RetroArch/runtime_file.c
2019-06-26 07:23:32 +02:00

851 lines
27 KiB
C

/* Copyright (C) 2010-2019 The RetroArch team
*
* ---------------------------------------------------------------------------------------
* The following license statement only applies to this file (runtime_file.c).
* ---------------------------------------------------------------------------------------
*
* Permission is hereby granted, free of charge,
* to any person obtaining a copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software,
* and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
* INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <ctype.h>
#include <file/file_path.h>
#include <retro_miscellaneous.h>
#include <streams/file_stream.h>
#include <formats/jsonsax_full.h>
#include <string/stdstring.h>
#include "file_path_special.h"
#include "paths.h"
#include "core_info.h"
#include "configuration.h"
#include "verbosity.h"
#include "runtime_file.h"
#include "menu/menu_defines.h"
#define LOG_FILE_RUNTIME_FORMAT_STR "%u:%02u:%02u"
#define LOG_FILE_LAST_PLAYED_FORMAT_STR "%04u-%02u-%02u %02u:%02u:%02u"
/* JSON Stuff... */
typedef struct
{
JSON_Parser parser;
JSON_Writer writer;
RFILE *file;
char **current_entry_val;
char *runtime_string;
char *last_played_string;
} RtlJSONContext;
static JSON_Parser_HandlerResult RtlJSONObjectMemberHandler(JSON_Parser parser, char *pValue, size_t length, JSON_StringAttributes attributes)
{
RtlJSONContext *pCtx = (RtlJSONContext*)JSON_Parser_GetUserData(parser);
(void)attributes; /* unused */
if (pCtx->current_entry_val)
{
/* something went wrong */
RARCH_ERR("JSON parsing failed at line %d.\n", __LINE__);
return JSON_Parser_Abort;
}
if (length)
{
if (string_is_equal(pValue, "runtime"))
pCtx->current_entry_val = &pCtx->runtime_string;
else if (string_is_equal(pValue, "last_played"))
pCtx->current_entry_val = &pCtx->last_played_string;
/* ignore unknown members */
}
return JSON_Parser_Continue;
}
static JSON_Parser_HandlerResult RtlJSONStringHandler(JSON_Parser parser, char *pValue, size_t length, JSON_StringAttributes attributes)
{
RtlJSONContext *pCtx = (RtlJSONContext*)JSON_Parser_GetUserData(parser);
(void)attributes; /* unused */
if (pCtx->current_entry_val && length && !string_is_empty(pValue))
{
if (*pCtx->current_entry_val)
free(*pCtx->current_entry_val);
*pCtx->current_entry_val = strdup(pValue);
}
/* ignore unknown members */
pCtx->current_entry_val = NULL;
return JSON_Parser_Continue;
}
static JSON_Writer_HandlerResult RtlJSONOutputHandler(JSON_Writer writer, const char *pBytes, size_t length)
{
RtlJSONContext *context = (RtlJSONContext*)JSON_Writer_GetUserData(writer);
(void)writer; /* unused */
return filestream_write(context->file, pBytes, length) == length ? JSON_Writer_Continue : JSON_Writer_Abort;
}
static void RtlJSONLogError(RtlJSONContext *pCtx)
{
if (pCtx->parser && JSON_Parser_GetError(pCtx->parser) != JSON_Error_AbortedByHandler)
{
JSON_Error error = JSON_Parser_GetError(pCtx->parser);
JSON_Location errorLocation = { 0, 0, 0 };
(void)JSON_Parser_GetErrorLocation(pCtx->parser, &errorLocation);
RARCH_ERR("Error: Invalid JSON at line %d, column %d (input byte %d) - %s.\n",
(int)errorLocation.line + 1,
(int)errorLocation.column + 1,
(int)errorLocation.byte,
JSON_ErrorString(error));
}
else if (pCtx->writer && JSON_Writer_GetError(pCtx->writer) != JSON_Error_AbortedByHandler)
{
RARCH_ERR("Error: could not write output - %s.\n", JSON_ErrorString(JSON_Writer_GetError(pCtx->writer)));
}
}
/* Initialisation */
/* Parses log file referenced by runtime_log->path.
