SRB2/src/d_netfil.c
2023-01-15 17:57:23 +00:00

1665 lines
45 KiB
C

// SONIC ROBO BLAST 2
//-----------------------------------------------------------------------------
// Copyright (C) 1998-2000 by DooM Legacy Team.
// Copyright (C) 1999-2022 by Sonic Team Junior.
//
// This program is free software distributed under the
// terms of the GNU General Public License, version 2.
// See the 'LICENSE' file for more details.
//-----------------------------------------------------------------------------
/// \file d_netfil.c
/// \brief Transfer a file using HSendPacket.
#include <stdio.h>
#include <sys/stat.h>
#include <time.h>
#ifdef _WIN32
#include <io.h>
#include <direct.h>
#else
#include <sys/types.h>
#include <dirent.h>
#include <utime.h>
#endif
#ifdef __GNUC__
#include <unistd.h>
#include <limits.h>
#elif defined (_WIN32)
#include <sys/utime.h>
#endif
#include "doomdef.h"
#include "doomstat.h"
#include "d_main.h"
#include "g_game.h"
#include "i_time.h"
#include "i_net.h"
#include "i_system.h"
#include "m_argv.h"
#include "d_net.h"
#include "w_wad.h"
#include "d_netfil.h"
#include "z_zone.h"
#include "byteptr.h"
#include "p_setup.h"
#include "m_misc.h"
#include "m_menu.h"
#include "md5.h"
#include "filesrch.h"
#include <errno.h>
// Prototypes
static boolean AddFileToSendQueue(INT32 node, UINT8 fileid);
// Sender structure
typedef struct filetx_s
{
INT32 ram;
union {
char *filename; // Name of the file
char *ram; // Pointer to the data in RAM
} id;
UINT32 size; // Size of the file
UINT8 fileid;
INT32 node; // Destination
struct filetx_s *next; // Next file in the list
} filetx_t;
// Current transfers (one for each node)
typedef struct filetran_s
{
filetx_t *txlist; // Linked list of all files for the node
UINT8 iteration;
UINT8 ackediteration;
UINT32 position; // The current position in the file
boolean *ackedfragments;
UINT32 ackedsize;
FILE *currentfile; // The file currently being sent/received
tic_t dontsenduntil;
} filetran_t;
static filetran_t transfer[MAXNETNODES];
// Read time of file: stat _stmtime
// Write time of file: utime
// Receiver structure
INT32 fileneedednum; // Number of files needed to join the server
fileneeded_t *fileneeded; // List of needed files
static tic_t lasttimeackpacketsent = 0;
char downloaddir[512] = "DOWNLOAD";
// For resuming failed downloads
typedef struct
{
char filename[MAX_WADPATH];
UINT8 md5sum[16];
boolean *receivedfragments;
UINT32 fragmentsize;
UINT32 currentsize;
} pauseddownload_t;
static pauseddownload_t *pauseddownload = NULL;
#ifndef NONET
// for cl loading screen
INT32 lastfilenum = -1;
INT32 downloadcompletednum = 0;
UINT32 downloadcompletedsize = 0;
INT32 totalfilesrequestednum = 0;
UINT32 totalfilesrequestedsize = 0;
#endif
luafiletransfer_t *luafiletransfers = NULL;
boolean waitingforluafiletransfer = false;
boolean waitingforluafilecommand = false;
char luafiledir[256 + 16] = "luafiles";
static UINT16 GetWadNumFromFileNeededId(UINT8 id)
{
UINT16 wadnum;
for (wadnum = mainwads; wadnum < numwadfiles; wadnum++)
{
if (!wadfiles[wadnum]->important)
continue;
if (id == 0)
return wadnum;
id--;
}
return UINT16_MAX;
}
/** Fills a serverinfo packet with information about wad files loaded.
*
* \todo Give this function a better name since it is in global scope.
* Used to have size limiting built in - now handled via W_InitFile in w_wad.c
*
*/
UINT8 *PutFileNeeded(UINT16 firstfile)
{
size_t i;
UINT8 count = 0;
UINT8 *p_start = netbuffer->packettype == PT_MOREFILESNEEDED ? netbuffer->u.filesneededcfg.files : netbuffer->u.serverinfo.fileneeded;
UINT8 *p = p_start;
char wadfilename[MAX_WADPATH] = "";
UINT8 filestatus, folder;
for (i = mainwads; i < numwadfiles; i++) //mainwads, otherwise we start on the first mainwad
{
// If it has only music/sound lumps, don't put it in the list
if (!wadfiles[i]->important)
continue;
if (firstfile)
{ // Skip files until we reach the first file.
firstfile--;
continue;
}
nameonly(strcpy(wadfilename, wadfiles[i]->filename));
// Look below at the WRITE macros to understand what these numbers mean.
if (p + 1 + 4 + min(strlen(wadfilename) + 1, MAX_WADPATH) + 16 > p_start + MAXFILENEEDED)
{
// Too many files to send all at once
if (netbuffer->packettype == PT_MOREFILESNEEDED)
netbuffer->u.filesneededcfg.more = 1;
else
netbuffer->u.serverinfo.flags |= SV_LOTSOFADDONS;
break;
}
filestatus = 1; // Importance - not really used any more, holds 1 by default for backwards compat with MS
folder = (wadfiles[i]->type == RET_FOLDER);
// Store in the upper four bits
if (!cv_downloading.value || folder) /// \todo Implement folder downloading.
