Duckstation/dep/rcheevos/include/rcheevos.h

#ifndef RCHEEVOS_H
#define RCHEEVOS_H

#ifdef __cplusplus
extern "C" {
#endif

typedef struct lua_State lua_State;

/*****************************************************************************\
| Return values                                                               |
\*****************************************************************************/

enum {
  RC_OK = 0,
  RC_INVALID_LUA_OPERAND = -1,
  RC_INVALID_MEMORY_OPERAND = -2,
  RC_INVALID_CONST_OPERAND = -3,
  RC_INVALID_FP_OPERAND = -4,
  RC_INVALID_CONDITION_TYPE = -5,
  RC_INVALID_OPERATOR = -6,
  RC_INVALID_REQUIRED_HITS = -7,
  RC_DUPLICATED_START = -8,
  RC_DUPLICATED_CANCEL = -9,
  RC_DUPLICATED_SUBMIT = -10,
  RC_DUPLICATED_VALUE = -11,
  RC_DUPLICATED_PROGRESS = -12,
  RC_MISSING_START = -13,
  RC_MISSING_CANCEL = -14,
  RC_MISSING_SUBMIT = -15,
  RC_MISSING_VALUE = -16,
  RC_INVALID_LBOARD_FIELD = -17,
  RC_MISSING_DISPLAY_STRING = -18,
  RC_OUT_OF_MEMORY = -19,
  RC_INVALID_VALUE_FLAG = -20,
  RC_MISSING_VALUE_MEASURED = -21,
  RC_MULTIPLE_MEASURED = -22,
  RC_INVALID_MEASURED_TARGET = -23,
  RC_INVALID_COMPARISON = -24,
  RC_INVALID_STATE = -25
};

const char* rc_error_str(int ret);

/*****************************************************************************\
| Callbacks                                                                   |
\*****************************************************************************/

/**
 * Callback used to read num_bytes bytes from memory starting at address. If
 * num_bytes is greater than 1, the value is read in little-endian from
 * memory.
 */
typedef unsigned (*rc_peek_t)(unsigned address, unsigned num_bytes, void* ud);

/*****************************************************************************\
| Memory References                                                           |
\*****************************************************************************/

/* Sizes. */
enum {
  RC_MEMSIZE_8_BITS,
  RC_MEMSIZE_16_BITS,
  RC_MEMSIZE_24_BITS,
  RC_MEMSIZE_32_BITS,
  RC_MEMSIZE_LOW,
  RC_MEMSIZE_HIGH,
  RC_MEMSIZE_BIT_0,
  RC_MEMSIZE_BIT_1,
  RC_MEMSIZE_BIT_2,
  RC_MEMSIZE_BIT_3,
  RC_MEMSIZE_BIT_4,
  RC_MEMSIZE_BIT_5,
  RC_MEMSIZE_BIT_6,
  RC_MEMSIZE_BIT_7,
  RC_MEMSIZE_BITCOUNT,
  RC_MEMSIZE_VARIABLE
};

typedef struct rc_memref_value_t {
  /* The current value of this memory reference. */
  unsigned value;
  /* The last differing value of this memory reference. */
  unsigned prior;

  /* The size of the value. */
  char size;
  /* True if the value changed this frame. */
  char changed;
  /* True if the reference will be used in indirection.
   * NOTE: This is actually a property of the rc_memref_t, but we put it here to save space */
  char is_indirect;
} rc_memref_value_t;

typedef struct rc_memref_t rc_memref_t;

struct rc_memref_t {
  /* The current value at the specified memory address. */
  rc_memref_value_t value;

  /* The memory address of this variable. */
  unsigned address;

  /* The next memory reference in the chain. */
  rc_memref_t* next;
};


/*****************************************************************************\
| Operands                                                                    |
\*****************************************************************************/