* Does nothing if log file does not exist. */
static void runtime_log_read_file(runtime_log_t *runtime_log)
{
unsigned runtime_hours = 0;
unsigned runtime_minutes = 0;
unsigned runtime_seconds = 0;
unsigned last_played_year = 0;
unsigned last_played_month = 0;
unsigned last_played_day = 0;
unsigned last_played_hour = 0;
unsigned last_played_minute = 0;
unsigned last_played_second = 0;
RtlJSONContext context = {0};
/* Attempt to open log file */
RFILE *file = filestream_open(runtime_log->path,
RETRO_VFS_FILE_ACCESS_READ, RETRO_VFS_FILE_ACCESS_HINT_NONE);
if (!file)
{
RARCH_ERR("Failed to open runtime log file: %s\n", runtime_log->path);
return;
}
/* Initialise JSON parser */
context.runtime_string = NULL;
context.last_played_string = NULL;
context.parser = JSON_Parser_Create(NULL);
context.file = file;
if (!context.parser)
{
RARCH_ERR("Failed to create JSON parser.\n");
goto end;
}
/* Configure parser */
JSON_Parser_SetAllowBOM(context.parser, JSON_True);
JSON_Parser_SetStringHandler(context.parser, &RtlJSONStringHandler);
JSON_Parser_SetObjectMemberHandler(context.parser, &RtlJSONObjectMemberHandler);
JSON_Parser_SetUserData(context.parser, &context);
/* Read file */
while (!filestream_eof(file))
{
/* Runtime log files are tiny - use small chunk size */
char chunk[128] = {0};
int64_t length = filestream_read(file, chunk, sizeof(chunk));
/* Error checking... */
if (!length && !filestream_eof(file))
{
RARCH_ERR("Failed to read runtime log file: %s\n", runtime_log->path);
JSON_Parser_Free(context.parser);
goto end;
}
/* Parse chunk */
if (!JSON_Parser_Parse(context.parser, chunk, length, JSON_False))
{
RARCH_ERR("Error parsing chunk of runtime log file: %s\n---snip---\n%s\n---snip---\n", runtime_log->path, chunk);
RtlJSONLogError(&context);
JSON_Parser_Free(context.parser);
goto end;
}
}
/* Finalise parsing */
if (!JSON_Parser_Parse(context.parser, NULL, 0, JSON_True))
{
RARCH_WARN("Error parsing runtime log file: %s\n", runtime_log->path);
RtlJSONLogError(&context);
JSON_Parser_Free(context.parser);
goto end;
}
/* Free parser */
JSON_Parser_Free(context.parser);
/* Process string values read from JSON file */
/* Runtime */
if (!string_is_empty(context.runtime_string))
{
if (sscanf(context.runtime_string, LOG_FILE_RUNTIME_FORMAT_STR,
&runtime_hours, &runtime_minutes, &runtime_seconds) != 3)
{
RARCH_ERR("Runtime log file - invalid 'runtime' entry detected: %s\n", runtime_log->path);
goto end;
}
}
/* Last played */
if (!string_is_empty(context.last_played_string))
{
if (sscanf(context.last_played_string, LOG_FILE_LAST_PLAYED_FORMAT_STR,
&last_played_year, &last_played_month, &last_played_day,
&last_played_hour, &last_played_minute, &last_played_second) != 6)
{
RARCH_ERR("Runtime log file - invalid 'last played' entry detected: %s\n", runtime_log->path);
goto end;
}
}
/* If we reach this point then all is well
* > Assign values to runtime_log object */
runtime_log->runtime.hours = runtime_hours;
runtime_log->runtime.minutes = runtime_minutes;
runtime_log->runtime.seconds = runtime_seconds;
runtime_log->last_played.year = last_played_year;
runtime_log->last_played.month = last_played_month;
runtime_log->last_played.day = last_played_day;
runtime_log->last_played.hour = last_played_hour;
runtime_log->last_played.minute = last_played_minute;
runtime_log->last_played.second = last_played_second;
end:
/* Clean up leftover strings */
if (context.runtime_string)
free(context.runtime_string);
if (context.last_played_string)
free(context.last_played_string);
/* Close log file */
filestream_close(file);
}
/* Initialise runtime log, loading current parameters
* if log file exists. Returned object must be free()'d.
