gtkradiant/libs/synapse/synapse.cpp

1096 lines
30 KiB
C++
Raw Normal View History

/*
Copyright (C) 1999-2007 id Software, Inc. and contributors.
For a list of contributors, see the accompanying CONTRIBUTORS file.
This file is part of GtkRadiant.
GtkRadiant is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
GtkRadiant is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GtkRadiant; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <assert.h>
// seems to be required for str.h
#include <glib.h>
#include <glib/gstdio.h>
#include "synapse.h"
#if defined (__linux__) || defined (__APPLE__)
#include <dirent.h>
#endif
/*
===================================================
diagnostic stuff
===================================================
*/
extern "C"
{
static PFN_SYN_PRINTF_VA g_pPrintf = NULL;
void Set_Syn_Printf(PFN_SYN_PRINTF_VA pf)
{
g_pPrintf = pf;
}
#define BUFFER_SIZE 4096
void Syn_Printf (const char *text, ...)
{
char buf[BUFFER_SIZE];
va_list args;
if (!text)
return;
if (g_pPrintf)
{
va_start (args, text);
(*g_pPrintf)(text, args);
va_end (args);
}
else
{
va_start (args, text);
vsnprintf (buf, BUFFER_SIZE, text, args);
buf[BUFFER_SIZE-1] = 0;
printf(buf);
va_end (args);
}
}
}
/*
=======================================================================
server
=======================================================================
*/
// this must be kept in sync with EAPIType
static const char* APITypeName[4] =
{
"SYN_UNKNOWN",
"SYN_PROVIDE",
"SYN_REQUIRE",
"SYN_REQUIRE_ANY"
};
CSynapseServer::CSynapseServer()
{
mpDoc = NULL;
m_api_name = NULL;
m_content = NULL;
mpFocusedNode = NULL;
}
CSynapseServer::~CSynapseServer()
{
if (m_api_name)
xmlFree(m_api_name);
if (m_content)
g_free(m_content);
Syn_Printf("TODO: free API managers\n");
}
void CSynapseServer::AddSearchPath(char* path)
{
char *pLocalPath = new char[strlen(path)+1];
strcpy(pLocalPath, path);
mSearchPaths.push_front(pLocalPath);
}
bool CSynapseServer::Initialize(const char* conf_file, PFN_SYN_PRINTF_VA pf)
{
// browse the paths to locate all potential modules
Set_Syn_Printf(pf);
if (conf_file)
{
// if a config file is specified and we fail to load it, we fail
Syn_Printf("loading synapse XML config file '%s'\n", conf_file);
mpDoc = xmlParseFile(conf_file);
if (!mpDoc)
{
Syn_Printf("'%s' invalid/not found\n", conf_file);
return false;
}
}
for (list<char *>::iterator iPath=mSearchPaths.begin(); iPath!=mSearchPaths.end(); iPath++)
{
const char* path = *iPath;
Syn_Printf("Synapse Scanning modules path: %s\n", path);
GDir* dir = g_dir_open (path, 0, NULL);
if (dir != NULL)
{
while (1)
{
const gchar* name = g_dir_read_name(dir);
if(name == NULL)
break;
// too small to be isolated in win32/ and linux/ directories..
