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2f3f5f8e66c577d0568b43340162a2dfbfeaf4c9
wireplumber/lib/wp/object-interest.c
George Kiagiadakis 2f3f5f8e66 lib: refactor WpProxy 
This is an attempt to unclutter the API of WpProxy and
split functionality into smaller pieces, making it easier
to work with.

In this new class layout, we have the following classes:

- WpObject: base class for everything; handles activating
|           and deactivating "features"
|- WpProxy: base class for anything that wraps a pw_proxy;
 |          handles events from pw_proxy and nothing more
 |- WpGlobalProxy: handles integration with the registry

All the other classes derive from WpGlobalProxy. The reason
for separating WpGlobalProxy from WpProxy, though, is that
classes such as WpImplNode / WpSpaDevice can also derive from
WpProxy now, without interfacing with the registry.

All objects that come with an "info" structure and have properties
and/or params also implement the WpPipewireObject interface. This
provides the API to query properties and get/set params. Essentially,
this is implemented by all classes except WpMetadata (pw_metadata
does not have info)

This interface is implemented on each object separately, using
a private "mixin", which is a set of vfunc implementations and helper
functions (and macros) to facilitate the implementation of this interface.

A notable difference to the old WpProxy is that now features can be
deactivated, so it is possible to enable something and later disable
it again.

This commit disables modules, tests, tools, etc, to avoid growing the
patch more, while ensuring that the project compiles.
2020-11-13 19:54:48 +02:00

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/* WirePlumber
*
* Copyright © 2020 Collabora Ltd.
* @author George Kiagiadakis <george.kiagiadakis@collabora.com>
*
* SPDX-License-Identifier: MIT
*/
/**
* SECTION: object-interest
* @title: Object Interest
*/
#define G_LOG_DOMAIN "wp-object-interest"
#include "object-interest.h"
#include "global-proxy.h"
#include "proxy-interfaces.h"
#include "debug.h"
#include "error.h"
#include "private.h"
struct constraint
{
WpConstraintType type;
WpConstraintVerb verb;
gchar subject_type; /* a basic GVariantType as a single char */
gchar *subject;
GVariant *value;
};
struct _WpObjectInterest
{
gboolean valid;
GType gtype;
struct pw_array constraints;
};
/**
* WpObjectInterest:
* An object interest is a helper that is used in #WpObjectManager to
* declare interest in certain kinds of objects.
*
* An interest is defined by a #GType and a set of constraints on the object's
* properties. An object "matches" the interest if it is of the specified
* #GType (either the same type or a descendant of it) and all the constraints
* are satisfied.
*/
G_DEFINE_BOXED_TYPE (WpObjectInterest, wp_object_interest,
wp_object_interest_copy, wp_object_interest_free)
/**
* wp_object_interest_new:
* @gtype: the type of the object to declare interest in
* @...: a set of constraints, terminated with %NULL
*
* Creates a new interest that declares interest in objects of the specified
* @gtype, with the constraints specified in the variable arguments.
*
* The variable arguments should be a list of constraints terminated with %NULL,
* where each constraint consists of the following arguments:
* - a #WpConstraintType: the constraint type
* - a `const gchar *`: the subject name
* - a `const gchar *`: the format string
* - 0 or more arguments according to the format string
*
* The format string is interpreted as follows:
* - the first character is the constraint verb:
* - `=`: %WP_CONSTRAINT_VERB_EQUALS
* - `c`: %WP_CONSTRAINT_VERB_IN_LIST
* - `~`: %WP_CONSTRAINT_VERB_IN_RANGE
* - `#`: %WP_CONSTRAINT_VERB_MATCHES
* - `+`: %WP_CONSTRAINT_VERB_IS_PRESENT
* - `-`: %WP_CONSTRAINT_VERB_IS_ABSENT
* - the rest of the characters are interpreted as a #GVariant format string,
* as it would be used in g_variant_new()
*
* The rest of this function's arguments up to the start of the next constraint
* depend on the #GVariant format part of the format string and are used to
* construct a #GVariant for the constraint's value argument.