* Returns NULL if content_path and/or core_path are invalid */
runtime_log_t *runtime_log_init(const char *content_path,
const char *core_path, bool log_per_core)
{
unsigned i;
char content_name[PATH_MAX_LENGTH];
char core_name[PATH_MAX_LENGTH];
char log_file_dir[PATH_MAX_LENGTH];
char log_file_path[PATH_MAX_LENGTH];
char tmp_buf[PATH_MAX_LENGTH];
settings_t *settings = config_get_ptr();
core_info_list_t *core_info = NULL;
runtime_log_t *runtime_log = NULL;
const char *core_path_basename = NULL;
content_name[0] = '\0';
core_name[0] = '\0';
log_file_dir[0] = '\0';
log_file_path[0] = '\0';
tmp_buf[0] = '\0';
/* Error checking */
if (!settings)
return NULL;
if ( string_is_empty(settings->paths.directory_runtime_log) &&
string_is_empty(settings->paths.directory_playlist))
{
RARCH_ERR("Runtime log directory is undefined - cannot save"
" runtime log files.\n");
return NULL;
}
core_path_basename = path_basename(core_path);
if ( string_is_empty(content_path) ||
string_is_empty(core_path_basename))
return NULL;
if ( string_is_equal(core_path, "builtin") ||
string_is_equal(core_path, file_path_str(FILE_PATH_DETECT)))
return NULL;
/* Get core name
* Note: An annoyance - this is required even when
* we are performing aggregate (not per core) logging,
* since content name is sometimes dependent upon core
* (e.g. see TyrQuake below) */
core_info_get_list(&core_info);
if (!core_info)
return NULL;
for (i = 0; i < core_info->count; i++)
{
const char *entry_core_name = core_info->list[i].core_name;
if (!string_is_equal(
path_basename(core_info->list[i].path), core_path_basename))
continue;
if (string_is_empty(entry_core_name))
return NULL;
strlcpy(core_name, entry_core_name, sizeof(core_name));
break;
}
if (string_is_empty(core_name))
return NULL;
/* Get runtime log directory */
if (string_is_empty(settings->paths.directory_runtime_log))
{
/* If 'custom' runtime log path is undefined,
* use default 'playlists/logs' directory... */
fill_pathname_join(
tmp_buf,
settings->paths.directory_playlist,
"logs",
sizeof(tmp_buf));
}
else
strlcpy(tmp_buf,
settings->paths.directory_runtime_log, sizeof(tmp_buf));
if (string_is_empty(tmp_buf))
return NULL;
if (log_per_core)
fill_pathname_join(
log_file_dir,
tmp_buf,
core_name,
sizeof(log_file_dir));
else
strlcpy(log_file_dir, tmp_buf, sizeof(log_file_dir));
if (string_is_empty(log_file_dir))
return NULL;
/* Create directory, if required */
if (!path_is_directory(log_file_dir))
{
if (!path_mkdir(log_file_dir))
{
RARCH_ERR("[runtime] failed to create directory for"
" runtime log: %s.\n", log_file_dir);
return NULL;
}
}
/* Get content name
* Note: TyrQuake requires a specific hack, since all
* content has the same name... */
if (string_is_equal(core_name, "TyrQuake"))
{
const char *last_slash = find_last_slash(content_path);
if (last_slash)
{
size_t path_length = last_slash + 1 - content_path;
if (path_length < PATH_MAX_LENGTH)
{
memset(tmp_buf, 0, sizeof(tmp_buf));
strlcpy(tmp_buf, content_path, path_length * sizeof(char));
strlcpy(content_name, path_basename(tmp_buf), sizeof(content_name));
}
}
}
else
{
/* path_remove_extension() requires a char * (not const)
* so have to use a temporary buffer... */
char *tmp_buf_no_ext = NULL;
tmp_buf[0] = '\0';