#if defined(_WIN32)
const char* ext_so = ".dll";
#elif defined (__linux__) || defined (__APPLE__)
const char* ext_so = ".so";
#endif
const char* ext = strrchr (name, '.');
if ((ext == NULL) || (stricmp (ext, ext_so) != 0))
continue;
Str newModule;
newModule.Format("%s%s", path, name);
Syn_Printf("Found '%s'\n", newModule.GetBuffer());
EnumerateInterfaces(newModule);
}
g_dir_close(dir);
}
}
return true;
}
#if defined(_WIN32)
#define FORMAT_BUFSIZE 2048
const char* CSynapseServer::FormatGetLastError()
{
static char buf[FORMAT_BUFSIZE];
FormatMessage(
FORMAT_MESSAGE_FROM_SYSTEM |
FORMAT_MESSAGE_IGNORE_INSERTS,
NULL,
GetLastError(),
MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), // Default language
buf,
FORMAT_BUFSIZE,
NULL
);
return buf;
}
void CSynapseServer::EnumerateInterfaces(Str &soname)
{
CSynapseClientSlot slot;
slot.mpDLL = LoadLibrary(soname.GetBuffer());
if (!slot.mpDLL)
{
Syn_Printf("LoadLibrary '%s' failed\n", soname.GetBuffer());
Syn_Printf(" GetLastError: %s", FormatGetLastError());
return;
}
slot.mpEnumerate = (PFN_SYNAPSE_ENUMERATEINTERFACES)GetProcAddress(slot.mpDLL, NAME_SYNAPSE_ENUMERATEINTERFACES);
if (!slot.mpEnumerate)
{
Syn_Printf("GetProcAddress('%s') failed\n", NAME_SYNAPSE_ENUMERATEINTERFACES);
Syn_Printf(" GetLastError: %s", FormatGetLastError());
return;
}
Syn_Printf("Enumerate interfaces on '%s'\n", soname.GetBuffer());
slot.mpClient = slot.mpEnumerate(SYNAPSE_VERSION, this);
if (!slot.mpClient)
{
Syn_Printf("Enumerate interfaces on '%s' returned NULL, unloading.\n", soname.GetBuffer());
if (!FreeLibrary(slot.mpDLL))
{
Syn_Printf(" FreeLibrary failed: GetLastError: '%s'\n", CSynapseServer::FormatGetLastError());
}
return;
}
slot.mFileName = soname;
mClients.push_front(slot);
}
void CSynapseClientSlot::ReleaseSO()
{
if (!mpDLL)
{
Syn_Printf("ERROR: no shared object handle for client '%s' in CSynapseClientSlot::ReleaseSO\n", mpClient->GetInfo());
return;
}
Syn_Printf("FreeLibrary '%s'\n", mpClient->GetInfo());
if (!FreeLibrary(mpDLL))
{
Syn_Printf(" FreeLibrary failed: GetLastError: '%s'\n", CSynapseServer::FormatGetLastError());
}
mpDLL = NULL;
}
#elif defined(__linux__) || defined (__APPLE__)
void CSynapseServer::EnumerateInterfaces(Str &soname)
{
CSynapseClientSlot slot;
slot.mpDLL = dlopen (soname.GetBuffer(), RTLD_NOW);
if (!slot.mpDLL)
{
const char* error;
if ((error = (char *)dlerror()) == NULL)
error = "Unknown";
Syn_Printf("dlopen '%s' failed\n dlerror: '%s'\n", soname.GetBuffer(), error);
return;
}
slot.mpEnumerate = (PFN_SYNAPSE_ENUMERATEINTERFACES)dlsym(slot.mpDLL, NAME_SYNAPSE_ENUMERATEINTERFACES);
if (!slot.mpEnumerate)
{
const char* error;
if ((error = (char *)dlerror()) == NULL)
error = "Unknown";
Syn_Printf("dlsym '%s' failed on shared object '%s'\n dlerror: '%s'\n", NAME_SYNAPSE_ENUMERATEINTERFACES, soname.GetBuffer(), error);
return;
}
Syn_Printf("Enumerate interfaces on '%s'\n", soname.GetBuffer());
slot.mpClient = slot.mpEnumerate(SYNAPSE_VERSION, this);
if (!slot.mpClient)
{
Syn_Printf("Enumerate interfaces on '%s' returned NULL, unloading.\n", soname.GetBuffer());
if (dlclose(slot.mpDLL))
{
const char* error;
if ((error = (char *)dlerror()) == NULL)
error = "Unknown";
Syn_Printf(" dlclose failed: dlerror: '%s'\n", error);
}
return;
}
slot.mFileName = soname;
mClients.push_front(slot);
}
void CSynapseClientSlot::ReleaseSO()
{
if (!mpDLL)
{
Syn_Printf("ERROR: no shared object handle for client '%s' in CSynapseClientSlot::ReleaseSO\n", mpClient->GetInfo());
return;
}
Syn_Printf("dlclose '%s'\n", mpClient->GetInfo());
if (dlclose(mpDLL))
{
const char* error;
if ((error = (char *)dlerror()) == NULL)
error = "Unknown";
Syn_Printf(" dlclose failed: dlerror: '%s'\n", error);
}
mpDLL = NULL;
}
#endif
void CSynapseServer::EnumerateBuiltinModule(CSynapseBuiltinClient *pClient)
{
CSynapseClientSlot slot;
pClient->EnumerateInterfaces(this);
slot.mpClient = pClient;