*
* For further reading on the constraint's arguments, see
* wp_object_interest_add_constraint()
*
* For example, this interest matches objects that are descendands of #WpProxy
* with a "bound-id" between 0 and 100 (inclusive), with a pipewire property
* called "format.dsp" that contains the string "audio" somewhere in the value
* and with a pipewire property "port.name" being present (with any value):
* |[
* interest = wp_object_interest_new (WP_TYPE_PROXY,
* WP_CONSTRAINT_TYPE_G_PROPERTY, "bound-id", "~(uu)", 0, 100,
* WP_CONSTRAINT_TYPE_PW_PROPERTY, "format.dsp", "#s", "*audio*",
* WP_CONSTRAINT_TYPE_PW_PROPERTY, "port.name", "+",
* NULL);
* ]|
*
* Returns: (transfer full): the new object interest
*/
WpObjectInterest *
wp_object_interest_new (GType gtype, ...)
{
WpObjectInterest *self;
va_list args;
va_start (args, gtype);
self = wp_object_interest_new_valist (gtype, &args);
va_end (args);
return self;
}
/**
* wp_object_interest_new_valist:
* @gtype: the type of the object to declare interest in
* @args: pointer to va_list containing the constraints
*
* va_list version of wp_object_interest_new()
*
* Returns: (transfer full): the new object interest
*/
WpObjectInterest *
wp_object_interest_new_valist (GType gtype, va_list *args)
{
WpObjectInterest *self = wp_object_interest_new_type (gtype);
WpConstraintType type;
g_return_val_if_fail (self != NULL, NULL);
for (type = va_arg (*args, WpConstraintType);
type != WP_CONSTRAINT_TYPE_NONE;
type = va_arg (*args, WpConstraintType))
{
const gchar *subject, *format;
WpConstraintVerb verb = 0;
GVariant *value = NULL;
subject = va_arg (*args, const gchar *);
g_return_val_if_fail (subject != NULL, NULL);
format = va_arg (*args, const gchar *);
g_return_val_if_fail (format != NULL, NULL);
verb = format[0];
if (verb != 0 && format[1] != '\0')
value = g_variant_new_va (format + 1, NULL, args);
wp_object_interest_add_constraint (self, type, subject, verb, value);
}
return self;
}
/**
* wp_object_interest_new_type: (rename-to wp_object_interest_new)
* @gtype: the type of the object to declare interest in
*
* Creates a new interest that declares interest in objects of the specified
* @gtype, without any property constraints. To add property constraints,
* you can call wp_object_interest_add_constraint() afterwards.
*
* Returns: (transfer full): the new object interest
*/
WpObjectInterest *
wp_object_interest_new_type (GType gtype)
{
WpObjectInterest *self = g_slice_new0 (WpObjectInterest);
g_return_val_if_fail (self != NULL, NULL);
self->gtype = gtype;
pw_array_init (&self->constraints, sizeof (struct constraint));
return self;
}
/**
* wp_object_interest_add_constraint:
* @self: the object interest
* @type: the constraint type
* @subject: the subject that the constraint applies to
* @verb: the operation that is performed to check the constraint
* @value: (transfer floating)(nullable): the value to check for
*
* Adds a constraint to this interest. Constraints consist of a @type,
* a @subject, a @verb and, depending on the @verb, a @value.
*
* Constraints are almost like a spoken language sentence that declare a
* condition that must be true in order to consider that an object can match
* this interest. For instance, a constraint can be "pipewire property
* 'object.id' equals 10". This would be translated to:
* |[
* wp_object_interest_add_constraint (i,
* WP_CONSTRAINT_TYPE_PW_PROPERTY, "object.id",
* WP_CONSTRAINT_VERB_EQUALS, g_variant_new_int (10));
* ]|
*
* Some verbs require a @value and some others do not. For those that do,
* the @value must be of a specific type:
* - %WP_CONSTRAINT_VERB_EQUALS: @value can be a string, a (u)int32,
* a (u)int64, a double or a boolean. The @subject value must equal this
* value for the constraint to be satisfied
* - %WP_CONSTRAINT_VERB_IN_LIST: @value must be a tuple that contains any
* number of items of the same type; the items can be string, (u)int32,
* (u)int64 or double. These items make a list that the @subject's value
* will be checked against. If any of the items equals the @subject value,
* the constraint is satisfied
* - %WP_CONSTRAINT_VERB_IN_RANGE: @value must be a tuple that contains exactly
* 2 numbers of the same type ((u)int32, (u)int64 or double), meaning the
* minimum and maximum (inclusive) of the range. If the @subject value is a
* number within this range, the constraint is satisfied
* - %WP_CONSTRAINT_VERB_MATCHES: @value must be a string that defines a
* pattern usable with #GPatternSpec. If the @subject value matches this
* pattern, the constraint is satisfied
*
* In case the type of the @subject value is not the same type as the one
* requested by the type of the @value, the @subject value is converted.