strlcpy(tmp_buf, path_basename(content_path), sizeof(tmp_buf));
tmp_buf_no_ext = path_remove_extension(tmp_buf);
if (string_is_empty(tmp_buf_no_ext))
return NULL;
strlcpy(content_name, tmp_buf_no_ext, sizeof(content_name));
}
if (string_is_empty(content_name))
return NULL;
/* Build final log file path */
fill_pathname_join(log_file_path, log_file_dir, content_name, sizeof(log_file_path));
strlcat(log_file_path, file_path_str(FILE_PATH_RUNTIME_EXTENSION), sizeof(log_file_path));
if (string_is_empty(log_file_path))
return NULL;
/* Phew... If we get this far then all is well.
* > Create 'runtime_log' object */
runtime_log = (runtime_log_t*)calloc(1, sizeof(*runtime_log));
if (!runtime_log)
return NULL;
/* > Populate default values */
runtime_log->runtime.hours = 0;
runtime_log->runtime.minutes = 0;
runtime_log->runtime.seconds = 0;
runtime_log->last_played.year = 0;
runtime_log->last_played.month = 0;
runtime_log->last_played.day = 0;
runtime_log->last_played.hour = 0;
runtime_log->last_played.minute = 0;
runtime_log->last_played.second = 0;
strlcpy(runtime_log->path, log_file_path, sizeof(runtime_log->path));
/* Load existing log file, if it exists */
if (path_is_valid(runtime_log->path))
runtime_log_read_file(runtime_log);
return runtime_log;
}
/* Setters */
/* Set runtime to specified hours, minutes, seconds value */
void runtime_log_set_runtime_hms(runtime_log_t *runtime_log, unsigned hours, unsigned minutes, unsigned seconds)
{
retro_time_t usec;
if (!runtime_log)
return;
/* Converting to usec and back again may be considered a
* waste of CPU cycles, but this allows us to handle any
* kind of broken input without issue - i.e. user can enter
* minutes and seconds values > 59, and everything still
* works correctly */
runtime_log_convert_hms2usec(hours, minutes, seconds, &usec);
runtime_log_convert_usec2hms(usec,
&runtime_log->runtime.hours, &runtime_log->runtime.minutes, &runtime_log->runtime.seconds);
}
/* Set runtime to specified microseconds value */
void runtime_log_set_runtime_usec(runtime_log_t *runtime_log, retro_time_t usec)
{
if (!runtime_log)
return;
runtime_log_convert_usec2hms(usec,
&runtime_log->runtime.hours, &runtime_log->runtime.minutes, &runtime_log->runtime.seconds);
}
/* Adds specified hours, minutes, seconds value to current runtime */
void runtime_log_add_runtime_hms(runtime_log_t *runtime_log, unsigned hours, unsigned minutes, unsigned seconds)
{
retro_time_t usec_old;
retro_time_t usec_new;
if (!runtime_log)
return;
runtime_log_convert_hms2usec(
runtime_log->runtime.hours, runtime_log->runtime.minutes, runtime_log->runtime.seconds,
&usec_old);
runtime_log_convert_hms2usec(hours, minutes, seconds, &usec_new);
runtime_log_convert_usec2hms(usec_old + usec_new,
&runtime_log->runtime.hours, &runtime_log->runtime.minutes, &runtime_log->runtime.seconds);
}
/* Adds specified microseconds value to current runtime */
void runtime_log_add_runtime_usec(runtime_log_t *runtime_log, retro_time_t usec)
{
retro_time_t usec_old;
if (!runtime_log)
return;
runtime_log_convert_hms2usec(
runtime_log->runtime.hours, runtime_log->runtime.minutes, runtime_log->runtime.seconds,
&usec_old);
runtime_log_convert_usec2hms(usec_old + usec,