slot.mType = SYN_BUILTIN;
mClients.push_front(slot);
}
PFN_SYN_PRINTF_VA CSynapseServer::Get_Syn_Printf()
{
return g_pPrintf;
}
void CSynapseServer::TryPushStack(APIDescriptor_t *pAPI)
{
list<APIDescriptor_t*>::iterator iAPI;
for(iAPI=mStack.begin(); iAPI!=mStack.end(); iAPI++)
{
if ((*iAPI) == pAPI)
{
return;
}
}
mStack.push_front(pAPI);
mbStackChanged = true;
}
list<CSynapseClientSlot>::iterator CSynapseServer::ShutdownClient(list<CSynapseClientSlot>::iterator iSlot)
{
CSynapseClientSlot *pClientSlot = &(*iSlot);
if (pClientSlot->mpClient->IsActive())
{
// this should not happen except during core shutdown (i.e. editor is shutting down)
Syn_Printf("WARNING: ShutdownClient attempted on an active module '%s'\n", pClientSlot->mpClient->GetInfo());
}
// cleanup mStack
int i,api_count;
api_count = pClientSlot->mpClient->GetAPICount();
for(i=0; i<api_count; i++)
{
APIDescriptor_t *pAPI = pClientSlot->mpClient->GetAPIDescriptor(i);
// search this API in mStack
list< APIDescriptor_t *>::iterator iStack = mStack.begin();
while(iStack != mStack.end())
{
if (*iStack == pAPI)
break;
iStack++;
}
if (iStack != mStack.end())
{
if (pAPI->mType == SYN_REQUIRE)
{
if (pAPI->mbTableInitDone)
{
// even if non active, some SYN_REQUIRE may have been filled up
// look for the corresponding SYN_PROVIDE and decref
list< APIDescriptor_t *>::iterator iStackRequire = mStack.begin();
APIDescriptor_t *pMatchAPI;
while (iStackRequire != mStack.end())
{
pMatchAPI = *iStackRequire;
if ( pMatchAPI->mType == SYN_PROVIDE && MatchAPI( pMatchAPI, pAPI ) )
break;
iStackRequire++;
}
if (iStackRequire != mStack.end())
{
// we have found the corresponding SYN_PROVIDE
pMatchAPI->mRefCount--;
}
else
{
// this is not supposed to happen at all
Syn_Printf("ERROR: couldn't find the SYN_PROVIDE for an initialized SYN_REQUIRE API '%s' '%s' '%s'\n", pAPI->major_name, pAPI->minor_name, pClientSlot->mpClient->GetInfo());
}
}
}
else if (pAPI->mType == SYN_PROVIDE)
{
// this should never happen on non active clients, it may happen during a core shutdown though
// if the mRefCount is != 0, that means there is at least a function table out there that will segfault things
Syn_Printf("WARNING: found a SYN_PROVIDE API '%s' '%s' with refcount %d in CSynapseServer::ShutdownClient for '%s'\n", pAPI->major_name, pAPI->minor_name, pAPI->mRefCount, pClientSlot->mpClient->GetInfo());
}
// mostly safe to remove it now
mStack.erase(iStack);
}
}
// we can actually release the module now
// NOTE: do we want to have a 'final shutdown' call to the client? (not as long as we don't have a use for it)
if (pClientSlot->mType == SYN_SO)
{
pClientSlot->ReleaseSO();
}
return mClients.erase(iSlot);
}
void CSynapseServer::PushRequired(CSynapseClient *pClient)
{
/* walk through the standard APIs and push them in */
int i,max = pClient->GetAPICount();
for(i=0; i<max; i++)
{
APIDescriptor_t* pAPI = pClient->GetAPIDescriptor(i);
if (pAPI->mType == SYN_REQUIRE && !pAPI->mbTableInitDone)
{
TryPushStack(pAPI);
}
}
/* if this client has 'List' API Manager types, walk through them for addition too */
max = pClient->GetManagerListCount();
for(i=0; i<max; i++)
{
CSynapseAPIManager *pManager = pClient->GetManagerList(i);
assert(pManager->GetType() == API_LIST);
pManager->InitializeAPIList();
int j;
for(j=0; j<pManager->GetAPICount(); j++)
{
TryPushStack(pManager->GetAPI(j));
}
}
/* if there are loose match managers, prompt them against the current list of SYN_PROVIDE interfaces
* and let them decide which ones they might want
*/
max = pClient->GetManagerMatchCount();
for(i=0; i<max; i++)
{
CSynapseAPIManager *pManager = pClient->GetManagerMatch(i);
// start matching all known SYN_PROVIDE APIs against this manager
list<CSynapseClientSlot>::iterator iClientSlot;
for(iClientSlot=mClients.begin(); iClientSlot!=mClients.end(); iClientSlot++)
{
CSynapseClient *pScanClient = (*iClientSlot).
