/* * SPDX-License-Identifier: Apache-2.0 * Copyright (c) 2020 Nordic Semiconductor * Copyright (c) 2020, Linaro Ltd. * * Not a generated file. Feel free to modify. */ /** * @file * @brief Devicetree main header * * API for accessing the current application's devicetree macros. */ #ifndef DEVICETREE_H #define DEVICETREE_H #include #include #if !defined(_LINKER) && !defined(_ASMLANGUAGE) #include #endif #include /** * @brief devicetree.h API * @defgroup devicetree Devicetree * @since 2.2 * @version 1.0.0 * @{ * @} */ /* * Property suffixes * ----------------- * * These are the optional parts that come after the _P_ * part in DT_N__P_ macros, or the "prop-suf" * nonterminal in the DT guide's macros.bnf file. * * Before adding new ones, check this list to avoid conflicts. If any * are missing from this list, please add them. It should be complete. * * _ENUM_IDX: property's value as an index into bindings enum * _ENUM_VAL__EXISTS property's value as a token exists * _ENUM_TOKEN: property's value as a token into bindings enum (string * enum values are identifiers) [deprecated, use _STRING_TOKEN] * _ENUM_UPPER_TOKEN: like _ENUM_TOKEN, but uppercased [deprecated, use * _STRING_UPPER_TOKEN] * _EXISTS: property is defined * _FOREACH_PROP_ELEM: helper for "iterating" over values in the property * _FOREACH_PROP_ELEM_VARGS: foreach functions with variable number of arguments * _IDX_: logical index into property * _IDX__EXISTS: logical index into property is defined * _IDX__PH: phandle array's phandle by index (or phandle, phandles) * _IDX__STRING_TOKEN: string array element value as a token * _IDX__STRING_UPPER_TOKEN: string array element value as a uppercased token * _IDX _STRING_UNQUOTED: string array element value as a sequence of tokens, with no quotes * _IDX__VAL_: phandle array's specifier value by index * _IDX__VAL__EXISTS: cell value exists, by index * _LEN: property logical length * _NAME__PH: phandle array's phandle by name * _NAME__VAL_: phandle array's property specifier by name * _NAME__VAL__EXISTS: cell value exists, by name * _STRING_TOKEN: string property's value as a token * _STRING_UPPER_TOKEN: like _STRING_TOKEN, but uppercased * _STRING_UNQUOTED: string property's value as a sequence of tokens, with no quotes */ /** * @defgroup devicetree-generic-id Node identifiers and helpers * @ingroup devicetree * @{ */ /** * @brief Name for an invalid node identifier * * This supports cases where factored macros can be invoked from paths where * devicetree data may or may not be available. It is a preprocessor identifier * that does not match any valid devicetree node identifier. */ #define DT_INVALID_NODE _ /** * @brief Node identifier for the root node in the devicetree */ #define DT_ROOT DT_N /** * @brief Get a node identifier for a devicetree path * * @note This macro returns a node identifier from path components. To get * a path string from a node identifier, use DT_NODE_PATH() instead. * * The arguments to this macro are the names of non-root nodes in the * tree required to reach the desired node, starting from the root. * Non-alphanumeric characters in each name must be converted to * underscores to form valid C tokens, and letters must be lowercased. * * Example devicetree fragment: * * @code{.dts} * / { * soc { * serial1: serial@40001000 { * status = "okay"; * current-speed = <115200>; * ... * }; * }; * }; * @endcode * * You can use `DT_PATH(soc, serial_40001000)` to get a node identifier * for the `serial@40001000` node. Node labels like `serial1` cannot be * used as DT_PATH() arguments; use DT_NODELABEL() for those instead. * * Example usage with DT_PROP() to get the `current-speed` property: * * @code{.c} * DT_PROP(DT_PATH(soc, serial_40001000), current_speed) // 115200 * @endcode * * (The `current-speed` property is also in `lowercase-and-underscores` * form when used with this API.) * * When determining arguments to DT_PATH(): * * - the first argument corresponds to a child node of the root (`soc` above) * - a second argument corresponds to a child of the first argument * (`serial_40001000` above, from the node name `serial@40001000` * after lowercasing and changing `@` to `_`) * - and so on for deeper nodes in the desired node's path * * @param ... lowercase-and-underscores node names along the node's path, * with each name given as a separate argument * @return node identifier for the node with that path */ #define DT_PATH(...) DT_PATH_INTERNAL(__VA_ARGS__) /** * @brief Get a node identifier for a node label * * Convert non-alphanumeric characters in the node label to * underscores to form valid C tokens, and lowercase all letters. Note * that node labels are not the same thing as label properties. * * Example devicetree fragment: * * @code{.dts} * serial1: serial@40001000 { * label = "UART_0"; * status = "okay"; * current-speed = <115200>; * ... * }; * @endcode * * The only node label in this example is `serial1`. * * The string `UART_0` is *not* a node label; it's the value of a * property named label. * * You can use `DT_NODELABEL(serial1)` to get a node identifier for the * `serial@40001000` node. Example usage with DT_PROP() to get the * current-speed property: * * @code{.c} * DT_PROP(DT_NODELABEL(serial1), current_speed) // 115200 * @endcode * * Another example devicetree fragment: * * @code{.dts} * cpu@0 { * L2_0: l2-cache { * cache-level = <2>; * ... * }; * }; * @endcode * * Example usage to get the cache-level property: * * @code{.c} * DT_PROP(DT_NODELABEL(l2_0), cache_level) // 2 * @endcode * * Notice how `L2_0` in the devicetree is lowercased to `l2_0` in the * DT_NODELABEL() argument. * * @param label lowercase-and-underscores node label name * @return node identifier for the node with that label */ #define DT_NODELABEL(label) DT_CAT(DT_N_NODELABEL_, label) /** * @brief Get a node identifier from /aliases * * This macro's argument is a property of the `/aliases` node. It * returns a node identifier for the node which is aliased. Convert * non-alphanumeric characters in the alias property to underscores to * form valid C tokens, and lowercase all letters. * * Example devicetree fragment: * * @code{.dts} * / { * aliases { * my-serial = &serial1; * }; * * soc { * serial1: serial@40001000 { * status = "okay"; * current-speed = <115200>; * ... * }; * }; * }; * @endcode * * You can use DT_ALIAS(my_serial) to get a node identifier for the * `serial@40001000` node. Notice how `my-serial` in the devicetree * becomes `my_serial` in the DT_ALIAS() argument. Example usage with * DT_PROP() to get the current-speed property: * * @code{.c} * DT_PROP(DT_ALIAS(my_serial), current_speed) // 115200 * @endcode * * @param alias lowercase-and-underscores alias name. * @return node identifier for the node with that alias */ #define DT_ALIAS(alias) DT_CAT(DT_N_ALIAS_, alias) /** * @brief Get a node identifier for an instance of a compatible * * All nodes with a particular compatible property value are assigned * instance numbers, which are zero-based indexes specific to that * compatible. You can get a node identifier for these nodes by * passing DT_INST() an instance number, @p inst, along with the * lowercase-and-underscores version of the compatible, @p compat. * * Instance numbers have the following properties: * * - for each compatible, instance numbers start at 0 and are contiguous * - exactly one instance number is assigned for each node with a compatible, * **including disabled nodes** * - enabled nodes (status property is `okay` or missing) are assigned the * instance numbers starting from 0, and disabled nodes have instance * numbers which are greater than those of any enabled node * * No other guarantees are made. In particular: * * - instance numbers **in no way reflect** any numbering scheme that * might exist in SoC documentation, node labels or unit addresses, * or properties of the /aliases node (use DT_NODELABEL() or DT_ALIAS() * for those) * - there **is no general guarantee** that the same node will have * the same instance number between builds, even if you are building * the same application again in the same build directory * * Example devicetree fragment: * * @code{.dts} * serial1: serial@40001000 { * compatible = "vnd,soc-serial"; * status = "disabled"; * current-speed = <9600>; * ... * }; * * serial2: serial@40002000 { * compatible = "vnd,soc-serial"; * status = "okay"; * current-speed = <57600>; * ... * }; * * serial3: serial@40003000 { * compatible = "vnd,soc-serial"; * current-speed = <115200>; * ... * }; * @endcode * * Assuming no other nodes in the devicetree have compatible * `"vnd,soc-serial"`, that compatible has nodes with instance numbers * 0, 1, and 2. * * The nodes `serial@40002000` and `serial@40003000` are both enabled, so * their instance numbers are 0 and 1, but no guarantees are made * regarding which node has which instance number. * * Since `serial@40001000` is the only disabled node, it has instance * number 2, since disabled nodes are assigned the largest instance * numbers. Therefore: * * @code{.c} * // Could be 57600 or 115200. There is no way to be sure: * // either serial@40002000 or serial@40003000 could * // have instance number 0, so this could be the current-speed * // property of either of those nodes. * DT_PROP(DT_INST(0, vnd_soc_serial), current_speed) * * // Could be 57600 or 115200, for the same reason. * // If the above expression expands to 57600, then * // this expands to 115200, and vice-versa. * DT_PROP(DT_INST(1, vnd_soc_serial), current_speed) * * // 9600, because there is only one disabled node, and * // disabled nodes are "at the the end" of the instance * // number "list". * DT_PROP(DT_INST(2, vnd_soc_serial), current_speed) * @endcode * * Notice how `"vnd,soc-serial"` in the devicetree becomes `vnd_soc_serial` * (without quotes) in the DT_INST() arguments. (As usual, `current-speed` * in the devicetree becomes `current_speed` as well.) * * Nodes whose `compatible` property has multiple values are assigned * independent instance numbers for each compatible. * * @param inst instance number for compatible @p compat * @param compat lowercase-and-underscores compatible, without quotes * @return node identifier for the node with that instance number and * compatible */ #define DT_INST(inst, compat) UTIL_CAT(DT_N_INST, DT_DASH(inst, compat)) /** * @brief Get a node identifier for a parent node * * Example devicetree fragment: * * @code{.dts} * parent: parent-node { * child: child-node { * ... * }; * }; * @endcode * * The following are equivalent ways to get the same node identifier: * * @code{.c} * DT_NODELABEL(parent) * DT_PARENT(DT_NODELABEL(child)) * @endcode * * @param node_id node identifier * @return a node identifier for the node's parent */ #define DT_PARENT(node_id) DT_CAT(node_id, _PARENT) /** * @brief Get a node identifier for a grandparent node * * Example devicetree fragment: * * @code{.dts} * gparent: grandparent-node { * parent: parent-node { * child: child-node { ... } * }; * }; * @endcode * * The following are equivalent ways to get the same node identifier: * * @code{.c} * DT_GPARENT(DT_NODELABEL(child)) * DT_PARENT(DT_PARENT(DT_NODELABEL(child)) * @endcode * * @param node_id node identifier * @return a node identifier for the node's parent's parent */ #define DT_GPARENT(node_id) DT_PARENT(DT_PARENT(node_id)) /** * @brief Get a node identifier for a child node * * Example devicetree fragment: * * @code{.dts} * / { * soc-label: soc { * serial1: serial@40001000 { * status = "okay"; * current-speed = <115200>; * ... * }; * }; * }; * @endcode * * Example usage with DT_PROP() to get the status of the * `serial@40001000` node: * * @code{.c} * #define SOC_NODE DT_NODELABEL(soc_label) * DT_PROP(DT_CHILD(SOC_NODE, serial_40001000), status) // "okay" * @endcode * * Node labels like `serial1` cannot be used as the @p child argument * to this macro. Use DT_NODELABEL() for that instead. * * You can also use DT_FOREACH_CHILD() to iterate over node * identifiers for all of a node's children. * * @param node_id node identifier * @param child lowercase-and-underscores child node name * @return node identifier for the node with the name referred to by 'child' */ #define DT_CHILD(node_id, child) UTIL_CAT(node_id, DT_S_PREFIX(child)) /** * @brief Get a node identifier for a status `okay` node with a compatible * * Use this if you want to get an arbitrary enabled node with a given * compatible, and you do not care which one you get. If any enabled * nodes with the given compatible exist, a node identifier for one * of them is returned. Otherwise, @ref DT_INVALID_NODE is returned. * * Example devicetree fragment: * * @code{.dts} * node-a { * compatible = "vnd,device"; * status = "okay"; * }; * * node-b { * compatible = "vnd,device"; * status = "okay"; * }; * * node-c { * compatible = "vnd,device"; * status = "disabled"; * }; * @endcode * * Example usage: * * @code{.c} * DT_COMPAT_GET_ANY_STATUS_OKAY(vnd_device) * @endcode * * This expands to a node identifier for either `node-a` or `node-b`. * It will not expand to a node identifier for `node-c`, because that * node does not have status `okay`. * * @param compat lowercase-and-underscores compatible, without quotes * @return node identifier for a node with that compatible, or * @ref DT_INVALID_NODE */ #define DT_COMPAT_GET_ANY_STATUS_OKAY(compat) \ COND_CODE_1(DT_HAS_COMPAT_STATUS_OKAY(compat), \ (DT_INST(0, compat)), \ (DT_INVALID_NODE)) /** * @brief Get a devicetree node's full path as a string literal * * This returns the path to a node from a node identifier. To get a * node identifier from path components instead, use DT_PATH(). * * Example devicetree fragment: * * @code{.dts} * / { * soc { * node: my-node@12345678 { ... }; * }; * }; * @endcode * * Example usage: * * @code{.c} * DT_NODE_PATH(DT_NODELABEL(node)) // "/soc/my-node@12345678" * DT_NODE_PATH(DT_PATH(soc)) // "/soc" * DT_NODE_PATH(DT_ROOT) // "/" * @endcode * * @param node_id node identifier * @return the node's full path in the devicetree */ #define DT_NODE_PATH(node_id) DT_CAT(node_id, _PATH) /** * @brief Get a devicetree node's name with unit-address as a string literal * * This returns the node name and unit-address from a node identifier. * * Example devicetree fragment: * * @code{.dts} * / { * soc { * node: my-node@12345678 { ... }; * }; * }; * @endcode * * Example usage: * * @code{.c} * DT_NODE_FULL_NAME(DT_NODELABEL(node)) // "my-node@12345678" * @endcode * * @param node_id node identifier * @return the node's name with unit-address as a string in the devicetree */ #define DT_NODE_FULL_NAME(node_id) DT_CAT(node_id, _FULL_NAME) /** * @brief Get a devicetree node's index into its parent's list of children * * Indexes are zero-based. * * It is an error to use this macro with the root node. * * Example devicetree fragment: * * @code{.dts} * parent { * c1: child-1 {}; * c2: child-2 {}; * }; * @endcode * * Example usage: * * @code{.c} * DT_NODE_CHILD_IDX(DT_NODELABEL(c1)) // 0 * DT_NODE_CHILD_IDX(DT_NODELABEL(c2)) // 1 * @endcode * * @param node_id node identifier * @return the node's index in its parent node's list of children */ #define DT_NODE_CHILD_IDX(node_id) DT_CAT(node_id, _CHILD_IDX) /** * @brief Get the number of child nodes of a given node * * @param node_id a node identifier * @return Number of child nodes */ #define DT_CHILD_NUM(node_id) DT_CAT(node_id, _CHILD_NUM) /** * @brief Get the number of child nodes of a given node * which child nodes' status are okay * * @param node_id a node identifier * @return Number of child nodes which status are okay */ #define DT_CHILD_NUM_STATUS_OKAY(node_id) \ DT_CAT(node_id, _CHILD_NUM_STATUS_OKAY) /** * @brief Do @p node_id1 and @p node_id2 refer to the same node? * * Both @p node_id1 and @p node_id2 must be node identifiers for nodes * that exist in the devicetree (if unsure, you can check with * DT_NODE_EXISTS()). * * The expansion evaluates to 0 or 1, but may not be a literal integer * 0 or 1. * * @internal * Implementation note: distinct nodes have distinct node identifiers. * See include/zephyr/devicetree/ordinals.h. * @endinternal * * @param node_id1 first node identifier * @param node_id2 second node identifier * @return an expression that evaluates to 1 if the node identifiers * refer to the same node, and evaluates to 0 otherwise */ #define DT_SAME_NODE(node_id1, node_id2) \ (DT_DEP_ORD(node_id1) == (DT_DEP_ORD(node_id2))) /** * @} */ /** * @defgroup devicetree-generic-prop Property accessors * @ingroup devicetree * @{ */ /** * @brief Get a devicetree property value * * For properties whose bindings have the following types, this macro * expands to: * * - string: a string literal * - boolean: `0` if the property is false, or `1` if it is true * - int: the property's value as an integer literal * - array, uint8-array, string-array: an initializer expression in braces, * whose elements are integer or string literals (like `{0, 1, 2}`, * `{"hello", "world"}`, etc.) * - phandle: a node identifier for the node with that phandle * * A property's type is usually defined by its binding. In some * special cases, it has an assumed type defined by the devicetree * specification even when no binding is available: `compatible` has * type string-array, `status` has type string, and * `interrupt-controller` has type boolean. * * For other properties or properties with unknown type due to a * missing binding, behavior is undefined. * * For usage examples, see DT_PATH(), DT_ALIAS(), DT_NODELABEL(), * and DT_INST() above. * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @return a representation of the property's value */ #define DT_PROP(node_id, prop) DT_CAT3(node_id, _P_, prop) /** * @brief Get a property's logical length * * Here, "length" is a number of elements, which may differ from the * property's size in bytes. * * The return value depends on the property's type: * * - for types array, string-array, and uint8-array, this expands * to the number of elements in the array * - for type phandles, this expands to the number of phandles * - for type phandle-array, this expands to the number of * phandle and specifier blocks in the property * - for type phandle, this expands to 1 (so that a phandle * can be treated as a degenerate case of phandles with length 1) * - for type string, this expands to 1 (so that a string can be * treated as a degenerate case of string-array with length 1) * * These properties are handled as special cases: * * - reg property: use `DT_NUM_REGS(node_id)` instead * - interrupts property: use `DT_NUM_IRQS(node_id)` instead * * It is an error to use this macro with the `ranges`, `dma-ranges`, `reg` * or `interrupts` properties. * * For other properties, behavior is undefined. * * @param node_id node identifier * @param prop a lowercase-and-underscores property with a logical length * @return the property's length */ #define DT_PROP_LEN(node_id, prop) DT_CAT4(node_id, _P_, prop, _LEN) /** * @brief Like DT_PROP_LEN(), but with a fallback to @p default_value * * If the property is defined (as determined by DT_NODE_HAS_PROP()), * this expands to DT_PROP_LEN(node_id, prop). The @p default_value * parameter is not expanded in this case. * * Otherwise, this expands to @p default_value. * * @param node_id node identifier * @param prop a lowercase-and-underscores property with a logical length * @param default_value a fallback value to expand to * @return the property's length or the given default value */ #define DT_PROP_LEN_OR(node_id, prop, default_value) \ COND_CODE_1(DT_NODE_HAS_PROP(node_id, prop), \ (DT_PROP_LEN(node_id, prop)), (default_value)) /** * @brief Is index @p idx valid for an array type property? * * If this returns 1, then DT_PROP_BY_IDX(node_id, prop, idx) or * DT_PHA_BY_IDX(node_id, prop, idx, ...) are valid at index @p idx. * If it returns 0, it is an error to use those macros with that index. * * These properties are handled as special cases: * * - `reg` property: use DT_REG_HAS_IDX(node_id, idx) instead * - `interrupts` property: use DT_IRQ_HAS_IDX(node_id, idx) instead * * It is an error to use this macro with the `reg` or `interrupts` properties. * * @param node_id node identifier * @param prop a lowercase-and-underscores property with a logical length * @param idx index to check * @return An expression which evaluates to 1 if @p idx is a valid index * into the given property, and 0 otherwise. */ #define DT_PROP_HAS_IDX(node_id, prop, idx) \ IS_ENABLED(DT_CAT6(node_id, _P_, prop, _IDX_, idx, _EXISTS)) /** * @brief Is name @p name available in a `foo-names` property? * * This property is handled as special case: * * - `interrupts` property: use DT_IRQ_HAS_NAME(node_id, idx) instead * * It is an error to use this macro with the `interrupts` property. * * Example devicetree fragment: * * @code{.dts} * nx: node-x { * foos = <&bar xx yy>, <&baz xx zz>; * foo-names = "event", "error"; * status = "okay"; * }; * @endcode * * Example usage: * * @code{.c} * DT_PROP_HAS_NAME(DT_NODELABEL(nx), foos, event) // 1 * DT_PROP_HAS_NAME(DT_NODELABEL(nx), foos, failure) // 0 * @endcode * * @param node_id node identifier * @param prop a lowercase-and-underscores `prop-names` type property * @param name a lowercase-and-underscores name to check * @return An expression which evaluates to 1 if "name" is an available * name into the given property, and 0 otherwise. */ #define DT_PROP_HAS_NAME(node_id, prop, name) \ IS_ENABLED(DT_CAT6(node_id, _P_, prop, _NAME_, name, _EXISTS)) /** * @brief Get the value at index @p idx in an array type property * * It might help to read the argument order as being similar to * `node->property[index]`. * * The return value depends on the property's type: * * - for types array, string-array, uint8-array, and phandles, * this expands to the idx-th array element as an * integer, string literal, integer, and node identifier * respectively * * - for type phandle, idx must be 0 and the expansion is a node * identifier (this treats phandle like a phandles of length 1) * * - for type string, idx must be 0 and the expansion is the the * entire string (this treats string like string-array of length 1) * * These properties are handled as special cases: * * - `reg`: use DT_REG_ADDR_BY_IDX() or DT_REG_SIZE_BY_IDX() instead * - `interrupts`: use DT_IRQ_BY_IDX() * - `ranges`: use DT_NUM_RANGES() * - `dma-ranges`: it is an error to use this property with * DT_PROP_BY_IDX() * * For properties of other types, behavior is undefined. * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @param idx the index to get * @return a representation of the idx-th element of the property */ #define DT_PROP_BY_IDX(node_id, prop, idx) \ DT_CAT5(node_id, _P_, prop, _IDX_, idx) /** * @brief Like DT_PROP(), but with a fallback to @p default_value * * If the value exists, this expands to DT_PROP(node_id, prop). * The @p default_value parameter is not expanded in this case. * * Otherwise, this expands to @p default_value. * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @param default_value a fallback value to expand to * @return the property's value or @p default_value */ #define DT_PROP_OR(node_id, prop, default_value) \ COND_CODE_1(DT_NODE_HAS_PROP(node_id, prop), \ (DT_PROP(node_id, prop)), (default_value)) /** * @brief Get a property value's index into its enumeration values * * The return values start at zero. * * Example devicetree fragment: * * @code{.dts} * usb1: usb@12340000 { * maximum-speed = "full-speed"; * }; * usb2: usb@12341000 { * maximum-speed = "super-speed"; * }; * @endcode * * Example bindings fragment: * * @code{.yaml} * properties: * maximum-speed: * type: string * enum: * - "low-speed" * - "full-speed" * - "high-speed" * - "super-speed" * @endcode * * Example usage: * * @code{.c} * DT_ENUM_IDX(DT_NODELABEL(usb1), maximum_speed) // 1 * DT_ENUM_IDX(DT_NODELABEL(usb2), maximum_speed) // 3 * @endcode * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @return zero-based index of the property's value in its enum: list */ #define DT_ENUM_IDX(node_id, prop) DT_CAT4(node_id, _P_, prop, _ENUM_IDX) /** * @brief Like DT_ENUM_IDX(), but with a fallback to a default enum index * * If the value exists, this expands to its zero based index value thanks to * DT_ENUM_IDX(node_id, prop). * * Otherwise, this expands to provided default index enum value. * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @param default_idx_value a fallback index value to expand to * @return zero-based index of the property's value in its enum if present, * default_idx_value otherwise */ #define DT_ENUM_IDX_OR(node_id, prop, default_idx_value) \ COND_CODE_1(DT_NODE_HAS_PROP(node_id, prop), \ (DT_ENUM_IDX(node_id, prop)), (default_idx_value)) /** * @brief Does a node enumeration property have a given value? * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @param value lowercase-and-underscores enumeration value * @return 1 if the node property has the value @a value, 0 otherwise. */ #define DT_ENUM_HAS_VALUE(node_id, prop, value) \ IS_ENABLED(DT_CAT6(node_id, _P_, prop, _ENUM_VAL_, value, _EXISTS)) /** * @brief Get a string property's value as a token. * * This removes "the quotes" from a string property's value, * converting any non-alphanumeric characters to underscores. This can * be useful, for example, when programmatically using the value to * form a C variable or code. * * DT_STRING_TOKEN() can only be used for properties with string type. * * It is an error to use DT_STRING_TOKEN() in other circumstances. * * Example devicetree fragment: * * @code{.dts} * n1: node-1 { * prop = "foo"; * }; * n2: node-2 { * prop = "FOO"; * } * n3: node-3 { * prop = "123 foo"; * }; * @endcode * * Example bindings fragment: * * @code{.yaml} * properties: * prop: * type: string * @endcode * * Example usage: * * @code{.c} * DT_STRING_TOKEN(DT_NODELABEL(n1), prop) // foo * DT_STRING_TOKEN(DT_NODELABEL(n2), prop) // FOO * DT_STRING_TOKEN(DT_NODELABEL(n3), prop) // 123_foo * @endcode * * Notice how: * * - Unlike C identifiers, the property values may begin with a * number. It's the user's responsibility not to use such values as * the name of a C identifier. * * - The uppercased `"FOO"` in the DTS remains `FOO` as a token. It is * *not* converted to `foo`. * * - The whitespace in the DTS `"123 foo"` string is converted to * `123_foo` as a token. * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @return the value of @p prop as a token, i.e. without any quotes * and with special characters converted to underscores */ #define DT_STRING_TOKEN(node_id, prop) \ DT_CAT4(node_id, _P_, prop, _STRING_TOKEN) /** * @brief Like DT_STRING_TOKEN(), but with a fallback to @p default_value * * If the value exists, this expands to DT_STRING_TOKEN(node_id, prop). * The @p default_value parameter is not expanded in this case. * * Otherwise, this expands to @p default_value. * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @param default_value a fallback value to expand to * @return the property's value as a token, or @p default_value */ #define DT_STRING_TOKEN_OR(node_id, prop, default_value) \ COND_CODE_1(DT_NODE_HAS_PROP(node_id, prop), \ (DT_STRING_TOKEN(node_id, prop)), (default_value)) /** * @brief Like DT_STRING_TOKEN(), but uppercased. * * This removes "the quotes" from a string property's value, * converting any non-alphanumeric characters to underscores, and * capitalizing the result. This can be useful, for example, when * programmatically using the value to form a C variable or code. * * DT_STRING_UPPER_TOKEN() can only be used for properties with string type. * * It is an error to use DT_STRING_UPPER_TOKEN() in other circumstances. * * Example devicetree fragment: * * @code{.dts} * n1: node-1 { * prop = "foo"; * }; * n2: node-2 { * prop = "123 foo"; * }; * @endcode * * Example bindings fragment: * * @code{.yaml} * properties: * prop: * type: string * * @endcode * * Example usage: * * @code{.c} * DT_STRING_UPPER_TOKEN(DT_NODELABEL(n1), prop) // FOO * DT_STRING_UPPER_TOKEN(DT_NODELABEL(n2), prop) // 123_FOO * @endcode * * Notice how: * * - Unlike C identifiers, the property values may begin with a * number. It's the user's responsibility not to use such values as * the name of a C identifier. * * - The lowercased `"foo"` in the DTS becomes `FOO` as a token, i.e. * it is uppercased. * * - The whitespace in the DTS `"123 foo"` string is converted to * `123_FOO` as a token, i.e. it is uppercased and whitespace becomes * an underscore. * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @return the value of @p prop as an uppercased token, i.e. without * any quotes and with special characters converted to underscores */ #define DT_STRING_UPPER_TOKEN(node_id, prop) \ DT_CAT4(node_id, _P_, prop, _STRING_UPPER_TOKEN) /** * @brief Like DT_STRING_UPPER_TOKEN(), but with a fallback to @p default_value * * If the value exists, this expands to DT_STRING_UPPER_TOKEN(node_id, prop). * The @p default_value parameter is not expanded in this case. * * Otherwise, this expands to @p default_value. * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @param default_value a fallback value to expand to * @return the property's value as an uppercased token, * or @p default_value */ #define DT_STRING_UPPER_TOKEN_OR(node_id, prop, default_value) \ COND_CODE_1(DT_NODE_HAS_PROP(node_id, prop), \ (DT_STRING_UPPER_TOKEN(node_id, prop)), (default_value)) /** * @brief Get a string property's value as an unquoted sequence of tokens * * This removes "the quotes" from string-valued properties. * That can be useful, for example, * when defining floating point values as a string in devicetree * that you would like to use to initialize a float or double variable in C. * * DT_STRING_UNQUOTED() can only be used for properties with string type. * * It is an error to use DT_STRING_UNQUOTED() in other circumstances. * * Example devicetree fragment: * * n1: node-1 { * prop = "12.7"; * }; * n2: node-2 { * prop = "0.5"; * } * n3: node-3 { * prop = "A B C"; * }; * * Example bindings fragment: * * properties: * prop: * type: string * * Example usage: * * DT_STRING_UNQUOTED(DT_NODELABEL(n1), prop) // 12.7 * DT_STRING_UNQUOTED(DT_NODELABEL(n2), prop) // 0.5 * DT_STRING_UNQUOTED(DT_NODELABEL(n3), prop) // A B C * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @return the property's value as a sequence of tokens, with no quotes */ #define DT_STRING_UNQUOTED(node_id, prop) \ DT_CAT4(node_id, _P_, prop, _STRING_UNQUOTED) /** * @brief Like DT_STRING_UNQUOTED(), but with a fallback to @p default_value * * If the value exists, this expands to DT_STRING_UNQUOTED(node_id, prop). * The @p default_value parameter is not expanded in this case. * * Otherwise, this expands to @p default_value. * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @param default_value a fallback value to expand to * @return the property's value as a sequence of tokens, with no quotes, * or @p default_value */ #define DT_STRING_UNQUOTED_OR(node_id, prop, default_value) \ COND_CODE_1(DT_NODE_HAS_PROP(node_id, prop), \ (DT_STRING_UNQUOTED(node_id, prop)), (default_value)) /** * @brief Get an element out of a string-array property as a token. * * This removes "the quotes" from an element in the array, and converts * non-alphanumeric characters to underscores. That can be useful, for example, * when programmatically using the value to form a C variable or code. * * DT_STRING_TOKEN_BY_IDX() can only be used for properties with * string-array type. * * It is an error to use DT_STRING_TOKEN_BY_IDX() in other circumstances. * * Example devicetree fragment: * * @code{.dts} * n1: node-1 { * prop = "f1", "F2"; * }; * n2: node-2 { * prop = "123 foo", "456 FOO"; * }; * @endcode * * Example bindings fragment: * * @code{.yaml} * properties: * prop: * type: string-array * @endcode * * Example usage: * * @code{.c} * DT_STRING_TOKEN_BY_IDX(DT_NODELABEL(n1), prop, 0) // f1 * DT_STRING_TOKEN_BY_IDX(DT_NODELABEL(n1), prop, 1) // F2 * DT_STRING_TOKEN_BY_IDX(DT_NODELABEL(n2), prop, 0) // 123_foo * DT_STRING_TOKEN_BY_IDX(DT_NODELABEL(n2), prop, 1) // 456_FOO * @endcode * * For more information, see @ref DT_STRING_TOKEN. * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @param idx the index to get * @return the element in @p prop at index @p idx as a token */ #define DT_STRING_TOKEN_BY_IDX(node_id, prop, idx) \ DT_CAT6(node_id, _P_, prop, _IDX_, idx, _STRING_TOKEN) /** * @brief Like DT_STRING_TOKEN_BY_IDX(), but uppercased. * * This removes "the quotes" and capitalizes an element in the array, and * converts non-alphanumeric characters to underscores. That can be useful, for * example, when programmatically using the value to form a C variable or code. * * DT_STRING_UPPER_TOKEN_BY_IDX() can only be used for properties with * string-array type. * * It is an error to use DT_STRING_UPPER_TOKEN_BY_IDX() in other circumstances. * * Example devicetree fragment: * * @code{.dts} * n1: node-1 { * prop = "f1", "F2"; * }; * n2: node-2 { * prop = "123 foo", "456 FOO"; * }; * @endcode * * Example bindings fragment: * * @code{.yaml} * properties: * prop: * type: string-array * @endcode * * Example usage: * * @code{.c} * DT_STRING_UPPER_TOKEN_BY_IDX(DT_NODELABEL(n1), prop, 0) // F1 * DT_STRING_UPPER_TOKEN_BY_IDX(DT_NODELABEL(n1), prop, 1) // F2 * DT_STRING_UPPER_TOKEN_BY_IDX(DT_NODELABEL(n2), prop, 0) // 123_FOO * DT_STRING_UPPER_TOKEN_BY_IDX(DT_NODELABEL(n2), prop, 1) // 456_FOO * @endcode * * For more information, see @ref DT_STRING_UPPER_TOKEN. * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @param idx the index to get * @return the element in @p prop at index @p idx as an uppercased token */ #define DT_STRING_UPPER_TOKEN_BY_IDX(node_id, prop, idx) \ DT_CAT6(node_id, _P_, prop, _IDX_, idx, _STRING_UPPER_TOKEN) /** * @brief Get a string array item value as an unquoted sequence