* For #GObject properties, this conversion is done using g_value_transform(),
* so limitations of this function apply. In the case of PipeWire properties,
* which are *always* strings, conversion is done as follows:
* - to boolean: `"true"` or `"1"` means %TRUE, `"false"` or `"0"` means %FALSE
* - to int / uint / int64 / uint64: One of the `strtol()` family of functions
* is used to convert, using base 10
* - to double: `strtod()` is used
*
* This method does not fail if invalid arguments are given. However,
* wp_object_interest_validate() should be called after adding all the
* constraints on an interest in order to catch errors.
*/
void
wp_object_interest_add_constraint (WpObjectInterest * self,
WpConstraintType type, const gchar * subject,
WpConstraintVerb verb, GVariant * value)
{
struct constraint *c;
g_return_if_fail (self != NULL);
c = pw_array_add (&self->constraints, sizeof (struct constraint));
g_return_if_fail (c != NULL);
c->type = type;
c->verb = verb;
/* subject_type is filled in by _validate() */
c->subject_type = '\0';
c->subject = g_strdup (subject);
c->value = value ? g_variant_ref_sink (value) : NULL;
/* mark as invalid to force validation */
self->valid = FALSE;
}
/**
* wp_object_interest_copy:
* @self: the object interest to copy
*
* Returns: (transfer full): a deep copy of @self
*/
WpObjectInterest *
wp_object_interest_copy (WpObjectInterest * self)
{
WpObjectInterest *copy;
struct constraint *c, *cc;
g_return_val_if_fail (self != NULL, NULL);
copy = wp_object_interest_new_type (self->gtype);
g_return_val_if_fail (copy != NULL, NULL);
pw_array_ensure_size (&copy->constraints, self->constraints.size);
pw_array_for_each (c, &self->constraints) {
cc = pw_array_add (&self->constraints, sizeof (struct constraint));
g_return_val_if_fail (cc != NULL, NULL);
cc->type = c->type;
cc->verb = c->verb;
cc->subject_type = c->subject_type;
cc->subject = g_strdup (c->subject);
cc->value = c->value ? g_variant_ref (c->value) : NULL;
}
copy->valid = self->valid;
return copy;
}
/**
* wp_object_interest_free:
* @self: (transfer full): the object interest to free
*
* Releases @self and all the memory associated with it
*/
void
wp_object_interest_free (WpObjectInterest * self)
{
struct constraint *c;
g_return_if_fail (self != NULL);
pw_array_for_each (c, &self->constraints) {
g_clear_pointer (&c->subject, g_free);
g_clear_pointer (&c->value, g_variant_unref);
}
pw_array_clear (&self->constraints);
g_slice_free (WpObjectInterest, self);
}
/**
* wp_object_interest_validate:
* @self: the object interest to validate
* @error: (out) (optional): the error, in case validation failed
*
* Validates the interest, ensuring that the interest #GType is a valid
* object and that all the constraints have been expressed properly.