filestatus += (2 << 4); // Won't send
else if ((wadfiles[i]->filesize <= (UINT32)cv_maxsend.value * 1024))
filestatus += (1 << 4); // Will send if requested
// else
// filestatus += (0 << 4); -- Won't send, too big
WRITEUINT8(p, filestatus);
WRITEUINT8(p, folder);
count++;
WRITEUINT32(p, wadfiles[i]->filesize);
WRITESTRINGN(p, wadfilename, MAX_WADPATH);
WRITEMEM(p, wadfiles[i]->md5sum, 16);
}
if (netbuffer->packettype == PT_MOREFILESNEEDED)
netbuffer->u.filesneededcfg.num = count;
else
netbuffer->u.serverinfo.fileneedednum = count;
return p;
}
void AllocFileNeeded(INT32 size)
{
if (fileneeded == NULL)
fileneeded = Z_Calloc(sizeof(fileneeded_t) * size, PU_STATIC, NULL);
else
fileneeded = Z_Realloc(fileneeded, sizeof(fileneeded_t) * size, PU_STATIC, NULL);
}
void FreeFileNeeded(void)
{
Z_Free(fileneeded);
fileneeded = NULL;
}
/** Parses the serverinfo packet and fills the fileneeded table on client
*
* \param fileneedednum_parm The number of files needed to join the server
* \param fileneededstr The memory block containing the list of needed files
*
*/
void D_ParseFileneeded(INT32 fileneedednum_parm, UINT8 *fileneededstr, UINT16 firstfile)
{
INT32 i;
UINT8 *p;
UINT8 filestatus;
fileneedednum = firstfile + fileneedednum_parm;
p = (UINT8 *)fileneededstr;
AllocFileNeeded(fileneedednum);
for (i = firstfile; i < fileneedednum; i++)
{
fileneeded[i].type = FILENEEDED_WAD;
fileneeded[i].status = FS_NOTCHECKED; // We haven't even started looking for the file yet
fileneeded[i].justdownloaded = false;
filestatus = READUINT8(p); // The first byte is the file status
fileneeded[i].folder = READUINT8(p); // The second byte is the folder flag
fileneeded[i].willsend = (UINT8)(filestatus >> 4);
fileneeded[i].totalsize = READUINT32(p); // The four next bytes are the file size
fileneeded[i].file = NULL; // The file isn't open yet
READSTRINGN(p, fileneeded[i].filename, MAX_WADPATH); // The next bytes are the file name
READMEM(p, fileneeded[i].md5sum, 16); // The last 16 bytes are the file checksum
}
}
void CL_PrepareDownloadSaveGame(const char *tmpsave)
{
#ifndef NONET
lastfilenum = -1;
#endif
FreeFileNeeded();
AllocFileNeeded(1);
fileneedednum = 1;
fileneeded[0].type = FILENEEDED_SAVEGAME;
fileneeded[0].status = FS_REQUESTED;
fileneeded[0].justdownloaded = false;
fileneeded[0].totalsize = UINT32_MAX;
fileneeded[0].file = NULL;
memset(fileneeded[0].md5sum, 0, 16);
strcpy(fileneeded[0].filename, tmpsave);
}
/** Checks the server to see if we CAN download all the files,
* before starting to create them and requesting.
*
* \return True if we can download all the files
*
*/
boolean CL_CheckDownloadable(void)
{
UINT8 i,dlstatus = 0;
for (i = 0; i < fileneedednum; i++)
if (fileneeded[i].status != FS_FOUND && fileneeded[i].status != FS_OPEN)
{
if (fileneeded[i].willsend == 1)
continue;
if (fileneeded[i].willsend == 0)
dlstatus = 1;
else //if (fileneeded[i].willsend == 2)
dlstatus = 2;
}
// Downloading locally disabled
if (!dlstatus && M_CheckParm("-nodownload"))
dlstatus = 3;
if (!dlstatus)
return true;
// not downloadable, put reason in console
CONS_Alert(CONS_NOTICE, M_GetText("You need additional files to connect to this server:\n"));
for (i = 0; i < fileneedednum; i++)
if (fileneeded[i].status != FS_FOUND && fileneeded[i].status != FS_OPEN)
{
CONS_Printf(" * \"%s\" (%dK)", fileneeded[i].filename, fileneeded[i].totalsize >> 10);
if (fileneeded[i].status == FS_NOTFOUND)
CONS_Printf(M_GetText(" not found, md5: "));
else if (fileneeded[i].status == FS_MD5SUMBAD)
CONS_Printf(M_GetText(" wrong version, md5: "));
{
INT32 j;
char md5tmp[33];
for (j = 0; j < 16; j++)
sprintf(&md5tmp[j*2], "%02x", fileneeded[i].md5sum[j]);
CONS_Printf("%s", md5tmp);
}
CONS_Printf("\n");
}
switch (dlstatus)
{
case 1:
CONS_Printf(M_GetText("Some files are larger than the server is willing to send.\n"));
break;
case 2:
CONS_Printf(M_GetText("The server is not allowing download requests.\n"));
break;
case 3:
CONS_Printf(M_GetText("All files downloadable, but you have chosen to disable downloading locally.\n"));
break;
}
return false;
}
/** Returns true if a needed file transfer can be resumed
*
* \param file The needed file to resume the transfer for
* \return True if the transfer can be resumed
*
*/
static boolean CL_CanResumeDownload(fileneeded_t *file)
{
return pauseddownload
&& !strcmp(pauseddownload->filename, file->filename) // Same name
&& !memcmp(pauseddownload->md5sum, file->md5sum, 16) // Same checksum
&& pauseddownload->fragmentsize == file->fragmentsize; // Same fragment size
}
void CL_AbortDownloadResume(void)
{
if (!pauseddownload)
return;
free(pauseddownload->receivedfragments);
remove(pauseddownload->filename);
free(pauseddownload);
pauseddownload = NULL;
}
/** Sends requests for files in the ::fileneeded table with a status of
* ::FS_NOTFOUND.
