/** * @file plist/plist.h * @brief Main include of libplist * \internal * * Copyright (c) 2012-2023 Nikias Bassen, All Rights Reserved. * Copyright (c) 2008-2009 Jonathan Beck, All Rights Reserved. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #ifndef LIBPLIST_H #define LIBPLIST_H #ifdef __cplusplus extern "C" { #endif #if _MSC_VER && _MSC_VER < 1700 typedef __int8 int8_t; typedef __int16 int16_t; typedef __int32 int32_t; typedef __int64 int64_t; typedef unsigned __int8 uint8_t; typedef unsigned __int16 uint16_t; typedef unsigned __int32 uint32_t; typedef unsigned __int64 uint64_t; #else #include #endif /*{{{ deprecation macros */ #ifdef __llvm__ #if defined(__has_extension) #if (__has_extension(attribute_deprecated_with_message)) #ifndef PLIST_WARN_DEPRECATED #define PLIST_WARN_DEPRECATED(x) __attribute__((deprecated(x))) #endif #else #ifndef PLIST_WARN_DEPRECATED #define PLIST_WARN_DEPRECATED(x) __attribute__((deprecated)) #endif #endif #else #ifndef PLIST_WARN_DEPRECATED #define PLIST_WARN_DEPRECATED(x) __attribute__((deprecated)) #endif #endif #elif (__GNUC__ > 4 || (__GNUC__ == 4 && (__GNUC_MINOR__ >= 5))) #ifndef PLIST_WARN_DEPRECATED #define PLIST_WARN_DEPRECATED(x) __attribute__((deprecated(x))) #endif #elif defined(_MSC_VER) #ifndef PLIST_WARN_DEPRECATED #define PLIST_WARN_DEPRECATED(x) __declspec(deprecated(x)) #endif #else #define PLIST_WARN_DEPRECATED(x) #pragma message("WARNING: You need to implement DEPRECATED for this compiler") #endif /*}}}*/ #ifndef PLIST_API #ifdef LIBPLIST_STATIC #define PLIST_API #elif defined(_WIN32) #define PLIST_API __declspec(dllimport) #else #define PLIST_API #endif #endif #include #include #include /** * libplist : A library to handle Apple Property Lists * \defgroup PublicAPI Public libplist API */ /*@{*/ /** * The basic plist abstract data type. */ typedef void *plist_t; /** * The plist dictionary iterator. */ typedef void* plist_dict_iter; /** * The plist array iterator. */ typedef void* plist_array_iter; /** * The enumeration of plist node types. */ typedef enum { PLIST_NONE =-1, /**< No type */ PLIST_BOOLEAN, /**< Boolean, scalar type */ PLIST_INT, /**< Integer, scalar type */ PLIST_REAL, /**< Real, scalar type */ PLIST_STRING, /**< ASCII string, scalar type */ PLIST_ARRAY, /**< Ordered array, structured type */ PLIST_DICT, /**< Unordered dictionary (key/value pair), structured type */ PLIST_DATE, /**< Date, scalar type */ PLIST_DATA, /**< Binary data, scalar type */ PLIST_KEY, /**< Key in dictionaries (ASCII String), scalar type */ PLIST_UID, /**< Special type used for 'keyed encoding' */ PLIST_NULL, /**< NULL type */ } plist_type; /* for backwards compatibility */ #define PLIST_UINT PLIST_INT /** * libplist error values */ typedef enum { PLIST_ERR_SUCCESS = 0, /**< operation successful */ PLIST_ERR_INVALID_ARG = -1, /**< one or more of the parameters are invalid */ PLIST_ERR_FORMAT = -2, /**< the plist contains nodes not compatible with the output format */ PLIST_ERR_PARSE = -3, /**< parsing of the input format failed */ PLIST_ERR_NO_MEM = -4, /**< not enough memory to handle the operation */ PLIST_ERR_IO = -5, /**< I/O error */ PLIST_ERR_UNKNOWN = -255 /**< an unspecified error occurred */ } plist_err_t; /** * libplist format types */ typedef enum { PLIST_FORMAT_NONE = 0, /**< No format */ PLIST_FORMAT_XML = 1, /**< XML format */ PLIST_FORMAT_BINARY = 2, /**< bplist00 format */ PLIST_FORMAT_JSON = 3, /**< JSON format */ PLIST_FORMAT_OSTEP = 4, /**< OpenStep "old-style" plist format */ /* 5-9 are reserved for possible future use */ PLIST_FORMAT_PRINT = 10, /**< human-readable output-only format */ PLIST_FORMAT_LIMD = 11, /**< "libimobiledevice" output-only format (ideviceinfo) */ PLIST_FORMAT_PLUTIL = 12, /**< plutil-style output-only format */ } plist_format_t; /** * libplist write options */ typedef enum { PLIST_OPT_NONE = 0, /**< Default value to use when none of the options is needed. */ PLIST_OPT_COMPACT = 1 << 0, /**< Use a compact representation (non-prettified). Only valid for #PLIST_FORMAT_JSON and #PLIST_FORMAT_OSTEP. */ PLIST_OPT_PARTIAL_DATA = 1 << 1, /**< Print 24 bytes maximum of #PLIST_DATA values. If the data is longer than 24 bytes, the first 16 and last 8 bytes will be written. Only valid for #PLIST_FORMAT_PRINT. */ PLIST_OPT_NO_NEWLINE = 1 << 2, /**< Do not print a final newline character. Only valid for #PLIST_FORMAT_PRINT, #PLIST_FORMAT_LIMD, and #PLIST_FORMAT_PLUTIL. */ PLIST_OPT_INDENT = 1 << 3, /**< Indent each line of output. Currently only #PLIST_FORMAT_PRINT and #PLIST_FORMAT_LIMD are supported. Use #PLIST_OPT_INDENT_BY() macro to specify the level of indentation. */ } plist_write_options_t; /** To be used with #PLIST_OPT_INDENT - encodes the level of indentation for OR'ing it into the #plist_write_options_t bitfield. */ #define PLIST_OPT_INDENT_BY(x) ((x & 0xFF) << 24) /******************************************** * * * Creation & Destruction * * * ********************************************/ /** * Create a new root plist_t type #PLIST_DICT * * @return the created plist * @sa #plist_type */ PLIST_API plist_t plist_new_dict(void); /** * Create a new root plist_t type #PLIST_ARRAY * * @return the created plist * @sa #plist_type */ PLIST_API plist_t plist_new_array(void); /** * Create a new plist_t type #PLIST_STRING * * @param val the sting value, encoded in UTF8. * @return the created item * @sa #plist_type */ PLIST_API plist_t plist_new_string(const char *val); /** * Create a new plist_t type #PLIST_BOOLEAN * * @param val the boolean value, 0 is false, other values are true. * @return the created item * @sa #plist_type */ PLIST_API plist_t plist_new_bool(uint8_t val); /** * Create a new plist_t type #PLIST_INT with an unsigned integer value * * @param val the unsigned integer value * @return the created item * @sa #plist_type * @note The value is always stored as uint64_t internally. * Use #plist_get_uint_val or #plist_get_int_val to get the unsigned or signed value. */ PLIST_API plist_t plist_new_uint(uint64_t val); /** * Create a new plist_t type #PLIST_INT with a signed integer value * * @param val the signed integer value * @return the created item * @sa #plist_type * @note The value is always stored as uint64_t internally. * Use #plist_get_uint_val or #plist_get_int_val to get the unsigned or signed value. */ PLIST_API plist_t plist_new_int(int64_t val); /** * Create a new plist_t type #PLIST_REAL * * @param val the real value * @return the created item * @sa #plist_type */ PLIST_API plist_t plist_new_real(double val); /** * Create a new plist_t type #PLIST_DATA * * @param val the binary buffer * @param length the length of the buffer * @return the created item * @sa #plist_type */ PLIST_API plist_t plist_new_data(const char *val, uint64_t length); /** * Create a new plist_t type #PLIST_DATE * * @param sec the number of seconds since 01/01/2001 * @param usec the number of microseconds * @return the created item * @sa #plist_type */ PLIST_API plist_t plist_new_date(int32_t sec, int32_t usec); /** * Create a new plist_t type #PLIST_UID * * @param val the unsigned integer value * @return the created item * @sa #plist_type */ PLIST_API plist_t plist_new_uid(uint64_t val); /** * Create a new plist_t type #PLIST_NULL * @return the created item * @sa #plist_type * @note This type is not valid for all formats, e.g. the XML format * does not support it. */ PLIST_API plist_t plist_new_null(void); /** * Destruct a plist_t node and all its children recursively * * @param plist the plist to free */ PLIST_API void plist_free(plist_t plist); /** * Return a copy of passed node and it's children * * @param node the plist to copy * @return copied plist */ PLIST_API plist_t plist_copy(plist_t node); /******************************************** * * * Array functions * * * ********************************************/ /** * Get size of a #PLIST_ARRAY node. * * @param node the node of type #PLIST_ARRAY * @return size of the #PLIST_ARRAY node */ PLIST_API uint32_t plist_array_get_size(plist_t node); /** * Get the nth item in a #PLIST_ARRAY node. * * @param node the node of type #PLIST_ARRAY * @param n the index of the item to get. Range is [0, array_size[ * @return the nth item or NULL if node is not of type #PLIST_ARRAY */ PLIST_API plist_t plist_array_get_item(plist_t node, uint32_t n); /** * Get the index of an item. item must be a member of a #PLIST_ARRAY node. * * @param node the node * @return the node index or UINT_MAX if node index can't be determined */ PLIST_API uint32_t plist_array_get_item_index(plist_t node); /** * Set the nth item in a #PLIST_ARRAY node. * The previous item at index n will be freed using #plist_free * * @param node the node of type #PLIST_ARRAY * @param item the new item at index n. The array is responsible for freeing item when it is no longer needed. * @param n the index of the item to get. Range is [0, array_size[. Assert if n is not in range. */ PLIST_API void plist_array_set_item(plist_t node, plist_t item, uint32_t n); /** * Append a new item at the end of a #PLIST_ARRAY node. * * @param node the node of type #PLIST_ARRAY * @param item the new item. The array is responsible for freeing item when it is no longer needed. */ PLIST_API void plist_array_append_item(plist_t node, plist_t item); /** * Insert a new item at position n in a #PLIST_ARRAY node. * * @param node the node of type #PLIST_ARRAY * @param item the new item to insert. The array is responsible for freeing item when it is no longer needed. * @param n The position at which the node will be stored. Range is [0, array_size[. Assert if n is not in range. */ PLIST_API void plist_array_insert_item(plist_t node, plist_t item, uint32_t n); /** * Remove an existing position in a #PLIST_ARRAY node. * Removed position will be freed using #plist_free. * * @param node the node of type #PLIST_ARRAY * @param n The position to remove. Range is [0, array_size[. Assert if n is not in range. */ PLIST_API void plist_array_remove_item(plist_t node, uint32_t n); /** * Remove a node that is a child node of a #PLIST_ARRAY node. * node will be freed using #plist_free. * * @param node The node to be removed