*
* Returns: %TRUE if the interest is valid and can be used in a match,
* %FALSE otherwise
*/
gboolean
wp_object_interest_validate (WpObjectInterest * self, GError ** error)
{
struct constraint *c;
gboolean is_pwobj;
gboolean is_global;
g_return_val_if_fail (self != NULL, FALSE);
/* if already validated, we are done */
if (self->valid)
return TRUE;
if (!G_TYPE_IS_OBJECT (self->gtype)) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"type '%s' is not a GObject", g_type_name (self->gtype));
return FALSE;
}
is_pwobj = g_type_is_a (self->gtype, WP_TYPE_PIPEWIRE_OBJECT);
is_global = g_type_is_a (self->gtype, WP_TYPE_GLOBAL_PROXY);
pw_array_for_each (c, &self->constraints) {
const GVariantType *value_type = NULL;
if (c->type <= WP_CONSTRAINT_TYPE_NONE ||
c->type > WP_CONSTRAINT_TYPE_G_PROPERTY) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"invalid constraint type %d", c->type);
return FALSE;
}
if (!is_pwobj && c->type == WP_CONSTRAINT_TYPE_PW_PROPERTY) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"constraint type %d cannot apply to non-WpPipewireObject type '%s'",
c->type, g_type_name (self->gtype));
return FALSE;
}
if (!is_global && c->type == WP_CONSTRAINT_TYPE_PW_GLOBAL_PROPERTY) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"constraint type %d cannot apply to non-WpGlobalProxy type '%s'",
c->type, g_type_name (self->gtype));
return FALSE;
}
if (!c->subject) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"constraint subject cannot be NULL");
return FALSE;
}
switch (c->verb) {
case WP_CONSTRAINT_VERB_EQUALS:
case WP_CONSTRAINT_VERB_IN_LIST:
case WP_CONSTRAINT_VERB_IN_RANGE:
case WP_CONSTRAINT_VERB_MATCHES:
if (!c->value) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"verb %d (%c) requires a value", c->verb, (gchar) c->verb);
return FALSE;
}
value_type = g_variant_get_type (c->value);
break;
case WP_CONSTRAINT_VERB_IS_PRESENT:
case WP_CONSTRAINT_VERB_IS_ABSENT:
if (c->value) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"verb %d (%c) should not have a value", c->verb, (gchar) c->verb);
return FALSE;
}
break;
default:
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"invalid constraint verb %d (%c)", c->verb, (gchar) c->verb);
return FALSE;
}
switch (c->verb) {
case WP_CONSTRAINT_VERB_EQUALS:
if (!g_variant_type_equal (value_type, G_VARIANT_TYPE_STRING) &&
!g_variant_type_equal (value_type, G_VARIANT_TYPE_BOOLEAN) &&
!g_variant_type_equal (value_type, G_VARIANT_TYPE_INT32) &&
!g_variant_type_equal (value_type, G_VARIANT_TYPE_UINT32) &&
!g_variant_type_equal (value_type, G_VARIANT_TYPE_INT64) &&
!g_variant_type_equal (value_type, G_VARIANT_TYPE_UINT64) &&
!g_variant_type_equal (value_type, G_VARIANT_TYPE_DOUBLE)) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"WP_CONSTRAINT_VERB_EQUALS requires a basic GVariant type"
" (actual type was '%s')", g_variant_get_type_string (c->value));
return FALSE;
}
break;
case WP_CONSTRAINT_VERB_IN_LIST: {
const GVariantType *tuple_type;
if (!g_variant_type_is_definite (value_type) ||
!g_variant_type_is_tuple (value_type)) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"WP_CONSTRAINT_VERB_IN_LIST requires a tuple GVariant type"
" (actual type was '%s')", g_variant_get_type_string (c->value));
return FALSE;
}
for (tuple_type = value_type = g_variant_type_first (value_type);
tuple_type != NULL;
tuple_type = g_variant_type_next (tuple_type)) {
if (!g_variant_type_equal (tuple_type, value_type)) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"tuple must contain children of the same type"
" (mismatching type was '%s' at '%.*s')",
g_variant_get_type_string (c->value),
(int) g_variant_type_get_string_length (tuple_type),
g_variant_type_peek_string (tuple_type));
return FALSE;
}
}
if (!g_variant_type_equal (value_type, G_VARIANT_TYPE_STRING) &&
!g_variant_type_equal (value_type, G_VARIANT_TYPE_INT32) &&
!g_variant_type_equal (value_type, G_VARIANT_TYPE_UINT32) &&
!g_variant_type_equal (value_type, G_VARIANT_TYPE_INT64) &&
!g_variant_type_equal (value_type, G_VARIANT_TYPE_UINT64) &&
