/*
The OS agnostic file tracking API for applications
that want to interact with potentially many files on
the disk that could be changed by other applications.
Created on: 29.08.2016
*/
// TOP
#include "4tech_file_track.h"
#include "4tech_file_track_general.c"
// NOTE(allen):
// There are a number of places where the "table" is built into this system.
// If a table is not actually needed we will leave it in the API, but pull
// out all of the following internal refrences to the table:
// In Linux_File_Track_Vars :
// + void *tables; and all refrences to it
// The entire Linux_File_Track_Entry struct and all refrences to it.
// In init_track_system :
// + enough_memory_to_init_table(table_memory_size)
// + everything under the note "Initialize main data tables"
// Leave move_track_system unimplemented and assert when it is called
//
typedef struct {
void *tables;
// NOTE(allen):
// This struct must fit inside the opaque File_Track_System struct.
// If it needs more room we can make File_Track_System bigger.
//
// Here we need:
// 1. A mutex of some kind to make the main operations thread safe.
// If it turns out the operations will be thread safe without a mutex
// then it is not required.
// 2. Any synchronization primatives that are needed for dequeueing
// change events.
// 3. Any data structures needed for handling the listeners.
// This system can expect to be provided with memory from the user.
// Right now the way the API works, it assumes that the user will
// only ever add memory and never free it. If freeing becomes necessary
// on Linux the API can be extended to support that.
} Linux_File_Track_Vars;
typedef struct {
File_Index hash;
// NOTE(allen):
// This struct must fit inside the opaque File_Track_Entry struct.
// The table is meant to help keep track of what is already being
// tracked. It may turn out that this isn't needed on Linux which
// would be fine. If it is used hash should be the first element
// of this struct and it should be used to uniquely identify each
// entry because it is used as the key for the table.
} Linux_File_Track_Entry;
#define to_vars(s) ((Linux_File_Track_Vars*)(s))
#define to_tables(v) ((File_Track_Tables*)(v->tables))
FILE_TRACK_LINK File_Track_Result
init_track_system(File_Track_System *system,
void *table_memory, int32_t table_memory_size,
void *listener_memory, int32_t listener_memory_size){
File_Track_Result result = FileTrack_MemoryTooSmall;
Linux_File_Track_Vars *vars = to_vars(system);
Assert(sizeof(Linux_File_Track_Entry) <= sizeof(File_Track_Entry));
if (enough_memory_to_init_table(table_memory_size) &&
/*if listener memory is important check it's size here*/ 1){
// NOTE(allen): Initialize main data tables
vars->tables = table_memory;
File_Track_Tables *tables = to_tables(vars);
init_table_memory(tables, table_memory_size);
// NOTE(allen):
// Here prepare the data structure and synchronization primatives
// in the vars struct.
result = FileTrack_Good;
}
return(result);
}
FILE_TRACK_LINK File_Track_Result
add_listener(File_Track_System *system, char *filename){
File_Track_Result result = FileTrack_Good;
Linux_File_Track_Vars *vars = to_vars(system);
// ACQUIRE LOCK (only keep this if either of the data structures is kept)
// NOTE(allen):
// Here do something to begin listening to changes to the file named filename.
// On Windows it listens to the parent directory if no other file in that
// directory is already being listened to. We will assume that the user
// never passes the same filename in twice, although they may pass in two
// different names that both refer to the same file. In this case we should
// treat them as two separate files so that if one of the listeners is removed
// the other on the same file keeps working.
// RELEASE LOCK
return(result);
}
FILE_TRACK_LINK File_Track_Result
remove_listener(File_Track_System *system, char *filename){
File_Track_Result result = FileTrack_Good;
Linux_File_Track_Vars *vars = to_vars(system);
// ACQUIRE LOCK
// NOTE(allen):
// Here do something to stop listening to changes to the file named filename.
// We assume this filename has been passed into add_listener already and that
// if it has not it is a bug in the user's code not in this code.
// RELEASE LOCK
return(result);
}
FILE_TRACK_LINK File_Track_Result
move_track_system(File_Track_System *system, void *mem, int32_t size){
File_Track_Result result = FileTrack_Good;
Linux_File_Track_Vars *vars = to_vars(system);
// ACQUIRE LOCK
{
File_Track_Tables *original_tables = to_tables(vars);
result = move_table_memory(original_tables, mem, size);
if (result == FileTrack_Good){
vars->tables = mem;
}
}
// RELEASE LOCK
return(result);
}
FILE_TRACK_LINK File_Track_Result
expand_track_system_listeners(File_Track_System *system, void *mem, int32_t size){
File_Track_Result result = FileTrack_Good;
Linux_File_Track_Vars *vars = to_vars(system);
// ACQUIRE LOCK
// NOTE(allen): If there is a data structure for the listeners
// this call adds more memory to that system. If this system
// wants to free old memory the API does not currently support
// that but it can.
// RELEASE LOCK
return(result);
}
FILE_TRACK_LINK File_Track_Result
get_change_event(File_Track_System *system, char *buffer, int32_t max, int32_t *size){
File_Track_Result result = FileTrack_NoMoreEvents;
Linux_File_Track_Vars *vars = to_vars(system);
// ACQUIRE LOCK
// NOTE(allen): If there are any new file changes report them
// by copying the name of the file to the buffer and returning
// FileTrack_Good. It is allowed for this system to report
// changes to files that were not requested to be tracked, it
// is up to the user to check the filename and see if it cares
// about that file. If there are no new changes the return
// FileTrack_NoMoreEvents.
// RELEASE LOCK
return(result);
}
FILE_TRACK_LINK File_Track_Result
shut_down_track_system(File_Track_System *system){
File_Track_Result result = FileTrack_Good;
Linux_File_Track_Vars *vars = to_vars(system);
// NOTE(allen): Close all the handles stored in the table.
{
File_Track_Tables *tables = to_tables(vars);
File_Track_Entry *entries = (File_Track_Entry*)to_ptr(tables, tables->file_table);
uint32_t max = tables->max;
for (uint32_t index = 0; index < max; ++index){
File_Track_Entry *entry = entries + index;
if (!entry_is_available(entry)){
// NOTE(allen): If table entries contain anything
// that need cleanup, that cleanup should happen here.
}
}
}
// NOTE(allen): Close all the global track system resources.
return(result);
}
// BOTTOM