*
* \return True if the packet was successfully sent
* \note Sends a PT_REQUESTFILE packet
*
*/
boolean CL_SendFileRequest(void)
{
char *p;
INT32 i;
INT64 totalfreespaceneeded = 0, availablefreespace;
#ifdef PARANOIA
if (M_CheckParm("-nodownload"))
I_Error("Attempted to download files in -nodownload mode");
for (i = 0; i < fileneedednum; i++)
if (fileneeded[i].status != FS_FOUND && fileneeded[i].status != FS_OPEN
&& (fileneeded[i].willsend == 0 || fileneeded[i].willsend == 2))
{
I_Error("Attempted to download files that were not sendable");
}
#endif
netbuffer->packettype = PT_REQUESTFILE;
p = (char *)netbuffer->u.textcmd;
for (i = 0; i < fileneedednum; i++)
if ((fileneeded[i].status == FS_NOTFOUND || fileneeded[i].status == FS_MD5SUMBAD))
{
totalfreespaceneeded += fileneeded[i].totalsize;
WRITEUINT8(p, i); // fileid
// put it in download dir
nameonly(fileneeded[i].filename);
strcatbf(fileneeded[i].filename, downloaddir, "/");
fileneeded[i].status = FS_REQUESTED;
}
WRITEUINT8(p, 0xFF);
I_GetDiskFreeSpace(&availablefreespace);
if (totalfreespaceneeded > availablefreespace)
I_Error("To play on this server you must download %s KB,\n"
"but you have only %s KB free space on this drive\n",
sizeu1((size_t)(totalfreespaceneeded>>10)), sizeu2((size_t)(availablefreespace>>10)));
// prepare to download
I_mkdir(downloaddir, 0755);
return HSendPacket(servernode, true, 0, p - (char *)netbuffer->u.textcmd);
}
// get request filepak and put it on the send queue
// returns false if a requested file was not found or cannot be sent
boolean PT_RequestFile(INT32 node)
{
UINT8 *p = netbuffer->u.textcmd;
UINT8 id;
while (p < netbuffer->u.textcmd + MAXTEXTCMD-1) // Don't allow hacked client to overflow
{
id = READUINT8(p);
if (id == 0xFF)
break;
if (!AddFileToSendQueue(node, id))
{
SV_AbortSendFiles(node);
return false; // don't read the rest of the files
}
}
return true; // no problems with any files
}
/** Checks if the files needed aren't already loaded or on the disk
*
* \return 0 if some files are missing
* 1 if all files exist
* 2 if some already loaded files are not requested or are in a different order
* 3 too many files, over WADLIMIT
* 4 still checking, continuing next tic
*
*/
INT32 CL_CheckFiles(void)
{
INT32 i, j;
char wadfilename[MAX_WADPATH];
size_t filestoload = 0;
boolean downloadrequired = false;
// Modified game handling -- check for an identical file list
// must be identical in files loaded AND in order
// Return 2 on failure -- disconnect from server
if (modifiedgame)
{
CONS_Debug(DBG_NETPLAY, "game is modified; only doing basic checks\n");
for (i = 0, j = mainwads; i < fileneedednum || j < numwadfiles;)
{
if (j < numwadfiles && !wadfiles[j]->important)
{
// Unimportant on our side.
++j;
continue;
}
// If this test is true, we've reached the end of one file list
// and the other still has a file that's important
if (i >= fileneedednum || j >= numwadfiles)
return 2;
// For the sake of speed, only bother with a md5 check
if (memcmp(wadfiles[j]->md5sum, fileneeded[i].md5sum, 16))
return 2;
// It's accounted for! let's keep going.
CONS_Debug(DBG_NETPLAY, "'%s' accounted for\n", fileneeded[i].filename);
fileneeded[i].status = FS_OPEN;
++i;
++j;
}
return 1;
}
for (i = 0; i < fileneedednum; i++)
{
if (fileneeded[i].status == FS_NOTFOUND || fileneeded[i].status == FS_MD5SUMBAD)
downloadrequired = true;
if (fileneeded[i].status != FS_OPEN)
filestoload++;
if (fileneeded[i].status != FS_NOTCHECKED) //since we're running this over multiple tics now, its possible for us to come across files checked in previous tics
continue;
CONS_Debug(DBG_NETPLAY, "searching for '%s' ", fileneeded[i].filename);
// Check in already loaded files
for (j = mainwads; wadfiles[j]; j++)
{
nameonly(strcpy(wadfilename, wadfiles[j]->filename));
if (!stricmp(wadfilename, fileneeded[i].filename) &&
!memcmp(wadfiles[j]->md5sum, fileneeded[i].md5sum, 16))
{
CONS_Debug(DBG_NETPLAY, "already loaded\n");
fileneeded[i].status = FS_OPEN;
return 4;
}
}
if (fileneeded[i].folder)
fileneeded[i].status = findfolder(fileneeded[i].filename);
else
fileneeded[i].status = findfile(fileneeded[i].filename, fileneeded[i].md5sum, true);
CONS_Debug(DBG_NETPLAY, "found %d\n", fileneeded[i].status);
return 4;
}
//now making it here means we've checked the entire list and no FS_NOTCHECKED files remain
if (numwadfiles+filestoload > MAX_WADFILES)
return 3;
else if (downloadrequired)
return 0; //some stuff is FS_NOTFOUND, needs download
else
return 1; //everything is FS_OPEN or FS_FOUND, proceed to loading
}
// Load it now
boolean CL_LoadServerFiles(void)
{
INT32 i;
for (i = 0; i < fileneedednum; i++)
{
if (fileneeded[i].status == FS_OPEN)
continue; // Already loaded
else if (fileneeded[i].status == FS_FOUND)
{
if (fileneeded[i].folder)
P_AddFolder(fileneeded[i].filename);
else
P_AddWadFile(fileneeded[i].filename);
G_SetGameModified(true);
fileneeded[i].status = FS_OPEN;
return false;
}
else if (fileneeded[i].status == FS_MD5SUMBAD)
I_Error("Wrong version of file %s", fileneeded[i].filename);
else
{
const char *s;
switch(fileneeded[i].status)
{
case FS_NOTFOUND:
s = "FS_NOTFOUND";
break;
case FS_REQUESTED:
s = "FS_REQUESTED";
break;
case FS_DOWNLOADING:
s = "FS_DOWNLOADING";
break;
default:
s = "unknown";
break;
}
I_Error("Try to load file \"%s\" with status of %d (%s)\n", fileneeded[i].filename,
fileneeded[i].status, s);
}
}
return true;
}
void AddLuaFileTransfer(const char *filename, const char *mode)
{
luafiletransfer_t **prevnext; // A pointer to the "next" field of the last transfer in the list
luafiletransfer_t *filetransfer;
static INT32 id;
// Find the last transfer in the list and set a pointer to its "next" field
prevnext = &luafiletransfers;
while (*prevnext)
prevnext = &((*prevnext)->next);
// Allocate file transfer information and append it to the transfer list
filetransfer = malloc(sizeof(luafiletransfer_t));
if (!filetransfer)
I_Error("AddLuaFileTransfer: Out of memory\n");
*prevnext = filetransfer;
filetransfer->next = NULL;
// Allocate the file name
filetransfer->filename = strdup(filename);
if (!filetransfer->filename)