!g_variant_type_equal (value_type, G_VARIANT_TYPE_DOUBLE)) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"list tuple must contain string, (u)int32, (u)int64 or double"
" (mismatching type was '%s' at '%.*s')",
g_variant_get_type_string (c->value),
(int) g_variant_type_get_string_length (value_type),
g_variant_type_peek_string (value_type));
return FALSE;
}
break;
}
case WP_CONSTRAINT_VERB_IN_RANGE: {
const GVariantType *tuple_type;
if (!g_variant_type_is_definite (value_type) ||
!g_variant_type_is_tuple (value_type)) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"range requires a tuple GVariant type (actual type was '%s')",
g_variant_get_type_string (c->value));
return FALSE;
}
tuple_type = value_type = g_variant_type_first (value_type);
if (!tuple_type) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"range requires a non-empty tuple (actual type was '%s')",
g_variant_get_type_string (c->value));
return FALSE;
}
if (!g_variant_type_equal (tuple_type, G_VARIANT_TYPE_INT32) &&
!g_variant_type_equal (tuple_type, G_VARIANT_TYPE_UINT32) &&
!g_variant_type_equal (tuple_type, G_VARIANT_TYPE_INT64) &&
!g_variant_type_equal (tuple_type, G_VARIANT_TYPE_UINT64) &&
!g_variant_type_equal (tuple_type, G_VARIANT_TYPE_DOUBLE)) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"range tuple must contain (u)int32, (u)int64 or double"
" (mismatching type was '%s' at '%.*s')",
g_variant_get_type_string (c->value),
(int) g_variant_type_get_string_length (tuple_type),
g_variant_type_peek_string (tuple_type));
return FALSE;
}
tuple_type = g_variant_type_next (tuple_type);
if (!tuple_type || !g_variant_type_equal (tuple_type, value_type)) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"range tuple must contain 2 children of the same type"
" (mismatching type was '%s' at '%.*s')",
g_variant_get_type_string (c->value),
(int) g_variant_type_get_string_length (tuple_type),
g_variant_type_peek_string (tuple_type));
return FALSE;
}
tuple_type = g_variant_type_next (tuple_type);
if (tuple_type) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"range tuple must contain exactly 2 children, not more"
" (mismatching type was '%s')",
g_variant_get_type_string (c->value));
return FALSE;
}
break;
}
case WP_CONSTRAINT_VERB_MATCHES:
if (!g_variant_type_equal (value_type, G_VARIANT_TYPE_STRING)) {
g_set_error (error, WP_DOMAIN_LIBRARY, WP_LIBRARY_ERROR_INVARIANT,
"WP_CONSTRAINT_VERB_MATCHES requires a string GVariant"
" (actual type was '%s')", g_variant_get_type_string (c->value));
return FALSE;
}
break;
case WP_CONSTRAINT_VERB_IS_PRESENT:
case WP_CONSTRAINT_VERB_IS_ABSENT:
break;
default:
g_return_val_if_reached (FALSE);
}
/* cache the type that the property must have */
if (value_type)
c->subject_type = *g_variant_type_peek_string (value_type);
}
return (self->valid = TRUE);
}
G_GNUC_CONST static GType
subject_type_to_gtype (gchar type)
{
switch (type) {
case 'b': return G_TYPE_BOOLEAN;
case 'i': return G_TYPE_INT;
case 'u': return G_TYPE_UINT;
case 'x': return G_TYPE_INT64;
case 't': return G_TYPE_UINT64;
case 'd': return G_TYPE_DOUBLE;
case 's': return G_TYPE_STRING;
default: g_return_val_if_reached (G_TYPE_INVALID);
}
}
static inline gboolean
property_string_to_gvalue (gchar subj_type, const gchar * str, GValue * val)
{
g_value_init (val, subject_type_to_gtype (subj_type));
switch (subj_type) {
case 'b':
if (!strcmp (str, "true") || !strcmp (str, "1"))
g_value_set_boolean (val, TRUE);
else if (!strcmp (str, "false") || !strcmp (str, "0"))
g_value_set_boolean (val, FALSE);
else {
wp_trace ("failed to convert '%s' to boolean", str);
return FALSE;
}
break;
case 's':
g_value_set_static_string (val, str);
break;
#define CASE_NUMBER(l, T, convert) \
case l: { \
g##T number; \
errno = 0; \
number = convert; \
if (errno != 0) { \
wp_trace ("failed to convert '%s' to " #T, str); \
return FALSE; \
} \
g_value_set_##T (val, number); \
break; \
}
CASE_NUMBER ('i', int, strtol (str, NULL, 10))
CASE_NUMBER ('u', uint, strtoul (str, NULL, 10))
CASE_NUMBER ('x', int64, strtoll (str, NULL, 10))