mpClient;
int j,jmax = pScanClient->GetAPICount();
for(j=0; j<jmax; j++)
{
APIDescriptor_t *pAPI = pScanClient->GetAPIDescriptor(j);
if (pAPI->mType == SYN_PROVIDE)
{
if (pManager->MatchAPI(pAPI->major_name, pAPI->minor_name))
{
/*! we are going to want to load this one
* NOTE TTimo: what if this can not be resolved in the end?
* if this happens, then the whole startup will fail instead
* or we can use SYN_REQUIRE_ANY and drop it without consequences
*/
APIDescriptor_t *pPushAPI = pManager->BuildRequireAPI(pAPI);
TryPushStack(pPushAPI);
}
}
}
}
}
}
bool CSynapseServer::MatchAPI(APIDescriptor_t *p1, APIDescriptor_t *p2)
{
return MatchAPI( p1->major_name, p1->minor_name, p2->major_name, p2->minor_name );
}
bool CSynapseServer::MatchAPI(const char* major1, const char* minor1, const char* major2, const char* minor2)
{
if ( strcmp( major1, major2 ) ) {
return false;
}
// either no minor at all for this API, or matching
if ( ( minor1 && minor2 ) && !strcmp( minor1, minor2 ) ) {
return true;
}
// or one of the minors says "*" (knowing that the majors match already)
if ( ( minor1 && !strcmp( minor1, "*" ) ) || ( minor2 && !strcmp( minor2, "*" ) ) ) {
return true;
}
return false;
}
bool CSynapseServer::ResolveAPI(APIDescriptor_t* pAPI)
{
//Syn_Printf("In ResolveAPI %s %p '%s' '%s'\n", APITypeName[pAPI->mType], pAPI, pAPI->major_name, pAPI->minor_name);
// loop through active clients, search for a client providing what we are looking for
list<CSynapseClientSlot>::iterator iClient;
for(iClient=mClients.begin(); iClient!=mClients.end(); iClient++)
{
// walk through interfaces on this client for a match
CSynapseClient *pScanClient = (*iClient).mpClient;
int i,max = pScanClient->GetAPICount();
for(i=0; i<max; i++)
{
APIDescriptor_t *pScanClientAPI = pScanClient->GetAPIDescriptor(i);
if (pScanClientAPI->mType == SYN_PROVIDE)
{
if (MatchAPI(pAPI, pScanClientAPI))
{
// can this client provide APIs yet
// it is possible that all of it's APIs have been filled and it's not been activated yet
pScanClient->CheckSetActive();
if (pScanClient->IsActive())
{
// make sure this interface has correct size (this is our version check)
if (pAPI->mSize != pScanClientAPI->mSize)
{
Syn_Printf("ERROR: version mismatch for API '%s' '%s' found in '%s' (size %d != %d)\n", pAPI->major_name, pAPI->minor_name, pScanClient->GetInfo(), pAPI->mSize, pScanClientAPI->mSize);
Syn_Printf(" the module and the server are incompatible\n");
// keep going to other APIs
continue;
}
// this is an active client, we can request
#ifdef SYNAPSE_VERBOSE
Syn_Printf("RequestAPI '%s' '%s' from '%s' for API %p\n", pAPI->major_name, pAPI->minor_name, pScanClient->GetInfo(), pAPI);
#endif
if (!pScanClient->RequestAPI(pAPI))
{
// this should never happen, means we think this module provides the API, but it answers that it doesn't
Syn_Printf("ERROR: RequestAPI failed\n");
return false;
}
pScanClientAPI->mRefCount++;
pAPI->mbTableInitDone = true;
return true; // job done
}
else
{
// this client is not active yet, some of it's required interfaces are not filled in
PushRequired(pScanClient);
// we will exit the scan through the APIDescriptor of this client and look at other clients
break;
}
}
}
}
}
return false;
}
bool CSynapseServer::DoResolve(CSynapseClient *pClient)
{
list<CSynapseClientSlot>::iterator iSlot;
for(iSlot=mClients.begin(); iSlot != mClients.end(); iSlot++)
{
