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VVVVVV/desktop_version/src/FileSystemUtils.cpp
Misa a926ce9851 Replace all free calls with VVV_free[func] 
This replaces all calls to SDL_free with a new macro, VVV_free, that
nulls the pointer afterwards. This mitigates any use-after-frees and
also completely eliminates double-frees. The same is done for any
function to free specific objects such as SDL_FreeSurface, with the
VVV_freefunc macro.

No exceptions for any of these calls, even if the pointer is discarded
or zeroed afterwards anyway. Better safe than sorry.

This is a macro rather than a function that takes in a
pointer-to-pointer because such a function would have type issues that
require casting and that's just not safe.

Even though SDL_free and other SDL functions already check for NULL, the
macro has a NULL check for other functions that don't. For example,
FAudioVoice_DestroyVoice does not check for NULL.

FILESYSTEM_freeMemory has been axed in favor of VVV_free because it
functionally does the same thing except for `unsigned char*` only.
2022-11-30 22:50:08 -08:00

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#include <physfs.h>
#include <SDL.h>
#include <stdarg.h>
#include <stdio.h>
#include <tinyxml2.h>
#include "Alloc.h"
#include "BinaryBlob.h"
#include "Exit.h"
#include "Graphics.h"
#include "Maths.h"
#include "Screen.h"
#include "Unused.h"
#include "UtilityClass.h"
#include "Vlogging.h"
/* These are needed for PLATFORM_* crap */
#if defined(_WIN32)
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
#include <shlobj.h>
static int mkdir(char* path, int mode)
{
WCHAR utf16_path[MAX_PATH];
MultiByteToWideChar(CP_UTF8, 0, path, -1, utf16_path, MAX_PATH);
return CreateDirectoryW(utf16_path, NULL);
}
#elif defined(__EMSCRIPTEN__)
#include <limits.h>
#include <sys/stat.h>
#include <emscripten.h>
#define MAX_PATH PATH_MAX
#elif defined(__linux__) || defined(__APPLE__) || defined(__FreeBSD__) || defined(__OpenBSD__) || defined(__HAIKU__) || defined(__DragonFly__) || defined(__unix__)
#include <limits.h>
#include <sys/stat.h>
#define MAX_PATH PATH_MAX
#endif
static bool isInit = false;
static const char* pathSep = NULL;
static char* basePath = NULL;
static char saveDir[MAX_PATH] = {'\0'};
static char levelDir[MAX_PATH] = {'\0'};
static char assetDir[MAX_PATH] = {'\0'};
static char virtualMountPath[MAX_PATH] = {'\0'};
static int PLATFORM_getOSDirectory(char* output, const size_t output_size);
static void* bridged_malloc(PHYSFS_uint64 size)
{
return SDL_malloc(size);
}
static void* bridged_realloc(void* ptr, PHYSFS_uint64 size)
{
return SDL_realloc(ptr, size);
}
static const PHYSFS_Allocator allocator = {
NULL,
NULL,
bridged_malloc,
bridged_realloc,
SDL_free
};
int FILESYSTEM_init(char *argvZero, char* baseDir, char *assetsPath)
{
char output[MAX_PATH];
pathSep = PHYSFS_getDirSeparator();
PHYSFS_setAllocator(&allocator);
if (!PHYSFS_init(argvZero))
{
vlog_error(
"Unable to initialize PhysFS: %s",