CASE_NUMBER ('t', uint64, strtoull (str, NULL, 10))
CASE_NUMBER ('d', double, strtod (str, NULL))
#undef CASE_NUMBER
default:
g_return_val_if_reached (FALSE);
}
return TRUE;
}
static inline gboolean
constraint_verb_equals (gchar subj_type, const GValue * subj_val,
GVariant * check_val)
{
switch (subj_type) {
case 'd': {
gdouble a = g_value_get_double (subj_val);
gdouble b = g_variant_get_double (check_val);
return G_APPROX_VALUE (a, b, FLT_EPSILON);
}
case 's':
return !g_strcmp0 (g_value_get_string (subj_val),
g_variant_get_string (check_val, NULL));
#define CASE_BASIC(l, T, R) \
case l: \
return (g_value_get_##T (subj_val) == g_variant_get_##R (check_val));
CASE_BASIC ('b', boolean, boolean)
CASE_BASIC ('i', int, int32)
CASE_BASIC ('u', uint, uint32)
CASE_BASIC ('x', int64, int64)
CASE_BASIC ('t', uint64, uint64)
#undef CASE_BASIC
default:
g_return_val_if_reached (FALSE);
}
}
static inline gboolean
constraint_verb_matches (gchar subj_type, const GValue * subj_val,
GVariant * check_val)
{
switch (subj_type) {
case 's':
return g_pattern_match_simple (g_variant_get_string (check_val, NULL),
g_value_get_string (subj_val));
default:
g_return_val_if_reached (FALSE);
}
return TRUE;
}
static inline gboolean
constraint_verb_in_list (gchar subj_type, const GValue * subj_val,
GVariant * check_val)
{
GVariantIter iter;
g_autoptr (GVariant) child = NULL;
g_variant_iter_init (&iter, check_val);
while ((child = g_variant_iter_next_value (&iter))) {
if (constraint_verb_equals (subj_type, subj_val, child))
return TRUE;
g_variant_unref (child);
}
return FALSE;
}
static inline gboolean
constraint_verb_in_range (gchar subj_type, const GValue * subj_val,
GVariant * check_val)
{
switch (subj_type) {
#define CASE_RANGE(l, t, T) \
case l: { \
g##T val, min, max; \
g_variant_get (check_val, "("#t#t")", &min, &max); \
val = g_value_get_##T (subj_val); \
if (val < min || val > max) \
return FALSE; \
break; \
}
CASE_RANGE('i', i, int)
CASE_RANGE('u', u, uint)
CASE_RANGE('x', x, int64)
CASE_RANGE('t', t, uint64)
CASE_RANGE('d', d, double)
#undef CASE_RANGE
default:
g_return_val_if_reached (FALSE);
}
return TRUE;
}
/**
* wp_object_interest_matches:
* @self: the object interest
* @object: the target object to check for a match
*
* Checks if the specified @object matches the type and all the constraints
* that are described in @self
*
* Equivalent to `wp_object_interest_matches_full (self,
* G_OBJECT_TYPE (object), object, NULL, NULL)`
*
* Returns: %TRUE if the object matches, %FALSE otherwise
*/
gboolean
wp_object_interest_matches (WpObjectInterest * self, gpointer object)
{
return wp_object_interest_matches_full (self, G_OBJECT_TYPE (object),
object, NULL, NULL);
}
/**
* wp_object_interest_matches_full:
* @self: the object interest
* @object_type: the type to be checked against the interest's type
* @object: (type GObject)(transfer none)(nullable): the object to be used for
* checking constraints of type %WP_CONSTRAINT_TYPE_G_PROPERTY
* @pw_props: (transfer none)(nullable): the properties to be used for
* checking constraints of type %WP_CONSTRAINT_TYPE_PW_PROPERTY
* @pw_global_props: (transfer none)(nullable): the properties to be used for
* checking constraints of type %WP_CONSTRAINT_TYPE_PW_GLOBAL_PROPERTY
*
* A low-level version of wp_object_interest_matches(). In this version,
* the object's type is directly given in @object_type and is not inferred
* from the @object. @object is only used to check for constraints against
* #GObject properties.
*
* @pw_props and @pw_global_props are used to check constraints against
* PipeWire object properties and global properties, respectively.
*
* @object, @pw_props and @pw_global_props may be %NULL, but in case there
* are any constraints that require them, the match will fail.
* As a special case, if @object is not %NULL and is a subclass of #WpProxy,
* then @pw_props and @pw_global_props, if required, will be internally
* retrieved from @object by calling wp_pipewire_object_get_properties() and
* wp_global_proxy_get_global_properties() respectively.