if ((*iSlot).mpClient == pClient)
break;
}
if (iSlot == mClients.end())
{
Syn_Printf("CSynapserServer::Resolve adding new client slot '%s'\n", pClient->GetInfo());
CSynapseClientSlot slot;
slot.mpClient = pClient;
slot.mFileName = "local client";
// make it active so we can request the interfaces already
pClient->ForceSetActive();
mClients.push_front(slot);
}
else
{
// make it active so we can request the interfaces already
(*iSlot).mpClient->ForceSetActive();
}
// push the interfaces that need to be resolved for this client
// NOTE: this doesn't take care of the SYN_REQUIRE_ANY interfaces
PushRequired(pClient);
// start resolving now
// working till the stack is emptied or till we reach a dead end situation
// we do a depth first traversal, we will grow the interface stack to be resolved till we start finding solutions
list<APIDescriptor_t*>::iterator iCurrent;
mbStackChanged = true; // init to true so we try the first elem
while (!mStack.empty())
{
//DumpStack();
if (!mbStackChanged)
{
// the stack didn't change last loop
iCurrent++;
if (iCurrent==mStack.end())
{
Syn_Printf("ERROR: CSynapseServer::Resolve, failed to resolve\n");
DumpStack();
return false;
}
if (ResolveAPI(*iCurrent))
{
iCurrent = mStack.erase(iCurrent);
mbStackChanged = true;
}
}
else
{
// the stack changed at last loop
mbStackChanged = false;
iCurrent = mStack.begin();
if (ResolveAPI(*iCurrent))
{
iCurrent = mStack.erase(iCurrent);
mbStackChanged = true;
}
}
}
return true;
}
bool CSynapseServer::Resolve(CSynapseClient *pClient)
{
bool ret = DoResolve(pClient);
list<CSynapseClientSlot>::iterator iClient;
iClient = mClients.begin();
while(iClient != mClients.end())
{
CSynapseClient *pClient = (*iClient).mpClient;
if (!pClient->IsActive())
{
Syn_Printf("Unloading an unused module: '%s'\n", pClient->GetInfo());
iClient = ShutdownClient(iClient);
}
else
iClient++;
}
return ret;
}
void CSynapseServer::Shutdown()
{
Syn_Printf("Synapse server core is shutting down\n");
// do a first pass to shutdown the clients nicely (i.e. decref, release memory and drop everything)
// we seperate the client shutdown calls from the dlclose cause that part is a clean decref / free situation whereas dlclose will break links without advice
list<CSynapseClientSlot>::iterator iClient;
iClient = mClients.begin();
for(iClient = mClients.begin(); iClient != mClients.end(); iClient++)
{
(*iClient).mpClient->Shutdown();
}
// now release them from the server's point of view
iClient = mClients.begin();
while(iClient != mClients.end())
{
iClient = ShutdownClient(iClient);
}
}
void CSynapseServer::DumpStack()
{
list<APIDescriptor_t*>::iterator iCurrent;
for(iCurrent=mStack.begin(); iCurrent != mStack.end(); iCurrent++)
{
APIDescriptor_t*pAPI = *iCurrent;
Syn_Printf("interface %s %p '%s' '%s'\n", APITypeName[pAPI->mType], pAPI, pAPI->major_name, pAPI->minor_name);
}
}
void CSynapseServer::DumpActiveClients()
{
list<CSynapseClientSlot>::iterator iClient;
for(iClient=mClients.begin(); iClient!=mClients.end(); iClient++)
{
CSynapseClient *pClient = (*iClient).mpClient;
Syn_Printf("%s", pClient->GetInfo());
if (pClient->IsActive())
Syn_Printf("\n");
else
Syn_Printf(" (not active)\n");
}
}
bool CSynapseServer::SelectClientConfig(const char *client_name)
{
if (!mpDoc)
return false;
xmlNodePtr pNode = xmlDocGetRootElement(mpDoc);
if (!pNode)
return false;
// look for the client
pNode=pNode->children;