PHYSFS_getErrorByCode(PHYSFS_getLastErrorCode())
);
return 0;
}
PHYSFS_permitSymbolicLinks(1);
/* Determine the OS user directory */
if (baseDir && baseDir[0] != '\0')
{
/* We later append to this path and assume it ends in a slash */
bool trailing_pathsep = SDL_strcmp(baseDir + SDL_strlen(baseDir) - SDL_strlen(pathSep), pathSep) == 0;
SDL_snprintf(output, sizeof(output), "%s%s",
baseDir,
!trailing_pathsep ? pathSep : ""
);
}
else if (!PLATFORM_getOSDirectory(output, sizeof(output)))
{
return 0;
}
/* Mount our base user directory */
if (!PHYSFS_mount(output, NULL, 0))
{
vlog_error(
"Could not mount %s: %s",
output,
PHYSFS_getErrorByCode(PHYSFS_getLastErrorCode())
);
return 0;
}
if (!PHYSFS_setWriteDir(output))
{
vlog_error(
"Could not set write dir to %s: %s",
output,
PHYSFS_getErrorByCode(PHYSFS_getLastErrorCode())
);
return 0;
}
vlog_info("Base directory: %s", output);
/* Store full save directory */
SDL_snprintf(saveDir, sizeof(saveDir), "%s%s%s",
output,
"saves",
pathSep
);
mkdir(saveDir, 0777);
vlog_info("Save directory: %s", saveDir);
/* Store full level directory */
SDL_snprintf(levelDir, sizeof(levelDir), "%s%s%s",
output,
"levels",
pathSep
);
mkdir(levelDir, 0777);
vlog_info("Level directory: %s", levelDir);
basePath = SDL_GetBasePath();
if (basePath == NULL)
{
vlog_warn("Unable to determine base path, falling back to current directory");
basePath = SDL_strdup("./");
}
/* Mount the stock content last */
if (assetsPath)
{
SDL_strlcpy(output, assetsPath, sizeof(output));
}
else
{
SDL_snprintf(output, sizeof(output), "%s%s",
basePath,
"data.zip"
);
}
if (!PHYSFS_mount(output, NULL, 1))
{
vlog_error("Error: data.zip missing!");
vlog_error("You do not have data.zip!");
vlog_error("Grab it from your purchased copy of the game,");
vlog_error("or get it from the free Make and Play Edition.");
SDL_ShowSimpleMessageBox(
SDL_MESSAGEBOX_ERROR,
"data.zip missing!",
"You do not have data.zip!"
"\n\nGrab it from your purchased copy of the game,"
"\nor get it from the free Make and Play Edition.",
NULL
);
return 0;
}
SDL_snprintf(output, sizeof(output), "%s%s", basePath, "gamecontrollerdb.txt");
if (SDL_GameControllerAddMappingsFromFile(output) < 0)
{
vlog_info("gamecontrollerdb.txt not found!");
}
isInit = true;
return 1;
}
bool FILESYSTEM_isInit(void)
{
return isInit;
}
static unsigned char* stdin_buffer = NULL;
static size_t stdin_length = 0;
void FILESYSTEM_deinit(void)
{
if (PHYSFS_isInit())
{
PHYSFS_deinit();
}
VVV_free(stdin_buffer);
VVV_free(basePath);
isInit = false;
}
char *FILESYSTEM_getUserSaveDirectory(void)
{
return saveDir;
}
char *FILESYSTEM_getUserLevelDirectory(void)
{
return levelDir;
}
bool FILESYSTEM_isFile(const char* filename)
{
PHYSFS_Stat stat;
bool success = PHYSFS_stat(filename, &stat);
if (!success)
{
vlog_error(
"Could not stat file: %s",
PHYSFS_getErrorByCode(PHYSFS_getLastErrorCode())
);
return false;
}
/* We unfortunately cannot follow symlinks (PhysFS limitation).
* Let the caller deal with them.