/* types */
enum {
  RC_OPERAND_ADDRESS,        /* The value of a live address in RAM. */
  RC_OPERAND_DELTA,          /* The value last known at this address. */
  RC_OPERAND_CONST,          /* A 32-bit unsigned integer. */
  RC_OPERAND_FP,             /* A floating point value. */
  RC_OPERAND_LUA,            /* A Lua function that provides the value. */
  RC_OPERAND_PRIOR,          /* The last differing value at this address. */
  RC_OPERAND_BCD,            /* The BCD-decoded value of a live address in RAM. */
  RC_OPERAND_INVERTED        /* The twos-complement value of a live address in RAM. */
};

typedef struct {
  union {
    /* A value read from memory. */
    rc_memref_t* memref;

    /* An integer value. */
    unsigned num;

    /* A floating point value. */
    double dbl;

    /* A reference to the Lua function that provides the value. */
    int luafunc;
  } value;

  /* specifies which member of the value union is being used */
  char type;

  /* the actual RC_MEMSIZE of the operand - memref.size may differ */
  char size;
}
rc_operand_t;

/*****************************************************************************\
| Conditions                                                                  |
\*****************************************************************************/

/* types */
enum {
  RC_CONDITION_STANDARD,
  RC_CONDITION_PAUSE_IF,
  RC_CONDITION_RESET_IF,
  RC_CONDITION_ADD_SOURCE,
  RC_CONDITION_SUB_SOURCE,
  RC_CONDITION_ADD_HITS,
  RC_CONDITION_AND_NEXT,
  RC_CONDITION_MEASURED,
  RC_CONDITION_ADD_ADDRESS,
  RC_CONDITION_OR_NEXT,
  RC_CONDITION_TRIGGER,
  RC_CONDITION_MEASURED_IF,
  RC_CONDITION_RESET_NEXT_IF,
  RC_CONDITION_SUB_HITS
};

/* operators */
enum {
  RC_OPERATOR_EQ,
  RC_OPERATOR_LT,
  RC_OPERATOR_LE,
  RC_OPERATOR_GT,
  RC_OPERATOR_GE,
  RC_OPERATOR_NE,
  RC_OPERATOR_NONE,
  RC_OPERATOR_MULT,
  RC_OPERATOR_DIV,
  RC_OPERATOR_AND
};

typedef struct rc_condition_t rc_condition_t;

struct rc_condition_t {
  /* The condition's operands. */
  rc_operand_t operand1;
  rc_operand_t operand2;

  /* Required hits to fire this condition. */
  unsigned required_hits;
  /* Number of hits so far. */
  unsigned current_hits;

  /* The next condition in the chain. */
  rc_condition_t* next;

  /* The type of the condition. */
  char type;

  /* The comparison operator to use. */
  char oper; /* operator is a reserved word in C++. */

  /* Set if the condition needs to processed as part of the "check if paused" pass. */
  char pause;

  /* Whether or not the condition evaluated true on the last check */
  char is_true;
};

/*****************************************************************************\
| Condition sets                                                              |
\*****************************************************************************/

typedef struct rc_condset_t rc_condset_t;

struct rc_condset_t {
  /* The next condition set in the chain. */
  rc_condset_t* next;

  /* The list of conditions in this condition set. */
  rc_condition_t* conditions;

  /* True if any condition in the set is a pause condition. */
  char has_pause;

  /* True if the set is currently paused. */
  char is_paused;
};

/*****************************************************************************\
| Trigger                                                                     |
\*****************************************************************************/

enum {
  RC_TRIGGER_STATE_INACTIVE,   /* achievement is not being processed */
  RC_TRIGGER_STATE_WAITING,    /* achievement cannot trigger until it has been false for at least one frame */
  RC_TRIGGER_STATE_ACTIVE,     /* achievement is active and may trigger */
  RC_TRIGGER_STATE_PAUSED,     /* achievement is currently paused and will not trigger */
  RC_TRIGGER_STATE_RESET,      /* achievement hit counts were reset */
  RC_TRIGGER_STATE_TRIGGERED,  /* achievement has triggered */
  RC_TRIGGER_STATE_PRIMED,     /* all non-Trigger conditions are true */
  RC_TRIGGER_STATE_DISABLED    /* achievement cannot be processed at this time */
};

typedef struct {
  /* The main condition set. */
  rc_condset_t* requirement;