of tokens. * * This removes "the quotes" from string-valued item. * That can be useful, for example, * when defining floating point values as a string in devicetree * that you would like to use to initialize a float or double variable in C. * * DT_STRING_UNQUOTED_BY_IDX() can only be used for properties with * string-array type. * * It is an error to use DT_STRING_UNQUOTED_BY_IDX() in other circumstances. * * Example devicetree fragment: * * n1: node-1 { * prop = "12.7", "34.1"; * }; * n2: node-2 { * prop = "A B", "C D"; * } * * Example bindings fragment: * * properties: * prop: * type: string-array * * Example usage: * * DT_STRING_UNQUOTED_BY_IDX(DT_NODELABEL(n1), prop, 0) // 12.7 * DT_STRING_UNQUOTED_BY_IDX(DT_NODELABEL(n1), prop, 1) // 34.1 * DT_STRING_UNQUOTED_BY_IDX(DT_NODELABEL(n2), prop, 0) // A B * DT_STRING_UNQUOTED_BY_IDX(DT_NODELABEL(n2), prop, 1) // C D * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @param idx the index to get * @return the property's value as a sequence of tokens, with no quotes */ #define DT_STRING_UNQUOTED_BY_IDX(node_id, prop, idx) \ DT_CAT6(node_id, _P_, prop, _IDX_, idx, _STRING_UNQUOTED) /* * phandle properties * * These are special-cased to manage the impedance mismatch between * phandles, which are just uint32_t node properties that only make sense * within the tree itself, and C values. */ /** * @brief Get a property value from a phandle in a property. * * This is a shorthand for: * * @code{.c} * DT_PROP(DT_PHANDLE_BY_IDX(node_id, phs, idx), prop) * @endcode * * That is, @p prop is a property of the phandle's node, not a * property of @p node_id. * * Example devicetree fragment: * * @code{.dts} * n1: node-1 { * foo = <&n2 &n3>; * }; * * n2: node-2 { * bar = <42>; * }; * * n3: node-3 { * baz = <43>; * }; * @endcode * * Example usage: * * @code{.c} * #define N1 DT_NODELABEL(n1) * * DT_PROP_BY_PHANDLE_IDX(N1, foo, 0, bar) // 42 * DT_PROP_BY_PHANDLE_IDX(N1, foo, 1, baz) // 43 * @endcode * * @param node_id node identifier * @param phs lowercase-and-underscores property with type `phandle`, * `phandles`, or `phandle-array` * @param idx logical index into @p phs, which must be zero if @p phs * has type `phandle` * @param prop lowercase-and-underscores property of the phandle's node * @return the property's value */ #define DT_PROP_BY_PHANDLE_IDX(node_id, phs, idx, prop) \ DT_PROP(DT_PHANDLE_BY_IDX(node_id, phs, idx), prop) /** * @brief Like DT_PROP_BY_PHANDLE_IDX(), but with a fallback to * @p default_value. * * If the value exists, this expands to DT_PROP_BY_PHANDLE_IDX(node_id, phs, * idx, prop). The @p default_value parameter is not expanded in this * case. * * Otherwise, this expands to @p default_value. * * @param node_id node identifier * @param phs lowercase-and-underscores property with type `phandle`, * `phandles`, or `phandle-array` * @param idx logical index into @p phs, which must be zero if @p phs * has type `phandle` * @param prop lowercase-and-underscores property of the phandle's node * @param default_value a fallback value to expand to * @return the property's value */ #define DT_PROP_BY_PHANDLE_IDX_OR(node_id, phs, idx, prop, default_value) \ DT_PROP_OR(DT_PHANDLE_BY_IDX(node_id, phs, idx), prop, default_value) /** * @brief Get a property value from a phandle's node * * This is equivalent to DT_PROP_BY_PHANDLE_IDX(node_id, ph, 0, prop). * * @param node_id node identifier * @param ph lowercase-and-underscores property of @p node_id * with type `phandle` * @param prop lowercase-and-underscores property of the phandle's node * @return the property's value */ #define DT_PROP_BY_PHANDLE(node_id, ph, prop) \ DT_PROP_BY_PHANDLE_IDX(node_id, ph, 0, prop) /** * @brief Get a phandle-array specifier cell value at an index * * It might help to read the argument order as being similar to * `node->phandle_array[index].cell`. That is, the cell value is in * the @p pha property of @p node_id, inside the specifier at index * @p idx. * * Example devicetree fragment: * * @code{.dts} * gpio0: gpio@abcd1234 { * #gpio-cells = <2>; * }; * * gpio1: gpio@1234abcd { * #gpio-cells = <2>; * }; * * led: led_0 { * gpios = <&gpio0 17 0x1>, <&gpio1 5 0x3>; * }; * @endcode * * Bindings fragment for the `gpio0` and `gpio1` nodes: * * @code{.yaml} * gpio-cells: * - pin * - flags * @endcode * * Above, `gpios` has two elements: * * - index 0 has specifier <17 0x1>, so its `pin` cell is 17, and its * `flags` cell is 0x1 * - index 1 has specifier <5 0x3>, so `pin` is 5 and `flags` is 0x3 * * Example usage: * * @code{.c} * #define LED DT_NODELABEL(led) * * DT_PHA_BY_IDX(LED, gpios, 0, pin) // 17 * DT_PHA_BY_IDX(LED, gpios, 1, flags) // 0x3 * @endcode * * @param node_id node identifier * @param pha lowercase-and-underscores property with type `phandle-array` * @param idx logical index into @p pha * @param cell lowercase-and-underscores cell name within the specifier * at @p pha index @p idx * @return the cell's value */ #define DT_PHA_BY_IDX(node_id, pha, idx, cell) \ DT_CAT7(node_id, _P_, pha, _IDX_, idx, _VAL_, cell) /** * @brief Like DT_PHA_BY_IDX(), but with a fallback to @p default_value. * * If the value exists, this expands to DT_PHA_BY_IDX(node_id, pha, * idx, cell). The @p default_value parameter is not expanded in this * case. * * Otherwise, this expands to @p default_value. * * @internal * Implementation note: the _IDX_##idx##_VAL_##cell##_EXISTS macros are * defined, so it's safe to use DT_PROP_OR() here, because that uses an * IS_ENABLED() on the _EXISTS macro. * @endinternal * * @param node_id node identifier * @param pha lowercase-and-underscores property with type `phandle-array` * @param idx logical index into @p pha * @param cell lowercase-and-underscores cell name within the specifier * at @p pha index @p idx * @param default_value a fallback value to expand to * @return the cell's value or @p default_value */ #define DT_PHA_BY_IDX_OR(node_id, pha, idx, cell, default_value) \ DT_PROP_OR(node_id, DT_CAT5(pha, _IDX_, idx, _VAL_, cell), default_value) /** * @brief Equivalent to DT_PHA_BY_IDX(node_id, pha, 0, cell) * @param node_id node identifier * @param pha lowercase-and-underscores property with type `phandle-array` * @param cell lowercase-and-underscores cell name * @return the cell's value */ #define DT_PHA(node_id, pha, cell) DT_PHA_BY_IDX(node_id, pha, 0, cell) /** * @brief Like DT_PHA(), but with a fallback to @p default_value * * If the value exists, this expands to DT_PHA(node_id, pha, cell). * The @p default_value parameter is not expanded in this case. * * Otherwise, this expands to @p default_value. * * @param node_id node identifier * @param pha lowercase-and-underscores property with type `phandle-array` * @param cell lowercase-and-underscores cell name * @param default_value a fallback value to expand to * @return the cell's value or @p default_value */ #define DT_PHA_OR(node_id, pha, cell, default_value) \ DT_PHA_BY_IDX_OR(node_id, pha, 0, cell, default_value) /** * @brief Get a value within a phandle-array specifier by name * * This is like DT_PHA_BY_IDX(), except it treats @p pha as a structure * where each array element has a name. * * It might help to read the argument order as being similar to * `node->phandle_struct.name.cell`. That is, the cell value is in the * @p pha property of @p node_id, treated as a data structure where * each array element has a name. * * Example devicetree fragment: * * @code{.dts} * n: node { * io-channels = <&adc1 10>, <&adc2 20>; * io-channel-names = "SENSOR", "BANDGAP"; * }; * @endcode * * Bindings fragment for the "adc1" and "adc2" nodes: * * @code{.yaml} * io-channel-cells: * - input * @endcode * * Example usage: * * @code{.c} * DT_PHA_BY_NAME(DT_NODELABEL(n), io_channels, sensor, input) // 10 * DT_PHA_BY_NAME(DT_NODELABEL(n), io_channels, bandgap, input) // 20 * @endcode * * @param node_id node identifier * @param pha lowercase-and-underscores property with type `phandle-array` * @param name lowercase-and-underscores name of a specifier in @p pha * @param cell lowercase-and-underscores cell name in the named specifier * @return the cell's value */ #define DT_PHA_BY_NAME(node_id, pha, name, cell) \ DT_CAT7(node_id, _P_, pha, _NAME_, name, _VAL_, cell) /** * @brief Like DT_PHA_BY_NAME(), but with a fallback to @p default_value * * If the value exists, this expands to DT_PHA_BY_NAME(node_id, pha, * name, cell). The @p default_value parameter is not expanded in this case. * * Otherwise, this expands to @p default_value. * * @internal * Implementation note: the `_NAME_##name##_VAL_##cell##_EXISTS` macros are * defined, so it's safe to use DT_PROP_OR() here, because that uses an * IS_ENABLED() on the `_EXISTS` macro. * @endinternal * * @param node_id node identifier * @param pha lowercase-and-underscores property with type `phandle-array` * @param name lowercase-and-underscores name of a specifier in @p pha * @param cell lowercase-and-underscores cell name in the named specifier * @param default_value a fallback value to expand to * @return the cell's value or @p default_value */ #define DT_PHA_BY_NAME_OR(node_id, pha, name, cell, default_value) \ DT_PROP_OR(node_id, DT_CAT5(pha, _NAME_, name, _VAL_, cell), default_value) /** * @brief Get a phandle's node identifier from a phandle array by @p name * * It might help to read the argument order as being similar to * `node->phandle_struct.name.phandle`. That is, the phandle array is * treated as a structure with named elements. The return value is * the node identifier for a phandle inside the structure. * * Example devicetree fragment: * * @code{.dts} * adc1: adc@abcd1234 { * foobar = "ADC_1"; * }; * * adc2: adc@1234abcd { * foobar = "ADC_2"; * }; * * n: node { * io-channels = <&adc1 10>, <&adc2 20>; * io-channel-names = "SENSOR", "BANDGAP"; * }; * @endcode * * Above, "io-channels" has two elements: * * - the element named `"SENSOR"` has phandle `&adc1` * - the element named `"BANDGAP"` has phandle `&adc2` * * Example usage: * * @code{.c} * #define NODE DT_NODELABEL(n) * * DT_PROP(DT_PHANDLE_BY_NAME(NODE, io_channels, sensor), foobar) // "ADC_1" * DT_PROP(DT_PHANDLE_BY_NAME(NODE, io_channels, bandgap), foobar) // "ADC_2" * @endcode * * Notice how devicetree properties and names are lowercased, and * non-alphanumeric characters are converted to underscores. * * @param node_id node identifier * @param pha lowercase-and-underscores property with type `phandle-array` * @param name lowercase-and-underscores name of an element in @p pha * @return a node identifier for the node with that phandle */ #define DT_PHANDLE_BY_NAME(node_id, pha, name) \ DT_CAT6(node_id, _P_, pha, _NAME_, name, _PH) /** * @brief Get a node identifier for a phandle in a property. * * When a node's value at a logical index contains a phandle, this * macro returns a node identifier for the node with that phandle. * * Therefore, if @p prop has type `phandle`, @p idx must be zero. (A * `phandle` type is treated as a `phandles` with a fixed length of * 1). * * Example devicetree fragment: * * @code{.dts} * n1: node-1 { * foo = <&n2 &n3>; * }; * * n2: node-2 { ... }; * n3: node-3 { ... }; * @endcode * * Above, `foo` has type phandles and has two elements: * * - index 0 has phandle `&n2`, which is `node-2`'s phandle * - index 1 has phandle `&n3`, which is `node-3`'s phandle * * Example usage: * * @code{.c} * #define N1 DT_NODELABEL(n1) * * DT_PHANDLE_BY_IDX(N1, foo, 0) // node identifier for node-2 * DT_PHANDLE_BY_IDX(N1, foo, 1) // node identifier for node-3 * @endcode * * Behavior is analogous for phandle-arrays. * * @internal * Implementation note: using DT_CAT6 above defers concatenation until * after expansion of each parameter. This is important when 'idx' is * expandable to a number, but it isn't one "yet". * @endinternal * * @param node_id node identifier * @param prop lowercase-and-underscores property name in @p node_id * with type `phandle`, `phandles` or `phandle-array` * @param idx index into @p prop * @return node identifier for the node with the phandle at that index */ #define DT_PHANDLE_BY_IDX(node_id, prop, idx) \ DT_CAT6(node_id, _P_, prop, _IDX_, idx, _PH) /** * @brief Get a node identifier for a phandle property's value * * This is equivalent to DT_PHANDLE_BY_IDX(node_id, prop, 0). Its primary * benefit is readability when @p prop has type `phandle`. * * @param node_id node identifier * @param prop lowercase-and-underscores property of @p node_id * with type `phandle` * @return a node identifier for the node pointed to by "ph" */ #define DT_PHANDLE(node_id, prop) DT_PHANDLE_BY_IDX(node_id, prop, 0) /** * @} */ /** * @defgroup devicetree-ranges-prop ranges property * @ingroup devicetree * @{ */ /** * @brief Get the number of range blocks in the ranges property * * Use this instead of DT_PROP_LEN(node_id, ranges). * * Example devicetree fragment: * * @code{.dts} * pcie0: pcie@0 { * compatible = "pcie-controller"; * reg = <0 1>; * #address-cells = <3>; * #size-cells = <2>; * * ranges = <0x1000000 0 0 0 0x3eff0000 0 0x10000>, * <0x2000000 0 0x10000000 0 0x10000000 0 0x2eff0000>, * <0x3000000 0x80 0 0x80 0 0x80 0>; * }; * * other: other@1 { * reg = <1 1>; * * ranges = <0x0 0x0 0x0 0x3eff0000 0x10000>, * <0x0 0x10000000 0x0 0x10000000 0x2eff0000>; * }; * @endcode * * Example usage: * * @code{.c} * DT_NUM_RANGES(DT_NODELABEL(pcie0)) // 3 * DT_NUM_RANGES(DT_NODELABEL(other)) // 2 * @endcode * * @param node_id node identifier */ #define DT_NUM_RANGES(node_id) DT_CAT(node_id, _RANGES_NUM) /** * @brief Is @p idx a valid range block index? * * If this returns 1, then DT_RANGES_CHILD_BUS_ADDRESS_BY_IDX(node_id, idx), * DT_RANGES_PARENT_BUS_ADDRESS_BY_IDX(node_id, idx) or * DT_RANGES_LENGTH_BY_IDX(node_id, idx) are valid. * For DT_RANGES_CHILD_BUS_FLAGS_BY_IDX(node_id, idx) the return value * of DT_RANGES_HAS_CHILD_BUS_FLAGS_AT_IDX(node_id, idx) will indicate * validity. * If it returns 0, it is an error to use those macros with index @p idx, * including DT_RANGES_CHILD_BUS_FLAGS_BY_IDX(node_id, idx). * * Example devicetree fragment: * * @code{.dts} * pcie0: pcie@0 { * compatible = "pcie-controller"; * reg = <0 1>; * #address-cells = <3>; * #size-cells = <2>; * * ranges = <0x1000000 0 0 0 0x3eff0000 0 0x10000>, * <0x2000000 0 0x10000000 0 0x10000000 0 0x2eff0000>, * <0x3000000 0x80 0 0x80 0 0x80 0>; * }; * * other: other@1 { * reg = <1 1>; * * ranges = <0x0 0x0 0x0 0x3eff0000 0x10000>, * <0x0 0x10000000 0x0 0x10000000 0x2eff0000>; * }; * @endcode * * Example usage: * * @code{.c} * DT_RANGES_HAS_IDX(DT_NODELABEL(pcie0), 0) // 1 * DT_RANGES_HAS_IDX(DT_NODELABEL(pcie0), 1) // 1 * DT_RANGES_HAS_IDX(DT_NODELABEL(pcie0), 2) // 1 * DT_RANGES_HAS_IDX(DT_NODELABEL(pcie0), 3) // 0 * DT_RANGES_HAS_IDX(DT_NODELABEL(other), 0) // 1 * DT_RANGES_HAS_IDX(DT_NODELABEL(other), 1) // 1 * DT_RANGES_HAS_IDX(DT_NODELABEL(other), 2) // 0 * DT_RANGES_HAS_IDX(DT_NODELABEL(other), 3) // 0 * @endcode * * @param node_id node identifier * @param idx index to check * @return 1 if @p idx is a valid register block index, * 0 otherwise. */ #define DT_RANGES_HAS_IDX(node_id, idx) \ IS_ENABLED(DT_CAT4(node_id, _RANGES_IDX_, idx, _EXISTS)) /** * @brief Does a ranges property have child bus flags at index? * * If this returns 1, then DT_RANGES_CHILD_BUS_FLAGS_BY_IDX(node_id, idx) is valid. * If it returns 0, it is an error to use this macro with index @p idx. * This macro only returns 1 for PCIe buses (i.e. nodes whose bindings specify they * are "pcie" bus nodes.) * * Example devicetree fragment: * * @code{.dts} * parent { * #address-cells = <2>; * * pcie0: pcie@0 { * compatible = "pcie-controller"; * reg = <0 0 1>; * #address-cells = <3>; * #size-cells = <2>; * * ranges = <0x1000000 0 0 0 0x3eff0000 0 0x10000>, * <0x2000000 0 0x10000000 0 0x10000000 0 0x2eff0000>, * <0x3000000 0x80 0 0x80 0 0x80 0>; * }; * * other: other@1 { * reg = <0 1 1>; * * ranges = <0x0 0x0 0x0 0x3eff0000 0x10000>, * <0x0 0x10000000 0x0 0x10000000 0x2eff0000>; * }; * }; * @endcode * * Example usage: * * @code{.c} * DT_RANGES_HAS_CHILD_BUS_FLAGS_AT_IDX(DT_NODELABEL(pcie0), 0) // 1 * DT_RANGES_HAS_CHILD_BUS_FLAGS_AT_IDX(DT_NODELABEL(pcie0), 1) // 1 * DT_RANGES_HAS_CHILD_BUS_FLAGS_AT_IDX(DT_NODELABEL(pcie0), 2) // 1 * DT_RANGES_HAS_CHILD_BUS_FLAGS_AT_IDX(DT_NODELABEL(pcie0), 3) // 0 * DT_RANGES_HAS_CHILD_BUS_FLAGS_AT_IDX(DT_NODELABEL(other), 0) // 0 * DT_RANGES_HAS_CHILD_BUS_FLAGS_AT_IDX(DT_NODELABEL(other), 1) // 0 * DT_RANGES_HAS_CHILD_BUS_FLAGS_AT_IDX(DT_NODELABEL(other), 2) // 0 * DT_RANGES_HAS_CHILD_BUS_FLAGS_AT_IDX(DT_NODELABEL(other), 3) // 0 * @endcode * * @param node_id node identifier * @param idx logical index into the ranges array * @return 1 if @p idx is a valid child bus flags index, * 0 otherwise. */ #define DT_RANGES_HAS_CHILD_BUS_FLAGS_AT_IDX(node_id, idx) \ IS_ENABLED(DT_CAT4(node_id, _RANGES_IDX_, idx, _VAL_CHILD_BUS_FLAGS_EXISTS)) /** * @brief Get the ranges property child bus flags at index * * When the node is a PCIe bus, the Child Bus Address has an extra cell used to store some * flags, thus this cell is extracted from the Child Bus Address as Child Bus Flags field. * * Example devicetree fragments: * * @code{.dts} * parent { * #address-cells = <2>; * * pcie0: pcie@0 { * compatible = "pcie-controller"; * reg = <0 0 1>; * #address-cells = <3>; * #size-cells = <2>; * * ranges = <0x1000000 0 0 0 0x3eff0000 0 0x10000>, * <0x2000000 0 0x10000000 0 0x10000000 0 0x2eff0000>, * <0x3000000 0x80 0 0x80 0 0x80 0>; * }; * }; * @endcode * * Example usage: * * @code{.c} * DT_RANGES_CHILD_BUS_FLAGS_BY_IDX(DT_NODELABEL(pcie0), 0) // 0x1000000 * DT_RANGES_CHILD_BUS_FLAGS_BY_IDX(DT_NODELABEL(pcie0), 1) // 0x2000000 * DT_RANGES_CHILD_BUS_FLAGS_BY_IDX(DT_NODELABEL(pcie0), 2) // 0x3000000 * @endcode * * @param node_id node identifier * @param idx logical index into the ranges array * @returns range child bus flags field at idx */ #define DT_RANGES_CHILD_BUS_FLAGS_BY_IDX(node_id, idx) \ DT_CAT4(node_id, _RANGES_IDX_, idx, _VAL_CHILD_BUS_FLAGS) /** * @brief Get the ranges property child bus address at index * * When the node is a PCIe bus, the Child Bus Address has an extra cell used to store some * flags, thus this cell is removed from the Child Bus Address. * * Example devicetree fragments: * * @code{.dts} * parent { * #address-cells = <2>; * * pcie0: pcie@0 { * compatible = "pcie-controller"; * reg = <0 0 1>; * #address-cells = <3>; * #size-cells = <2>; * * ranges = <0x1000000 0 0 0 0x3eff0000 0 0x10000>, * <0x2000000 0 0x10000000 0 0x10000000 0 0x2eff0000>, * <0x3000000 0x80 0 0x80 0 0x80 0>; * }; * * other: other@1 { * reg = <0 1 1>; * * ranges = <0x0 0x0 0x0 0x3eff0000 0x10000>, * <0x0 0x10000000 0x0 0x10000000 0x2eff0000>; * }; * }; * @endcode * * Example usage: * * @code{.c} * DT_RANGES_CHILD_BUS_ADDRESS_BY_IDX(DT_NODELABEL(pcie0), 0) // 0 * DT_RANGES_CHILD_BUS_ADDRESS_BY_IDX(DT_NODELABEL(pcie0), 1) // 0x10000000 * DT_RANGES_CHILD_BUS_ADDRESS_BY_IDX(DT_NODELABEL(pcie0), 2) // 0x8000000000 * DT_RANGES_CHILD_BUS_ADDRESS_BY_IDX(DT_NODELABEL(other), 0) // 0 * DT_RANGES_CHILD_BUS_ADDRESS_BY_IDX(DT_NODELABEL(other), 1) // 0x10000000 * @endcode * * @param node_id node identifier * @param idx logical index into the ranges array * @returns range child bus address field at idx */ #define DT_RANGES_CHILD_BUS_ADDRESS_BY_IDX(node_id, idx) \ DT_CAT4(node_id, _RANGES_IDX_, idx, _VAL_CHILD_BUS_ADDRESS) /** * @brief Get the ranges property parent bus address at index * * Similarly to DT_RANGES_CHILD_BUS_ADDRESS_BY_IDX(), this properly accounts * for child bus flags cells when the node is a PCIe bus. * * Example devicetree fragment: * * @code{.dts} * parent { * #address-cells = <2>; * * pcie0: pcie@0 { * compatible = "pcie-controller"; * reg = <0 0 1>; * #address-cells = <3>; * #size-cells = <2>; * * ranges = <0x1000000 0 0 0 0x3eff0000 0 0x10000>, * <0x2000000 0 0x10000000 0 0x10000000 0 0x2eff0000>, * <0x3000000 0x80 0 0x80 0 0x80 0>; * }; * * other: other@1 { * reg = <0 1 1>; * * ranges = <0x0 0x0 0x0 0x3eff0000 0x10000>, * <0x0 0x10000000 0x0 0x10000000 0x2eff0000>; * }; * }; * @endcode * * Example usage: * * @code{.c} * DT_RANGES_PARENT_BUS_ADDRESS_BY_IDX(DT_NODELABEL(pcie0), 0) // 0x3eff0000 * DT_RANGES_PARENT_BUS_ADDRESS_BY_IDX(DT_NODELABEL(pcie0), 1) // 0x10000000 * DT_RANGES_PARENT_BUS_ADDRESS_BY_IDX(DT_NODELABEL(pcie0), 2) // 0x8000000000 * DT_RANGES_PARENT_BUS_ADDRESS_BY_IDX(DT_NODELABEL(other), 0) // 0x3eff0000 * DT_RANGES_PARENT_BUS_ADDRESS_BY_IDX(DT_NODELABEL(other), 1) // 0x10000000 * @endcode * * @param node_id node identifier * @param idx logical index into the ranges array * @returns range parent bus address field at idx */ #define DT_RANGES_PARENT_BUS_ADDRESS_BY_IDX(node_id, idx) \ DT_CAT4(node_id, _RANGES_IDX_, idx, _VAL_PARENT_BUS_ADDRESS) /** * @brief Get the ranges property length at index * * Similarly to DT_RANGES_CHILD_BUS_ADDRESS_BY_IDX(), this properly accounts * for child bus flags cells when the node is a PCIe bus. * * Example devicetree fragment: * * @code{.dts} * parent { * #address-cells = <2>; * * pcie0: pcie@0 { * compatible = "pcie-controller"; * reg = <0 0 1>; * #address-cells = <3>; * #size-cells = <2>; * * ranges = <0x1000000 0 0 0 0x3eff0000 0 0x10000>, * <0x2000000 0 0x10000000 0 0x10000000 0 0x2eff0000>, * <0x3000000 0x80 0 0x80 0 0x80 0>; * }; * * other: other@1 { * reg = <0 1 1>; * * ranges = <0x0 0x0 0x0 0x3eff0000 0x10000>, * <0x0 0x10000000 0x0 0x10000000 0x2eff0000>; * }; * }; * @endcode * * Example usage: * * @code{.c} * DT_RANGES_LENGTH_BY_IDX(DT_NODELABEL(pcie0), 0) // 0x10000 * DT_RANGES_LENGTH_BY_IDX(DT_NODELABEL(pcie0), 1) // 0x2eff0000 * DT_RANGES_LENGTH_BY_IDX(DT_NODELABEL(pcie0), 2) // 0x8000000000 * DT_RANGES_LENGTH_BY_IDX(DT_NODELABEL(other), 0) // 0x10000 * DT_RANGES_LENGTH_BY_IDX(DT_NODELABEL(other), 1) // 0x2eff0000 * @endcode * * @param node_id node identifier * @param idx logical index into the ranges array * @returns range length field at idx */ #define DT_RANGES_LENGTH_BY_IDX(node_id, idx) \ DT_CAT4(node_id, _RANGES_IDX_, idx, _VAL_LENGTH) /** * @brief Invokes @p fn for each entry of @p node_id ranges property * * The macro @p fn must take two parameters, @p node_id which will be the node * identifier of the node with the ranges property and @p idx the index of * the ranges block. * * Example devicetree fragment: * * @code{.dts} * n: node@0 { * reg = <0 0 1>; * * ranges = <0x0 0x0 0x0 0x3eff0000 0x10000>, * <0x0 0x10000000 0x0 0x10000000 0x2eff0000>; * }; * @endcode * * Example usage: * * @code{.c} * #define RANGE_LENGTH(node_id, idx) DT_RANGES_LENGTH_BY_IDX(node_id, idx), * * const uint64_t *ranges_length[] = { * DT_FOREACH_RANGE(DT_NODELABEL(n), RANGE_LENGTH) * }; * @endcode * * This expands to: * * @code{.c} * const char *ranges_length[] = { * 0x10000, 0x2eff0000, * }; * @endcode * * @param node_id node identifier * @param fn macro to invoke */ #define DT_FOREACH_RANGE(node_id, fn) \ DT_CAT(node_id, _FOREACH_RANGE)(fn) /** * @} */ /** * @defgroup devicetree-generic-vendor Vendor and model name helpers * @ingroup devicetree * @{ */ /** * @brief Get the vendor at index @p idx as a string literal * * The vendor is a string extracted from vendor prefixes if an entry exists * that matches the node's compatible prefix. There may be as many as one * vendor prefixes file per directory in DTS_ROOT. * * Example vendor-prefixes.txt: * * vnd A stand-in for a real vendor * zephyr Zephyr-specific binding * * Example devicetree fragment: * * @code{.dts} * n1: node-1 { * compatible = "vnd,model1", "gpio", "zephyr,model2"; * }; * @endcode * * Example usage: * * @code{.c} * DT_NODE_VENDOR_BY_IDX(DT_NODELABEL(n1), 0) // "A stand-in for a real vendor" * DT_NODE_VENDOR_BY_IDX(DT_NODELABEL(n1), 2) // "Zephyr-specific binding" * @endcode * * Notice that the compatible at index 1 doesn't match any entries in the * vendor prefix file and therefore index 1 is not a valid vendor index. Use * DT_NODE_VENDOR_HAS_IDX(node_id, idx) to determine if an index is valid. * * @param node_id node identifier * @param idx index of the vendor to return * @return string literal of the idx-th vendor */ #define DT_NODE_VENDOR_BY_IDX(node_id, idx) \ DT_CAT3(node_id, _COMPAT_VENDOR_IDX_, idx) /** * @brief Does a node's compatible property have a vendor at an index? * * If this returns 1, then DT_NODE_VENDOR_BY_IDX(node_id, idx) is valid. If it * returns 0, it is an error to use DT_NODE_VENDOR_BY_IDX(node_id, idx) with * index @p idx. * * @param node_id node identifier * @param idx index of the vendor to check * @return 1 if @p idx is a valid vendor index, * 0 otherwise. */ #define DT_NODE_VENDOR_HAS_IDX(node_id, idx) \ IS_ENABLED(DT_CAT4(node_id, _COMPAT_VENDOR_IDX_, idx, _EXISTS)) /** * @brief Like DT_NODE_VENDOR_BY_IDX(), but with a fallback to default_value. * * If the value exists, this expands to DT_NODE_VENDOR_BY_IDX(node_id, idx). * The default_value parameter is not expanded in this case. * * Otherwise, this expands to default_value. * * @param node_id node identifier * @param idx index of the vendor to return * @return string literal of the idx-th vendor * @param default_value a fallback value to expand to * @return string literal of the idx-th vendor or "default_value" */ #define DT_NODE_VENDOR_BY_IDX_OR(node_id, idx, default_value) \ COND_CODE_1(DT_NODE_VENDOR_HAS_IDX(node_id, idx), \ (DT_NODE_VENDOR_BY_IDX(node_id, idx)), (default_value)) /** * @brief Get the node's (only) vendor as a string literal * * Equivalent to DT_NODE_VENDOR_BY_IDX_OR(node_id, 0, default_value). * * @param node_id node identifier * @param default_value a fallback value to expand to */ #define DT_NODE_VENDOR_OR(node_id, default_value) \ DT_NODE_VENDOR_BY_IDX_OR(node_id, 0, default_value) /** * @brief Get the model at index "idx" as a string literal * * The model is a string extracted from the compatible after the vendor prefix. * * Example vendor-prefixes.txt: * * vnd A stand-in for a real vendor * zephyr Zephyr-specific binding * * Example devicetree fragment: * * n1: node-1 { * compatible = "vnd,model1", "gpio", "zephyr,model2"; * }; * * Example usage: * * DT_NODE_MODEL_BY_IDX(DT_NODELABEL(n1), 0) // "model1" * DT_NODE_MODEL_BY_IDX(DT_NODELABEL(n1), 2) // "model2" * * Notice that the compatible at index 1 doesn't match any entries in the * vendor prefix file and therefore index 1 is not a valid model index. Use * DT_NODE_MODEL_HAS_IDX(node_id, idx) to determine if an index is valid. * * @param node_id node identifier * @param idx index of the model to return * @return string literal of the idx-th model */ #define DT_NODE_MODEL_BY_IDX(node_id, idx) \ DT_CAT3(node_id, _COMPAT_MODEL_IDX_, idx) /** * @brief Does a node's compatible property have a model at an index? * * If this returns 1, then DT_NODE_MODEL_BY_IDX(node_id, idx) is valid. If it * returns 0, it is an error to use DT_NODE_MODEL_BY_IDX(node_id, idx) with * index "idx". * * @param node_id node identifier * @param idx index of the model to check * @return 1 if "idx" is a valid model index, * 0 otherwise. */ #define DT_NODE_MODEL_HAS_IDX(node_id, idx) \ IS_ENABLED(DT_CAT4(node_id, _COMPAT_MODEL_IDX_, idx, _EXISTS)) /** * @brief Like DT_NODE_MODEL_BY_IDX(), but with a fallback to default_value. * * If the value exists, this expands to DT_NODE_MODEL_BY_IDX(node_id, idx). * The default_value parameter is not expanded in this case. * * Otherwise, this expands to default_value. * * @param node_id node identifier * @param idx index of the model to return * @return string literal of the idx-th model * @param default_value a fallback value to expand to * @return string literal of the idx-th model or "default_value" */ #define DT_NODE_MODEL_BY_IDX_OR(node_id, idx, default_value) \ COND_CODE_1(DT_NODE_MODEL_HAS_IDX(node_id, idx), \ (DT_NODE_MODEL_BY_IDX(node_id, idx)), (default_value)) /** * @brief Get the node's (only) model as a string literal * * Equivalent to DT_NODE_MODEL_BY_IDX_OR(node_id, 0, default_value). * * @param node_id node identifier * @param default_value a fallback value to expand to */ #define DT_NODE_MODEL_OR(node_id, default_value) \ DT_NODE_MODEL_BY_IDX_OR(node_id, 0, default_value) /** * @} */ /** * @defgroup devicetree-reg-prop reg property * @ingroup devicetree * @{ */ /** * @brief Get the number of register blocks in the reg property * * Use this instead of DT_PROP_LEN(node_id, reg). * @param node_id node identifier * @return Number of register blocks in the node's "reg" property. */ #define DT_NUM_REGS(node_id) DT_CAT(node_id, _REG_NUM) /** * @brief Is @p idx a valid register block index? * * If this returns 1, then DT_REG_ADDR_BY_IDX(node_id, idx) or * DT_REG_SIZE_BY_IDX(node_id, idx) are valid. * If it returns 0, it is an error to use those macros with index @p idx. * @param node_id node identifier * @param idx index to check * @return 1 if @p idx is a valid register block index, * 0 otherwise. */ #define DT_REG_HAS_IDX(node_id, idx) \ IS_ENABLED(DT_CAT4(node_id, _REG_IDX_, idx, _EXISTS)) /** * @brief Get the base address of the register block at index @p idx * @param node_id node identifier * @param idx index of the register whose address to return * @return address of the idx-th register block */ #define DT_REG_ADDR_BY_IDX(node_id, idx) \ DT_CAT4(node_id, _REG_IDX_, idx, _VAL_ADDRESS) /** * @brief Get the size of the register block at index @p idx * * This is the size of an individual register block, not the total * number of register blocks in the property; use DT_NUM_REGS() for * that. * * @param node_id node identifier * @param idx index of the register whose size to return * @return size of the idx-th register block */ #define DT_REG_SIZE_BY_IDX(node_id, idx) \ DT_CAT4(node_id, _REG_IDX_, idx, _VAL_SIZE) /** * @brief Get a node's (only) register block address * * Equivalent to DT_REG_ADDR_BY_IDX(node_id, 0). * @param node_id node identifier * @return node's register block address */ #define DT_REG_ADDR(node_id) DT_REG_ADDR_BY_IDX(node_id, 0) /** * @brief 64-bit version of DT_REG_ADDR() * * This macro version adds the appropriate suffix for 64-bit unsigned * integer literals. * Note that this macro is equivalent to DT_REG_ADDR() in linker/ASM context. * * @param node_id node identifier * @return node's register block address */ #define DT_REG_ADDR_U64(node_id) DT_U64_C(DT_REG_ADDR(node_id)) /** * @brief Get a node's (only) register block size * * Equivalent to DT_REG_SIZE_BY_IDX(node_id, 0). * @param node_id node identifier * @return node's only register block's size */ #define DT_REG_SIZE(node_id) DT_REG_SIZE_BY_IDX(node_id, 0) /** * @brief Get a register block's base address by name * @param node_id node identifier * @param name lowercase-and-underscores register specifier name * @return address of the register block specified by name */ #define DT_REG_ADDR_BY_NAME(node_id, name) \ DT_CAT4(node_id, _REG_NAME_, name, _VAL_ADDRESS) /** * @brief 64-bit version of DT_REG_ADDR_BY_NAME() * * This macro version adds the appropriate suffix for 64-bit unsigned * integer literals. * Note that this macro is equivalent to DT_REG_ADDR_BY_NAME() in * linker/ASM context. * * @param node_id node identifier * @param name lowercase-and-underscores register specifier name * @return address of the register block specified by name */ #define DT_REG_ADDR_BY_NAME_U64(node_id, name) \ DT_U64_C(DT_REG_ADDR_BY_NAME(node_id, name)) /** * @brief Get a register block's size by name * @param node_id node identifier * @param name lowercase-and-underscores register specifier name * @return size of the register block specified by name */ #define DT_REG_SIZE_BY_NAME(node_id, name) \ DT_CAT4(node_id, _REG_NAME_, name, _VAL_SIZE) /** * @} */ /** * @defgroup devicetree-interrupts-prop interrupts property * @ingroup devicetree * @{ */ /** * @brief Get the number of interrupt sources for the node * * Use this instead of DT_PROP_LEN(node_id, interrupts). * * @param node_id node identifier * @return Number of interrupt specifiers in the node's "interrupts" property. */ #define DT_NUM_IRQS(node_id) DT_CAT(node_id, _IRQ_NUM) /** * @brief Get the interrupt level for the node * * @param node_id node identifier * @return interrupt level */ #define DT_IRQ_LEVEL(node_id) DT_CAT(node_id, _IRQ_LEVEL) /** * @brief Is @p idx a valid interrupt index? * * If this returns 1, then DT_IRQ_BY_IDX(node_id, idx) is valid. * If it returns 0, it is an error to use that macro with this index. * @param node_id node identifier * @param idx index to check * @return 1 if the idx is valid for the interrupt property * 0 otherwise. */ #define DT_IRQ_HAS_IDX(node_id, idx) \ IS_ENABLED(DT_CAT4(node_id, _IRQ_IDX_, idx, _EXISTS)) /** * @brief Does an interrupts property have a named cell specifier at an index? * If this returns 1, then DT_IRQ_BY_IDX(node_id, idx, cell) is valid. * If it returns 0, it is an error to use that macro. * @param node_id node identifier * @param idx index to check * @param cell named cell value whose existence to check * @return 1 if the named cell exists in the interrupt specifier at index idx * 0 otherwise. */ #define DT_IRQ_HAS_CELL_AT_IDX(node_id, idx, cell) \ IS_ENABLED(DT_CAT6(node_id, _IRQ_IDX_, idx, _VAL_, cell, _EXISTS)) /** * @brief Equivalent to DT_IRQ_HAS_CELL_AT_IDX(node_id, 0, cell) * @param node_id node identifier * @param cell named cell value whose existence to check * @return 1 if the named cell exists in the interrupt specifier at index 0 * 0 otherwise. */ #define DT_IRQ_HAS_CELL(node_id, cell) DT_IRQ_HAS_CELL_AT_IDX(node_id, 0, cell) /** * @brief Does an interrupts property have a named specifier value at an index? * If this returns 1, then DT_IRQ_BY_NAME(node_id, name, cell) is valid. * If it returns 0, it is an error to use that macro. * @param node_id node identifier * @param name lowercase-and-underscores interrupt specifier name * @return 1 if "name" is a valid named specifier * 0 otherwise. */ #define DT_IRQ_HAS_NAME(node_id, name) \ IS_ENABLED(DT_CAT4(node_id, _IRQ_NAME_, name, _VAL_irq_EXISTS)) /** * @brief Get a value within an interrupt specifier at an index * * It might help to read the argument order as being similar to * "node->interrupts[index].cell". * * This can be used to get information about an individual interrupt * when a device generates more than one. * * Example devicetree fragment: * * @code{.dts} * my-serial: serial@abcd1234 { * interrupts = < 33 0 >, < 34 1 >; * }; * @endcode * * Assuming the node's interrupt domain has "#interrupt-cells = <2>;" and * the individual cells in each interrupt specifier are named "irq" and * "priority" by the node's binding, here are some examples: * * #define SERIAL DT_NODELABEL(my_serial) * * Example usage Value * ------------- ----- * DT_IRQ_BY_IDX(SERIAL, 0, irq) 33 * DT_IRQ_BY_IDX(SERIAL, 0, priority) 0 * DT_IRQ_BY_IDX(SERIAL, 1, irq, 34 * DT_IRQ_BY_IDX(SERIAL, 1, priority) 1 * * @param node_id node identifier * @param idx logical index into the interrupt specifier array * @param cell cell name specifier * @return the named value at the specifier given by the index */ #define DT_IRQ_BY_IDX(node_id, idx, cell) \ DT_CAT5(node_id, _IRQ_IDX_, idx, _VAL_, cell) /** * @brief Get a value within an interrupt specifier by name * * It might help to read the argument order as being similar to * `node->interrupts.name.cell`. * * This can be used to get information about an individual interrupt * when a device generates more than one, if the bindings give each * interrupt specifier a name. * * @param node_id node identifier * @param name lowercase-and-underscores interrupt specifier name * @param cell cell name specifier * @return the named value at the specifier given by the index */ #define DT_IRQ_BY_NAME(node_id, name, cell) \ DT_CAT5(node_id, _IRQ_NAME_, name, _VAL_, cell) /** * @brief Get an interrupt specifier's value * Equivalent to DT_IRQ_BY_IDX(node_id, 0, cell). * @param node_id node identifier * @param cell cell name specifier * @return the named value at that index */ #define DT_IRQ(node_id, cell) DT_IRQ_BY_IDX(node_id, 0, cell) /** * @brief Get an interrupt specifier's interrupt controller by index * * @code{.dts} * gpio0: gpio0 { * interrupt-controller; * #interrupt-cells = <2>; * }; * * foo: foo { * interrupt-parent = <&gpio0>; * interrupts = <1 1>, <2 2>; * }; * * bar: bar { * interrupts-extended = <&gpio0 3 3>, <&pic0 4>; * }; * * pic0: pic0 { * interrupt-controller; * #interrupt-cells = <1>; * * qux: qux { * interrupts = <5>, <6>; * interrupt-names = "int1", "int2"; * }; * }; * @endcode * * Example usage: * * DT_IRQ_INTC_BY_IDX(DT_NODELABEL(foo), 0) // &gpio0 * DT_IRQ_INTC_BY_IDX(DT_NODELABEL(foo), 1) // &gpio0 * DT_IRQ_INTC_BY_IDX(DT_NODELABEL(bar), 0) // &gpio0 * DT_IRQ_INTC_BY_IDX(DT_NODELABEL(bar), 1) // &pic0 * DT_IRQ_INTC_BY_IDX(DT_NODELABEL(qux), 0) // &pic0 * DT_IRQ_INTC_BY_IDX(DT_NODELABEL(qux), 1) // &pic0 * * @param node_id node identifier * @param idx interrupt specifier's index * @return node_id of interrupt specifier's interrupt controller */ #define DT_IRQ_INTC_BY_IDX(node_id, idx) \ DT_CAT4(node_id, _IRQ_IDX_, idx, _CONTROLLER) /** * @brief Get an interrupt specifier's interrupt controller by name * * @code{.dts} * gpio0: gpio0 { * interrupt-controller; * #interrupt-cells = <2>; * }; * * foo: foo { * interrupt-parent = <&gpio0>; * interrupts = <1 1>, <2 2>; * interrupt-names = "int1", "int2"; * }; * * bar: bar { * interrupts-extended = <&gpio0 3 3>, <&pic0 4>; * interrupt-names = "int1", "int2"; * }; * * pic0: pic0 { * interrupt-controller; * #interrupt-cells = <1>; * * qux: qux { * interrupts = <5>, <6>; * interrupt-names = "int1", "int2"; * }; * }; * @endcode * * Example usage: * * DT_IRQ_INTC_BY_NAME(DT_NODELABEL(foo), int1) // &gpio0 * DT_IRQ_INTC_BY_NAME(DT_NODELABEL(foo), int2) // &gpio0 * DT_IRQ_INTC_BY_NAME(DT_NODELABEL(bar), int1) // &gpio0 * DT_IRQ_INTC_BY_NAME(DT_NODELABEL(bar), int2) // &pic0 * DT_IRQ_INTC_BY_NAME(DT_NODELABEL(qux), int1) // &pic0 * DT_IRQ_INTC_BY_NAME(DT_NODELABEL(qux), int2) // &pic0 * * @param node_id node identifier * @param name interrupt specifier's name * @return node_id of interrupt specifier's interrupt controller */ #define DT_IRQ_INTC_BY_NAME(node_id, name) \ DT_CAT4(node_id, _IRQ_NAME_, name, _CONTROLLER) /** * @brief Get an interrupt specifier's interrupt controller * @note Equivalent to DT_IRQ_INTC_BY_IDX(node_id, 0) * * @code{.dts} * gpio0: gpio0 { * interrupt-controller; * #interrupt-cells = <2>; * }; * * foo: foo { * interrupt-parent = <&gpio0>; * interrupts = <1 1>; * }; * * bar: bar { * interrupts-extended = <&gpio0 3 3>; * }; * * pic0: pic0 { * interrupt-controller; * #interrupt-cells = <1>; * * qux: qux { * interrupts = <5>; * }; * }; * @endcode * * Example usage: * * DT_IRQ_INTC(DT_NODELABEL(foo)) // &gpio0 * DT_IRQ_INTC(DT_NODELABEL(bar)) // &gpio0 * DT_IRQ_INTC(DT_NODELABEL(qux)) // &pic0 * * @param node_id node identifier * @return node_id of interrupt specifier's interrupt controller * @see DT_IRQ_INTC_BY_IDX() */ #define DT_IRQ_INTC(node_id) \ DT_IRQ_INTC_BY_IDX(node_id, 0) /** * @cond INTERNAL_HIDDEN */ /* DT helper macro to encode a node's IRQN to level 1 according to the multi-level scheme */ #define DT_IRQN_L1_INTERNAL(node_id, idx) DT_IRQ_BY_IDX(node_id, idx, irq) /* DT helper macro to encode a node's IRQN to level 2 according to the multi-level scheme */ #define DT_IRQN_L2_INTERNAL(node_id, idx) \ (IRQ_TO_L2(DT_IRQN_L1_INTERNAL(node_id, idx)) | \ DT_IRQ(DT_IRQ_INTC_BY_IDX(node_id, idx), irq)) /* DT helper macro to encode a node's IRQN to level 3 according to the multi-level scheme */ #define DT_IRQN_L3_INTERNAL(node_id, idx) \ (IRQ_TO_L3(DT_IRQN_L1_INTERNAL(node_id, idx)) | \ IRQ_TO_L2(DT_IRQ(DT_IRQ_INTC_BY_IDX(node_id, idx), irq)) | \ DT_IRQ(DT_IRQ_INTC(DT_IRQ_INTC_BY_IDX(node_id, idx)), irq)) /* DT helper macro for the macros above */ #define DT_IRQN_LVL_INTERNAL(node_id, idx, level) DT_CAT3(DT_IRQN_L, level, _INTERNAL)(node_id, idx) /** * DT helper macro to encode a node's interrupt number according to the Zephyr's multi-level scheme * See doc/kernel/services/interrupts.rst for details */ #define DT_MULTI_LEVEL_IRQN_INTERNAL(node_id, idx) \ DT_IRQN_LVL_INTERNAL(node_id, idx, DT_IRQ_LEVEL(node_id)) /** * INTERNAL_HIDDEN @endcond */ /** * @brief Get the node's Zephyr interrupt number at index * If @kconfig{CONFIG_MULTI_LEVEL_INTERRUPTS} is enabled, the interrupt number at index will be * multi-level encoded * @param node_id node identifier * @param idx logical index into the interrupt specifier array * @return the Zephyr interrupt number */ #define DT_IRQN_BY_IDX(node_id, idx) \ COND_CODE_1(IS_ENABLED(CONFIG_MULTI_LEVEL_INTERRUPTS), \ (DT_MULTI_LEVEL_IRQN_INTERNAL(node_id, idx)), \ (DT_IRQ_BY_IDX(node_id, idx, irq))) /** * @brief Get a node's (only) irq number * * Equivalent to DT_IRQ(node_id, irq). This is provided as a convenience * for the common case where a node generates exactly one interrupt, * and the IRQ number is in a cell named `irq`. * * @param node_id node identifier * @return the interrupt number for the node's only interrupt */ #define DT_IRQN(node_id) DT_IRQN_BY_IDX(node_id, 0) /** * @} */ /** * @defgroup devicetree-generic-chosen Chosen nodes * @ingroup devicetree * @{ */ /** * @brief Get a node identifier for a `/chosen` node property * * This is only valid to call if `DT_HAS_CHOSEN(prop)` is 1. * @param prop lowercase-and-underscores property name for * the /chosen node * @return a node identifier for the chosen node property */ #define DT_CHOSEN(prop) DT_CAT(DT_CHOSEN_, prop) /** * @brief Test if the devicetree has a `/chosen` node * @param prop lowercase-and-underscores devicetree property * @return 1 if the chosen property exists and refers to a node, * 0 otherwise */ #define DT_HAS_CHOSEN(prop) IS_ENABLED(DT_CAT3(DT_CHOSEN_, prop, _EXISTS)) /** * @} */ /** * @defgroup devicetree-generic-foreach "For-each" macros * @ingroup devicetree * @{ */ /** * @brief Invokes @p fn for every node in the tree. * * The macro @p fn must take one parameter, which will be a node * identifier. The macro is expanded once for each node in the tree. * The order that nodes are visited in is not specified. * * @param fn macro to invoke */ #define DT_FOREACH_NODE(fn) DT_FOREACH_HELPER(fn) /** * @brief Invokes @p fn for every node in the tree with multiple arguments. * * The macro @p fn takes multiple arguments. The first should be the node * identifier for the node. The remaining are passed-in by the caller. * * The macro is expanded once for each node in the tree. The order that nodes * are visited in is not specified. * * @param fn macro to invoke * @param ... variable number of arguments to pass to @p fn */ #define DT_FOREACH_NODE_VARGS(fn, ...) DT_FOREACH_VARGS_HELPER(fn, __VA_ARGS__) /** * @brief Invokes @p fn for every status `okay` node in the tree. * * The macro @p fn must take one parameter, which will be a node * identifier. The macro is expanded once for each node in the tree * with status `okay` (as usual, a missing status property is treated * as status `okay`). The order that nodes are visited in is not * specified. * * @param fn macro to invoke */ #define DT_FOREACH_STATUS_OKAY_NODE(fn) DT_FOREACH_OKAY_HELPER(fn) /** * @brief Invokes @p fn for every status `okay` node in the tree with multiple * arguments. * * The macro @p fn takes multiple arguments. The first should be the node * identifier for the node. The remaining are passed-in by the caller. * * The macro is expanded once for each node in the tree with status `okay` (as * usual, a missing status property is treated as status `okay`). The order * that nodes are visited in is not specified. * * @param fn macro to invoke * @param ... variable number of arguments to pass to @p fn */ #define DT_FOREACH_STATUS_OKAY_NODE_VARGS(fn, ...) DT_FOREACH_OKAY_VARGS_HELPER(fn, __VA_ARGS__) /** * @brief Invokes @p fn for each child of @p node_id * * The macro @p fn must take one parameter, which will be the node * identifier of a child node of @p node_id. * * The children will be iterated over in the same order as they * appear in the final devicetree. * * Example devicetree fragment: * * @code{.dts} * n: node { * child-1 { * foobar = "foo"; * }; * child-2 { * foobar = "bar"; * }; * }; * @endcode * * Example usage: * * @code{.c} * #define FOOBAR_AND_COMMA(node_id) DT_PROP(node_id, foobar), * * const char *child_foobars[] = { * DT_FOREACH_CHILD(DT_NODELABEL(n), FOOBAR_AND_COMMA) * }; * @endcode * * This expands to: * * @code{.c} * const char *child_foobars[] = { * "foo", "bar", * }; * @endcode * * @param node_id node identifier * @param fn macro to invoke */ #define DT_FOREACH_CHILD(node_id, fn) \ DT_CAT(node_id, _FOREACH_CHILD)(fn) /** * @brief Invokes @p fn for each child of @p node_id with a separator * * The macro @p fn must take one parameter, which will be the node * identifier of a child node of @p node_id. * * Example devicetree fragment: * * @code{.dts} * n: node { * child-1 { * ... * }; * child-2 { * ... * }; * }; * @endcode * * Example usage: * * @code{.c} * const char *child_names[] = { * DT_FOREACH_CHILD_SEP(DT_NODELABEL(n), DT_NODE_FULL_NAME, (,)) * }; * @endcode * * This expands to: * * @code{.c} * const char *child_names[] = { * "child-1", "child-2" * }; * @endcode * * @param node_id node identifier * @param fn macro to invoke * @param sep Separator (e.g. comma or semicolon). Must be in parentheses; * this is required to enable providing a comma as separator. */ #define DT_FOREACH_CHILD_SEP(node_id, fn, sep) \ DT_CAT(node_id, _FOREACH_CHILD_SEP)(fn, sep) /** * @brief Invokes @p fn for each child of @p node_id with multiple arguments * * The macro @p fn takes multiple arguments. The first should be the node * identifier for the child node. The remaining are passed-in by the caller. * * The children will be iterated over in the same order as they * appear in the final devicetree. * * @param node_id node identifier * @param fn macro to invoke * @param ... variable number of arguments to pass to @p fn * * @see DT_FOREACH_CHILD */ #define DT_FOREACH_CHILD_VARGS(node_id, fn, ...) \ DT_CAT(node_id, _FOREACH_CHILD_VARGS)(fn, __VA_ARGS__) /** * @brief Invokes @p fn for each child of @p node_id with separator and multiple * arguments. * * The macro @p fn takes multiple arguments. The first should be the node * identifier for the child node. The remaining are passed-in by the caller. * * @param node_id node identifier * @param fn macro to invoke * @param sep Separator (e.g. comma or semicolon). Must be in parentheses; * this is required to enable providing a comma as separator. * @param ... variable number of arguments to pass to @p fn * * @see DT_FOREACH_CHILD_VARGS */ #define DT_FOREACH_CHILD_SEP_VARGS(node_id, fn, sep, ...) \ DT_CAT(node_id, _FOREACH_CHILD_SEP_VARGS)(fn, sep, __VA_ARGS__) /** * @brief Call @p fn on the child nodes with status `okay` * * The macro @p fn should take one argument, which is the node * identifier for the child node. * * As usual, both a missing status and an `ok` status are * treated as `okay`. * * The children will be iterated over in the same order as they * appear in the final devicetree. * * @param node_id node identifier * @param fn macro to invoke */ #define DT_FOREACH_CHILD_STATUS_OKAY(node_id, fn) \ DT_CAT(node_id, _FOREACH_CHILD_STATUS_OKAY)(fn) /** * @brief Call @p fn on the child nodes with status `okay` with separator * * The macro @p fn should take one argument, which is the node * identifier for the child node. * * As usual, both a missing status and an `ok` status are * treated as `okay`. * * @param node_id node identifier * @param fn macro to invoke * @param sep Separator (e.g. comma or semicolon). Must be in parentheses; * this is required to enable providing a comma as separator. * * @see DT_FOREACH_CHILD_STATUS_OKAY */ #define DT_FOREACH_CHILD_STATUS_OKAY_SEP(node_id, fn, sep) \ DT_CAT(node_id, _FOREACH_CHILD_STATUS_OKAY_SEP)(fn, sep) /** * @brief Call @p fn on the child nodes with status `okay` with multiple * arguments * * The macro @p fn takes multiple arguments. The first should be the node * identifier for the child node. The remaining are passed-in by the caller. * * As usual, both a missing status and an `ok` status are * treated as `okay`. * * The children will be iterated over in the same order as they * appear in the final devicetree. * * @param node_id node identifier * @param fn macro to invoke * @param ... variable number of arguments to pass to @p fn * * @see DT_FOREACH_CHILD_STATUS_OKAY */ #define DT_FOREACH_CHILD_STATUS_OKAY_VARGS(node_id, fn, ...) \ DT_CAT(node_id, _FOREACH_CHILD_STATUS_OKAY_VARGS)(fn, __VA_ARGS__) /** * @brief Call @p fn on the child nodes with status `okay` with separator and * multiple arguments * * The macro @p fn takes multiple arguments. The first should be the node * identifier for the child node. The remaining are passed-in by the caller. * * As usual, both a missing status and an `ok` status are * treated as `okay`. * * @param node_id node identifier * @param fn macro to invoke * @param sep Separator (e.g. comma or semicolon). Must be in parentheses; * this is required to enable providing a comma as separator. * @param ... variable number of arguments to pass to @p fn * * @see DT_FOREACH_CHILD_SEP_STATUS_OKAY */ #define DT_FOREACH_CHILD_STATUS_OKAY_SEP_VARGS(node_id, fn, sep, ...) \ DT_CAT(node_id, _FOREACH_CHILD_STATUS_OKAY_SEP_VARGS)(fn, sep, __VA_ARGS__) /** * @brief Invokes @p fn for each element in the value of property @p prop. * * The macro @p fn must take three parameters: fn(node_id, prop, idx). * @p node_id and @p prop are the same as what is passed to * DT_FOREACH_PROP_ELEM(), and @p idx is the current index into the array. * The @p idx values are integer literals starting from 0. * * The @p prop argument must refer to a property that can be passed to * DT_PROP_LEN(). * * Example devicetree fragment: * * @code{.dts} * n: node { * my-ints = <1 2 3>; * }; * @endcode * * Example usage: * * @code{.c} * #define TIMES_TWO(node_id, prop, idx) \ * (2 * DT_PROP_BY_IDX(node_id, prop, idx)), * * int array[] = { * DT_FOREACH_PROP_ELEM(DT_NODELABEL(n), my_ints, TIMES_TWO) * }; * @endcode * * This expands to: * * @code{.c} * int array[] = { * (2 * 1), (2 * 2), (2 * 3), * }; * @endcode * * In general, this macro expands to: * * fn(node_id, prop, 0) fn(node_id, prop, 1) [...] fn(node_id, prop, n-1) * * where `n` is the number of elements in @p prop, as it would be * returned by `DT_PROP_LEN(node_id, prop)`. * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @param fn macro to invoke * @see DT_PROP_LEN */ #define DT_FOREACH_PROP_ELEM(node_id, prop, fn) \ DT_CAT4(node_id, _P_, prop, _FOREACH_PROP_ELEM)(fn) /** * @brief Invokes @p fn for each element in the value of property @p prop with * separator. * * Example devicetree fragment: * * @code{.dts} * n: node { * my-gpios = <&gpioa 0 GPIO_ACTICE_HIGH>, * <&gpiob 1 GPIO_ACTIVE_HIGH>; * }; * @endcode * * Example usage: * * @code{.c} * struct gpio_dt_spec specs[] = { * DT_FOREACH_PROP_ELEM_SEP(DT_NODELABEL(n), my_gpios, * GPIO_DT_SPEC_GET_BY_IDX, (,)) * }; * @endcode * * This expands as a first step to: * * @code{.c} * struct gpio_dt_spec specs[] = { * GPIO_DT_SPEC_GET_BY_IDX(DT_NODELABEL(n), my_gpios, 0), * GPIO_DT_SPEC_GET_BY_IDX(DT_NODELABEL(n), my_gpios, 1) * }; * @endcode * * The @p prop parameter has the same restrictions as the same parameter * given to DT_FOREACH_PROP_ELEM(). * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @param fn macro to invoke * @param sep Separator (e.g. comma or semicolon). Must be in parentheses; * this is required to enable providing a comma as separator. * * @see DT_FOREACH_PROP_ELEM */ #define DT_FOREACH_PROP_ELEM_SEP(node_id, prop, fn, sep) \ DT_CAT4(node_id, _P_, prop, _FOREACH_PROP_ELEM_SEP)(fn, sep) /** * @brief Invokes @p fn for each element in the value of property @p prop with * multiple arguments. * * The macro @p fn must take multiple parameters: * `fn(node_id, prop, idx, ...)