*/
return stat.filetype == PHYSFS_FILETYPE_REGULAR
|| stat.filetype == PHYSFS_FILETYPE_SYMLINK;
}
bool FILESYSTEM_isMounted(const char* filename)
{
return PHYSFS_getMountPoint(filename) != NULL;
}
static bool FILESYSTEM_exists(const char *fname)
{
return PHYSFS_exists(fname);
}
static void generateBase36(char* string, const size_t string_size)
{
size_t i;
for (i = 0; i < string_size - 1; ++i)
{
/* a-z0-9 */
char randchar = fRandom() * 35;
if (randchar < 26)
{
randchar += 'a';
}
else
{
randchar -= 26;
randchar += '0';
}
string[i] = randchar;
}
string[string_size - 1] = '\0';
}
static void generateVirtualMountPath(char* path, const size_t path_size)
{
char random_str[6 + 1];
generateBase36(random_str, sizeof(random_str));
SDL_snprintf(
path,
path_size,
".vvv-mnt-virtual-%s/custom-assets/",
random_str
);
}
static char levelDirError[256] = {'\0'};
static bool levelDirHasError = false;
bool FILESYSTEM_levelDirHasError(void)
{
return levelDirHasError;
}
void FILESYSTEM_clearLevelDirError(void)
{
levelDirHasError = false;
}
const char* FILESYSTEM_getLevelDirError(void)
{
return levelDirError;
}
static int setLevelDirError(const char* text, ...)
{
va_list list;
int retval;
levelDirHasError = true;
va_start(list, text);
retval = SDL_vsnprintf(levelDirError, sizeof(levelDirError), text, list);
va_end(list);
vlog_error("%s", levelDirError);
return retval;
}
static bool FILESYSTEM_mountAssetsFrom(const char *fname)
{
const char* real_dir = PHYSFS_getRealDir(fname);
char path[MAX_PATH];
if (real_dir == NULL)
{
setLevelDirError(
"Could not mount %s: real directory doesn't exist",
fname
);
return false;
}
SDL_snprintf(path, sizeof(path), "%s/%s", real_dir, fname);
generateVirtualMountPath(virtualMountPath, sizeof(virtualMountPath));
if (!PHYSFS_mount(path, virtualMountPath, 0))
{
vlog_error(
"Error mounting %s: %s",
fname,
PHYSFS_getErrorByCode(PHYSFS_getLastErrorCode())
);
return false;
}
SDL_strlcpy(assetDir, path, sizeof(assetDir));
return true;
}
void FILESYSTEM_loadZip(const char* filename)
{
PHYSFS_File* zip = PHYSFS_openRead(filename);
if (zip == NULL)
{
vlog_error(
"Could not read zip %s: %s",
filename,
PHYSFS_getErrorByCode(PHYSFS_getLastErrorCode())
);
}
if (!PHYSFS_mountHandle(zip, filename, "levels", 1))
{
vlog_error(
"Could not mount %s: %s",
filename,
PHYSFS_getErrorByCode(PHYSFS_getLastErrorCode())
);
}
}
void FILESYSTEM_unmountAssets(void);
bool FILESYSTEM_mountAssets(const char* path)
{
const char* real_dir = PHYSFS_getRealDir(path);
if (real_dir != NULL &&
SDL_strncmp(real_dir, "levels/", sizeof("levels/") - 1) == 0 &&
endsWith(real_dir, ".zip"))
{
/* This is a level zip */
vlog_info("Asset directory is .zip at %s", real_dir);
if (!FILESYSTEM_mountAssetsFrom(real_dir))
{
return false;
}
MAYBE_FAIL(graphics.reloadresources());
}
else
{
/* If it's not a zip, look for a level folder */
char filename[MAX_PATH];
char virtual_path[MAX_PATH];
VVV_between(path, "levels/", filename, ".vvvvvv");
SDL_snprintf(
virtual_path,
sizeof(virtual_path),
"levels/%s/",
filename
);
if (FILESYSTEM_exists(virtual_path))
{
vlog_info("Asset directory exists at %s", virtual_path);