&runtime_log->runtime.hours, &runtime_log->runtime.minutes, &runtime_log->runtime.seconds);
}
/* Sets last played entry to specified value */
void runtime_log_set_last_played(runtime_log_t *runtime_log,
unsigned year, unsigned month, unsigned day,
unsigned hour, unsigned minute, unsigned second)
{
if (!runtime_log)
return;
/* This function should never be needed, so just
* perform dumb value assignment (i.e. no validation
* using mktime()) */
runtime_log->last_played.year = year;
runtime_log->last_played.month = month;
runtime_log->last_played.day = day;
runtime_log->last_played.hour = hour;
runtime_log->last_played.minute = minute;
runtime_log->last_played.second = second;
}
/* Sets last played entry to current date/time */
void runtime_log_set_last_played_now(runtime_log_t *runtime_log)
{
time_t current_time;
struct tm * time_info;
if (!runtime_log)
return;
/* Get current time */
time(&current_time);
time_info = localtime(&current_time);
/* This can actually happen, but if does we probably
* have bigger problems to worry about... */
if(!time_info)
{
RARCH_ERR("Failed to get current time.\n");
return;
}
/* Extract values */
runtime_log->last_played.year = (unsigned)time_info->tm_year + 1900;
runtime_log->last_played.month = (unsigned)time_info->tm_mon + 1;
runtime_log->last_played.day = (unsigned)time_info->tm_mday;
runtime_log->last_played.hour = (unsigned)time_info->tm_hour;
runtime_log->last_played.minute = (unsigned)time_info->tm_min;
runtime_log->last_played.second = (unsigned)time_info->tm_sec;
}
/* Resets log to default (zero) values */
void runtime_log_reset(runtime_log_t *runtime_log)
{
if (!runtime_log)
return;
runtime_log->runtime.hours = 0;
runtime_log->runtime.minutes = 0;
runtime_log->runtime.seconds = 0;
runtime_log->last_played.year = 0;
runtime_log->last_played.month = 0;
runtime_log->last_played.day = 0;
runtime_log->last_played.hour = 0;
runtime_log->last_played.minute = 0;
runtime_log->last_played.second = 0;
}
/* Getters */
/* Gets runtime in hours, minutes, seconds */
void runtime_log_get_runtime_hms(runtime_log_t *runtime_log,
unsigned *hours, unsigned *minutes, unsigned *seconds)
{
if (!runtime_log)
return;
*hours = runtime_log->runtime.hours;
*minutes = runtime_log->runtime.minutes;
*seconds = runtime_log->runtime.seconds;
}
/* Gets runtime in microseconds */
void runtime_log_get_runtime_usec(
runtime_log_t *runtime_log, retro_time_t *usec)
{
if (runtime_log)
runtime_log_convert_hms2usec( runtime_log->runtime.hours,
runtime_log->runtime.minutes, runtime_log->runtime.seconds,
usec);
}
/* Gets last played entry values */
void runtime_log_get_last_played(runtime_log_t *runtime_log,
unsigned *year, unsigned *month, unsigned *day,
unsigned *hour, unsigned *minute, unsigned *second)
{
if (!runtime_log)
return;
*year = runtime_log->last_played.year;
*month = runtime_log->last_played.month;
*day = runtime_log->last_played.day;
*hour = runtime_log->last_played.hour;
*minute = runtime_log->last_played.minute;
*second = runtime_log->last_played.second;
}
/* Gets last played entry values as a time_t 'object'
* (e.g. for printing with strftime()) */
void runtime_log_get_last_played_time(runtime_log_t *runtime_log, time_t *time)
{
struct tm time_info;
if (!runtime_log || !time)
return;