  /* The list of sub condition sets in this test. */
  rc_condset_t* alternative;

  /* The memory references required by the trigger. */
  rc_memref_t* memrefs;

  /* The current state of the MEASURED condition. */
  unsigned measured_value;

  /* The target state of the MEASURED condition */
  unsigned measured_target;

  /* The current state of the trigger */
  char state;

  /* True if at least one condition has a non-zero hit count */
  char has_hits;

  /* True if at least one condition has a non-zero required hit count */
  char has_required_hits;
}
rc_trigger_t;

int rc_trigger_size(const char* memaddr);
rc_trigger_t* rc_parse_trigger(void* buffer, const char* memaddr, lua_State* L, int funcs_ndx);
int rc_evaluate_trigger(rc_trigger_t* trigger, rc_peek_t peek, void* ud, lua_State* L);
int rc_test_trigger(rc_trigger_t* trigger, rc_peek_t peek, void* ud, lua_State* L);
void rc_reset_trigger(rc_trigger_t* self);

/*****************************************************************************\
| Values                                                                      |
\*****************************************************************************/

typedef struct rc_value_t rc_value_t;

struct rc_value_t {
  /* The current value of the variable. */
  rc_memref_value_t value;

  /* The list of conditions to evaluate. */
  rc_condset_t* conditions;

  /* The memory references required by the value. */
  rc_memref_t* memrefs;

  /* The name of the variable. */
  const char* name;

  /* The next variable in the chain. */
  rc_value_t* next;
};

int rc_value_size(const char* memaddr);
rc_value_t* rc_parse_value(void* buffer, const char* memaddr, lua_State* L, int funcs_ndx);
int rc_evaluate_value(rc_value_t* value, rc_peek_t peek, void* ud, lua_State* L);

/*****************************************************************************\
| Leaderboards                                                                |
\*****************************************************************************/

/* Return values for rc_evaluate_lboard. */
enum {
  RC_LBOARD_STATE_INACTIVE,  /* leaderboard is not being processed */
  RC_LBOARD_STATE_WAITING,   /* leaderboard cannot activate until the start condition has been false for at least one frame */
  RC_LBOARD_STATE_ACTIVE,    /* leaderboard is active and may start */
  RC_LBOARD_STATE_STARTED,   /* leaderboard attempt in progress */
  RC_LBOARD_STATE_CANCELED,  /* leaderboard attempt canceled */
  RC_LBOARD_STATE_TRIGGERED, /* leaderboard attempt complete, value should be submitted */
  RC_LBOARD_STATE_DISABLED   /* leaderboard cannot be processed at this time */
};

typedef struct {
  rc_trigger_t start;
  rc_trigger_t submit;
  rc_trigger_t cancel;
  rc_value_t value;
  rc_value_t* progress;
  rc_memref_t* memrefs;

  char state;
}
rc_lboard_t;

int rc_lboard_size(const char* memaddr);
rc_lboard_t* rc_parse_lboard(void* buffer, const char* memaddr, lua_State* L, int funcs_ndx);
int rc_evaluate_lboard(rc_lboard_t* lboard, int* value, rc_peek_t peek, void* peek_ud, lua_State* L);
void rc_reset_lboard(rc_lboard_t* lboard);

/*****************************************************************************\
| Value formatting                                                            |
\*****************************************************************************/

/* Supported formats. */
enum {
  RC_FORMAT_FRAMES,
  RC_FORMAT_SECONDS,
  RC_FORMAT_CENTISECS,
  RC_FORMAT_SCORE,
  RC_FORMAT_VALUE,
  RC_FORMAT_MINUTES,
  RC_FORMAT_SECONDS_AS_MINUTES
};

int rc_parse_format(const char* format_str);
int rc_format_value(char* buffer, int size, int value, int format);