*
* Returns: %TRUE if the the type matches this interest and the properties
* match the constraints, %FALSE otherwise
*/
gboolean
wp_object_interest_matches_full (WpObjectInterest * self,
GType object_type, gpointer object, WpProperties * pw_props,
WpProperties * pw_global_props)
{
g_autoptr (WpProperties) props = NULL;
g_autoptr (WpProperties) global_props = NULL;
g_autoptr (GError) error = NULL;
struct constraint *c;
g_return_val_if_fail (self != NULL, FALSE);
if (G_UNLIKELY (!wp_object_interest_validate (self, &error))) {
wp_critical_boxed (WP_TYPE_OBJECT_INTEREST, self, "validation failed: %s",
error->message);
return FALSE;
}
/* check if the GType matches */
if (!g_type_is_a (object_type, self->gtype))
return FALSE;
/* prepare for constraint lookups on proxy properties */
if (object) {
if (!pw_global_props && WP_IS_GLOBAL_PROXY (object)) {
WpGlobalProxy *pwg = (WpGlobalProxy *) object;
pw_global_props = global_props =
wp_global_proxy_get_global_properties (pwg);
}
if (!pw_props && WP_IS_PIPEWIRE_OBJECT (object)) {
WpObject *oo = (WpObject *) object;
WpPipewireObject *pwo = (WpPipewireObject *) object;
if (wp_object_get_active_features (oo) & WP_PIPEWIRE_OBJECT_FEATURE_INFO)
pw_props = props = wp_pipewire_object_get_properties (pwo);
}
}
/* check all constraints; if any of them fails at any point, fail the match */
pw_array_for_each (c, &self->constraints) {
WpProperties *lookup_props = pw_global_props;
g_auto (GValue) value = G_VALUE_INIT;
gboolean exists = FALSE;
/* collect, check & convert the subject property */
switch (c->type) {
case WP_CONSTRAINT_TYPE_PW_PROPERTY:
lookup_props = pw_props;
/* G_GNUC_FALLTHROUGH */;
case WP_CONSTRAINT_TYPE_PW_GLOBAL_PROPERTY: {
const gchar *lookup_str = NULL;
if (lookup_props)
exists = !!(lookup_str = wp_properties_get (lookup_props, c->subject));
if (exists && c->subject_type)
property_string_to_gvalue (c->subject_type, lookup_str, &value);
break;
}
case WP_CONSTRAINT_TYPE_G_PROPERTY: {
GType value_type;
GParamSpec *pspec = NULL;
if (object)
exists = !!(pspec = g_object_class_find_property (
G_OBJECT_GET_CLASS (object), c->subject));
if (exists && c->subject_type) {
g_value_init (&value, pspec->value_type);
g_object_get_property (object, c->subject, &value);
value_type = G_VALUE_TYPE (&value);
/* transform if not compatible */
if (value_type != subject_type_to_gtype (c->subject_type)) {
if (g_value_type_transformable (value_type,
subject_type_to_gtype (c->subject_type))) {
g_auto (GValue) orig = G_VALUE_INIT;
g_value_init (&orig, value_type);
g_value_copy (&value, &orig);
g_value_unset (&value);
g_value_init (&value, subject_type_to_gtype (c->subject_type));
g_value_transform (&orig, &value);
}
else
return FALSE;
}
}
break;
}
default:
g_return_val_if_reached (FALSE);
}
/* match the subject to the constraint's value,
according to the operation defined by the verb */
switch (c->verb) {
case WP_CONSTRAINT_VERB_EQUALS:
if (!exists ||
!constraint_verb_equals (c->subject_type, &value, c->value))
return FALSE;
break;
case WP_CONSTRAINT_VERB_MATCHES:
if (!exists ||
!constraint_verb_matches (c->subject_type, &value, c->value))
return FALSE;
break;
case WP_CONSTRAINT_VERB_IN_LIST:
if (!exists ||
!constraint_verb_in_list (c->subject_type, &value, c->value))
return FALSE;
break;
case WP_CONSTRAINT_VERB_IN_RANGE:
if (!exists ||
!constraint_verb_in_range (c->subject_type, &value, c->value))
return FALSE;
break;
case WP_CONSTRAINT_VERB_IS_PRESENT:
if (!exists)
return FALSE;
break;
case WP_CONSTRAINT_VERB_IS_ABSENT:
if (exists)
return FALSE;
break;
default:
g_return_val_if_reached (FALSE);
}
}
return TRUE;
}
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