while(pNode)
{
if (pNode->type == XML_ELEMENT_NODE)
{
xmlChar *prop = xmlGetProp(pNode, (const xmlChar *)"name");
if (!strcmp((const char *)prop, client_name))
{
xmlFree(prop);
break;
}
xmlFree(prop);
}
pNode = pNode->next;
}
if (!pNode)
return false; // config you asked for isn't there
// focus
mpFocusedNode = pNode->children;
mpCurrentClientConfig = pNode;
return true;
}
bool CSynapseServer::GetNextConfig(char **api_name, char **minor)
{
while(mpFocusedNode && mpFocusedNode->name)
{
if (mpFocusedNode->type == XML_ELEMENT_NODE && !strcmp((const char *)mpFocusedNode->name, "api"))
{
if (m_api_name)
xmlFree(m_api_name);
m_api_name = xmlGetProp(mpFocusedNode, (const xmlChar *)"name");
*api_name = (char *)m_api_name;
if (m_content)
g_free(m_content);
m_content = g_strdup((const gchar *)mpFocusedNode->children->content);
g_strstrip(m_content);
*minor = m_content;
mpFocusedNode = mpFocusedNode->next;
return true;
}
mpFocusedNode = mpFocusedNode->next;
}
return false;
}
bool CSynapseServer::GetConfigForAPI( const char *api, char **minor ) {
xmlNodePtr pNode = mpCurrentClientConfig->children;
while ( pNode && pNode->name ) {
if ( pNode->type == XML_ELEMENT_NODE && !strcmp( (const char *)pNode->name, "api" ) ) {
if ( m_api_name ) {
xmlFree( m_api_name );
}
m_api_name = xmlGetProp( pNode, (const xmlChar *)"name" );
if ( !strcmp( (const char *)m_api_name, api ) ) {
if ( m_content ) {
g_free( m_content );
}
m_content = g_strdup( (const gchar *)pNode->children->content );
g_strstrip( m_content );
*minor = m_content;
return true;
}
}
pNode = pNode->next;
}
return false;
}
const char *CSynapseServer::GetModuleFilename(CSynapseClient *pClient)
{
list<CSynapseClientSlot>::iterator iSlot;
for(iSlot=mClients.begin(); iSlot != mClients.end(); iSlot++)
{
if ((*iSlot).mpClient == pClient)
{
if ((*iSlot).mType == SYN_BUILTIN)
{
return ""; // FIXME
}
else
{
return (*iSlot).mFileName;
}
}
}
return NULL;
}
/*
=======================================================================
client
=======================================================================
*/
CSynapseClient::CSynapseClient()
{
}
void CSynapseClient::Shutdown()
{
vector<APIDescriptor_t *>::iterator iAPI;
for(iAPI=mAPIDescriptors.begin(); iAPI!=mAPIDescriptors.end(); iAPI++)
{
APIDescriptor_t *pAPI = *iAPI;
if (pAPI->mRefCount != 0)
Syn_Printf("WARNING: ~CSynapseClient '%s' has non-zero ref count for interface '%s' '%s'\n", GetInfo(), pAPI->major_name, pAPI->minor_name);
else
delete pAPI;
*iAPI=NULL;
}
mAPIDescriptors.clear();
vector<CSynapseAPIManager *>::iterator iManager;
for(iManager=mManagersList.begin(); iManager!=mManagersList.end(); iManager++)
{
CSynapseAPIManager *pManager = *iManager;
pManager->DecRef();
*iManager = NULL;
}
mManagersList.clear();
for(iManager=mManagersMatch.begin(); iManager!=mManagersMatch.end(); iManager++)
{
CSynapseAPIManager *pManager = *iManager;
pManager->DecRef();
*iManager = NULL;
}
mManagersMatch.clear();
}
CSynapseClient::~CSynapseClient()
{
// this should not be doing anything when called from here if everything went right
// otherwise it's likely to crash .. at least that's the sign we missed something
Shutdown();
}
int CSynapseClient::GetAPICount()
{
return mAPIDescriptors.size();
}
APIDescriptor_t* CSynapseClient::GetAPIDescriptor(int i)
{
return mAPIDescriptors[i];
}
int CSynapseClient::GetManagerMatchCount()
{
return mManagersMatch.size();
