/** @file psyc.h * * @brief Main PSYC interface providing crucial functionality. */ /** @mainpage PSYC Core Library * * @section intro_sec Introduction * * This is the introduction. * * @section install_sec Installation * * @subsection step1 Step 1: Opening the box * * etc... */ #ifndef PSYC_H # define PSYC_H #include #include #define PSYC_EPOCH 1440444041 // 2015-08-24 21:20:41 CET (Monday) typedef enum { PSYC_FALSE = 0, PSYC_TRUE = 1, } PSYC_Bool; /** * PSYC packet parts. */ typedef enum { PSYC_PART_RESET = -1, PSYC_PART_ROUTING, PSYC_PART_LENGTH, PSYC_PART_CONTENT, PSYC_PART_METHOD, PSYC_PART_DATA, PSYC_PART_END, } PSYC_Part; /** * Different types that a variable can have. * * This enum lists PSYC variable types that * this library is capable of checking for * validity. Other variable types are treated * as opaque data. */ typedef enum { PSYC_TYPE_UNKNOWN, PSYC_TYPE_AMOUNT, PSYC_TYPE_COLOR, PSYC_TYPE_DATE, PSYC_TYPE_DEGREE, PSYC_TYPE_ENTITY, PSYC_TYPE_FLAG, PSYC_TYPE_LANGUAGE, PSYC_TYPE_LIST, PSYC_TYPE_NICK, PSYC_TYPE_PAGE, PSYC_TYPE_UNIFORM, PSYC_TYPE_TIME, } PSYC_Type; /** * List types. * Possible types are text and binary. */ typedef enum { PSYC_LIST_TEXT = 1, PSYC_LIST_BINARY = 2, } PSYC_ListType; typedef enum { PSYC_MODIFIER_CHECK_LENGTH = 0, PSYC_MODIFIER_NEED_LENGTH = 1, PSYC_MODIFIER_NO_LENGTH = 2, PSYC_MODIFIER_ROUTING = 3, } PSYC_ModifierType; typedef enum { PSYC_CONTENT_CHECK_LENGTH = 0, PSYC_CONTENT_NEED_LENGTH = 1, PSYC_CONTENT_NO_LENGTH = 2, } PSYC_ContentType; typedef struct { size_t length; const char* ptr; } PSYC_Array; #define PSYC_C2ARRAY(string) { sizeof(string)-1, string } #define PSYC_C2ARG(string) string, sizeof(string)-1 /* intermediate struct for a PSYC variable modification */ typedef struct { char oper; // not call it 'operator' as C++ may not like that..? PSYC_Array name; PSYC_Array value; PSYC_ModifierType type; } PSYC_Modifier; /* intermediate struct for a PSYC packet */ typedef struct { PSYC_Modifier **routing; // Header PSYC_Modifier **entity; // Header PSYC_Array method; PSYC_Array data; PSYC_ContentType contentType; size_t contentLength; } PSYC_Packet; /// Routing vars in alphabetical order. extern const PSYC_Array PSYC_routingVars[]; /// Number of routing vars. extern const size_t PSYC_routingVarsNum; /** * Get the type of variable name. */ PSYC_Bool PSYC_isRoutingVar(const char* name, size_t len); /** * Get the type of variable name. */ PSYC_Type PSYC_getVarType(char* name, size_t len); /** * Checks if long keyword string inherits from short keyword string. */ int PSYC_inherits(char* sho, size_t slen, char* lon, size_t llen); /** * Checks if short keyword string matches long keyword string. */ int PSYC_matches(char* sho, size_t slen, char* lon, size_t llen); /** * Callback for PSYC_text() that produces a value for a match. * * The application looks up a match such as _fruit from [_fruit] and * if found writes its current value from its variable store into the * outgoing buffer.. "Apple" for example. The template returns the * number of bytes written. 0 is a legal return value. Should the * callback return -1, PSYC_text leaves the original template text as is. */ typedef int (*PSYC_textCB)(uint8_t* match, size_t mlen, uint8_t** buffer, size_t * blen); /** * Fills out text templates by asking a callback for content. * * Copies the contents of the template into the buffer while looking * for braceOpen and braceClose strings and calling the callback for * each enclosed string between these braces. Should the callback * return -1, the original template text is copied as is. * * By default PSYC's "[" and "]" are used but you can provide any other * brace strings such as "${" and "}" or "". * * See also http://about.psyc.eu/psyctext */ int PSYC_text(uint8_t* template, size_t tlen, uint8_t** buffer, size_t * blen, PSYC_textCB lookupValue, char* braceOpen, char* braceClose); #endif // PSYC_H