`. @p node_id and @p prop are the same as what * is passed to DT_FOREACH_PROP_ELEM(), and @p idx is the current index into * the array. The @p idx values are integer literals starting from 0. The * remaining arguments are passed-in by the caller. * * The @p prop parameter has the same restrictions as the same parameter * given to DT_FOREACH_PROP_ELEM(). * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @param fn macro to invoke * @param ... variable number of arguments to pass to @p fn * * @see DT_FOREACH_PROP_ELEM */ #define DT_FOREACH_PROP_ELEM_VARGS(node_id, prop, fn, ...) \ DT_CAT4(node_id, _P_, prop, _FOREACH_PROP_ELEM_VARGS)(fn, __VA_ARGS__) /** * @brief Invokes @p fn for each element in the value of property @p prop with * multiple arguments and a separator. * * The @p prop parameter has the same restrictions as the same parameter * given to DT_FOREACH_PROP_ELEM(). * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @param fn macro to invoke * @param sep Separator (e.g. comma or semicolon). Must be in parentheses; * this is required to enable providing a comma as separator. * @param ... variable number of arguments to pass to fn * * @see DT_FOREACH_PROP_ELEM_VARGS */ #define DT_FOREACH_PROP_ELEM_SEP_VARGS(node_id, prop, fn, sep, ...) \ DT_CAT4(node_id, _P_, prop, _FOREACH_PROP_ELEM_SEP_VARGS)( \ fn, sep, __VA_ARGS__) /** * @brief Invokes @p fn for each status `okay` node of a compatible. * * This macro expands to: * * fn(node_id_1) fn(node_id_2) ... fn(node_id_n) * * where each `node_id_` is a node identifier for some node with * compatible @p compat and status `okay`. Whitespace is added between * expansions as shown above. * * Example devicetree fragment: * * @code{.dts} * / { * a { * compatible = "foo"; * status = "okay"; * }; * b { * compatible = "foo"; * status = "disabled"; * }; * c { * compatible = "foo"; * }; * }; * @endcode * * Example usage: * * @code{.c} * DT_FOREACH_STATUS_OKAY(foo, DT_NODE_PATH) * @endcode * * This expands to one of the following: * * "/a" "/c" * "/c" "/a" * * "One of the following" is because no guarantees are made about the * order that node identifiers are passed to @p fn in the expansion. * * (The `/c` string literal is present because a missing status * property is always treated as if the status were set to `okay`.) * * Note also that @p fn is responsible for adding commas, semicolons, * or other terminators as needed. * * @param compat lowercase-and-underscores devicetree compatible * @param fn Macro to call for each enabled node. Must accept a * node_id as its only parameter. */ #define DT_FOREACH_STATUS_OKAY(compat, fn) \ COND_CODE_1(DT_HAS_COMPAT_STATUS_OKAY(compat), \ (DT_CAT(DT_FOREACH_OKAY_, compat)(fn)), \ ()) /** * @brief Invokes @p fn for each status `okay` node of a compatible * with multiple arguments. * * This is like DT_FOREACH_STATUS_OKAY() except you can also pass * additional arguments to @p fn. * * Example devicetree fragment: * * @code{.dts} * / { * a { * compatible = "foo"; * val = <3>; * }; * b { * compatible = "foo"; * val = <4>; * }; * }; * @endcode * * Example usage: * * @code{.c} * #define MY_FN(node_id, operator) DT_PROP(node_id, val) operator * x = DT_FOREACH_STATUS_OKAY_VARGS(foo, MY_FN, +) 0; * @endcode * * This expands to one of the following: * * @code{.c} * x = 3 + 4 + 0; * x = 4 + 3 + 0; * @endcode * * i.e. it sets `x` to 7. As with DT_FOREACH_STATUS_OKAY(), there are no * guarantees about the order nodes appear in the expansion. * * @param compat lowercase-and-underscores devicetree compatible * @param fn Macro to call for each enabled node. Must accept a * node_id as its only parameter. * @param ... Additional arguments to pass to @p fn */ #define DT_FOREACH_STATUS_OKAY_VARGS(compat, fn, ...) \ COND_CODE_1(DT_HAS_COMPAT_STATUS_OKAY(compat), \ (DT_CAT(DT_FOREACH_OKAY_VARGS_, \ compat)(fn, __VA_ARGS__)), \ ()) /** * @} */ /** * @defgroup devicetree-generic-exist Existence checks * @ingroup devicetree * @{ */ /** * @brief Does a node identifier refer to a node? * * Tests whether a node identifier refers to a node which exists, i.e. * is defined in the devicetree. * * It doesn't matter whether or not the node has a matching binding, * or what the node's status value is. This is purely a check of * whether the node exists at all. * * @param node_id a node identifier * @return 1 if the node identifier refers to a node, * 0 otherwise. */ #define DT_NODE_EXISTS(node_id) IS_ENABLED(DT_CAT(node_id, _EXISTS)) /** * @brief Does a node identifier refer to a node with a status? * * Example uses: * * @code{.c} * DT_NODE_HAS_STATUS(DT_PATH(soc, i2c_12340000), okay) * DT_NODE_HAS_STATUS(DT_PATH(soc, i2c_12340000), disabled) * @endcode * * Tests whether a node identifier refers to a node which: * * - exists in the devicetree, and * - has a status property matching the second argument * (except that either a missing status or an `ok` status * in the devicetree is treated as if it were `okay` instead) * * @param node_id a node identifier * @param status a status as one of the tokens okay or disabled, not a string * @return 1 if the node has the given status, 0 otherwise. */ #define DT_NODE_HAS_STATUS(node_id, status) \ DT_NODE_HAS_STATUS_INTERNAL(node_id, status) /** * @brief Does the devicetree have a status `okay` node with a compatible? * * Test for whether the devicetree has any nodes with status `okay` * and the given compatible. That is, this returns 1 if and only if * there is at least one @p node_id for which both of these * expressions return 1: * * @code{.c} * DT_NODE_HAS_STATUS(node_id, okay) * DT_NODE_HAS_COMPAT(node_id, compat) * @endcode * * As usual, both a missing status and an `ok` status are treated as * `okay`. * * @param compat lowercase-and-underscores compatible, without quotes * @return 1 if both of the above conditions are met, 0 otherwise */ #define DT_HAS_COMPAT_STATUS_OKAY(compat) \ IS_ENABLED(DT_CAT(DT_COMPAT_HAS_OKAY_, compat)) /** * @brief Get the number of instances of a given compatible with * status `okay` * @param compat lowercase-and-underscores compatible, without quotes * @return Number of instances with status `okay` */ #define DT_NUM_INST_STATUS_OKAY(compat) \ UTIL_AND(DT_HAS_COMPAT_STATUS_OKAY(compat), \ UTIL_CAT(DT_N_INST, DT_DASH(compat, NUM_OKAY))) /** * @brief Does a devicetree node match a compatible? * * Example devicetree fragment: * * @code{.dts} * n: node { * compatible = "vnd,specific-device", "generic-device"; * } * @endcode * * Example usages which evaluate to 1: * * @code{.c} * DT_NODE_HAS_COMPAT(DT_NODELABEL(n), vnd_specific_device) * DT_NODE_HAS_COMPAT(DT_NODELABEL(n), generic_device) * @endcode * * This macro only uses the value of the compatible property. Whether * or not a particular compatible has a matching binding has no effect * on its value, nor does the node's status. * * @param node_id node identifier * @param compat lowercase-and-underscores compatible, without quotes * @return 1 if the node's compatible property contains @p compat, * 0 otherwise. */ #define DT_NODE_HAS_COMPAT(node_id, compat) \ IS_ENABLED(DT_CAT3(node_id, _COMPAT_MATCHES_, compat)) /** * @brief Does a devicetree node have a compatible and status? * * This is equivalent to: * * @code{.c} * (DT_NODE_HAS_COMPAT(node_id, compat) && * DT_NODE_HAS_STATUS(node_id, status)) * @endcode * * @param node_id node identifier * @param compat lowercase-and-underscores compatible, without quotes * @param status okay or disabled as a token, not a string */ #define DT_NODE_HAS_COMPAT_STATUS(node_id, compat, status) \ DT_NODE_HAS_COMPAT(node_id, compat) && DT_NODE_HAS_STATUS(node_id, status) /** * @brief Does a devicetree node have a property? * * Tests whether a devicetree node has a property defined. * * This tests whether the property is defined at all, not whether a * boolean property is true or false. To get a boolean property's * truth value, use DT_PROP(node_id, prop) instead. * * @param node_id node identifier * @param prop lowercase-and-underscores property name * @return 1 if the node has the property, 0 otherwise. */ #define DT_NODE_HAS_PROP(node_id, prop) \ IS_ENABLED(DT_CAT4(node_id, _P_, prop, _EXISTS)) /** * @brief Does a phandle array have a named cell specifier at an index? * * If this returns 1, then the phandle-array property @p pha has a cell * named @p cell at index @p idx, and therefore DT_PHA_BY_IDX(node_id, * pha, idx, cell) is valid. If it returns 0, it's an error to use * DT_PHA_BY_IDX() with the same arguments. * * @param node_id node identifier * @param pha lowercase-and-underscores property with type `phandle-array` * @param idx index to check within @p pha * @param cell lowercase-and-underscores cell name whose existence to check * at index @p idx * @return 1 if the named cell exists in the specifier at index idx, * 0 otherwise. */ #define DT_PHA_HAS_CELL_AT_IDX(node_id, pha, idx, cell) \ IS_ENABLED(DT_CAT8(node_id, _P_, pha, \ _IDX_, idx, _VAL_, cell, _EXISTS)) /** * @brief Equivalent to DT_PHA_HAS_CELL_AT_IDX(node_id, pha, 0, cell) * @param node_id node identifier * @param pha lowercase-and-underscores property with type `phandle-array` * @param cell lowercase-and-underscores cell name whose existence to check * at index @p idx * @return 1 if the named cell exists in the specifier at index 0, * 0 otherwise. */ #define DT_PHA_HAS_CELL(node_id, pha, cell) \ DT_PHA_HAS_CELL_AT_IDX(node_id, pha, 0, cell) /** * @} */ /** * @defgroup devicetree-generic-bus Bus helpers * @ingroup devicetree * @{ */ /** * @brief Node's bus controller * * Get the node identifier of the node's bus controller. This can be * used with DT_PROP() to get properties of the bus controller. * * It is an error to use this with nodes which do not have bus * controllers. * * Example devicetree fragment: * * @code{.dts} * i2c@deadbeef { * status = "okay"; * clock-frequency = < 100000 >; * * i2c_device: accelerometer@12 { * ... * }; * }; * @endcode * * Example usage: * * @code{.c} * DT_PROP(DT_BUS(DT_NODELABEL(i2c_device)), clock_frequency) // 100000 * @endcode * * @param node_id node identifier * @return a node identifier for the node's bus controller */ #define DT_BUS(node_id) DT_CAT(node_id, _BUS) /** * @brief Is a node on a bus of a given type? * * Example devicetree overlay: * * @code{.dts} * &i2c0 { * temp: temperature-sensor@76 { * compatible = "vnd,some-sensor"; * reg = <0x76>; * }; * }; * @endcode * * Example usage, assuming `i2c0` is an I2C bus controller node, and * therefore `temp` is on an I2C bus: * * @code{.c} * DT_ON_BUS(DT_NODELABEL(temp), i2c) // 1 * DT_ON_BUS(DT_NODELABEL(temp), spi) // 0 * @endcode * * @param node_id node identifier * @param bus lowercase-and-underscores bus type as a C token (i.e. * without quotes) * @return 1 if the node is on a bus of the given type, * 0 otherwise */ #define DT_ON_BUS(node_id, bus) IS_ENABLED(DT_CAT3(node_id, _BUS_, bus)) /** * @} */ /** * @defgroup devicetree-inst Instance-based devicetree APIs * @ingroup devicetree * @{ */ /** * @brief Node identifier for an instance of a `DT_DRV_COMPAT` compatible * @param inst instance number * @return a node identifier for the node with `DT_DRV_COMPAT` compatible and * instance number @p inst */ #define DT_DRV_INST(inst) DT_INST(inst, DT_DRV_COMPAT) /** * @brief Get a `DT_DRV_COMPAT` parent's node identifier * @param inst instance number * @return a node identifier for the instance's parent * * @see DT_PARENT */ #define DT_INST_PARENT(inst) DT_PARENT(DT_DRV_INST(inst)) /** * @brief Get a `DT_DRV_COMPAT` grandparent's node identifier * @param inst instance number * @return a node identifier for the instance's grandparent * * @see DT_GPARENT */ #define DT_INST_GPARENT(inst) DT_GPARENT(DT_DRV_INST(inst)) /** * @brief Get a node identifier for a child node of DT_DRV_INST(inst) * * @param inst instance number * @param child lowercase-and-underscores child node name * @return node identifier for the node with the name referred to by 'child' * * @see DT_CHILD */ #define DT_INST_CHILD(inst, child) \ DT_CHILD(DT_DRV_INST(inst), child) /** * @brief Get the number of child nodes of a given node * * This is equivalent to @see * DT_CHILD_NUM(DT_DRV_INST(inst)). * * @param inst Devicetree instance number * @return Number of child nodes */ #define DT_INST_CHILD_NUM(inst) DT_CHILD_NUM(DT_DRV_INST(inst)) /** * @brief Get the number of child nodes of a given node * * This is equivalent to @see * DT_CHILD_NUM_STATUS_OKAY(DT_DRV_INST(inst)). * * @param inst Devicetree instance number * @return Number of child nodes which status are okay */ #define DT_INST_CHILD_NUM_STATUS_OKAY(inst) \ DT_CHILD_NUM_STATUS_OKAY(DT_DRV_INST(inst)) /** * @brief Call @p fn on all child nodes of DT_DRV_INST(inst). * * The macro @p fn should take one argument, which is the node * identifier for the child node. * * The children will be iterated over in the same order as they * appear in the final devicetree. * * @param inst instance number * @param fn macro to invoke on each child node identifier * * @see DT_FOREACH_CHILD */ #define DT_INST_FOREACH_CHILD(inst, fn) \ DT_FOREACH_CHILD(DT_DRV_INST(inst), fn) /** * @brief Call @p fn on all child nodes of DT_DRV_INST(inst) with a separator * * The macro @p fn should take one argument, which is the node * identifier for the child node. * * @param inst instance number * @param fn macro to invoke on each child node identifier * @param sep Separator (e.g. comma or semicolon). Must be in parentheses; * this is required to enable providing a comma as separator. * * @see DT_FOREACH_CHILD_SEP */ #define DT_INST_FOREACH_CHILD_SEP(inst, fn, sep) \ DT_FOREACH_CHILD_SEP(DT_DRV_INST(inst), fn, sep) /** * @brief Call @p fn on all child nodes of DT_DRV_INST(inst). * * The macro @p fn takes multiple arguments. The first should be the node * identifier for the child node. The remaining are passed-in by the caller. * * The children will be iterated over in the same order as they * appear in the final devicetree. * * @param inst instance number * @param fn macro to invoke on each child node identifier * @param ... variable number of arguments to pass to @p fn * * @see DT_FOREACH_CHILD */ #define DT_INST_FOREACH_CHILD_VARGS(inst, fn, ...) \ DT_FOREACH_CHILD_VARGS(DT_DRV_INST(inst), fn, __VA_ARGS__) /** * @brief Call @p fn on all child nodes of DT_DRV_INST(inst) with separator. * * The macro @p fn takes multiple arguments. The first should be the node * identifier for the child node. The remaining are passed-in by the caller. * * @param inst instance number * @param fn macro to invoke on each child node identifier * @param sep Separator (e.g. comma or semicolon). Must be in parentheses; * this is required to enable providing a comma as separator. * @param ... variable number of arguments to pass to @p fn * * @see DT_FOREACH_CHILD_SEP_VARGS */ #define DT_INST_FOREACH_CHILD_SEP_VARGS(inst, fn, sep, ...) \ DT_FOREACH_CHILD_SEP_VARGS(DT_DRV_INST(inst), fn, sep, __VA_ARGS__) /** * @brief Call @p fn on all child nodes of DT_DRV_INST(inst) with status `okay`. * * The macro @p fn should take one argument, which is the node * identifier for the child node. * * @param inst instance number * @param fn macro to invoke on each child node identifier * * @see DT_FOREACH_CHILD_STATUS_OKAY */ #define DT_INST_FOREACH_CHILD_STATUS_OKAY(inst, fn) \ DT_FOREACH_CHILD_STATUS_OKAY(DT_DRV_INST(inst), fn) /** * @brief Call @p fn on all child nodes of DT_DRV_INST(inst) with status `okay` * and with separator. * * The macro @p fn should take one argument, which is the node * identifier for the child node. * * @param inst instance number * @param fn macro to invoke on each child node identifier * @param sep Separator (e.g. comma or semicolon). Must be in parentheses; * this is required to enable providing a