/* Set tm values */
time_info.tm_year = (int)runtime_log->last_played.year - 1900;
time_info.tm_mon = (int)runtime_log->last_played.month - 1;
time_info.tm_mday = (int)runtime_log->last_played.day;
time_info.tm_hour = (int)runtime_log->last_played.hour;
time_info.tm_min = (int)runtime_log->last_played.minute;
time_info.tm_sec = (int)runtime_log->last_played.second;
time_info.tm_isdst = -1;
/* Get time */
*time = mktime(&time_info);
}
/* Status */
/* Returns true if log has a non-zero runtime entry */
bool runtime_log_has_runtime(runtime_log_t *runtime_log)
{
if (!runtime_log)
return false;
return !((runtime_log->runtime.hours == 0) &&
(runtime_log->runtime.minutes == 0) &&
(runtime_log->runtime.seconds == 0));
}
/* Returns true if log has a non-zero last played entry */
bool runtime_log_has_last_played(runtime_log_t *runtime_log)
{
if (!runtime_log)
return false;
return !((runtime_log->last_played.year == 0) &&
(runtime_log->last_played.month == 0) &&
(runtime_log->last_played.day == 0) &&
(runtime_log->last_played.hour == 0) &&
(runtime_log->last_played.minute == 0) &&
(runtime_log->last_played.second == 0));
}
/* Saving */
/* Saves specified runtime log to disk */
void runtime_log_save(runtime_log_t *runtime_log)
{
int n;
char value_string[64]; /* 64 characters should be
enough for a very long runtime... :) */
RtlJSONContext context = {0};
RFILE *file = NULL;
if (!runtime_log)
return;
RARCH_LOG("Saving runtime log file: %s\n", runtime_log->path);
/* Attempt to open log file */
file = filestream_open(runtime_log->path,
RETRO_VFS_FILE_ACCESS_WRITE, RETRO_VFS_FILE_ACCESS_HINT_NONE);
if (!file)
{
RARCH_ERR("Failed to open runtime log file: %s\n", runtime_log->path);
return;
}
/* Initialise JSON writer */
context.writer = JSON_Writer_Create(NULL);
context.file = file;
if (!context.writer)
{
RARCH_ERR("Failed to create JSON writer.\n");
goto end;
}
/* Configure JSON writer */
JSON_Writer_SetOutputEncoding(context.writer, JSON_UTF8);
JSON_Writer_SetOutputHandler(context.writer, &RtlJSONOutputHandler);
JSON_Writer_SetUserData(context.writer, &context);
/* Write output file */
JSON_Writer_WriteStartObject(context.writer);
JSON_Writer_WriteNewLine(context.writer);
/* > Version entry */
JSON_Writer_WriteSpace(context.writer, 2);
JSON_Writer_WriteString(context.writer, "version",
STRLEN_CONST("version"), JSON_UTF8);
JSON_Writer_WriteColon(context.writer);
JSON_Writer_WriteSpace(context.writer, 1);
JSON_Writer_WriteString(context.writer, "1.0",
STRLEN_CONST("1.0"), JSON_UTF8);
JSON_Writer_WriteComma(context.writer);
JSON_Writer_WriteNewLine(context.writer);
/* > Runtime entry */
value_string[0] = '\0';
n = snprintf(value_string,
sizeof(value_string), LOG_FILE_RUNTIME_FORMAT_STR,
runtime_log->runtime.hours, runtime_log->runtime.minutes,
runtime_log->runtime.seconds);
if ((n < 0) || (n >= 64))
n = 0; /* Silence GCC warnings... */
JSON_Writer_WriteSpace(context.writer, 2);
JSON_Writer_WriteString(context.writer, "runtime",
STRLEN_CONST("runtime"), JSON_UTF8);
JSON_Writer_WriteColon(context.writer);
JSON_Writer_WriteSpace(context.writer, 1);
JSON_Writer_WriteString(context.writer, value_string,
strlen(value_string), JSON_UTF8);
JSON_Writer_WriteComma(context.writer);