/*****************************************************************************\
| Rich Presence                                                               |
\*****************************************************************************/

typedef struct rc_richpresence_lookup_item_t rc_richpresence_lookup_item_t;

struct rc_richpresence_lookup_item_t {
  unsigned first;
  unsigned last;
  rc_richpresence_lookup_item_t* left;
  rc_richpresence_lookup_item_t* right;
  const char* label;
};

typedef struct rc_richpresence_lookup_t rc_richpresence_lookup_t;

struct rc_richpresence_lookup_t {
  rc_richpresence_lookup_item_t* root;
  rc_richpresence_lookup_t* next;
  const char* name;
  const char* default_label;
  unsigned short format;
};

typedef struct rc_richpresence_display_part_t rc_richpresence_display_part_t;

struct rc_richpresence_display_part_t {
  rc_richpresence_display_part_t* next;
  const char* text;
  rc_richpresence_lookup_t* lookup;
  rc_memref_value_t *value;
  unsigned short display_type;
};

typedef struct rc_richpresence_display_t rc_richpresence_display_t;

struct rc_richpresence_display_t {
  rc_trigger_t trigger;
  rc_richpresence_display_t* next;
  rc_richpresence_display_part_t* display;
};

typedef struct {
  rc_richpresence_display_t* first_display;
  rc_richpresence_lookup_t* first_lookup;
  rc_memref_t* memrefs;
  rc_value_t* variables;
}
rc_richpresence_t;

int rc_richpresence_size(const char* script);
rc_richpresence_t* rc_parse_richpresence(void* buffer, const char* script, lua_State* L, int funcs_ndx);
int rc_evaluate_richpresence(rc_richpresence_t* richpresence, char* buffer, unsigned buffersize, rc_peek_t peek, void* peek_ud, lua_State* L);
void rc_update_richpresence(rc_richpresence_t* richpresence, rc_peek_t peek, void* peek_ud, lua_State* L);
int rc_get_richpresence_display_string(rc_richpresence_t* richpresence, char* buffer, unsigned buffersize, rc_peek_t peek, void* peek_ud, lua_State* L);

/*****************************************************************************\
| Runtime                                                                     |
\*****************************************************************************/

typedef struct rc_runtime_trigger_t {
  unsigned id;
  rc_trigger_t* trigger;
  void* buffer;
  rc_memref_t* invalid_memref;
  unsigned char md5[16];
  int serialized_size;
  char owns_memrefs;
}
rc_runtime_trigger_t;

typedef struct rc_runtime_lboard_t {
  unsigned id;
  int value;
  rc_lboard_t* lboard;
  void* buffer;
  rc_memref_t* invalid_memref;
  unsigned char md5[16];
  char owns_memrefs;
}
rc_runtime_lboard_t;

typedef struct rc_runtime_richpresence_t {
  rc_richpresence_t* richpresence;
  void* buffer;
  struct rc_runtime_richpresence_t* previous;
  char owns_memrefs;
}
rc_runtime_richpresence_t;

typedef struct rc_runtime_t {
  rc_runtime_trigger_t* triggers;
  unsigned trigger_count;
  unsigned trigger_capacity;

  rc_runtime_lboard_t* lboards;
  unsigned lboard_count;
  unsigned lboard_capacity;

  rc_runtime_richpresence_t* richpresence;

  rc_memref_t* memrefs;
  rc_memref_t** next_memref;

  rc_value_t* variables;
  rc_value_t** next_variable;
}
rc_runtime_t;

void rc_runtime_init(rc_runtime_t* runtime);
void rc_runtime_destroy(rc_runtime_t* runtime);

int rc_runtime_activate_achievement(rc_runtime_t* runtime, unsigned id, const char* memaddr, lua_State* L, int funcs_idx);
void rc_runtime_deactivate_achievement(rc_runtime_t* runtime, unsigned id);
rc_trigger_t* rc_runtime_get_achievement(const rc_runtime_t* runtime, unsigned id);