comma as separator. * * @see DT_FOREACH_CHILD_STATUS_OKAY_SEP */ #define DT_INST_FOREACH_CHILD_STATUS_OKAY_SEP(inst, fn, sep) \ DT_FOREACH_CHILD_STATUS_OKAY_SEP(DT_DRV_INST(inst), fn, sep) /** * @brief Call @p fn on all child nodes of DT_DRV_INST(inst) with status `okay` * and multiple arguments. * * The macro @p fn takes multiple arguments. The first should be the node * identifier for the child node. The remaining are passed-in by the caller. * * @param inst instance number * @param fn macro to invoke on each child node identifier * @param ... variable number of arguments to pass to @p fn * * @see DT_FOREACH_CHILD_STATUS_OKAY_VARGS */ #define DT_INST_FOREACH_CHILD_STATUS_OKAY_VARGS(inst, fn, ...) \ DT_FOREACH_CHILD_STATUS_OKAY_VARGS(DT_DRV_INST(inst), fn, __VA_ARGS__) /** * @brief Call @p fn on all child nodes of DT_DRV_INST(inst) with status `okay` * and with separator and multiple arguments. * * The macro @p fn takes multiple arguments. The first should be the node * identifier for the child node. The remaining are passed-in by the caller. * * @param inst instance number * @param fn macro to invoke on each child node identifier * @param sep Separator (e.g. comma or semicolon). Must be in parentheses; * this is required to enable providing a comma as separator. * @param ... variable number of arguments to pass to @p fn * * @see DT_FOREACH_CHILD_STATUS_OKAY_SEP_VARGS */ #define DT_INST_FOREACH_CHILD_STATUS_OKAY_SEP_VARGS(inst, fn, sep, ...) \ DT_FOREACH_CHILD_STATUS_OKAY_SEP_VARGS(DT_DRV_INST(inst), fn, sep, __VA_ARGS__) /** * @brief Get a `DT_DRV_COMPAT` value's index into its enumeration values * @param inst instance number * @param prop lowercase-and-underscores property name * @return zero-based index of the property's value in its enum: list */ #define DT_INST_ENUM_IDX(inst, prop) \ DT_ENUM_IDX(DT_DRV_INST(inst), prop) /** * @brief Like DT_INST_ENUM_IDX(), but with a fallback to a default enum index * @param inst instance number * @param prop lowercase-and-underscores property name * @param default_idx_value a fallback index value to expand to * @return zero-based index of the property's value in its enum if present, * default_idx_value otherwise */ #define DT_INST_ENUM_IDX_OR(inst, prop, default_idx_value) \ DT_ENUM_IDX_OR(DT_DRV_INST(inst), prop, default_idx_value) /** * @brief Does a `DT_DRV_COMPAT` enumeration property have a given value? * * @param inst instance number * @param prop lowercase-and-underscores property name * @param value lowercase-and-underscores enumeration value * @return 1 if the node property has the value @a value, 0 otherwise. */ #define DT_INST_ENUM_HAS_VALUE(inst, prop, value) \ DT_ENUM_HAS_VALUE(DT_DRV_INST(inst), prop, value) /** * @brief Get a `DT_DRV_COMPAT` instance property * @param inst instance number * @param prop lowercase-and-underscores property name * @return a representation of the property's value */ #define DT_INST_PROP(inst, prop) DT_PROP(DT_DRV_INST(inst), prop) /** * @brief Get a `DT_DRV_COMPAT` property length * @param inst instance number * @param prop lowercase-and-underscores property name * @return logical length of the property */ #define DT_INST_PROP_LEN(inst, prop) DT_PROP_LEN(DT_DRV_INST(inst), prop) /** * @brief Is index @p idx valid for an array type property * on a `DT_DRV_COMPAT` instance? * @param inst instance number * @param prop lowercase-and-underscores property name * @param idx index to check * @return 1 if @p idx is a valid index into the given property, * 0 otherwise. */ #define DT_INST_PROP_HAS_IDX(inst, prop, idx) \ DT_PROP_HAS_IDX(DT_DRV_INST(inst), prop, idx) /** * @brief Is name @p name available in a `foo-names` property? * @param inst instance number * @param prop a lowercase-and-underscores `prop-names` type property * @param name a lowercase-and-underscores name to check * @return An expression which evaluates to 1 if @p name is an available * name into the given property, and 0 otherwise. */ #define DT_INST_PROP_HAS_NAME(inst, prop, name) \ DT_PROP_HAS_NAME(DT_DRV_INST(inst), prop, name) /** * @brief Get a `DT_DRV_COMPAT` element value in an array property * @param inst instance number * @param prop lowercase-and-underscores property name * @param idx the index to get * @return a representation of the idx-th element of the property */ #define DT_INST_PROP_BY_IDX(inst, prop, idx) \ DT_PROP_BY_IDX(DT_DRV_INST(inst), prop, idx) /** * @brief Like DT_INST_PROP(), but with a fallback to @p default_value * @param inst instance number * @param prop lowercase-and-underscores property name * @param default_value a fallback value to expand to * @return DT_INST_PROP(inst, prop) or @p default_value */ #define DT_INST_PROP_OR(inst, prop, default_value) \ DT_PROP_OR(DT_DRV_INST(inst), prop, default_value) /** * @brief Like DT_INST_PROP_LEN(), but with a fallback to @p default_value * @param inst instance number * @param prop lowercase-and-underscores property name * @param default_value a fallback value to expand to * @return DT_INST_PROP_LEN(inst, prop) or @p default_value */ #define DT_INST_PROP_LEN_OR(inst, prop, default_value) \ DT_PROP_LEN_OR(DT_DRV_INST(inst), prop, default_value) /** * @brief Get a `DT_DRV_COMPAT` instance's string property's value as a * token. * * @param inst instance number * @param prop lowercase-and-underscores property name * @return the value of @p prop as a token, i.e. without any quotes * and with special characters converted to underscores */ #define DT_INST_STRING_TOKEN(inst, prop) \ DT_STRING_TOKEN(DT_DRV_INST(inst), prop) /** * @brief Like DT_INST_STRING_TOKEN(), but uppercased. * @param inst instance number * @param prop lowercase-and-underscores property name * @return the value of @p prop as an uppercased token, i.e. without * any quotes and with special characters converted to underscores */ #define DT_INST_STRING_UPPER_TOKEN(inst, prop) \ DT_STRING_UPPER_TOKEN(DT_DRV_INST(inst), prop) /** * @brief Get a `DT_DRV_COMPAT` instance's string property's value as * an unquoted sequence of tokens. * * @param inst instance number * @param prop lowercase-and-underscores property name * @return the value of @p prop as a sequence of tokens, with no quotes */ #define DT_INST_STRING_UNQUOTED(inst, prop) \ DT_STRING_UNQUOTED(DT_DRV_INST(inst), prop) /** * @brief Get an element out of string-array property as a token. * @param inst instance number * @param prop lowercase-and-underscores property name * @param idx the index to get * @return the element in @p prop at index @p idx as a token */ #define DT_INST_STRING_TOKEN_BY_IDX(inst, prop, idx) \ DT_STRING_TOKEN_BY_IDX(DT_DRV_INST(inst), prop, idx) /** * @brief Like DT_INST_STRING_TOKEN_BY_IDX(), but uppercased. * @param inst instance number * @param prop lowercase-and-underscores property name * @param idx the index to get * @return the element in @p prop at index @p idx as an uppercased token */ #define DT_INST_STRING_UPPER_TOKEN_BY_IDX(inst, prop, idx) \ DT_STRING_UPPER_TOKEN_BY_IDX(DT_DRV_INST(inst), prop, idx) /** * @brief Get an element out of string-array property as an unquoted sequence of tokens. * @param inst instance number * @param prop lowercase-and-underscores property name * @param idx the index to get * @return the value of @p prop at index @p idx as a sequence of tokens, with no quotes */ #define DT_INST_STRING_UNQUOTED_BY_IDX(inst, prop, idx) \ DT_STRING_UNQUOTED_BY_IDX(DT_DRV_INST(inst), prop, idx) /** * @brief Get a `DT_DRV_COMPAT` instance's property value from a phandle's node * @param inst instance number * @param ph lowercase-and-underscores property of @p inst * with type `phandle` * @param prop lowercase-and-underscores property of the phandle's node * @return the value of @p prop as described in the DT_PROP() documentation */ #define DT_INST_PROP_BY_PHANDLE(inst, ph, prop) \ DT_INST_PROP_BY_PHANDLE_IDX(inst, ph, 0, prop) /** * @brief Get a `DT_DRV_COMPAT` instance's property value from a phandle in a * property. * @param inst instance number * @param phs lowercase-and-underscores property with type `phandle`, * `phandles`, or `phandle-array` * @param idx logical index into "phs", which must be zero if "phs" * has type `phandle` * @param prop lowercase-and-underscores property of the phandle's node * @return the value of @p prop as described in the DT_PROP() documentation */ #define DT_INST_PROP_BY_PHANDLE_IDX(inst, phs, idx, prop) \ DT_PROP_BY_PHANDLE_IDX(DT_DRV_INST(inst), phs, idx, prop) /** * @brief Get a `DT_DRV_COMPAT` instance's phandle-array specifier value at an index * @param inst instance number * @param pha lowercase-and-underscores property with type `phandle-array` * @param idx logical index into the property @p pha * @param cell binding's cell name within the specifier at index @p idx * @return the value of the cell inside the specifier at index @p idx */ #define DT_INST_PHA_BY_IDX(inst, pha, idx, cell) \ DT_PHA_BY_IDX(DT_DRV_INST(inst), pha, idx, cell) /** * @brief Like DT_INST_PHA_BY_IDX(), but with a fallback to default_value * @param inst instance number * @param pha lowercase-and-underscores property with type `phandle-array` * @param idx logical index into the property @p pha * @param cell binding's cell name within the specifier at index @p idx * @param default_value a fallback value to expand to * @return DT_INST_PHA_BY_IDX(inst, pha, idx, cell) or default_value */ #define DT_INST_PHA_BY_IDX_OR(inst, pha, idx, cell, default_value) \ DT_PHA_BY_IDX_OR(DT_DRV_INST(inst), pha, idx, cell, default_value) /** * @brief Get a `DT_DRV_COMPAT` instance's phandle-array specifier value * Equivalent to DT_INST_PHA_BY_IDX(inst, pha, 0, cell) * @param inst instance number * @param pha lowercase-and-underscores property with type `phandle-array` * @param cell binding's cell name for the specifier at @p pha index 0 * @return the cell value */ #define DT_INST_PHA(inst, pha, cell) DT_INST_PHA_BY_IDX(inst, pha, 0, cell) /** * @brief Like DT_INST_PHA(), but with a fallback to default_value * @param inst instance number * @param pha lowercase-and-underscores property with type `phandle-array` * @param cell binding's cell name for the specifier at @p pha index 0 * @param default_value a fallback value to expand to * @return DT_INST_PHA(inst, pha, cell) or default_value */ #define DT_INST_PHA_OR(inst, pha, cell, default_value) \ DT_INST_PHA_BY_IDX_OR(inst, pha, 0, cell, default_value) /** * @brief Get a `DT_DRV_COMPAT` instance's value within a phandle-array * specifier by name * @param inst instance number * @param pha lowercase-and-underscores property with type `phandle-array` * @param name lowercase-and-underscores name of a specifier in @p pha * @param cell binding's cell name for the named specifier * @return the cell value */ #define DT_INST_PHA_BY_NAME(inst, pha, name, cell) \ DT_PHA_BY_NAME(DT_DRV_INST(inst), pha, name, cell) /** * @brief Like DT_INST_PHA_BY_NAME(), but with a fallback to default_value * @param inst instance number * @param pha lowercase-and-underscores property with type `phandle-array` * @param name lowercase-and-underscores name of a specifier in @p pha * @param cell binding's cell name for the named specifier * @param default_value a fallback value to expand to * @return DT_INST_PHA_BY_NAME(inst, pha, name, cell) or default_value */ #define DT_INST_PHA_BY_NAME_OR(inst, pha, name, cell, default_value) \ DT_PHA_BY_NAME_OR(DT_DRV_INST(inst), pha, name, cell, default_value) /** * @brief Get a `DT_DRV_COMPAT` instance's phandle node identifier from a * phandle array by name * @param inst instance number * @param pha lowercase-and-underscores property with type `phandle-array` * @param name lowercase-and-underscores name of an element in @p pha * @return node identifier for the phandle at the element named "name" */ #define DT_INST_PHANDLE_BY_NAME(inst, pha, name) \ DT_PHANDLE_BY_NAME(DT_DRV_INST(inst), pha, name) \ /** * @brief Get a `DT_DRV_COMPAT` instance's node identifier for a phandle in * a property. * @param inst instance number * @param prop lowercase-and-underscores property name in @p inst * with type `phandle`, `phandles` or `phandle-array` * @param idx index into @p prop * @return a node identifier for the phandle at index @p idx in @p prop */ #define DT_INST_PHANDLE_BY_IDX(inst, prop, idx) \ DT_PHANDLE_BY_IDX(DT_DRV_INST(inst), prop, idx) /** * @brief Get a `DT_DRV_COMPAT` instance's node identifier for a phandle * property's value * @param inst instance number * @param prop lowercase-and-underscores property of @p inst * with type `phandle` * @return a node identifier for the node pointed to by "ph" */ #define DT_INST_PHANDLE(inst, prop) DT_INST_PHANDLE_BY_IDX(inst, prop, 0) /** * @brief is @p idx a valid register block index on a `DT_DRV_COMPAT` instance? * @param inst instance number * @param idx index to check * @return 1 if @p idx is a valid register block index, * 0 otherwise. */ #define DT_INST_REG_HAS_IDX(inst, idx) DT_REG_HAS_IDX(DT_DRV_INST(inst), idx) /** * @brief Get a `DT_DRV_COMPAT` instance's idx-th register block's address * @param inst instance number * @param idx index of the register whose address to return * @return address of the instance's idx-th register block */ #define DT_INST_REG_ADDR_BY_IDX(inst, idx) DT_REG_ADDR_BY_IDX(DT_DRV_INST(inst), idx) /** * @brief Get a `DT_DRV_COMPAT` instance's idx-th register block's size * @param inst instance number * @param idx index of the register whose size to return * @return size of the instance's idx-th register block */ #define DT_INST_REG_SIZE_BY_IDX(inst, idx) \ DT_REG_SIZE_BY_IDX(DT_DRV_INST(inst), idx) /** * @brief Get a `DT_DRV_COMPAT`'s register block address by name * @param inst instance number * @param name lowercase-and-underscores register specifier name * @return address of the register block with the given @p name */ #define DT_INST_REG_ADDR_BY_NAME(inst, name) \ DT_REG_ADDR_BY_NAME(DT_DRV_INST(inst), name) /** * @brief 64-bit version of DT_INST_REG_ADDR_BY_NAME() * * This macro version adds the appropriate suffix for 64-bit unsigned * integer literals. * Note that this macro is equivalent to DT_INST_REG_ADDR_BY_NAME() in * linker/ASM context. * * @param inst instance number * @param name lowercase-and-underscores register specifier name * @return address of the register block with the given @p name */ #define DT_INST_REG_ADDR_BY_NAME_U64(inst, name) \ DT_U64_C(DT_INST_REG_ADDR_BY_NAME(inst, name)) /** * @brief Get a `DT_DRV_COMPAT`'s register block size by name * @param inst instance number * @param name lowercase-and-underscores register specifier name * @return size of the register block with the given @p name */ #define DT_INST_REG_SIZE_BY_NAME(inst, name) \ DT_REG_SIZE_BY_NAME(DT_DRV_INST(inst), name) /** * @brief Get a `DT_DRV_COMPAT`'s (only) register block address * @param inst instance number * @return instance's register block address */ #define DT_INST_REG_ADDR(inst) DT_INST_REG_ADDR_BY_IDX(inst, 0) /** * @brief 64-bit version of DT_INST_REG_ADDR() * * This macro version adds the appropriate suffix for 64-bit unsigned * integer literals. * Note that this macro is equivalent to DT_INST_REG_ADDR() in * linker/ASM context. * * @param inst instance number * @return instance's register block address */ #define DT_INST_REG_ADDR_U64(inst) DT_U64_C(DT_INST_REG_ADDR(inst)) /** * @brief Get a `DT_DRV_COMPAT`'s (only) register block size * @param inst instance number * @return instance's register block size */ #define DT_INST_REG_SIZE(inst) DT_INST_REG_SIZE_BY_IDX(inst, 0) /** * @brief Get a `DT_DRV_COMPAT` interrupt level * * @param inst instance number * @return interrupt level */ #define DT_INST_IRQ_LEVEL(inst) DT_IRQ_LEVEL(DT_DRV_INST(inst)) /** * @brief Get a `DT_DRV_COMPAT` interrupt specifier value at an index * @param inst instance number * @param idx logical index into the interrupt specifier array * @param cell cell name specifier * @return the named value at the specifier given by the index */ #define DT_INST_IRQ_BY_IDX(inst, idx, cell) \ DT_IRQ_BY_IDX(DT_DRV_INST(inst), idx, cell) /** * @brief Get a `DT_DRV_COMPAT` interrupt specifier's interrupt controller by index * @param inst instance number * @param idx interrupt specifier's index * @return node_id of interrupt specifier's interrupt controller */ #define DT_INST_IRQ_INTC_BY_IDX(inst, idx) \ DT_IRQ_INTC_BY_IDX(DT_DRV_INST(inst), idx) /** * @brief Get a `DT_DRV_COMPAT` interrupt specifier's interrupt controller by name * @param inst instance number * @param name interrupt specifier's name * @return node_id of interrupt specifier's interrupt controller */ #define DT_INST_IRQ_INTC_BY_NAME(inst, name) \ DT_IRQ_INTC_BY_NAME(DT_DRV_INST(inst), name) /** * @brief Get a `DT_DRV_COMPAT` interrupt specifier's interrupt controller * @note Equivalent to DT_INST_IRQ_INTC_BY_IDX(node_id, 0) * @param inst instance number * @return node_id of interrupt specifier's interrupt controller * @see DT_INST_IRQ_INTC_BY_IDX() */ #define DT_INST_IRQ_INTC(inst) \ DT_INST_IRQ_INTC_BY_IDX(inst, 0) /** * @brief Get a `DT_DRV_COMPAT` interrupt specifier value by name * @param inst instance number * @param name lowercase-and-underscores interrupt specifier name * @param cell cell name specifier * @return the named value at the specifier given by the index */ #define DT_INST_IRQ_BY_NAME(inst, name, cell) \ DT_IRQ_BY_NAME(DT_DRV_INST(inst), name, cell) /** * @brief Get a `DT_DRV_COMPAT` interrupt specifier's value * @param inst instance number * @param cell cell name specifier * @return the named value at that index */ #define DT_INST_IRQ(inst, cell) DT_INST_IRQ_BY_IDX(inst, 0, cell) /** * @brief Get a `DT_DRV_COMPAT`'s (only) irq number * @param inst instance number * @return the interrupt number for the node's only interrupt */ #define DT_INST_IRQN(inst) DT_IRQN(DT_DRV_INST(inst)) /** * @brief Get a `DT_DRV_COMPAT`'s irq number at index * @param inst instance number * @param idx logical index into the interrupt specifier array * @return the interrupt number for the node's idx-th interrupt */ #define DT_INST_IRQN_BY_IDX(inst, idx) DT_IRQN_BY_IDX(DT_DRV_INST(inst), idx) /** * @brief Get a `DT_DRV_COMPAT`'s bus node identifier * @param inst instance number * @return node identifier for the instance's bus node */ #define DT_INST_BUS(inst) DT_BUS(DT_DRV_INST(inst)) /** * @brief Test if a `DT_DRV_COMPAT`'s bus type is a given type * @param inst instance number * @param bus a binding's bus type as a C token, lowercased and without quotes * @return 1 if the given instance is on a bus of the given type, * 0 otherwise */ #define DT_INST_ON_BUS(inst, bus) DT_ON_BUS(DT_DRV_INST(inst), bus) /** * @brief Like DT_INST_STRING_TOKEN(), but with a fallback to @p default_value * @param inst instance number * @param name lowercase-and-underscores property name * @param default_value a fallback value to expand to * @return if @p prop exists, its value as a token, i.e. without any quotes and * with special characters converted to underscores. Othewise * @p default_value */ #define DT_INST_STRING_TOKEN_OR(inst, name, default_value) \ DT_STRING_TOKEN_OR(DT_DRV_INST(inst), name, default_value) /** * @brief Like DT_INST_STRING_UPPER_TOKEN(), but with a fallback to * @p default_value * @param inst instance number * @param name lowercase-and-underscores property name * @param default_value a fallback value to expand to * @return the property's value as an uppercased token, or @p default_value */ #define DT_INST_STRING_UPPER_TOKEN_OR(inst, name, default_value) \ DT_STRING_UPPER_TOKEN_OR(DT_DRV_INST(inst), name, default_value) /** * @brief Like DT_INST_STRING_UNQUOTED(), but with a fallback to * @p default_value * @param inst instance number * @param name lowercase-and-underscores property name * @param default_value a fallback value to expand to * @return the property's value as a sequence of tokens, with no quotes, or @p default_value */ #define DT_INST_STRING_UNQUOTED_OR(inst, name, default_value) \ DT_STRING_UNQUOTED_OR(DT_DRV_INST(inst), name, default_value) /* * @brief Test if any enabled node with the given compatible is on * the given bus type * * This is like DT_ANY_INST_ON_BUS_STATUS_OKAY(), except it can also * be useful for handling multiple compatibles in single source file. * * Example devicetree overlay: * * @code{.dts} * &i2c0 { * temp: temperature-sensor@76 { * compatible = "vnd,some-sensor"; * reg = <0x76>; * }; * }; * @endcode * * Example usage, assuming `i2c0` is an I2C bus controller node, and * therefore `temp` is on an I2C bus: * * @code{.c} * DT_HAS_COMPAT_ON_BUS_STATUS_OKAY(vnd_some_sensor, i2c) // 1 * @endcode * * @param compat lowercase-and-underscores compatible, without quotes * @param bus a binding's bus type as a C token, lowercased and without quotes * @return 1 if any enabled node with that compatible is on that bus type, * 0 otherwise */ #define DT_HAS_COMPAT_ON_BUS_STATUS_OKAY(compat, bus) \ IS_ENABLED(DT_CAT4(DT_COMPAT_, compat, _BUS_, bus)) /** * @brief Test if any `DT_DRV_COMPAT` node is on a bus of a given type * and has status okay * * This is a special-purpose macro which can be useful when writing * drivers for devices which can appear on multiple buses. One example * is a sensor device which may be wired on an I2C or SPI bus. * * Example devicetree overlay: * * @code{.dts} * &i2c0 { * temp: temperature-sensor@76 { * compatible = "vnd,some-sensor"; * reg = <0x76>; * }; * }; * @endcode * * Example usage, assuming `i2c0` is an I2C bus controller node, and * therefore `temp` is on an I2C bus: * * @code{.c} * #define DT_DRV_COMPAT vnd_some_sensor * * DT_ANY_INST_ON_BUS_STATUS_OKAY(i2c) // 1 * @endcode * * @param bus a binding's bus type as a C token, lowercased and without quotes * @return 1 if any enabled node with that compatible is on that bus type, * 0 otherwise */ #define DT_ANY_INST_ON_BUS_STATUS_OKAY(bus) \ DT_HAS_COMPAT_ON_BUS_STATUS_OKAY(DT_DRV_COMPAT, bus) /** * @brief Check if any `DT_DRV_COMPAT` node with status `okay` has a given * property. * * @param prop lowercase-and-underscores property name * * Example devicetree overlay: * * @code{.dts} * &i2c0 { * sensor0: sensor@0 { * compatible = "vnd,some-sensor"; * status = "okay"; * reg = <0>; * foo = <1>; * bar = <2>; * }; * * sensor1: sensor@1 { * compatible = "vnd,some-sensor"; * status = "okay"; * reg = <1>; * foo = <2>; * }; * * sensor2: sensor@2 { * compatible = "vnd,some-sensor"; * status = "disabled"; * reg = <2>; * baz = <1>; * }; * }; * @endcode * * Example usage: * * @code{.c} * #define DT_DRV_COMPAT vnd_some_sensor * * DT_ANY_INST_HAS_PROP_STATUS_OKAY(foo) // 1 * DT_ANY_INST_HAS_PROP_STATUS_OKAY(bar) // 1 * DT_ANY_INST_HAS_PROP_STATUS_OKAY(baz) // 0 * @endcode */ #define DT_ANY_INST_HAS_PROP_STATUS_OKAY(prop) \ COND_CODE_1(IS_EMPTY(DT_ANY_INST_HAS_PROP_STATUS_OKAY_(prop)), (0), (1)) /** * @brief Call @p fn on all nodes with compatible `DT_DRV_COMPAT` * and status `okay` * * This macro calls `fn(inst)` on each `inst` number that refers to a * node with status `okay`. Whitespace is added between invocations. * * Example devicetree fragment: * * @code{.dts} * a { * compatible = "vnd,device"; * status = "okay"; * foobar = "DEV_A"; * }; * * b { * compatible = "vnd,device"; * status = "okay"; * foobar = "DEV_B"; * }; * * c { * compatible = "vnd,device"; * status = "disabled"; * foobar = "DEV_C"; * }; * @endcode * * Example usage: * * @code{.c} * #define DT_DRV_COMPAT vnd_device * #define MY_FN(inst) DT_INST_PROP(inst, foobar), * * DT_INST_FOREACH_STATUS_OKAY(MY_FN) * @endcode * * This expands to: * * @code{.c} * MY_FN(0) MY_FN(1) * @endcode * * and from there, to either this: * * "DEV_A", "DEV_B", * * or this: * * "DEV_B", "DEV_A", * * No guarantees are made about the order that a and b appear in the * expansion. * * Note that @p fn is responsible for adding commas, semicolons, or * other separators or terminators. * * Device drivers should use this macro whenever possible to * instantiate a struct device for each enabled node in the devicetree * of the driver's compatible `DT_DRV_COMPAT`. * * @param fn Macro to call for each enabled node. Must accept an * instance number as its only parameter. */ #define DT_INST_FOREACH_STATUS_OKAY(fn) \ COND_CODE_1(DT_HAS_COMPAT_STATUS_OKAY(DT_DRV_COMPAT), \ (UTIL_CAT(DT_FOREACH_OKAY_INST_, \ DT_DRV_COMPAT)(fn)), \ ()) /** * @brief Call @p fn on all nodes with compatible `DT_DRV_COMPAT` * and status `okay` with multiple arguments * * * @param fn Macro to call for each enabled node. Must accept an * instance number as its only parameter. * @param ... variable number of arguments to pass to @p fn * * @see DT_INST_FOREACH_STATUS_OKAY */ #define DT_INST_FOREACH_STATUS_OKAY_VARGS(fn, ...) \ COND_CODE_1(DT_HAS_COMPAT_STATUS_OKAY(DT_DRV_COMPAT), \ (UTIL_CAT(DT_FOREACH_OKAY_INST_VARGS_, \ DT_DRV_COMPAT)(fn, __VA_ARGS__)), \ ()) /** * @brief Invokes @p fn for each element of property @p prop for * a `DT_DRV_COMPAT` instance. * * Equivalent to DT_FOREACH_PROP_ELEM(DT_DRV_INST(inst), prop, fn). * * @param inst instance number * @param prop lowercase-and-underscores property name * @param fn macro to invoke */ #define DT_INST_FOREACH_PROP_ELEM(inst, prop, fn) \ DT_FOREACH_PROP_ELEM(DT_DRV_INST(inst), prop, fn) /** * @brief Invokes @p fn for each element of property @p prop for * a `DT_DRV_COMPAT` instance with a separator. * * Equivalent to DT_FOREACH_PROP_ELEM_SEP(DT_DRV_INST(inst), prop, fn, sep). * * @param inst instance number * @param prop lowercase-and-underscores property name * @param fn macro to invoke * @param sep Separator (e.g. comma or semicolon). Must be in parentheses; * this is required to enable providing a comma as separator. */ #define DT_INST_FOREACH_PROP_ELEM_SEP(inst, prop, fn, sep) \ DT_FOREACH_PROP_ELEM_SEP(DT_DRV_INST(inst), prop, fn, sep) /** * @brief Invokes @p fn for each element of property @p prop for * a `DT_DRV_COMPAT` instance with multiple arguments. * * Equivalent to * DT_FOREACH_PROP_ELEM_VARGS(DT_DRV_INST(inst), prop, fn, __VA_ARGS__) * * @param inst instance number * @param prop lowercase-and-underscores property name * @param fn macro to invoke * @param ... variable number of arguments to pass to @p fn * * @see DT_INST_FOREACH_PROP_ELEM */ #define DT_INST_FOREACH_PROP_ELEM_VARGS(inst, prop, fn, ...) \ DT_FOREACH_PROP_ELEM_VARGS(DT_DRV_INST(inst), prop, fn, __VA_ARGS__) /** * @brief Invokes @p fn for each element of property @p prop for * a `DT_DRV_COMPAT` instance with multiple arguments and a sepatator. * * Equivalent to * DT_FOREACH_PROP_ELEM_SEP_VARGS(DT_DRV_INST(inst), prop, fn, sep, * __VA_ARGS__) * * @param inst instance number * @param prop lowercase-and-underscores property name * @param fn macro to invoke * @param sep Separator (e.g. comma or semicolon). Must be in parentheses; * this is required to enable providing a comma as separator. * @param ... variable number of arguments to pass to fn * * @see DT_INST_FOREACH_PROP_ELEM */ #define DT_INST_FOREACH_PROP_ELEM_SEP_VARGS(inst, prop, fn, sep, ...) \ DT_FOREACH_PROP_ELEM_SEP_VARGS(DT_DRV_INST(inst), prop, fn, sep, \ __VA_ARGS__) /** * @brief Does a DT_DRV_COMPAT instance have a property? * @param inst instance number * @param prop lowercase-and-underscores property name * @return 1 if the instance has the property, 0 otherwise. */ #define DT_INST_NODE_HAS_PROP(inst, prop) \ DT_NODE_HAS_PROP(DT_DRV_INST(inst), prop) /** * @brief Does a DT_DRV_COMPAT instance have the compatible? * @param inst instance number * @param compat lowercase-and-underscores compatible, without quotes * @return 1 if the instance matches the compatible, 0 otherwise. */ #define DT_INST_NODE_HAS_COMPAT(inst, compat) \ DT_NODE_HAS_COMPAT(DT_DRV_INST(inst), compat) /** * @brief Does a phandle array have a named cell specifier at an index * for a `DT_DRV_COMPAT` instance? * @param inst instance number * @param pha lowercase-and-underscores property with type `phandle-array` * @param idx index to check * @param cell named cell value whose existence to check * @return 1 if the named @p cell exists in the specifier at index @p idx, * 0 otherwise. */ #define DT_INST_PHA_HAS_CELL_AT_IDX(inst, pha, idx, cell) \ DT_PHA_HAS_CELL_AT_IDX(DT_DRV_INST(inst), pha, idx, cell) /** * @brief Does a phandle array have a named cell specifier at index 0 * for a `DT_DRV_COMPAT` instance? * @param inst instance number * @param pha lowercase-and-underscores property with type `phandle-array` * @param cell named cell value whose existence to check * @return 1 if the named @p cell exists in the specifier at index 0, * 0 otherwise. */ #define DT_INST_PHA_HAS_CELL(inst, pha, cell) \ DT_INST_PHA_HAS_CELL_AT_IDX(inst, pha, 0, cell) /** * @brief is index valid for interrupt property on a `DT_DRV_COMPAT` instance? * @param inst instance number * @param idx logical index into the interrupt specifier array * @return 1 if the @p idx is valid for the interrupt property * 0 otherwise. */ #define DT_INST_IRQ_HAS_IDX(inst, idx) DT_IRQ_HAS_IDX(DT_DRV_INST(inst), idx) /** * @brief Does a `DT_DRV_COMPAT` instance have an interrupt named cell specifier? * @param inst instance number * @param idx index to check * @param cell named cell value whose existence to check * @return 1 if the named @p cell exists in the interrupt specifier at index * @p idx 0 otherwise. */ #define DT_INST_IRQ_HAS_CELL_AT_IDX(inst, idx, cell) \ DT_IRQ_HAS_CELL_AT_IDX(DT_DRV_INST(inst), idx, cell) /** * @brief Does a `DT_DRV_COMPAT` instance have an interrupt value? * @param inst instance number * @param cell named cell value whose existence to check * @return 1 if the named @p cell exists in the interrupt specifier at index 0 * 0 otherwise. */ #define DT_INST_IRQ_HAS_CELL(inst, cell) \ DT_INST_IRQ_HAS_CELL_AT_IDX(inst, 0, cell) /** * @brief Does a `DT_DRV_COMPAT` instance have an interrupt value? * @param inst instance number * @param name lowercase-and-underscores interrupt specifier name * @return 1 if @p name is a valid named specifier */ #define DT_INST_IRQ_HAS_NAME(inst, name) \ DT_IRQ_HAS_NAME(DT_DRV_INST(inst), name) /** * @} */ /** @cond INTERNAL_HIDDEN */ /** @brief Helper for DT_ANY_INST_HAS_PROP_STATUS_OKAY_ * * This macro generates token "1," for instance of a device, * identified by index @p idx, if instance has property @p prop. * * @param idx instance number * @param prop property to check for * * @return Macro evaluates to `1,` if instance has the property, * otherwise it evaluates to literal nothing. */ #define DT_ANY_INST_HAS_PROP_STATUS_OKAY__(idx, prop) \ COND_CODE_1(DT_INST_NODE_HAS_PROP(idx, prop), (1,), ()) /** @brief Helper for DT_ANY_INST_HAS_PROP_STATUS_OKAY * * This macro uses DT_ANY_INST_HAS_PROP_STATUS_OKAY_ with * DT_INST_FOREACH_STATUS_OKAY_VARG to generate comma separated list of 1, * where each 1 on the list represents instance that has a property * @p prop; the list may be empty, and the upper bound on number of * list elements is number of device instances. * * @param prop property to check * * @return Evaluates to list of 1s (e.g: 1,1,1,) or nothing. */ #define DT_ANY_INST_HAS_PROP_STATUS_OKAY_(prop) \ DT_INST_FOREACH_STATUS_OKAY_VARGS(DT_ANY_INST_HAS_PROP_STATUS_OKAY__, prop) #define DT_PATH_INTERNAL(...) \ UTIL_CAT(DT_ROOT, MACRO_MAP_CAT(DT_S_PREFIX, __VA_ARGS__)) /** @brief DT_PATH_INTERNAL() helper: prepends _S_ to a node name * We don't want to expand 'name' recursively before expansion * in this case. The MACRO_MAP_CAT above is giving us the exact * tokens it wants prefixed with _S_. */ #define DT_S_PREFIX(name) _S_##name /** * @brief Concatenation helper, 2 arguments * * This and the following macros are used to paste things together * with "##" *after* forcing expansion on each argument. * * We could try to use something like UTIL_CAT(), but the compiler * error messages from the util macros can be extremely long when they * are misused. This unfortunately happens often with devicetree.h, * since its macro-based API is fiddly and can be hard to get right. * * Keeping things brutally simple here hopefully makes some errors * easier to read. */ #define DT_CAT(a1, a2) a1 ## a2 /** @brief Concatenation helper, 3 arguments */ #define DT_CAT3(a1, a2, a3) a1 ## a2 ## a3 /** @brief Concatenation helper, 4 arguments */ #define DT_CAT4(a1, a2, a3, a4) a1 ## a2 ## a3 ## a4 /** @brief Internal concatenation helper, 5 arguments */ #define DT_CAT5(a1, a2, a3, a4, a5) a1 ## a2 ## a3 ## a4 ## a5 /** @brief Concatenation helper, 6 arguments */ #define DT_CAT6(a1, a2, a3, a4, a5, a6) a1 ## a2 ## a3 ## a4 ## a5 ## a6 /** @brief concatenation helper, 7 arguments */ #define DT_CAT7(a1, a2, a3, a4, a5, a6, a7) \ a1 ## a2 ## a3 ## a4 ## a5 ## a6 ## a7 /** @brief concatenation helper, 8 arguments */ #define DT_CAT8(a1, a2, a3, a4, a5, a6, a7, a8) \ a1 ## a2 ## a3 ## a4 ## a5 ## a6 ## a7 ## a8 /* * If you need to define a bigger DT_CATN(), do so here. Don't leave * any "holes" of undefined macros, please. */ /** @brief Helper for node identifier macros to expand args */ #define DT_DASH(...) MACRO_MAP_CAT(DT_DASH_PREFIX, __VA_ARGS__) /** @brief Helper for DT_DASH(): prepends _ to a name */ #define DT_DASH_PREFIX(name) _##name /** @brief Helper for DT_NODE_HAS_STATUS */ #define DT_NODE_HAS_STATUS_INTERNAL(node_id, status) \ IS_ENABLED(DT_CAT3(node_id, _STATUS_, status)) /** @brief Helper macro to OR multiple has property checks in a loop macro */ #define DT_INST_NODE_HAS_PROP_AND_OR(inst, prop) \ DT_INST_NODE_HAS_PROP(inst, prop) || /** * @def DT_U64_C * @brief Macro to add ULL postfix to the devicetree address constants */ #if defined(_LINKER) || defined(_ASMLANGUAGE) #define DT_U64_C(_v) (_v) #else #define DT_U64_C(_v) UINT64_C(_v) #endif /** @endcond */ /* have these last so they have access to all previously defined macros */ #include #include #include #include #include #include #include #include #include #include #include #include #endif /* DEVICETREE_H */