I_Error("AddLuaFileTransfer: Out of memory\n");
// Create and allocate the real file name
if (server)
filetransfer->realfilename = strdup(va("%s" PATHSEP "%s",
luafiledir, filename));
else
filetransfer->realfilename = strdup(va("%s" PATHSEP "client" PATHSEP "$$$%d%d.tmp",
luafiledir, rand(), rand()));
if (!filetransfer->realfilename)
I_Error("AddLuaFileTransfer: Out of memory\n");
strlcpy(filetransfer->mode, mode, sizeof(filetransfer->mode));
// Only if there is no transfer already going on
if (server && filetransfer == luafiletransfers)
SV_PrepareSendLuaFile();
else
filetransfer->ongoing = false;
// Store the callback so it can be called once everyone has the file
filetransfer->id = id;
StoreLuaFileCallback(id);
id++;
if (waitingforluafiletransfer)
{
waitingforluafiletransfer = false;
CL_PrepareDownloadLuaFile();
}
}
static void SV_PrepareSendLuaFileToNextNode(void)
{
INT32 i;
UINT8 success = 1;
// Find a client to send the file to
for (i = 1; i < MAXNETNODES; i++)
if (luafiletransfers->nodestatus[i] == LFTNS_WAITING) // Node waiting
{
// Tell the client we're about to send them the file
netbuffer->packettype = PT_SENDINGLUAFILE;
if (!HSendPacket(i, true, 0, 0))
I_Error("Failed to send a PT_SENDINGLUAFILE packet\n"); // !!! Todo: Handle failure a bit better lol
luafiletransfers->nodestatus[i] = LFTNS_ASKED;
luafiletransfers->nodetimeouts[i] = I_GetTime() + 30 * TICRATE;
return;
}
// No client found, everyone has the file
// Send a net command with 1 as its first byte to indicate the file could be opened
SendNetXCmd(XD_LUAFILE, &success, 1);
}
void SV_PrepareSendLuaFile(void)
{
char *binfilename;
INT32 i;
luafiletransfers->ongoing = true;
// Set status to "waiting" for everyone
for (i = 0; i < MAXNETNODES; i++)
luafiletransfers->nodestatus[i] = (nodeingame[i] ? LFTNS_WAITING : LFTNS_NONE);
if (FIL_ReadFileOK(luafiletransfers->realfilename))
{
// If opening in text mode, convert all newlines to LF
if (!strchr(luafiletransfers->mode, 'b'))
{
binfilename = strdup(va("%s" PATHSEP "$$$%d%d.tmp",
luafiledir, rand(), rand()));
if (!binfilename)
I_Error("SV_PrepareSendLuaFile: Out of memory\n");
if (!FIL_ConvertTextFileToBinary(luafiletransfers->realfilename, binfilename))
I_Error("SV_PrepareSendLuaFile: Failed to convert file newlines\n");
// Use the temporary file instead
free(luafiletransfers->realfilename);
luafiletransfers->realfilename = binfilename;
}
SV_PrepareSendLuaFileToNextNode();
}
else
{
// Send a net command with 0 as its first byte to indicate the file couldn't be opened
UINT8 success = 0;
SendNetXCmd(XD_LUAFILE, &success, 1);
}
}
void SV_HandleLuaFileSent(UINT8 node)
{
luafiletransfers->nodestatus[node] = LFTNS_SENT;
SV_PrepareSendLuaFileToNextNode();
}
void RemoveLuaFileTransfer(void)
{
luafiletransfer_t *filetransfer = luafiletransfers;
// If it was a temporary file, delete it
if (server && !strchr(filetransfer->mode, 'b'))
remove(filetransfer->realfilename);
RemoveLuaFileCallback(filetransfer->id);
luafiletransfers = filetransfer->next;
free(filetransfer->filename);
free(filetransfer->realfilename);
free(filetransfer);
}
void RemoveAllLuaFileTransfers(void)
{
while (luafiletransfers)
RemoveLuaFileTransfer();
}
void SV_AbortLuaFileTransfer(INT32 node)
{
if (luafiletransfers)
{
if (luafiletransfers->nodestatus[node] == LFTNS_ASKED
|| luafiletransfers->nodestatus[node] == LFTNS_SENDING)
{
SV_PrepareSendLuaFileToNextNode();
}
luafiletransfers->nodestatus[node] = LFTNS_NONE;
}
}
void CL_PrepareDownloadLuaFile(void)
{
// If there is no transfer in the list, this normally means the server
// called io.open before us, so we have to wait until we call it too
if (!luafiletransfers)
{
waitingforluafiletransfer = true;
return;
}
if (luafiletransfers->ongoing)
{
waitingforluafilecommand = true;
return;
}
// Tell the server we are ready to receive the file
netbuffer->packettype = PT_ASKLUAFILE;
HSendPacket(servernode, true, 0, 0);
FreeFileNeeded();
AllocFileNeeded(1);
fileneedednum = 1;
fileneeded[0].type = FILENEEDED_LUAFILE;
fileneeded[0].status = FS_REQUESTED;
fileneeded[0].justdownloaded = false;
fileneeded[0].totalsize = UINT32_MAX;
fileneeded[0].file = NULL;
memset(fileneeded[0].md5sum, 0, 16);
strcpy(fileneeded[0].filename, luafiletransfers->realfilename);
// Make sure all directories in the file path exist
MakePathDirs(fileneeded[0].filename);
luafiletransfers->ongoing = true;
}
// Number of files to send
// Little optimization to quickly test if there is a file in the queue
static INT32 filestosend = 0;
/** Adds a file to the file list for a node
*
* \param node The node to send the file to
* \param filename The file to send
* \param fileid The index of the file in the list of added files
* \sa AddRamToSendQueue
* \sa AddLuaFileToSendQueue
*
*/
static boolean AddFileToSendQueue(INT32 node, UINT8 fileid)
{
filetx_t **q; // A pointer to the "next" field of the last file in the list
filetx_t *p; // The new file request
UINT16 wadnum;
// Find the last file in the list and set a pointer to its "next" field
q = &transfer[node].txlist;
while (*q)
q = &((*q)->next);
// Allocate a file request and append it to the file list
p = *q = (filetx_t *)malloc(sizeof (filetx_t));
if (!p)
I_Error("AddFileToSendQueue: No more memory\n");
// Initialise with zeros
memset(p, 0, sizeof (filetx_t));
// Allocate the file name
p->id.filename = (char *)malloc(MAX_WADPATH);
if (!p->id.filename)
I_Error("AddFileToSendQueue: No more memory\n");
// Find the wad the ID refers to
wadnum = GetWadNumFromFileNeededId(fileid);
// Handle non-loaded file requests
if (wadnum == UINT16_MAX)
{
DEBFILE(va("fileneeded %d not found in wadfiles\n", fileid));
// This formerly checked if (!findfile(p->id.filename, NULL, true))
// Not found
// Don't inform client
DEBFILE(va("Client %d request fileneeded %d: not found\n", node, fileid));
free(p->id.filename);
free(p);
*q = NULL;
return false; // cancel the rest of the requests
}
// Set the file name and get rid of the path
strlcpy(p->id.filename, wadfiles[wadnum]->filename, MAX_WADPATH);
// Handle huge file requests (i.e. bigger than cv_maxsend.value KB)