}
CSynapseAPIManager* CSynapseClient::GetManagerMatch(int i)
{
return mManagersMatch[i];
}
int CSynapseClient::GetManagerListCount()
{
return mManagersList.size();
}
CSynapseAPIManager* CSynapseClient::GetManagerList(int i)
{
return mManagersList[i];
}
bool CSynapseClient::AddAPI(const char *major, const char *minor, int size, EAPIType type, void *pTable)
{
// do some safe checks before actual addition
if (type == SYN_REQUIRE && !pTable)
{
Syn_Printf("ERROR: interface '%s' '%s' from '%s' is SYN_REQUIRE and doesn't provide a function table pointer\n", major, minor, GetInfo());
return false;
}
if (pTable)
{
int *pi = (int *)pTable;
if (pi == 0)
{
Syn_Printf("ERROR: forgot to init function table size for interface '%s' '%s' from '%s'?\n", major, minor, GetInfo());
return false;
}
}
APIDescriptor_t *pAPI = new APIDescriptor_t;
memset(pAPI, 0, sizeof(APIDescriptor_t));
strncpy(pAPI->major_name, major, MAX_APINAME);
if (minor)
strncpy(pAPI->minor_name, minor, MAX_APINAME);
pAPI->mType = type;
pAPI->mpTable = pTable;
// store the interface size
if (type == SYN_PROVIDE)
{
if (size == 0)
{
Syn_Printf("ERROR: size of the interface required for a SYN_PROVIDE ('%s' '%s' from '%s')\n", major, minor, GetInfo());
delete pAPI;
return false;
}
pAPI->mSize = size;
}
else if (type == SYN_REQUIRE)
{
if (size != 0)
{
// if a non-zero value is given in function call, use this instead of the val in table
*((int *)pAPI->mpTable) = size;
pAPI->mSize = size;
}
else
{
pAPI->mSize = *((int *)pAPI->mpTable);
if (pAPI->mSize == 0)
{
Syn_Printf("ERROR: didn't get an interface size ('%s' '%s' from '%s')\n", major, minor, GetInfo());
delete pAPI;
return false;
}
}
}
else
{
Syn_Printf("ERROR: AddAPI type '%d' not supported\n", type);
return false;
}
mAPIDescriptors.push_back(pAPI);
#ifdef SYNAPSE_VERBOSE
Syn_Printf("AddAPI: %s %p '%s' '%s' from '%s', size %d\n", APITypeName[pAPI->mType], pAPI, major, minor, GetInfo(), pAPI->mSize);
#endif
return true;
}
#include "version.h"
const char* CSynapseClient::GetInfo()
{
return "CSynapseClient built " __DATE__ " " RADIANT_VERSION;
}
bool CSynapseClient::CheckSetActive()
{
if (mbActive)
return true;
int i,max=GetAPICount();
for(i=0; i<max; i++)
{
APIDescriptor_t *pAPI = GetAPIDescriptor(i);
if (pAPI->mType == SYN_REQUIRE && !pAPI->mbTableInitDone)
return false;
}
// if we have managers with fixed list, those need to be completely filled in too
vector<CSynapseAPIManager *>::iterator iManager;
for(iManager=mManagersList.begin(); iManager!=mManagersList.end(); iManager++)
{
if (!(*iManager)->CheckSetActive())
return false; // one of the managers doesn't have all it needs yet
}
// call OnActivate to let the client perform last minute checks
// NOTE: this should be fatal instead of letting the engine try other combinations
if (!OnActivate()) {
return false;
}
// yes, all required interfaces have been initialized
Syn_Printf("'%s' activated\n", GetInfo());
mbActive = true;
return true;
}
bool CSynapseClient::ConfigXML( CSynapseServer *pServer, const char *client_name, const XMLConfigEntry_t entries[] ) {
if ( !client_name ) {
client_name = GetName();
}
Syn_Printf("Dynamic APIs for client '%s'\n", GetInfo());
if ( !pServer->SelectClientConfig( client_name ) )
{
Syn_Printf( "Failed to select synapse client config '%s'\n", client_name );
return false;
}
int i = 0;