from its #PLIST_ARRAY parent. */ PLIST_API void plist_array_item_remove(plist_t node); /** * Create an iterator of a #PLIST_ARRAY node. * The allocated iterator should be freed with the standard free function. * * @param node The node of type #PLIST_ARRAY * @param iter Location to store the iterator for the array. */ PLIST_API void plist_array_new_iter(plist_t node, plist_array_iter *iter); /** * Increment iterator of a #PLIST_ARRAY node. * * @param node The node of type #PLIST_ARRAY. * @param iter Iterator of the array * @param item Location to store the item. The caller must *not* free the * returned item. Will be set to NULL when no more items are left * to iterate. */ PLIST_API void plist_array_next_item(plist_t node, plist_array_iter iter, plist_t *item); /******************************************** * * * Dictionary functions * * * ********************************************/ /** * Get size of a #PLIST_DICT node. * * @param node the node of type #PLIST_DICT * @return size of the #PLIST_DICT node */ PLIST_API uint32_t plist_dict_get_size(plist_t node); /** * Create an iterator of a #PLIST_DICT node. * The allocated iterator should be freed with the standard free function. * * @param node The node of type #PLIST_DICT. * @param iter Location to store the iterator for the dictionary. */ PLIST_API void plist_dict_new_iter(plist_t node, plist_dict_iter *iter); /** * Increment iterator of a #PLIST_DICT node. * * @param node The node of type #PLIST_DICT * @param iter Iterator of the dictionary * @param key Location to store the key, or NULL. The caller is responsible * for freeing the the returned string. * @param val Location to store the value, or NULL. The caller must *not* * free the returned value. Will be set to NULL when no more * key/value pairs are left to iterate. */ PLIST_API void plist_dict_next_item(plist_t node, plist_dict_iter iter, char **key, plist_t *val); /** * Get key associated key to an item. Item must be member of a dictionary. * * @param node the item * @param key a location to store the key. The caller is responsible for freeing the returned string. */ PLIST_API void plist_dict_get_item_key(plist_t node, char **key); /** * Get the nth item in a #PLIST_DICT node. * * @param node the node of type #PLIST_DICT * @param key the identifier of the item to get. * @return the item or NULL if node is not of type #PLIST_DICT. The caller should not free * the returned node. */ PLIST_API plist_t plist_dict_get_item(plist_t node, const char* key); /** * Get key node associated to an item. Item must be member of a dictionary. * * @param node the item * @return the key node of the given item, or NULL. */ PLIST_API plist_t plist_dict_item_get_key(plist_t node); /** * Set item identified by key in a #PLIST_DICT node. * The previous item identified by key will be freed using #plist_free. * If there is no item for the given key a new item will be inserted. * * @param node the node of type #PLIST_DICT * @param item the new item associated to key * @param key the identifier of the item to set. */ PLIST_API void plist_dict_set_item(plist_t node, const char* key, plist_t item); /** * Remove an existing position in a #PLIST_DICT node. * Removed position will be freed using #plist_free * * @param node the node of type #PLIST_DICT * @param key The identifier of the item to remove. Assert if identifier is not present. */ PLIST_API void plist_dict_remove_item(plist_t node, const char* key); /** * Merge a dictionary into another. This will add all key/value pairs * from the source dictionary to the target dictionary, overwriting * any existing key/value pairs that are already present in target. * * @param target pointer to an existing node of type #PLIST_DICT * @param source node of type #PLIST_DICT that should be merged into target */ PLIST_API void plist_dict_merge(plist_t *target, plist_t source); /******************************************** * * * Getters * * * ********************************************/ /** * Get the parent of a node * * @param node the parent (NULL if node is root) */ PLIST_API plist_t plist_get_parent(plist_t node); /** * Get the #plist_type of a node. * * @param node the node * @return the type of the node */ PLIST_API plist_type plist_get_node_type(plist_t node); /** * Get the value of a #PLIST_KEY node. * This function does nothing if node is not of type #PLIST_KEY * * @param node the node * @param val a pointer to a C-string. This function allocates the memory, * caller is responsible for freeing it. * @note Use plist_mem_free() to free the allocated memory. */ PLIST_API void plist_get_key_val(plist_t node, char **val); /** * Get the value of a #PLIST_STRING node. * This function does nothing if node is not of type #PLIST_STRING * * @param node the node * @param val a pointer to a C-string. This function allocates the memory, * caller is responsible for freeing it. Data is UTF-8 encoded. * @note Use plist_mem_free() to free the allocated memory. */ PLIST_API void plist_get_string_val(plist_t node, char **val); /** * Get a pointer to the buffer of a #PLIST_STRING node. * * @note DO NOT MODIFY the buffer. Mind that the buffer is only available * until the plist node gets freed. Make a copy if needed. * * @param node The node * @param length If non-NULL, will be set to the length of the string * * @return Pointer to the NULL-terminated buffer. */ PLIST_API const char* plist_get_string_ptr(plist_t node, uint64_t* length); /** * Get the value of a #PLIST_BOOLEAN node. * This function does nothing if node is not of type #PLIST_BOOLEAN * * @param node the node * @param val a pointer to a uint8_t variable. */ PLIST_API void plist_get_bool_val(plist_t node, uint8_t * val); /** * Get the unsigned integer value of a #PLIST_INT node. * This function does nothing if node is not of type #PLIST_INT * * @param node the node * @param val a pointer to a uint64_t variable. */ PLIST_API void plist_get_uint_val(plist_t node, uint64_t * val); /** * Get the signed integer value of a #PLIST_INT node. * This function does nothing if node is not of type #PLIST_INT * * @param node the node * @param val a pointer to a int64_t variable. */ PLIST_API void plist_get_int_val(plist_t node, int64_t * val); /** * Get the value of a #PLIST_REAL node. * This function does nothing if node is not of type #PLIST_REAL * * @param node the node * @param val a pointer to a double variable. */ PLIST_API void plist_get_real_val(plist_t node, double *val); /** * Get the value of a #PLIST_DATA node. * This function does nothing if node is not of type #PLIST_DATA * * @param node the node * @param val a pointer to an unallocated char buffer. This function allocates the memory, * caller is responsible for freeing it. * @param length the length of the buffer * @note Use plist_mem_free() to free the allocated memory. */ PLIST_API void plist_get_data_val(plist_t node, char **val, uint64_t * length); /** * Get a pointer to the data buffer of a #PLIST_DATA node. * * @note DO NOT MODIFY the buffer. Mind that the buffer is only available * until the plist node gets freed. Make a copy if needed. * * @param node The node * @param length Pointer to a uint64_t that will be set to the length of the buffer * * @return Pointer to the buffer */ PLIST_API const char* plist_get_data_ptr(plist_t node, uint64_t* length); /** * Get the value of a #PLIST_DATE node. * This function does nothing if node is not of type #PLIST_DATE * * @param node the node * @param sec a pointer to an int32_t variable. Represents the number of seconds since 01/01/2001. * @param usec a pointer to an int32_t variable. Represents the number of microseconds */ PLIST_API void plist_get_date_val(plist_t node, int32_t * sec, int32_t * usec); /** * Get the value of a #PLIST_UID node. * This function does nothing if node is not of type #PLIST_UID * * @param node the node * @param val a pointer to a uint64_t variable. */ PLIST_API void plist_get_uid_val(plist_t node, uint64_t * val); /******************************************** * * * Setters * * * ********************************************/ /** * Set the value of a node. * Forces type of node to #PLIST_KEY * * @param node the node * @param val the key value */ PLIST_API void plist_set_key_val(plist_t node, const char *val); /** * Set the value of a node. * Forces type of node to #PLIST_STRING * * @param node the node * @param val the string value. The string is copied when set and will be * freed by the node. */ PLIST_API void plist_set_string_val(plist_t node, const char *val); /** * Set the value of a node. * Forces type of node to #PLIST_BOOLEAN * * @param node the node * @param val the boolean value */ PLIST_API void plist_set_bool_val(plist_t node, uint8_t val); /** * Set the value of a node. * Forces type of node to #PLIST_INT * * @param node the node * @param val the unsigned integer value */ PLIST_API void plist_set_uint_val(plist_t node, uint64_t val); /** * Set the value of a node. * Forces type of node to #PLIST_INT * * @param node the node * @param val the signed integer value */ PLIST_API void plist_set_int_val(plist_t node, int64_t val); /** * Set the value of a node. * Forces type of node to #PLIST_REAL * * @param node the node * @param val the real value */ PLIST_API void plist_set_real_val(plist_t node, double val); /** * Set the value of a node. * Forces type of node to #PLIST_DATA * * @param node the node * @param val the binary buffer. The buffer is copied when set and will * be freed by the node. * @param length the length of the buffer */ PLIST_API void plist_set_data_val(plist_t node, const char *val, uint64_t length); /** * Set the value of a node. * Forces type of node to #PLIST_DATE * * @param node the node * @param sec the number of seconds since 01/01/2001 * @param usec the number of microseconds */ PLIST_API void plist_set_date_val(plist_t node, int32_t sec, int32_t usec); /** * Set the value of a node. * Forces type of node to #PLIST_UID * * @param node the node * @param val the unsigned integer value */ PLIST_API void plist_set_uid_val(plist_t node, uint64_t val); /******************************************** * * * Import & Export * * * ********************************************/ /** * Export the #plist_t structure to XML format. * * @param plist the root node to export * @param plist_xml a pointer to a C-string. This function allocates the memory, * caller is responsible for freeing it. Data is UTF-8 encoded. * @param length a pointer to an uint32_t variable. Represents the length of the allocated buffer. * @return PLIST_ERR_SUCCESS on success or a #plist_err_t on failure * @note Use plist_mem_free() to free the allocated memory. */ PLIST_API plist_err_t plist_to_xml(plist_t plist, char **plist_xml, uint32_t * length); /** * Export the #plist_t structure to binary format. * * @param plist the root node to export * @param plist_bin a pointer to a char* buffer. This function allocates the memory, * caller is responsible for freeing it. * @param length a pointer to an uint32_t variable. Represents the length of the allocated buffer. * @return PLIST_ERR_SUCCESS on success or a #plist_err_t on failure * @note Use plist_mem_free() to free the allocated memory. */ PLIST_API plist_err_t plist_to_bin(plist_t plist, char **plist_bin, uint32_t * length); /** * Export the #plist_t structure to JSON format. * * @param plist the root node to export * @param plist_json a pointer to a char* buffer. This function allocates the memory, * caller is responsible for freeing it. * @param length a pointer to an uint32_t variable. Represents the length of the allocated buffer. * @param prettify pretty print the output if != 0 * @return PLIST_ERR_SUCCESS on success or a #plist_err_t on failure * @note Use plist_mem_free() to free the allocated memory. */ PLIST_API plist_err_t plist_to_json(plist_t plist, char **plist_json, uint32_t* length, int prettify); /** * Export the #plist_t structure to OpenStep format. * * @param plist the root node to export * @param plist_openstep a pointer to a char* buffer. This function allocates the memory, * caller is responsible for freeing it. * @param length a pointer to an uint32_t variable. Represents the length of the allocated buffer. * @param prettify pretty print the output if != 0 * @return PLIST_ERR_SUCCESS on success or a #plist_err_t on failure * @note Use plist_mem_free() to free the allocated memory. */ PLIST_API plist_err_t plist_to_openstep(plist_t plist, char **plist_openstep, uint32_t* length, int prettify); /** * Import the #plist_t structure from XML format. * * @param plist_xml a pointer to the xml buffer. * @param length length of the buffer to read. * @param plist a pointer to the imported plist. * @return PLIST_ERR_SUCCESS on success or a #plist_err_t on failure */ PLIST_API plist_err_t plist_from_xml(const char *plist_xml, uint32_t length, plist_t * plist); /** * Import the #plist_t structure from binary format. * * @param plist_bin a pointer to the xml buffer. * @param length length of the buffer to read. * @param plist a pointer to the imported plist. * @return PLIST_ERR_SUCCESS on success or a #plist_err_t on failure */ PLIST_API plist_err_t plist_from_bin(const char *plist_bin, uint32_t length, plist_t * plist); /** * Import the #plist_t structure from JSON format. * * @param json a pointer to the JSON buffer. * @param length length of the buffer to read. * @param plist a pointer to the imported plist. * @return PLIST_ERR_SUCCESS on success or a #plist_err_t on failure */ PLIST_API plist_err_t plist_from_json(const char *json, uint32_t length, plist_t * plist); /** * Import the #plist_t structure from OpenStep plist format. * * @param openstep a pointer to the OpenStep plist buffer. * @param length length of the buffer to read. * @param plist a pointer to the imported plist. * @return PLIST_ERR_SUCCESS on success or a #plist_err_t on failure */ PLIST_API plist_err_t plist_from_openstep(const char *openstep, uint32_t length, plist_t * plist); /** * Import the #plist_t structure from memory data. * * This function will look at the first bytes of plist_data * to determine if plist_data contains a binary, JSON, OpenStep, or XML plist * and tries to parse the data in the appropriate format. * @note This is just a convenience function and the format detection is * very basic. It checks with plist_is_binary() if the data supposedly * contains binary plist data, if not it checks if the first bytes have * either '{' or '[' and assumes JSON format, and XML tags will result * in parsing as XML, otherwise it will try to parse as OpenStep. * * @param plist_data A pointer to the memory buffer containing plist data. * @param length Length of the buffer to read. * @param plist A pointer to the imported plist. * @param format If non-NULL, the #plist_format_t value pointed to will be set to the parsed format. * @return PLIST_ERR_SUCCESS on success or a #plist_err_t on failure */ PLIST_API plist_err_t plist_from_memory(const char *plist_data, uint32_t length, plist_t *plist, plist_format_t *format); /** * Import the #plist_t structure directly from file. * * This function will look at the first bytes of the file data * to determine if it contains a binary, JSON, OpenStep, or XML plist * and tries to parse the data in the appropriate format. * Uses plist_from_memory() internally. * * @param filename The name of the file to parse. * @param plist A pointer to the imported plist. * @param format If non-NULL, the #plist_format_t value pointed to will be set to the parsed format. * @return PLIST_ERR_SUCCESS on success or a #plist_err_t on failure */ PLIST_API plist_err_t plist_read_from_file(const char *filename, plist_t *plist, plist_format_t *format); /** * Write the #plist_t structure to a NULL-terminated string using the given format and options. * * @param plist The input plist structure * @param output Pointer to a char* buffer. This function allocates the memory, * caller is responsible for freeing it. * @param length A pointer to a uint32_t value that will receive the lenght of the allocated buffer. * @param format A #plist_format_t value that specifies the output format to use. * @param options One or more bitwise ORed values of #plist_write_options_t. * @return PLIST_ERR_SUCCESS on success or a #plist_err_t on failure. * @note Use plist_mem_free() to free the allocated memory. * @note #PLIST_FORMAT_BINARY is not supported by this function. */ PLIST_API plist_err_t plist_write_to_string(plist_t plist, char **output, uint32_t* length, plist_format_t format, plist_write_options_t options); /** * Write the #plist_t structure to a FILE* stream using the given format and options. * * @param plist The input plist structure * @param stream A writeable FILE* stream that the data will be written to. * @param format A #plist_format_t value that specifies the output format to use. * @param options One or more bitwise ORed values of #plist_write_options_t. * @return PLIST_ERR_SUCCESS on success or a #plist_err_t on failure. * @note While this function allows all formats to be written to the given stream, * only the formats #PLIST_FORMAT_PRINT, #PLIST_FORMAT_LIMD, and #PLIST_FORMAT_PLUTIL * (basically all output-only formats) are directly and efficiently written to the stream; * the other formats are written to a memory buffer first. */ PLIST_API plist_err_t plist_write_to_stream(plist_t plist, FILE* stream, plist_format_t format, plist_write_options_t options); /** * Write the #plist_t structure to a file at given path using the given format and options. * * @param plist The input plist structure * @param filename The file name of the file to write to. Existing files will be overwritten. * @param format A #plist_format_t value that specifies the output format to use. * @param options One or more bitwise ORed values of #plist_write_options_t. * @return PLIST_ERR_SUCCESS on success or a #plist_err_t on failure. * @note Use plist_mem_free() to free the allocated memory. */ PLIST_API plist_err_t plist_write_to_file(plist_t plist, const char *filename, plist_format_t format, plist_write_options_t options); /** * Print the given plist in human-readable format to standard output. * This is equivalent to * plist_write_to_stream(plist, stdout, PLIST_FORMAT_PRINT, PLIST_OPT_PARTIAL_DATA); * @param plist The #plist_t structure to print * @note For #PLIST_DATA nodes, only a maximum of 24 bytes (first 16 and last 8) are written. */ PLIST_API void plist_print(plist_t plist); /** * Test if in-memory plist data is in binary format. * This function will look at the first bytes of plist_data to determine * if it supposedly contains a binary plist. * @note The function is not validating the whole memory buffer to check * if the content is truly a plist, it is only using some heuristic on * the first few bytes of plist_data. * * @param plist_data a pointer to the memory buffer containing plist data. * @param length length of the buffer to read. * @return 1 if the buffer is a binary plist, 0 otherwise. */ PLIST_API int plist_is_binary(const char *plist_data, uint32_t length); /******************************************** * * * Utils * * * ********************************************/ /** * Get a node from its path. Each path element depends on the associated father node type. * For Dictionaries, var args are casted to const char*, for arrays, var args are caster to uint32_t * Search is breath first order. * * @param plist the node to access result from. * @param length length of the path to access * @return the value to access. */ PLIST_API plist_t plist_access_path(plist_t plist, uint32_t length, ...); /** * Variadic version of #plist_access_path. * * @param plist the node to access result from. * @param length length of the path to access * @param v list of array's index and dic'st key * @return the value to access. */ PLIST_API plist_t plist_access_pathv(plist_t plist, uint32_t length, va_list v); /** * Compare two node values * * @param node_l left node to compare * @param node_r rigth node to compare * @return TRUE is type and value match, FALSE otherwise. */ PLIST_API char plist_compare_node_value(plist_t node_l, plist_t node_r); /** Helper macro used by PLIST_IS_* macros that will evaluate the type of a plist node. */ #define _PLIST_IS_TYPE(__plist, __plist_type) (__plist && (plist_get_node_type(__plist) == PLIST_##__plist_type)) /* Helper macros for the different plist types */ /** Evaluates to true if the given plist node is of type PLIST_BOOLEAN */ #define PLIST_IS_BOOLEAN(__plist) _PLIST_IS_TYPE(__plist, BOOLEAN) /** Evaluates to true if the given plist node is of type PLIST_INT */ #define PLIST_IS_INT(__plist) _PLIST_IS_TYPE(__plist, INT) /** Evaluates to true if the given plist node is of type PLIST_REAL */ #define PLIST_IS_REAL(__plist) _PLIST_IS_TYPE(__plist, REAL) /** Evaluates to true if the given plist node is of type PLIST_STRING */ #define PLIST_IS_STRING(__plist) _PLIST_IS_TYPE(__plist, STRING) /** Evaluates to true if the given plist node is of type PLIST_ARRAY */ #define PLIST_IS_ARRAY(__plist) _PLIST_IS_TYPE(__plist, ARRAY) /** Evaluates to true if the given plist node is of type PLIST_DICT */ #define PLIST_IS_DICT(__plist) _PLIST_IS_TYPE(__plist, DICT) /** Evaluates to true if the given plist node is of type PLIST_DATE */ #define PLIST_IS_DATE(__plist) _PLIST_IS_TYPE(__plist, DATE) /** Evaluates to true if the given plist node is of type PLIST_DATA */ #define PLIST_IS_DATA(__plist) _PLIST_IS_TYPE(__plist, DATA) /** Evaluates to true if the given plist node is of type PLIST_KEY */ #define PLIST_IS_KEY(__plist) _PLIST_IS_TYPE(__plist, KEY) /** Evaluates to true if the given plist node is of type PLIST_UID */ #define PLIST_IS_UID(__plist) _PLIST_IS_TYPE(__plist, UID) /* for backwards compatibility */ #define PLIST_IS_UINT PLIST_IS_INT /** * Helper function to check the value of a PLIST_BOOL node. * * @param boolnode node of type PLIST_BOOL * @return 1 if the boolean node has a value of TRUE or 0 if FALSE. */ PLIST_API int plist_bool_val_is_true(plist_t boolnode); /** * Helper function to test if a given #PLIST_INT node's value is negative * * @param intnode node of type PLIST_INT * @return 1 if the node's value is negative, or 0 if positive. */ PLIST_API int plist_int_val_is_negative(plist_t intnode); /** * Helper function to compare the value of a PLIST_INT node against * a given signed integer value. * * @param uintnode node of type PLIST_INT * @param cmpval value to compare against * @return 0 if the node's value and cmpval are equal, * 1 if the node's value is greater than cmpval, * or -1 if the node's value is less than cmpval. */ PLIST_API int plist_int_val_compare(plist_t uintnode, int64_t cmpval); /** * Helper function to compare the value of a PLIST_INT node against * a given unsigned integer value. * * @param uintnode node of type PLIST_INT * @param cmpval value to compare against * @return 0 if the node's value and cmpval are equal, * 1 if the node's value is greater than cmpval, * or -1 if the node's value is less than cmpval. */ PLIST_API int plist_uint_val_compare(plist_t uintnode, uint64_t cmpval); /** * Helper function to compare the value of a PLIST_UID node against * a given value. * * @param uidnode node of type PLIST_UID * @param cmpval value to compare against * @return 0 if the node's value and cmpval are equal, * 1 if the node's value is greater than cmpval, * or -1 if the node's value is less than cmpval. */ PLIST_API int plist_uid_val_compare(plist_t uidnode, uint64_t cmpval); /** * Helper function to compare the value of a PLIST_REAL node against * a given value. * * @note WARNING: Comparing floating point values can give inaccurate * results because of the nature of floating point values on computer * systems. While this function is designed to be as accurate as * possible, please don't rely on it too much. * * @param realnode node of type PLIST_REAL * @param cmpval value to compare against * @return 0 if the node's value and cmpval are (almost) equal, * 1 if the node's value is greater than cmpval, * or -1 if the node's value is less than cmpval. */ PLIST_API int plist_real_val_compare(plist_t realnode, double cmpval); /** * Helper function to compare the value of a PLIST_DATE node against * a given set of seconds and fraction of a second since epoch. * * @param datenode node of type PLIST_DATE * @param cmpsec number of seconds since epoch to compare against * @param cmpusec fraction of a second in microseconds to compare against * @return 0 if the node's date is equal to the supplied values, * 1 if the node's date is greater than the supplied values, * or -1 if the node's date is less than the supplied values. */ PLIST_API int plist_date_val_compare(plist_t datenode, int32_t cmpsec, int32_t cmpusec); /** * Helper function to compare the value of a PLIST_STRING node against * a given value. * This function basically behaves like strcmp. * * @param strnode node of type PLIST_STRING * @param cmpval value to compare against * @return 0 if the node's value and cmpval are equal, * > 0 if the node's value is lexicographically greater than cmpval, * or < 0 if the node's value is lexicographically less than cmpval. */ PLIST_API int plist_string_val_compare(plist_t strnode, const char* cmpval); /** * Helper function to compare the value of a PLIST_STRING node against * a given value, while not comparing more than