFunc can_func _U_,
gboolean allow_partial_value,
stnode_t *st_node,
stnode_t *st_arg1, stnode_t *st_arg2)
{
stnode_t *new_st;
sttype_id_t type2;
header_field_info *hfinfo1, *hfinfo2;
df_func_def_t *funcdef;
ftenum_t ftype1, ftype2;
fvalue_t *fvalue;
char *s;
drange_node *rn;
int len_range;
type2 = stnode_type_id(st_arg2);
hfinfo1 = sttype_range_hfinfo(st_arg1);
ftype1 = hfinfo1->type;
DebugLog((" 5 check_relation_LHS_RANGE(%s)\n", relation_string));
if (!ftype_can_slice(ftype1)) {
dfilter_fail("\"%s\" is a %s and cannot be sliced into a sequence of bytes.",
hfinfo1->abbrev, ftype_pretty_name(ftype1));
THROW(TypeError);
}
check_drange_sanity(st_arg1);
if (type2 == STTYPE_FIELD) {
DebugLog((" 5 check_relation_LHS_RANGE(type2 = STTYPE_FIELD)\n"));
hfinfo2 = stnode_data(st_arg2);
ftype2 = hfinfo2->type;
if (!is_bytes_type(ftype2)) {
if (!ftype_can_slice(ftype2)) {
dfilter_fail("\"%s\" is a %s and cannot be converted into a sequence of bytes.",
hfinfo2->abbrev,
ftype_pretty_name(ftype2));
THROW(TypeError);
}
/* Convert entire field to bytes */
new_st = stnode_new(STTYPE_RANGE, NULL);
rn = drange_node_new();
drange_node_set_start_offset(rn, 0);
drange_node_set_to_the_end(rn);
/* st_arg2 is freed in this step */
sttype_range_set1(new_st, st_arg2, rn);
sttype_test_set2_args(st_node, st_arg1, new_st);
}
}
else if (type2 == STTYPE_STRING) {
DebugLog((" 5 check_relation_LHS_RANGE(type2 = STTYPE_STRING)\n"));
s = stnode_data(st_arg2);
if (strcmp(relation_string, "matches") == 0) {
/* Convert to a FT_PCRE */
fvalue = fvalue_from_string(FT_PCRE, s, dfilter_fail);
} else {
fvalue = fvalue_from_string(FT_BYTES, s, dfilter_fail);
}
if (!fvalue) {
DebugLog((" 5 check_relation_LHS_RANGE(type2 = STTYPE_STRING): Could not convert from string!\n"));
THROW(TypeError);
}
new_st = stnode_new(STTYPE_FVALUE, fvalue);
sttype_test_set2_args(st_node, st_arg1, new_st);
stnode_free(st_arg2);
}
else if (type2 == STTYPE_UNPARSED) {
DebugLog((" 5 check_relation_LHS_RANGE(type2 = STTYPE_UNPARSED)\n"));
s = stnode_data(st_arg2);
len_range = drange_get_total_length(sttype_range_drange(st_arg1));
if (strcmp(relation_string, "matches") == 0) {
/* Convert to a FT_PCRE */
fvalue = fvalue_from_unparsed(FT_PCRE, s, FALSE, dfilter_fail);
}
/* The RHS should be FT_BYTES. However, there is a special case where
* the range slice on the LHS is one byte long. In that case, it is natural
* for the user to specify a normal hex integer on the RHS, with the "0x"
* notation, as in "slice[0] == 0x10". We can't allow this for any
* slices that are longer than one byte, because then we'd have to know
* which endianness the byte string should be in. */
else if (len_range == 1 && strlen(s) == 4 && strncmp(s, "0x", 2) == 0) {
/* Even if the RHS string starts with "0x", it still could fail to
* be an integer. Try converting it here. */
fvalue = fvalue_from_unparsed(FT_UINT8, s, allow_partial_value, dfilter_fail);
if (fvalue) {
FVALUE_FREE(fvalue);
/* The value doees indeed fit into 8 bits. Create a BYTE_STRING
* from it. Since we know that the last 2 characters are a valid
* hex string, just use those directly. */