if (wadfiles[wadnum]->filesize > (UINT32)cv_maxsend.value * 1024)
{
// Too big
// Don't inform client (client sucks, man)
DEBFILE(va("Client %d request %s: file too big, not sending\n", node, p->id.filename));
free(p->id.filename);
free(p);
*q = NULL;
return false; // cancel the rest of the requests
}
if (cv_noticedownload.value)
CONS_Printf("Sending file \"%s\" to node %d (%s)\n", p->id.filename, node, I_GetNodeAddress(node));
DEBFILE(va("Sending file %s (id=%d) to %d\n", p->id.filename, fileid, node));
p->ram = SF_FILE; // It's a file, we need to close it and free its name once we're done sending it
p->fileid = fileid;
p->next = NULL; // End of list
filestosend++;
return true;
}
/** Adds a memory block to the file list for a node
*
* \param node The node to send the memory block to
* \param data The memory block to send
* \param size The size of the block in bytes
* \param freemethod How to free the block after it has been sent
* \param fileid The index of the file in the list of added files
* \sa AddFileToSendQueue
* \sa AddLuaFileToSendQueue
*
*/
void AddRamToSendQueue(INT32 node, void *data, size_t size, freemethod_t freemethod, UINT8 fileid)
{
filetx_t **q; // A pointer to the "next" field of the last file in the list
filetx_t *p; // The new file request
// Find the last file in the list and set a pointer to its "next" field
q = &transfer[node].txlist;
while (*q)
q = &((*q)->next);
// Allocate a file request and append it to the file list
p = *q = (filetx_t *)malloc(sizeof (filetx_t));
if (!p)
I_Error("AddRamToSendQueue: No more memory\n");
// Initialise with zeros
memset(p, 0, sizeof (filetx_t));
p->ram = freemethod; // Remember how to free the memory block for when we're done sending it
p->id.ram = data;
p->size = (UINT32)size;
p->fileid = fileid;
p->next = NULL; // End of list
DEBFILE(va("Sending ram %p(size:%u) to %d (id=%u)\n",p->id.ram,p->size,node,fileid));
filestosend++;
}
/** Adds a file requested by Lua to the file list for a node
*
* \param node The node to send the file to
* \param filename The file to send
* \sa AddFileToSendQueue
* \sa AddRamToSendQueue
*
*/
boolean AddLuaFileToSendQueue(INT32 node, const char *filename)
{
filetx_t **q; // A pointer to the "next" field of the last file in the list
filetx_t *p; // The new file request
//INT32 i;
//char wadfilename[MAX_WADPATH];
luafiletransfers->nodestatus[node] = LFTNS_SENDING;
// Find the last file in the list and set a pointer to its "next" field
q = &transfer[node].txlist;
while (*q)
q = &((*q)->next);
// Allocate a file request and append it to the file list
p = *q = (filetx_t *)malloc(sizeof (filetx_t));
if (!p)
I_Error("AddLuaFileToSendQueue: No more memory\n");
// Initialise with zeros
memset(p, 0, sizeof (filetx_t));
// Allocate the file name
p->id.filename = (char *)malloc(MAX_WADPATH); // !!!
if (!p->id.filename)
I_Error("AddLuaFileToSendQueue: No more memory\n");
// Set the file name and get rid of the path
strlcpy(p->id.filename, filename, MAX_WADPATH); // !!!
//nameonly(p->id.filename);
DEBFILE(va("Sending Lua file %s to %d\n", filename, node));
p->ram = SF_FILE; // It's a file, we need to close it and free its name once we're done sending it
p->next = NULL; // End of list
filestosend++;
return true;
}
/** Stops sending a file for a node, and removes the file request from the list,
* either because the file has been fully sent or because the node was disconnected
*
* \param node The destination
*
*/
static void SV_EndFileSend(INT32 node)
{
filetx_t *p = transfer[node].txlist;
// Free the file request according to the freemethod
// parameter used with AddFileToSendQueue/AddRamToSendQueue
switch (p->ram)
{
case SF_FILE: // It's a file, close it and free its filename
if (cv_noticedownload.value)
CONS_Printf("Ending file transfer for node %d\n", node);
if (transfer[node].currentfile)
fclose(transfer[node].currentfile);
free(p->id.filename);
break;
case SF_Z_RAM: // It's a memory block allocated with Z_Alloc or the likes, use Z_Free
Z_Free(p->id.ram);
break;
case SF_RAM: // It's a memory block allocated with malloc, use free
free(p->id.ram);
case SF_NOFREERAM: // Nothing to free
break;
}
// Remove the file request from the list
transfer[node].txlist = p->next;
free(p);
// Indicate that the transmission is over
transfer[node].currentfile = NULL;
if (transfer[node].ackedfragments)
free(transfer[node].ackedfragments);
transfer[node].ackedfragments = NULL;
filestosend--;
}
#define FILEFRAGMENTSIZE (software_MAXPACKETLENGTH - (FILETXHEADER + BASEPACKETSIZE))
/** Handles file transmission
*
*/
void FileSendTicker(void)
{
static INT32 currentnode = 0;
filetx_pak *p;
size_t fragmentsize;
filetx_t *f;
INT32 packetsent, ram, i, j;
// If someone is taking too long to download, kick them with a timeout
// to prevent blocking the rest of the server...
if (luafiletransfers)
{
for (i = 1; i < MAXNETNODES; i++)
{
luafiletransfernodestatus_t status = luafiletransfers->nodestatus[i];
if (status != LFTNS_NONE && status != LFTNS_WAITING && status != LFTNS_SENT
&& I_GetTime() > luafiletransfers->nodetimeouts[i])
{
Net_ConnectionTimeout(i);
}
}
}
if (!filestosend) // No file to send
return;
packetsent = cv_downloadspeed.value;
netbuffer->packettype = PT_FILEFRAGMENT;
// (((sendbytes-nowsentbyte)*TICRATE)/(I_GetTime()-starttime)<(UINT32)net_bandwidth)
while (packetsent-- && filestosend != 0)
{
for (i = currentnode, j = 0; j < MAXNETNODES;
i = (i+1) % MAXNETNODES, j++)
{
if (transfer[i].txlist)
break;
}
// no transfer to do
if (j >= MAXNETNODES)
I_Error("filestosend=%d but no file to send found\n", filestosend);
currentnode = (i+1) % MAXNETNODES;
f = transfer[i].txlist;
ram = f->ram;
// Open the file if it isn't open yet, or
if (!transfer[i].currentfile)
{
if (!ram) // Sending a file
{
long filesize;
transfer[i].currentfile =
fopen(f->id.filename, "rb");
if (!transfer[i].currentfile)
I_Error("File %s does not exist",
f->id.filename);
fseek(transfer[i].currentfile, 0, SEEK_END);
filesize = ftell(transfer[i].currentfile);
// Nobody wants to transfer a file bigger
// than 4GB!