JSON_Writer_WriteNewLine(context.writer);
/* > Last played entry */
value_string[0] = '\0';
n = snprintf(value_string, sizeof(value_string),
LOG_FILE_LAST_PLAYED_FORMAT_STR,
runtime_log->last_played.year, runtime_log->last_played.month,
runtime_log->last_played.day,
runtime_log->last_played.hour, runtime_log->last_played.minute,
runtime_log->last_played.second);
if ((n < 0) || (n >= 64))
n = 0; /* Silence GCC warnings... */
JSON_Writer_WriteSpace(context.writer, 2);
JSON_Writer_WriteString(context.writer, "last_played",
STRLEN_CONST("last_played"), JSON_UTF8);
JSON_Writer_WriteColon(context.writer);
JSON_Writer_WriteSpace(context.writer, 1);
JSON_Writer_WriteString(context.writer, value_string,
strlen(value_string), JSON_UTF8);
JSON_Writer_WriteNewLine(context.writer);
/* > Finalise */
JSON_Writer_WriteEndObject(context.writer);
JSON_Writer_WriteNewLine(context.writer);
/* Free JSON writer */
JSON_Writer_Free(context.writer);
end:
/* Close log file */
filestream_close(file);
}
/* Utility functions */
/* Convert from hours, minutes, seconds to microseconds */
void runtime_log_convert_hms2usec(unsigned hours,
unsigned minutes, unsigned seconds, retro_time_t *usec)
{
*usec = ((retro_time_t)hours * 60 * 60 * 1000000) +
((retro_time_t)minutes * 60 * 1000000) +
((retro_time_t)seconds * 1000000);
}
/* Convert from microseconds to hours, minutes, seconds */
void runtime_log_convert_usec2hms(retro_time_t usec,
unsigned *hours, unsigned *minutes, unsigned *seconds)
{
*seconds = (unsigned)(usec / 1000000);
*minutes = *seconds / 60;
*hours = *minutes / 60;
*seconds -= *minutes * 60;
*minutes -= *hours * 60;
}
/* Playlist manipulation */
/* Updates specified playlist entry runtime values with
* contents of associated log file */
void runtime_update_playlist(playlist_t *playlist, size_t idx)
{
settings_t *settings = config_get_ptr();
runtime_log_t *runtime_log = NULL;
const struct playlist_entry *entry = NULL;
struct playlist_entry update_entry = {0};
/* Sanity check */
if (!playlist || !settings)
return;
if (idx >= playlist_get_size(playlist))
return;
/* Set fallback playlist 'runtime_status'
* (saves 'if' checks later...) */
update_entry.runtime_status = PLAYLIST_RUNTIME_MISSING;
/* Read current playlist entry */
playlist_get_index(playlist, idx, &entry);
/* Attempt to open log file */
runtime_log = runtime_log_init(entry->path, entry->core_path,
(settings->uints.playlist_sublabel_runtime_type == PLAYLIST_RUNTIME_PER_CORE));
if (runtime_log)
{
/* Check whether a non-zero runtime has been recorded */
if (runtime_log_has_runtime(runtime_log))
{
/* Read current runtime */
runtime_log_get_runtime_hms(runtime_log,
&update_entry.runtime_hours, &update_entry.runtime_minutes, &update_entry.runtime_seconds);
/* Read last played timestamp */
runtime_log_get_last_played(runtime_log,
&update_entry.last_played_year, &update_entry.last_played_month, &update_entry.last_played_day,
&update_entry.last_played_hour, &update_entry.last_played_minute, &update_entry.last_played_second);
/* Playlist entry now contains valid runtime data */
update_entry.runtime_status = PLAYLIST_RUNTIME_VALID;
}
/* Clean up */
free(runtime_log);
}
/* Update playlist */
playlist_update_runtime(playlist, idx, &update_entry, false);
}