fvalue = fvalue_from_unparsed(FT_BYTES, s+2, allow_partial_value, dfilter_fail);
}
}
else {
fvalue = fvalue_from_unparsed(FT_BYTES, s, allow_partial_value, dfilter_fail);
}
if (!fvalue) {
DebugLog((" 5 check_relation_LHS_RANGE(type2 = STTYPE_UNPARSED): Could not convert from string!\n"));
THROW(TypeError);
}
new_st = stnode_new(STTYPE_FVALUE, fvalue);
sttype_test_set2_args(st_node, st_arg1, new_st);
stnode_free(st_arg2);
}
else if (type2 == STTYPE_RANGE) {
DebugLog((" 5 check_relation_LHS_RANGE(type2 = STTYPE_RANGE)\n"));
check_drange_sanity(st_arg2);
}
else if (type2 == STTYPE_FUNCTION) {
funcdef = sttype_function_funcdef(st_arg2);
ftype2 = funcdef->retval_ftype;
if (!is_bytes_type(ftype2)) {
if (!ftype_can_slice(ftype2)) {
dfilter_fail("Return value of function \"%s\" is a %s and cannot be converted into a sequence of bytes.",
funcdef->name,
ftype_pretty_name(ftype2));
THROW(TypeError);
}
/* XXX should I add a new drange node? */
}
check_function(st_arg2);
}
else {
g_assert_not_reached();
}
}
/* If the LHS of a relation test is a FIELD, run some checks
* and possibly some modifications of syntax tree nodes. */
static void
check_relation_LHS_FIELD(const char *relation_string, FtypeCanFunc can_func,
gboolean allow_partial_value,
stnode_t *st_node, stnode_t *st_arg1, stnode_t *st_arg2)
{
stnode_t *new_st;
sttype_id_t type2;
header_field_info *hfinfo1, *hfinfo2;
df_func_def_t *funcdef;
ftenum_t ftype1, ftype2;
fvalue_t *fvalue;
char *s;
type2 = stnode_type_id(st_arg2);
hfinfo1 = (header_field_info*)stnode_data(st_arg1);
ftype1 = hfinfo1->type;
DebugLog((" 5 check_relation_LHS_FIELD(%s)\n", relation_string));
if (!can_func(ftype1)) {
dfilter_fail("%s (type=%s) cannot participate in '%s' comparison.",
hfinfo1->abbrev, ftype_pretty_name(ftype1),
relation_string);
THROW(TypeError);
}
if (type2 == STTYPE_FIELD) {
hfinfo2 = (header_field_info*)stnode_data(st_arg2);
ftype2 = hfinfo2->type;
if (!compatible_ftypes(ftype1, ftype2)) {
dfilter_fail("%s and %s are not of compatible types.",
hfinfo1->abbrev, hfinfo2->abbrev);
THROW(TypeError);
}
/* Do this check even though you'd think that if
* they're compatible, then can_func() would pass. */
if (!can_func(ftype2)) {
dfilter_fail("%s (type=%s) cannot participate in specified comparison.",
hfinfo2->abbrev, ftype_pretty_name(ftype2));
THROW(TypeError);
}
}
else if (type2 == STTYPE_STRING) {
s = (char *)stnode_data(st_arg2);
if (strcmp(relation_string, "matches") == 0) {
/* Convert to a FT_PCRE */
fvalue = fvalue_from_string(FT_PCRE, s, dfilter_fail);
} else {
fvalue = fvalue_from_string(ftype1, s, dfilter_fail);
if (!fvalue) {
/* check value_string */
fvalue = mk_fvalue_from_val_string(hfinfo1, s);
}
}
if (!fvalue) {
THROW(TypeError);
}
new_st = stnode_new(STTYPE_FVALUE, fvalue);
sttype_test_set2_args(st_node, st_arg1, new_st);
stnode_free(st_arg2);
}
else if (type2 == STTYPE_UNPARSED) {
s = (char *)stnode_data(st_arg2);
if (strcmp(relation_string, "matches") == 0) {
/* Convert to a FT_PCRE */
fvalue = fvalue_from_unparsed(FT_PCRE, s, FALSE, dfilter_fail);
} else {
do {
fvalue = fvalue_from_unparsed(ftype1, s, allow_partial_value, dfilter_fail);
if (!fvalue) {
/* check value_string */