int rc_runtime_activate_lboard(rc_runtime_t* runtime, unsigned id, const char* memaddr, lua_State* L, int funcs_idx);
void rc_runtime_deactivate_lboard(rc_runtime_t* runtime, unsigned id);
rc_lboard_t* rc_runtime_get_lboard(const rc_runtime_t* runtime, unsigned id);

int rc_runtime_activate_richpresence(rc_runtime_t* runtime, const char* script, lua_State* L, int funcs_idx);
int rc_runtime_get_richpresence(const rc_runtime_t* self, char* buffer, unsigned buffersize, rc_peek_t peek, void* peek_ud, lua_State* L);

enum {
  RC_RUNTIME_EVENT_ACHIEVEMENT_ACTIVATED, /* from WAITING, PAUSED, or PRIMED to ACTIVE */
  RC_RUNTIME_EVENT_ACHIEVEMENT_PAUSED,
  RC_RUNTIME_EVENT_ACHIEVEMENT_RESET,
  RC_RUNTIME_EVENT_ACHIEVEMENT_TRIGGERED,
  RC_RUNTIME_EVENT_ACHIEVEMENT_PRIMED,
  RC_RUNTIME_EVENT_LBOARD_STARTED,
  RC_RUNTIME_EVENT_LBOARD_CANCELED,
  RC_RUNTIME_EVENT_LBOARD_UPDATED,
  RC_RUNTIME_EVENT_LBOARD_TRIGGERED,
  RC_RUNTIME_EVENT_ACHIEVEMENT_DISABLED,
  RC_RUNTIME_EVENT_LBOARD_DISABLED
};

typedef struct rc_runtime_event_t {
  unsigned id;
  int value;
  char type;
}
rc_runtime_event_t;

typedef void (*rc_runtime_event_handler_t)(const rc_runtime_event_t* runtime_event);

void rc_runtime_do_frame(rc_runtime_t* runtime, rc_runtime_event_handler_t event_handler, rc_peek_t peek, void* ud, lua_State* L);
void rc_runtime_reset(rc_runtime_t* runtime);
void rc_runtime_invalidate_address(rc_runtime_t* runtime, unsigned address);

int rc_runtime_progress_size(const rc_runtime_t* runtime, lua_State* L);
int rc_runtime_serialize_progress(void* buffer, const rc_runtime_t* runtime, lua_State* L);
int rc_runtime_deserialize_progress(rc_runtime_t* runtime, const unsigned char* serialized, lua_State* L);

/*****************************************************************************\
| Memory mapping                                                              |
\*****************************************************************************/

enum {
  RC_MEMORY_TYPE_SYSTEM_RAM,          /* normal system memory */
  RC_MEMORY_TYPE_SAVE_RAM,            /* memory that persists between sessions */
  RC_MEMORY_TYPE_VIDEO_RAM,           /* memory reserved for graphical processing */
  RC_MEMORY_TYPE_READONLY,            /* memory that maps to read only data */
  RC_MEMORY_TYPE_HARDWARE_CONTROLLER, /* memory for interacting with system components */
  RC_MEMORY_TYPE_VIRTUAL_RAM,         /* secondary address space that maps to real memory in system RAM */
  RC_MEMORY_TYPE_UNUSED               /* these addresses don't really exist */
};

typedef struct rc_memory_region_t {
  unsigned start_address;             /* first address of block as queried by RetroAchievements */
  unsigned end_address;               /* last address of block as queried by RetroAchievements */
  unsigned real_address;              /* real address for first address of block */
  char type;                          /* RC_MEMORY_TYPE_ for block */
  const char* description;            /* short description of block */
}
rc_memory_region_t;

typedef struct rc_memory_regions_t {
  const rc_memory_region_t* region;
  unsigned num_regions;
}
rc_memory_regions_t;

const rc_memory_regions_t* rc_console_memory_regions(int console_id);

#ifdef __cplusplus
}
#endif

#endif /* RCHEEVOS_H */