if (!FILESYSTEM_mountAssetsFrom(virtual_path))
{
return false;
}
MAYBE_FAIL(graphics.reloadresources());
}
else
{
/* Wasn't a level zip or folder! */
vlog_debug("Asset directory does not exist");
}
}
return true;
fail:
FILESYSTEM_unmountAssets();
return false;
}
void FILESYSTEM_unmountAssets(void)
{
if (assetDir[0] != '\0')
{
vlog_info("Unmounting %s", assetDir);
PHYSFS_unmount(assetDir);
assetDir[0] = '\0';
graphics.reloadresources();
}
else
{
vlog_debug("Cannot unmount when no asset directory is mounted");
}
}
static void getMountedPath(
char* buffer,
const size_t buffer_size,
const char* filename
) {
const char* path;
const bool assets_mounted = assetDir[0] != '\0';
char mounted_path[MAX_PATH];
if (assets_mounted)
{
SDL_snprintf(
mounted_path,
sizeof(mounted_path),
"%s%s",
virtualMountPath,
filename
);
}
if (assets_mounted && PHYSFS_exists(mounted_path))
{
path = mounted_path;
}
else
{
path = filename;
}
SDL_strlcpy(buffer, path, buffer_size);
}
bool FILESYSTEM_isAssetMounted(const char* filename)
{
const char* realDir;
char path[MAX_PATH];
/* Fast path */
if (assetDir[0] == '\0')
{
return false;
}
getMountedPath(path, sizeof(path), filename);
realDir = PHYSFS_getRealDir(path);
if (realDir == NULL)
{
return false;
}
return SDL_strcmp(assetDir, realDir) == 0;
}
static void load_stdin(void)
{
size_t pos = 0;
/* A .vvvvvv file with nothing is at least 140K...
* initial size of 1K shouldn't hurt. */
#define INITIAL_SIZE 1024
size_t alloc_size = INITIAL_SIZE;
stdin_buffer = (unsigned char*) SDL_malloc(INITIAL_SIZE);
#undef INITIAL_SIZE
if (stdin_buffer == NULL)
{
VVV_exit(1);
}
while (true)
{
int ch = fgetc(stdin);
bool end = ch == EOF;
if (end)
{
/* Add null terminator. There's no observable change in
* behavior if addnull is always true, but not vice versa. */
ch = '\0';
}
if (pos == alloc_size)
{
unsigned char *tmp;
alloc_size *= 2;
tmp = (unsigned char*) SDL_realloc((void*) stdin_buffer, alloc_size);
if (tmp == NULL)
{
VVV_exit(1);
}
stdin_buffer = tmp;
}
stdin_buffer[pos] = ch;
++pos;
if (end)
{
break;
}
}
stdin_length = pos - 1;
}
void FILESYSTEM_loadFileToMemory(
const char *name,
unsigned char **mem,
size_t *len,
bool addnull
) {
PHYSFS_File *handle;
PHYSFS_sint64 length;
PHYSFS_sint64 success;
if (name == NULL || mem == NULL)
{
goto fail;
}
/* FIXME: Dumb hack to use `special/stdin.vvvvvv` here...
* This is also checked elsewhere... grep for `special/stdin`! */
if (SDL_strcmp(name, "levels/special/stdin.vvvvvv") == 0)
{
// this isn't *technically* necessary when piping directly from a file, but checking for that is annoying
if (stdin_buffer == NULL)
{
load_stdin();
}
*mem = (unsigned char*) SDL_malloc(stdin_length + 1); /* + 1 for null */
if (*mem == NULL)
{
VVV_exit(1);
}
if (len != NULL)
{
*len = stdin_length;
}
SDL_memcpy((void*) *mem, (void*) stdin_buffer, stdin_length + 1);
return;
}
handle = PHYSFS_openRead(name);
if (handle == NULL)
{
vlog_debug(
"Could not read file %s: %s",
name,
PHYSFS_getErrorByCode(PHYSFS_getLastErrorCode())
);
goto fail;
}
length = PHYSFS_fileLength(handle);
if (len != NULL)
{
if (length < 0)
{
length = 0;
}
*len = length;
}
if (addnull)
{
*mem = (unsigned char *) SDL_malloc(length + 1);