fvalue = mk_fvalue_from_val_string(hfinfo1, s);
}
if (!fvalue) {
/* Try another field with the same name */
if (hfinfo1->same_name_prev_id != -1) {
hfinfo1 = proto_registrar_get_nth(hfinfo1->same_name_prev_id);
ftype1 = hfinfo1->type;
} else {
break;
}
}
} while (!fvalue);
}
if (!fvalue) {
THROW(TypeError);
}
new_st = stnode_new(STTYPE_FVALUE, fvalue);
sttype_test_set2_args(st_node, st_arg1, new_st);
stnode_free(st_arg2);
}
else if (type2 == STTYPE_RANGE) {
check_drange_sanity(st_arg2);
if (!is_bytes_type(ftype1)) {
if (!ftype_can_slice(ftype1)) {
dfilter_fail("\"%s\" is a %s and cannot be converted into a sequence of bytes.",
hfinfo1->abbrev,
ftype_pretty_name(ftype1));
THROW(TypeError);
}
/* Convert entire field to bytes */
new_st = convert_to_bytes(st_arg1);
sttype_test_set2_args(st_node, new_st, st_arg2);
}
}
else if (type2 == STTYPE_FUNCTION) {
funcdef = sttype_function_funcdef(st_arg2);
ftype2 = funcdef->retval_ftype;
if (!compatible_ftypes(ftype1, ftype2)) {
dfilter_fail("%s (type=%s) and return value of %s() (type=%s) are not of compatible types.",
hfinfo1->abbrev, ftype_pretty_name(ftype1),
funcdef->name, ftype_pretty_name(ftype2));
THROW(TypeError);
}
if (!can_func(ftype2)) {
dfilter_fail("return value of %s() (type=%s) cannot participate in specified comparison.",
funcdef->name, ftype_pretty_name(ftype2));
THROW(TypeError);
}
check_function(st_arg2);
}
else {
g_assert_not_reached();
}
}
/* If the LHS of a relation test is a FIELD, run some checks
* and possibly some modifications of syntax tree nodes. */
static void
check_relation_LHS_FIELD(dfwork_t *dfw, const char *relation_string,
FtypeCanFunc can_func, gboolean allow_partial_value,
stnode_t *st_node, stnode_t *st_arg1, stnode_t *st_arg2)
{
stnode_t *new_st;
sttype_id_t type2;
header_field_info *hfinfo1, *hfinfo2;
df_func_def_t *funcdef;
ftenum_t ftype1, ftype2;
fvalue_t *fvalue;
char *s;
type2 = stnode_type_id(st_arg2);
hfinfo1 = (header_field_info*)stnode_data(st_arg1);
ftype1 = hfinfo1->type;
if (stnode_type_id(st_node) == STTYPE_TEST) {
DebugLog((" 5 check_relation_LHS_FIELD(%s)\n", relation_string));
} else {
DebugLog((" 6 check_relation_LHS_FIELD(%s)\n", relation_string));
}
if (!can_func(ftype1)) {
dfilter_fail(dfw, "%s (type=%s) cannot participate in '%s' comparison.",
hfinfo1->abbrev, ftype_pretty_name(ftype1),
relation_string);
THROW(TypeError);
}
if (type2 == STTYPE_FIELD) {
hfinfo2 = (header_field_info*)stnode_data(st_arg2);
ftype2 = hfinfo2->type;
if (!compatible_ftypes(ftype1, ftype2)) {
dfilter_fail(dfw, "%s and %s are not of compatible types.",
hfinfo1->abbrev, hfinfo2->abbrev);
THROW(TypeError);
}
/* Do this check even though you'd think that if
* they're compatible, then can_func() would pass. */
if (!can_func(ftype2)) {
dfilter_fail(dfw, "%s (type=%s) cannot participate in specified comparison.",
hfinfo2->abbrev, ftype_pretty_name(ftype2));
THROW(TypeError);
}
}
else if (type2 == STTYPE_STRING || type2 == STTYPE_UNPARSED) {
s = (char *)stnode_data(st_arg2);
if (strcmp(relation_string, "matches") == 0) {
/* Convert to a FT_PCRE */
if (type2 == STTYPE_STRING)
fvalue = dfilter_fvalue_from_string(dfw, FT_PCRE, s);