n characters. * This function basically behaves like strncmp. * * @param strnode node of type PLIST_STRING * @param cmpval value to compare against * @param n maximum number of characters to compare * @return 0 if the node's value and cmpval are equal, * > 0 if the node's value is lexicographically greater than cmpval, * or < 0 if the node's value is lexicographically less than cmpval. */ PLIST_API int plist_string_val_compare_with_size(plist_t strnode, const char* cmpval, size_t n); /** * Helper function to match a given substring in the value of a * PLIST_STRING node. * * @param strnode node of type PLIST_STRING * @param substr value to match * @return 1 if the node's value contains the given substring, * or 0 if not. */ PLIST_API int plist_string_val_contains(plist_t strnode, const char* substr); /** * Helper function to compare the value of a PLIST_KEY node against * a given value. * This function basically behaves like strcmp. * * @param keynode node of type PLIST_KEY * @param cmpval value to compare against * @return 0 if the node's value and cmpval are equal, * > 0 if the node's value is lexicographically greater than cmpval, * or < 0 if the node's value is lexicographically less than cmpval. */ PLIST_API int plist_key_val_compare(plist_t keynode, const char* cmpval); /** * Helper function to compare the value of a PLIST_KEY node against * a given value, while not comparing more than n characters. * This function basically behaves like strncmp. * * @param keynode node of type PLIST_KEY * @param cmpval value to compare against * @param n maximum number of characters to compare * @return 0 if the node's value and cmpval are equal, * > 0 if the node's value is lexicographically greater than cmpval, * or < 0 if the node's value is lexicographically less than cmpval. */ PLIST_API int plist_key_val_compare_with_size(plist_t keynode, const char* cmpval, size_t n); /** * Helper function to match a given substring in the value of a * PLIST_KEY node. * * @param keynode node of type PLIST_KEY * @param substr value to match * @return 1 if the node's value contains the given substring, * or 0 if not. */ PLIST_API int plist_key_val_contains(plist_t keynode, const char* substr); /** * Helper function to compare the data of a PLIST_DATA node against * a given blob and size. * This function basically behaves like memcmp after making sure the * size of the node's data value is equal to the size of cmpval (n), * making this a "full match" comparison. * * @param datanode node of type PLIST_DATA * @param cmpval data blob to compare against * @param n size of data blob passed in cmpval * @return 0 if the node's data blob and cmpval are equal, * > 0 if the node's value is lexicographically greater than cmpval, * or < 0 if the node's value is lexicographically less than cmpval. */ PLIST_API int plist_data_val_compare(plist_t datanode, const uint8_t* cmpval, size_t n); /** * Helper function to compare the data of a PLIST_DATA node against * a given blob and size, while no more than n bytes are compared. * This function basically behaves like memcmp after making sure the * size of the node's data value is at least n, making this a * "starts with" comparison. * * @param datanode node of type PLIST_DATA * @param cmpval data blob to compare against * @param n size of data blob passed in cmpval * @return 0 if the node's value and cmpval are equal, * > 0 if the node's value is lexicographically greater than cmpval, * or < 0 if the node's value is lexicographically less than cmpval. */ PLIST_API int plist_data_val_compare_with_size(plist_t datanode, const uint8_t* cmpval, size_t n); /** * Helper function to match a given data blob within the value of a * PLIST_DATA node. * * @param datanode node of type PLIST_KEY * @param cmpval data blob to match * @param n size of data blob passed in cmpval * @return 1 if the node's value contains the given data blob * or 0 if not. */ PLIST_API int plist_data_val_contains(plist_t datanode, const uint8_t* cmpval, size_t n); /** * Sort all PLIST_DICT key/value pairs in a property list lexicographically * by key. Recurses into the child nodes if necessary. * * @param plist The property list to perform the sorting operation on. */ PLIST_API void plist_sort(plist_t plist); /** * Free memory allocated by relevant libplist API calls: * - plist_to_xml() * - plist_to_bin() * - plist_get_key_val() * - plist_get_string_val() * - plist_get_data_val() * * @param ptr pointer to the memory to free * * @note Do not use this function to free plist_t nodes, use plist_free() * instead. */ PLIST_API void plist_mem_free(void* ptr); /** * Set debug level for the format parsers. * @note This function does nothing if libplist was not configured with --enable-debug . * * @param debug Debug level. Currently, only 0 (off) and 1 (enabled) are supported. */ PLIST_API void plist_set_debug(int debug); /** * Returns a static string of the libplist version. * * @return The libplist version as static ascii string */ PLIST_API const char* libplist_version(); /*@}*/ #ifdef __cplusplus } #endif #endif