while ( entries[i].type != SYN_UNKNOWN ) { // don't test pTable, for a SYN_PROVIDE it will be empty
char *minor;
if ( !pServer->GetConfigForAPI( entries[i].api, &minor ) ) {
Syn_Printf( "GetConfigForAPI '%s' failed - invalid XML config file?\n", entries[i].api );
return false;
}
AddAPI( entries[i].api, minor, entries[i].size, entries[i].type, entries[i].pTable );
i++;
}
Syn_Printf( "%d dynamic interfaces parsed for '%s'\n", i, client_name );
return true;
}
void CSynapseClient::AddManager(CSynapseAPIManager *pManager)
{
pManager->IncRef();
if (pManager->GetType() == API_LIST)
mManagersList.push_back(pManager);
else
mManagersMatch.push_back(pManager);
}
CSynapseAPIManager::~CSynapseAPIManager()
{
vector<APIDescriptor_t *>::iterator iAPI;
for(iAPI=mAPIs.begin(); iAPI!=mAPIs.end(); iAPI++)
{
APIDescriptor_t *pAPI = *iAPI;
if (pAPI->mRefCount != 0)
{
Syn_Printf("WARNING: ~CSynapseAPIManager has non-zero ref count for interface '%s' '%s'\n", pAPI->major_name, pAPI->minor_name);
}
delete pAPI;
*iAPI = NULL;
}
}
APIDescriptor_t* CSynapseAPIManager::PrepareRequireAPI(APIDescriptor_t *pAPI)
{
#ifdef _DEBUG
if (pAPI->mType != SYN_PROVIDE)
{
Syn_Printf("ERROR: unexpected pAPI->mType != SYN_PROVIDE in CSynapseAPIManager::PrepareRequireAPI\n");
return NULL;
}
#endif
APIDescriptor_t *pRequireAPI = new APIDescriptor_t;
memcpy(pRequireAPI, pAPI, sizeof(APIDescriptor_t));
pRequireAPI->mType = SYN_REQUIRE_ANY;
pRequireAPI->mpTable = NULL;
pRequireAPI->mbTableInitDone = false;
pRequireAPI->mSize = 0; // this will have to be set correctly by the child for version checking
pRequireAPI->mRefCount = 0;
return pRequireAPI;
}
void CSynapseAPIManager::SetMatchAPI(const char *major, const char *minor)
{
if (strlen(minor)>MAX_PATTERN_STRING)
{
Syn_Printf("ERROR: MAX_TOKEN_STRING exceeded in CSynapseAPIManager::SetMatchAPI: '%s'\n", minor);
return;
}
strcpy(major_pattern, major);
strcpy(minor_pattern, minor);
if (strcmp(minor, "*"))
{
mType = API_LIST;
}
}
bool CSynapseAPIManager::MatchAPI(const char *major, const char *minor)
{
assert(mType == API_MATCH);
/*!
if this interface has been allocated already, avoid requesting it again..
*/
vector<APIDescriptor_t *>::iterator iAPI;
for(iAPI=mAPIs.begin(); iAPI!=mAPIs.end(); iAPI++)
{
if (CSynapseServer::MatchAPI((*iAPI)->major_name, (*iAPI)->minor_name, major, minor))
return false;
}
if (!strcmp(major, major_pattern))
return true;
return false;
}
bool CSynapseAPIManager::CheckSetActive()
{
if (mType == API_MATCH)
return false;
// mType == API_LIST
int i,max = GetAPICount();
for(i=0; i<max; i++)
{
if (!GetAPI(i)->mbTableInitDone)
return false;
}
return true;
}
void CSynapseAPIManager::InitializeAPIList()
{
char minor_tok[MAX_PATTERN_STRING];
char *token;
if (mAPIs.size())
{
Syn_Printf("WARNING: CSynapseAPIManager::InitializeAPIList on an already initialized APIManager\n");
return;
}
strncpy(minor_tok, minor_pattern, MAX_PATTERN_STRING);
token = strtok(minor_tok, " ");
while (token)
{
/* ask the child to build from scratch */
APIDescriptor_t *pAPI = new APIDescriptor_t;
memset(pAPI, 0, sizeof(APIDescriptor_t));
strncpy(pAPI->major_name, major_pattern, MAX_APINAME);
strncpy(pAPI->minor_name, token, MAX_APINAME);
pAPI->mType = SYN_REQUIRE_ANY;
FillAPITable(pAPI);
mAPIs.push_back(pAPI);
token = strtok(NULL, " ");
}
}
int CSynapseAPIManager::GetAPICount()
{
return mAPIs.size();
}
APIDescriptor_t* CSynapseAPIManager::GetAPI(int i)
{
return mAPIs[i];
}