if (*mem == NULL)
{
VVV_exit(1);
}
(*mem)[length] = 0;
}
else
{
*mem = (unsigned char*) SDL_malloc(length);
if (*mem == NULL)
{
VVV_exit(1);
}
}
success = PHYSFS_readBytes(handle, *mem, length);
if (success == -1)
{
VVV_free(*mem);
}
PHYSFS_close(handle);
return;
fail:
if (mem != NULL)
{
*mem = NULL;
}
if (len != NULL)
{
*len = 0;
}
}
void FILESYSTEM_loadAssetToMemory(
const char* name,
unsigned char** mem,
size_t* len,
const bool addnull
) {
char path[MAX_PATH];
getMountedPath(path, sizeof(path), name);
FILESYSTEM_loadFileToMemory(path, mem, len, addnull);
}
bool FILESYSTEM_loadBinaryBlob(binaryBlob* blob, const char* filename)
{
PHYSFS_sint64 size;
PHYSFS_File* handle;
int valid, offset;
size_t i;
char path[MAX_PATH];
if (blob == NULL || filename == NULL)
{
return false;
}
getMountedPath(path, sizeof(path), filename);
handle = PHYSFS_openRead(path);
if (handle == NULL)
{
vlog_debug(
"Could not read binary blob %s: %s",
filename,
PHYSFS_getErrorByCode(PHYSFS_getLastErrorCode())
);
return false;
}
size = PHYSFS_fileLength(handle);
PHYSFS_readBytes(
handle,
&blob->m_headers,
sizeof(blob->m_headers)
);
valid = 0;
offset = sizeof(blob->m_headers);
for (i = 0; i < SDL_arraysize(blob->m_headers); ++i)
{
resourceheader* header = &blob->m_headers[i];
char** memblock = &blob->m_memblocks[i];
/* Name can be stupid, just needs to be terminated */
static const size_t last_char = sizeof(header->name) - 1;
header->name[last_char] = '\0';
if (header->valid & ~0x1 || !header->valid)
{
goto fail; /* Must be EXACTLY 1 or 0 */
}
if (header->size < 1)
{
goto fail; /* Must be nonzero and positive */
}
if (offset + header->size > size)
{
goto fail; /* Bogus size value */
}
PHYSFS_seek(handle, offset);
*memblock = (char*) SDL_malloc(header->size);
if (*memblock == NULL)
{
VVV_exit(1); /* Oh god we're out of memory, just bail */
}
PHYSFS_readBytes(handle, *memblock, header->size);
offset += header->size;
valid += 1;
continue;
fail:
header->valid = false;
}
PHYSFS_close(handle);
if (valid == 0)
{
return false;
}
vlog_debug("The complete reloaded file size: %lli", size);
for (i = 0; i < SDL_arraysize(blob->m_headers); ++i)
{
const resourceheader* header = &blob->m_headers[i];
if (!header->valid)
{
continue;
}
vlog_debug("%s unpacked", header->name);
}
return true;
}
bool FILESYSTEM_saveTiXml2Document(const char *name, tinyxml2::XMLDocument& doc, bool sync /*= true*/)
{
if (!isInit)
{
vlog_warn("Filesystem not initialized! Not writing just to be safe.");
return false;
}
/* XMLDocument.SaveFile doesn't account for Unicode paths, PHYSFS does */
tinyxml2::XMLPrinter printer;
doc.Print(&printer);
PHYSFS_File* handle = PHYSFS_openWrite(name);
if (handle == NULL)
{
return false;
}
PHYSFS_writeBytes(handle, printer.CStr(), printer.CStrSize() - 1); // subtract one because CStrSize includes terminating null
PHYSFS_close(handle);
#ifdef __EMSCRIPTEN__
if (sync)
{
EM_ASM(FS.syncfs(false, function(err)
{
if (err)
{
console.warn("Error saving:", err);
alert("Error saving. Check console for more information.");
}
}));
}
#else
UNUSED(sync);
#endif
return true;
}