if (filesize >= LONG_MAX)
I_Error("filesize of %s is too large", f->id.filename);
if (filesize == -1)
I_Error("Error getting filesize of %s", f->id.filename);
f->size = (UINT32)filesize;
fseek(transfer[i].currentfile, 0, SEEK_SET);
}
else // Sending RAM
transfer[i].currentfile = (FILE *)1; // Set currentfile to a non-null value to indicate that it is open
transfer[i].iteration = 1;
transfer[i].ackediteration = 0;
transfer[i].position = 0;
transfer[i].ackedsize = 0;
transfer[i].ackedfragments = calloc(f->size / FILEFRAGMENTSIZE + 1, sizeof(*transfer[i].ackedfragments));
if (!transfer[i].ackedfragments)
I_Error("FileSendTicker: No more memory\n");
transfer[i].dontsenduntil = 0;
}
// If the client hasn't acknowledged any fragment from the previous iteration,
// it is most likely because their acks haven't had enough time to reach the server
// yet, due to latency. In that case, we wait a little to avoid useless resend.
if (I_GetTime() < transfer[i].dontsenduntil)
continue;
// Find the first non-acknowledged fragment
while (transfer[i].ackedfragments[transfer[i].position / FILEFRAGMENTSIZE])
{
transfer[i].position += FILEFRAGMENTSIZE;
if (transfer[i].position >= f->size)
{
if (transfer[i].ackediteration < transfer[i].iteration)
transfer[i].dontsenduntil = I_GetTime() + TICRATE / 2;
transfer[i].position = 0;
transfer[i].iteration++;
}
}
// Build a packet containing a file fragment
p = &netbuffer->u.filetxpak;
fragmentsize = FILEFRAGMENTSIZE;
if (f->size-transfer[i].position < fragmentsize)
fragmentsize = f->size-transfer[i].position;
if (ram)
M_Memcpy(p->data, &f->id.ram[transfer[i].position], fragmentsize);
else
{
fseek(transfer[i].currentfile, transfer[i].position, SEEK_SET);
if (fread(p->data, 1, fragmentsize, transfer[i].currentfile) != fragmentsize)
I_Error("FileSendTicker: can't read %s byte on %s at %d because %s", sizeu1(fragmentsize), f->id.filename, transfer[i].position, M_FileError(transfer[i].currentfile));
}
p->iteration = transfer[i].iteration;
p->position = LONG(transfer[i].position);
p->fileid = f->fileid;
p->filesize = LONG(f->size);
p->size = SHORT((UINT16)FILEFRAGMENTSIZE);
// Send the packet
if (HSendPacket(i, false, 0, FILETXHEADER + fragmentsize)) // Don't use the default acknowledgement system
{ // Success
transfer[i].position = (UINT32)(transfer[i].position + fragmentsize);
if (transfer[i].position >= f->size)
{
if (transfer[i].ackediteration < transfer[i].iteration)
transfer[i].dontsenduntil = I_GetTime() + TICRATE / 2;
transfer[i].position = 0;
transfer[i].iteration++;
}
}
else
{ // Not sent for some odd reason, retry at next call
// Exit the while (can't send this one so why should i send the next?)
break;
}
}
}
void PT_FileAck(void)
{
fileack_pak *packet = &netbuffer->u.fileack;
INT32 node = doomcom->remotenode;
filetran_t *trans = &transfer[node];
INT32 i, j;
// Wrong file id? Ignore it, it's probably a late packet
if (!(trans->txlist && packet->fileid == trans->txlist->fileid))
return;
if (packet->numsegments * sizeof(*packet->segments) != doomcom->datalength - BASEPACKETSIZE - sizeof(*packet))
{
Net_CloseConnection(node);
return;
}
if (packet->iteration > trans->ackediteration)
{
trans->ackediteration = packet->iteration;
if (trans->ackediteration >= trans->iteration - 1)
trans->dontsenduntil = 0;
}
for (i = 0; i < packet->numsegments; i++)
{
fileacksegment_t *segment = &packet->segments[i];
for (j = 0; j < 32; j++)
if (LONG(segment->acks) & (1 << j))
{
if (LONG(segment->start) * FILEFRAGMENTSIZE >= trans->txlist->size)
{
Net_CloseConnection(node);
return;
}
if (!trans->ackedfragments[LONG(segment->start) + j])
{
trans->ackedfragments[LONG(segment->start) + j] = true;
trans->ackedsize += FILEFRAGMENTSIZE;
// If the last missing fragment was acked, finish!