else
fvalue = dfilter_fvalue_from_unparsed(dfw, FT_PCRE, s, FALSE);
} else {
/* Skip incompatible fields */
while (hfinfo1->same_name_prev_id != -1 &&
((type2 == STTYPE_STRING && ftype1 != FT_STRING && ftype1!= FT_STRINGZ) ||
(type2 != STTYPE_STRING && (ftype1 == FT_STRING || ftype1== FT_STRINGZ)))) {
hfinfo1 = proto_registrar_get_nth(hfinfo1->same_name_prev_id);
ftype1 = hfinfo1->type;
}
if (type2 == STTYPE_STRING)
fvalue = dfilter_fvalue_from_string(dfw, ftype1, s);
else
fvalue = dfilter_fvalue_from_unparsed(dfw, ftype1, s, allow_partial_value);
if (!fvalue) {
/* check value_string */
fvalue = mk_fvalue_from_val_string(dfw, hfinfo1, s);
}
}
if (!fvalue) {
THROW(TypeError);
}
new_st = stnode_new(STTYPE_FVALUE, fvalue);
if (stnode_type_id(st_node) == STTYPE_TEST) {
sttype_test_set2_args(st_node, st_arg1, new_st);
} else {
sttype_set_replace_element(st_node, st_arg2, new_st);
}
stnode_free(st_arg2);
}
else if (type2 == STTYPE_RANGE) {
check_drange_sanity(dfw, st_arg2);
if (!is_bytes_type(ftype1)) {
if (!ftype_can_slice(ftype1)) {
dfilter_fail(dfw, "\"%s\" is a %s and cannot be converted into a sequence of bytes.",
hfinfo1->abbrev,
ftype_pretty_name(ftype1));
THROW(TypeError);
}
/* Convert entire field to bytes */
new_st = convert_to_bytes(st_arg1);
sttype_test_set2_args(st_node, new_st, st_arg2);
}
}
else if (type2 == STTYPE_FUNCTION) {
funcdef = sttype_function_funcdef(st_arg2);
ftype2 = funcdef->retval_ftype;
if (!compatible_ftypes(ftype1, ftype2)) {
dfilter_fail(dfw, "%s (type=%s) and return value of %s() (type=%s) are not of compatible types.",
hfinfo1->abbrev, ftype_pretty_name(ftype1),
funcdef->name, ftype_pretty_name(ftype2));
THROW(TypeError);
}
if (!can_func(ftype2)) {
dfilter_fail(dfw, "return value of %s() (type=%s) cannot participate in specified comparison.",
funcdef->name, ftype_pretty_name(ftype2));
THROW(TypeError);
}
check_function(dfw, st_arg2);
}
else if (type2 == STTYPE_SET) {
GSList *nodelist;
/* A set should only ever appear on RHS of 'in' operation */
if (strcmp(relation_string, "in") != 0) {
g_assert_not_reached();
}
/* Attempt to interpret one element of the set at a time */
nodelist = (GSList*)stnode_data(st_arg2);
while (nodelist) {
stnode_t *node = (stnode_t*)nodelist->data;
/* Don't let a range on the RHS affect the LHS field. */
if (stnode_type_id(node) == STTYPE_RANGE) {
dfilter_fail(dfw, "A range may not appear inside a set.");
THROW(TypeError);
break;
}
check_relation_LHS_FIELD(dfw, "==", can_func,
allow_partial_value, st_arg2, st_arg1, node);
nodelist = g_slist_next(nodelist);
}
}
else {
g_assert_not_reached();
}
}
/* If the LHS of a relation test is a FUNCTION, run some checks
* and possibly some modifications of syntax tree nodes. */
static void
check_relation_LHS_FUNCTION(dfwork_t *dfw, const char *relation_string,
FtypeCanFunc can_func,
gboolean allow_partial_value,
stnode_t *st_node, stnode_t *st_arg1, stnode_t *st_arg2)
{
stnode_t *new_st;
sttype_id_t type2;
header_field_info *hfinfo2;
ftenum_t ftype1, ftype2;
fvalue_t *fvalue;
char *s;
df_func_def_t *funcdef;
df_func_def_t *funcdef2;
/* GSList *params; */
check_function(dfw, st_arg1);