bool FILESYSTEM_loadTiXml2Document(const char *name, tinyxml2::XMLDocument& doc)
{
/* XMLDocument.LoadFile doesn't account for Unicode paths, PHYSFS does */
unsigned char *mem;
FILESYSTEM_loadFileToMemory(name, &mem, NULL, true);
if (mem == NULL)
{
return false;
}
doc.Parse((const char*) mem);
VVV_free(mem);
return true;
}
struct CallbackWrapper
{
void (*callback)(const char* filename);
};
static PHYSFS_EnumerateCallbackResult enumerateCallback(
void* data,
const char* origdir,
const char* filename
) {
struct CallbackWrapper* wrapper = (struct CallbackWrapper*) data;
void (*callback)(const char*) = wrapper->callback;
char builtLocation[MAX_PATH];
SDL_snprintf(
builtLocation,
sizeof(builtLocation),
"%s/%s",
origdir,
filename
);
callback(builtLocation);
return PHYSFS_ENUM_OK;
}
void FILESYSTEM_enumerateLevelDirFileNames(
void (*callback)(const char* filename)
) {
int success;
struct CallbackWrapper wrapper = {callback};
success = PHYSFS_enumerate("levels", enumerateCallback, (void*) &wrapper);
if (success == 0)
{
vlog_error(
"Could not get list of levels: %s",
PHYSFS_getErrorByCode(PHYSFS_getLastErrorCode())
);
}
}
static int PLATFORM_getOSDirectory(char* output, const size_t output_size)
{
#ifdef _WIN32
/* This block is here for compatibility, do not touch it! */
WCHAR utf16_path[MAX_PATH];
HRESULT retcode = SHGetFolderPathW(
NULL,
CSIDL_PERSONAL,
NULL,
SHGFP_TYPE_CURRENT,
utf16_path
);
int num_bytes;
if (FAILED(retcode))
{
vlog_error(
"Could not get OS directory: SHGetFolderPathW returned 0x%08x",
retcode
);
return 0;
}
num_bytes = WideCharToMultiByte(
CP_UTF8,
0,
utf16_path,
-1,
output,
output_size,
NULL,
NULL
);
if (num_bytes == 0)
{
vlog_error(
"Could not get OS directory: UTF-8 conversion failed with %d",
GetLastError()
);
return 0;
}
SDL_strlcat(output, "\\VVVVVV\\", MAX_PATH);
mkdir(output, 0777);
return 1;
#else
const char* prefDir = PHYSFS_getPrefDir("distractionware", "VVVVVV");
if (prefDir == NULL)
{
vlog_error(
"Could not get OS directory: %s",
PHYSFS_getErrorByCode(PHYSFS_getLastErrorCode())
);
return 0;
}
SDL_strlcpy(output, prefDir, output_size);
return 1;
#endif
}
bool FILESYSTEM_openDirectoryEnabled(void)
{
return !gameScreen.isForcedFullscreen();
}
#if defined(__EMSCRIPTEN__)
bool FILESYSTEM_openDirectory(const char *dname)
{
return false;
}
#else
bool FILESYSTEM_openDirectory(const char *dname)
{
char url[MAX_PATH];
SDL_snprintf(url, sizeof(url), "file://%s", dname);
if (SDL_OpenURL(url) == -1)
{
vlog_error("Error opening directory: %s", SDL_GetError());
return false;
}
return true;
}
#endif
bool FILESYSTEM_delete(const char *name)
{
return PHYSFS_delete(name) != 0;
}
static void levelSaveCallback(const char* filename)
{
if (endsWith(filename, ".vvvvvv.vvv"))
{
if (!FILESYSTEM_delete(filename))
{
vlog_error("Error deleting %s", filename);
}
}
}
void FILESYSTEM_deleteLevelSaves(void)
{
int success;
struct CallbackWrapper wrapper = {levelSaveCallback};
success = PHYSFS_enumerate(
"saves",
enumerateCallback,
(void*) &wrapper
);
if (success == 0)
{
vlog_error(
"Could not enumerate saves/: %s",
PHYSFS_getErrorByCode(PHYSFS_getLastErrorCode())
);
}
}
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