if (trans->ackedsize == trans->txlist->size)
{
SV_EndFileSend(node);
return;
}
}
}
}
}
void PT_FileReceived(void)
{
filetx_t *trans = transfer[doomcom->remotenode].txlist;
if (trans && netbuffer->u.filereceived == trans->fileid)
SV_EndFileSend(doomcom->remotenode);
}
static void SendAckPacket(fileack_pak *packet, UINT8 fileid)
{
size_t packetsize;
INT32 i;
packetsize = sizeof(*packet) + packet->numsegments * sizeof(*packet->segments);
// Finalise the packet
packet->fileid = fileid;
for (i = 0; i < packet->numsegments; i++)
{
packet->segments[i].start = LONG(packet->segments[i].start);
packet->segments[i].acks = LONG(packet->segments[i].acks);
}
// Send the packet
netbuffer->packettype = PT_FILEACK;
M_Memcpy(&netbuffer->u.fileack, packet, packetsize);
HSendPacket(servernode, false, 0, packetsize);
// Clear the packet
memset(packet, 0, sizeof(*packet) + 512);
}
static void AddFragmentToAckPacket(fileack_pak *packet, UINT8 iteration, UINT32 fragmentpos, UINT8 fileid)
{
fileacksegment_t *segment = &packet->segments[packet->numsegments - 1];
packet->iteration = max(packet->iteration, iteration);
if (packet->numsegments == 0
|| fragmentpos < segment->start
|| fragmentpos - segment->start >= 32)
{
// If the packet becomes too big, send it
if ((packet->numsegments + 1) * sizeof(*segment) > 512)
SendAckPacket(packet, fileid);
packet->numsegments++;
segment = &packet->segments[packet->numsegments - 1];
segment->start = fragmentpos;
}
// Set the bit that represents the fragment
segment->acks |= 1 << (fragmentpos - segment->start);
}
void FileReceiveTicker(void)
{
INT32 i;
for (i = 0; i < fileneedednum; i++)
{
fileneeded_t *file = &fileneeded[i];
if (file->status == FS_DOWNLOADING)
{
if (lasttimeackpacketsent - I_GetTime() > TICRATE / 2)
SendAckPacket(file->ackpacket, i);
// When resuming a tranfer, start with telling
// the server what parts we already received
if (file->ackresendposition != UINT32_MAX && file->status == FS_DOWNLOADING)
{
// Acknowledge ~70 MB/s, whichs means the client sends ~18 KB/s
INT32 j;
for (j = 0; j < 2048; j++)
{
if (file->receivedfragments[file->ackresendposition])
AddFragmentToAckPacket(file->ackpacket, file->iteration, file->ackresendposition, i);
file->ackresendposition++;
if (file->ackresendposition * file->fragmentsize >= file->totalsize)
{
file->ackresendposition = UINT32_MAX;
break;
}
}
}
}
}
}
void PT_FileFragment(void)
{
INT32 filenum = netbuffer->u.filetxpak.fileid;
fileneeded_t *file = &fileneeded[filenum];
UINT32 fragmentpos = LONG(netbuffer->u.filetxpak.position);
UINT16 fragmentsize = SHORT(netbuffer->u.filetxpak.size);
UINT16 boundedfragmentsize = doomcom->datalength - BASEPACKETSIZE - sizeof(netbuffer->u.filetxpak);
char *filename;
if (!file)
return;
filename = va("%s", file->filename);
nameonly(filename);
if (!(strcmp(filename, "srb2.pk3")
&& strcmp(filename, "zones.pk3")
&& strcmp(filename, "player.dta")
&& strcmp(filename, "patch.pk3")
&& strcmp(filename, "music.dta")
))
I_Error("Tried to download \"%s\"", filename);
filename = file->filename;
if (filenum >= fileneedednum)
{
DEBFILE(va("fileframent not needed %d>%d\n", filenum, fileneedednum));
//I_Error("Received an unneeded file fragment (file id received: %d, file id needed: %d)\n", filenum, fileneedednum);
return;
}
if (file->status == FS_REQUESTED)
{
if (file->file)
I_Error("PT_FileFragment: already open file\n");
file->status = FS_DOWNLOADING;
file->fragmentsize = fragmentsize;
file->iteration = 0;
file->ackpacket = calloc(1, sizeof(*file->ackpacket) + 512);
if (!file->ackpacket)
I_Error("FileSendTicker: No more memory\n");
if (CL_CanResumeDownload(file))
{
file->file = fopen(filename, "r+b");
if (!file->file)
I_Error("Can't reopen file %s: %s", filename, strerror(errno));
CONS_Printf("\r%s...\n", filename);
CONS_Printf("Resuming download...\n");
file->currentsize = pauseddownload->currentsize;
file->receivedfragments = pauseddownload->receivedfragments;
file->ackresendposition = 0;
free(pauseddownload);
pauseddownload = NULL;
}
else
{
CL_AbortDownloadResume();
file->file = fopen(filename, "wb");
if (!file->file)
I_Error("Can't create file %s: %s", filename, strerror(errno));
CONS_Printf("\r%s...\n",filename);
file->currentsize = 0;
file->totalsize = LONG(netbuffer->u.filetxpak.filesize);
file->ackresendposition = UINT32_MAX; // Only used for resumed downloads
file->receivedfragments = calloc(file->totalsize / fragmentsize + 1, sizeof(*file->receivedfragments));
if (!file->receivedfragments)
I_Error("FileSendTicker: No more memory\n");
}
lasttimeackpacketsent = I_GetTime();
}
if (file->status == FS_DOWNLOADING)
{
if (fragmentpos >= file->totalsize)
I_Error("Invalid file fragment\n");
file->iteration = max(file->iteration, netbuffer->u.filetxpak.iteration);
if (!file->receivedfragments[fragmentpos / fragmentsize]) // Not received yet
{
file->receivedfragments[fragmentpos / fragmentsize] = true;
// We can receive packets in the wrong order, anyway all OSes support gaped files
fseek(file->file, fragmentpos, SEEK_SET);
if (fragmentsize && fwrite(netbuffer->u.filetxpak.data, boundedfragmentsize, 1, file->file) != 1)
I_Error("Can't write to %s: %s\n",filename, M_FileError(file->file));
file->currentsize += boundedfragmentsize;
AddFragmentToAckPacket(file->ackpacket, file->iteration, fragmentpos / fragmentsize, filenum);
// Finished?
if (file->currentsize == file->totalsize)
{
fclose(file->file);
file->file = NULL;
free(file->receivedfragments);
free(file->ackpacket);
file->status = FS_FOUND;
file->justdownloaded = true;
CONS_Printf(M_GetText("Downloading %s...(done)\n"),
filename);
// Tell the server we have received the file
netbuffer->packettype = PT_FILERECEIVED;
netbuffer->u.filereceived = filenum;
HSendPacket(servernode, true, 0, 1);
if (luafiletransfers)
{
// Tell the server we have received the file
netbuffer->packettype = PT_HASLUAFILE;
HSendPacket(servernode, true, 0, 0);
FreeFileNeeded();
}
}
}
else // Already received
{
// If they are sending us the fragment again, it's probably because
// they missed our previous ack, so we must re-acknowledge it
AddFragmentToAckPacket(file->ackpacket, file->iteration, fragmentpos / fragmentsize, filenum);
}
}
else if (!file->justdownloaded)
{
const char *s;
switch(file->status)
{
case FS_NOTFOUND:
s = "FS_NOTFOUND";
break;
case FS_FOUND:
s = "FS_FOUND";
break;
case FS_OPEN:
s = "FS_OPEN";
break;
case FS_MD5SUMBAD:
s = "FS_MD5SUMBAD";
break;
default:
s = "unknown";
break;
}
I_Error("Received a file not requested (file id: %d, file status: %s)\n", filenum, s);
}
#ifndef NONET
lastfilenum = filenum;
#endif
}
/** \brief Checks if a node is downloading a file
*
* \param node The node to check for
* \return True if the node is downloading a file
*
*/
boolean SendingFile(INT32 node)
{
return transfer[node].txlist != NULL;
}
/** Cancels all file requests for a node
*
* \param node The destination
* \sa SV_EndFileSend
*
*/
void SV_AbortSendFiles(INT32 node)
{
while (transfer[node].txlist)
SV_EndFileSend(node);
}
void CloseNetFile(void)
{
INT32 i;
// Is sending?
for (i = 0; i < MAXNETNODES; i++)
SV_AbortSendFiles(i);
// Receiving a file?
if (fileneeded)
{
for (i = 0; i < fileneedednum; i++)
if (fileneeded[i].status == FS_DOWNLOADING && fileneeded[i].file)
{
fclose(fileneeded[i].file);
free(fileneeded[i].ackpacket);
if (!pauseddownload && (fileneeded[i].type == FILENEEDED_WAD || i != 0)) // 0 is the gamestate...