type2 = stnode_type_id(st_arg2);
funcdef = sttype_function_funcdef(st_arg1);
ftype1 = funcdef->retval_ftype;
/* params = */sttype_function_params(st_arg1); /* XXX: is this done for the side-effect ? */
DebugLog((" 5 check_relation_LHS_FUNCTION(%s)\n", relation_string));
if (!can_func(ftype1)) {
dfilter_fail(dfw, "Function %s (type=%s) cannot participate in '%s' comparison.",
funcdef->name, ftype_pretty_name(ftype1),
relation_string);
THROW(TypeError);
}
if (type2 == STTYPE_FIELD) {
hfinfo2 = (header_field_info*)stnode_data(st_arg2);
ftype2 = hfinfo2->type;
if (!compatible_ftypes(ftype1, ftype2)) {
dfilter_fail(dfw, "Function %s and %s are not of compatible types.",
funcdef->name, hfinfo2->abbrev);
THROW(TypeError);
}
/* Do this check even though you'd think that if
* they're compatible, then can_func() would pass. */
if (!can_func(ftype2)) {
dfilter_fail(dfw, "%s (type=%s) cannot participate in specified comparison.",
hfinfo2->abbrev, ftype_pretty_name(ftype2));
THROW(TypeError);
}
}
else if (type2 == STTYPE_STRING) {
s = (char*)stnode_data(st_arg2);
if (strcmp(relation_string, "matches") == 0) {
/* Convert to a FT_PCRE */
fvalue = dfilter_fvalue_from_string(dfw, FT_PCRE, s);
} else {
fvalue = dfilter_fvalue_from_string(dfw, ftype1, s);
}
if (!fvalue) {
THROW(TypeError);
}
new_st = stnode_new(STTYPE_FVALUE, fvalue);
sttype_test_set2_args(st_node, st_arg1, new_st);
stnode_free(st_arg2);
}
else if (type2 == STTYPE_UNPARSED) {
s = (char*)stnode_data(st_arg2);
if (strcmp(relation_string, "matches") == 0) {
/* Convert to a FT_PCRE */
fvalue = dfilter_fvalue_from_unparsed(dfw, FT_PCRE, s, FALSE);
} else {
fvalue = dfilter_fvalue_from_unparsed(dfw, ftype1, s, allow_partial_value);
}
if (!fvalue) {
THROW(TypeError);
}
new_st = stnode_new(STTYPE_FVALUE, fvalue);
sttype_test_set2_args(st_node, st_arg1, new_st);
stnode_free(st_arg2);
}
else if (type2 == STTYPE_RANGE) {
check_drange_sanity(dfw, st_arg2);
if (!is_bytes_type(ftype1)) {
if (!ftype_can_slice(ftype1)) {
dfilter_fail(dfw, "Function \"%s\" is a %s and cannot be converted into a sequence of bytes.",
funcdef->name,
ftype_pretty_name(ftype1));
THROW(TypeError);
}
/* Convert function result to bytes */
new_st = convert_to_bytes(st_arg1);
sttype_test_set2_args(st_node, new_st, st_arg2);
}
}
else if (type2 == STTYPE_FUNCTION) {
funcdef2 = sttype_function_funcdef(st_arg2);
ftype2 = funcdef2->retval_ftype;
if (!compatible_ftypes(ftype1, ftype2)) {
dfilter_fail(dfw, "Return values of function %s (type=%s) and function %s (type=%s) are not of compatible types.",
funcdef->name, ftype_pretty_name(ftype1), funcdef2->name, ftype_pretty_name(ftype2));
THROW(TypeError);
}
/* Do this check even though you'd think that if
* they're compatible, then can_func() would pass. */
if (!can_func(ftype2)) {
dfilter_fail(dfw, "Return value of %s (type=%s) cannot participate in specified comparison.",
funcdef2->name, ftype_pretty_name(ftype2));
THROW(TypeError);
}
check_function(dfw, st_arg2);
}
else if (type2 == STTYPE_SET) {
dfilter_fail(dfw, "Only a field may be tested for membership in a set.");
THROW(TypeError);
}
else {
g_assert_not_reached();
}
}