{
// Don't remove the file, save it for later in case we resume the download
pauseddownload = malloc(sizeof(*pauseddownload));
if (!pauseddownload)
I_Error("CloseNetFile: No more memory\n");
strcpy(pauseddownload->filename, fileneeded[i].filename);
memcpy(pauseddownload->md5sum, fileneeded[i].md5sum, 16);
pauseddownload->currentsize = fileneeded[i].currentsize;
pauseddownload->receivedfragments = fileneeded[i].receivedfragments;
pauseddownload->fragmentsize = fileneeded[i].fragmentsize;
}
else
{
// File is not complete, delete it.
free(fileneeded[i].receivedfragments);
remove(fileneeded[i].filename);
}
}
}
FreeFileNeeded();
}
void Command_Downloads_f(void)
{
INT32 node;
for (node = 0; node < MAXNETNODES; node++)
if (transfer[node].txlist
&& transfer[node].txlist->ram == SF_FILE) // Node is downloading a file?
{
const char *name = transfer[node].txlist->id.filename;
UINT32 position = transfer[node].ackedsize;
UINT32 size = transfer[node].txlist->size;
char ratecolor;
// Avoid division by zero errors
if (!size)
size = 1;
name = &name[strlen(name) - nameonlylength(name)];
switch (4 * (position - 1) / size)
{
case 0: ratecolor = '\x85'; break;
case 1: ratecolor = '\x87'; break;
case 2: ratecolor = '\x82'; break;
case 3: ratecolor = '\x83'; break;
default: ratecolor = '\x80';
}
CONS_Printf("%2d %c%s ", node, ratecolor, name); // Node and file name
CONS_Printf("\x80%uK\x84/\x80%uK ", position / 1024, size / 1024); // Progress in kB
CONS_Printf("\x80(%c%u%%\x80) ", ratecolor, (UINT32)(100.0 * position / size)); // Progress in %
CONS_Printf("%s\n", I_GetNodeAddress(node)); // Address and newline
}
}
// Functions cut and pasted from Doomatic :)
void nameonly(char *s)
{
size_t j, len;
void *ns;
for (j = strlen(s); j != (size_t)-1; j--)
if ((s[j] == '\\') || (s[j] == ':') || (s[j] == '/'))
{
ns = &(s[j+1]);
len = strlen(ns);
#if 0
M_Memcpy(s, ns, len+1);
#else
memmove(s, ns, len+1);
#endif
return;
}
}
// Returns the length in characters of the last element of a path.
size_t nameonlylength(const char *s)
{
size_t j, len = strlen(s);
for (j = len; j != (size_t)-1; j--)
if ((s[j] == '\\') || (s[j] == ':') || (s[j] == '/'))
return len - j - 1;
return len;
}
#ifndef O_BINARY
#define O_BINARY 0
#endif
filestatus_t checkfilemd5(char *filename, const UINT8 *wantedmd5sum)
{
#if defined (NOMD5)
(void)wantedmd5sum;
(void)filename;
#else
FILE *fhandle;
UINT8 md5sum[16];
if (!wantedmd5sum)
return FS_FOUND;
fhandle = fopen(filename, "rb");
if (fhandle)
{
md5_stream(fhandle,md5sum);
fclose(fhandle);
if (!memcmp(wantedmd5sum, md5sum, 16))
return FS_FOUND;
return FS_MD5SUMBAD;
}
I_Error("Couldn't open %s for md5 check", filename);
#endif
return FS_FOUND; // will never happen, but makes the compiler shut up
}
// Rewritten by Monster Iestyn to be less stupid
// Note: if completepath is true, "filename" is modified, but only if FS_FOUND is going to be returned
// (Don't worry about WinCE's version of filesearch, nobody cares about that OS anymore)
filestatus_t findfile(char *filename, const UINT8 *wantedmd5sum, boolean completepath)
{
filestatus_t homecheck; // store result of last file search
boolean badmd5 = false; // store whether md5 was bad from either of the first two searches (if nothing was found in the third)
// first, check SRB2's "home" directory
homecheck = filesearch(filename, srb2home, wantedmd5sum, completepath, 10);
if (homecheck == FS_FOUND) // we found the file, so return that we have :)
return FS_FOUND;
else if (homecheck == FS_MD5SUMBAD) // file has a bad md5; move on and look for a file with the right md5
badmd5 = true;
// if not found at all, just move on without doing anything
// next, check SRB2's "path" directory
homecheck = filesearch(filename, srb2path, wantedmd5sum, completepath, 10);
if (homecheck == FS_FOUND) // we found the file, so return that we have :)
return FS_FOUND;
else if (homecheck == FS_MD5SUMBAD) // file has a bad md5; move on and look for a file with the right md5
badmd5 = true;
// if not found at all, just move on without doing anything
// finally check "." directory
homecheck = filesearch(filename, ".", wantedmd5sum, completepath, 10);
if (homecheck != FS_NOTFOUND) // if not found this time, fall back on the below return statement
return homecheck; // otherwise return the result we got
return (badmd5 ? FS_MD5SUMBAD : FS_NOTFOUND); // md5 sum bad or file not found
}
// Searches for a folder.
// This can be used with a full path, or an incomplete path.
// In the latter case, the function will try to find folders in
// srb2home, srb2path, and the current directory.
filestatus_t findfolder(const char *path)
{
// Check the path by itself first.
if (concatpaths(path, NULL) == 1)
return FS_FOUND;
#define checkpath(startpath) \
if (concatpaths(path, startpath) == 1) \
return FS_FOUND
checkpath(srb2home); // Then, look in srb2home.
checkpath(srb2path); // Now, look in srb2path.
checkpath("."); // Finally, look in the current directory.
#undef checkpath
return FS_NOTFOUND;
}