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NidMgr.C
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NidMgr.C
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/***************************************************************
* PRXTool : Utility for PSP executables.
* (c) TyRaNiD 2k5
*
* NidMgr.C - Implementation of a class to manipulate a list
* of NID Libraries.
***************************************************************/
#include <stdlib.h>
#include <tinyxml/tinyxml.h>
#include "output.h"
#include "NidMgr.h"
#include "prxtypes.h"
struct SyslibEntry
{
unsigned int nid;
const char *name;
};
static SyslibEntry g_syslib[] = {
{ 0xd3744be0, "module_bootstart" },
{ 0xf01d73a7, "module_info" },
{ 0x2f064fa6, "module_reboot_before" },
{ 0xadf12745, "module_reboot_phase" },
{ 0xd632acdb, "module_start" },
{ 0x0f7c276c, "module_start_thread_parameter" },
{ 0xcee8593c, "module_stop" },
{ 0xcf0cc697, "module_stop_thread_parameter" },
{ 0x11b97506, "module_sdk_version" },
};
#define MASTER_NID_MAPPER "MasterNidMapper"
/* Default constructor */
CNidMgr::CNidMgr()
: m_pLibHead(NULL), m_pMasterNids(NULL)
{
}
/* Destructor */
CNidMgr::~CNidMgr()
{
FreeMemory();
}
/* Free allocated memory */
void CNidMgr::FreeMemory()
{
LibraryEntry* pLib;
pLib = m_pLibHead;
while(pLib != NULL)
{
LibraryEntry* pNext;
pNext = pLib->pNext;
if(pLib->pNids != NULL)
{
delete pLib->pNids;
pLib->pNids = NULL;
}
delete pLib;
pLib = pNext;
}
m_pLibHead = NULL;
for(unsigned int i = 0; i < m_funcMap.size(); i++)
{
FunctionType *p;
p = m_funcMap[i];
if(p)
{
delete p;
}
}
}
/* Generate a simple name based on the library and the nid */
const char *CNidMgr::GenName(const char *lib, u32 nid)
{
if(lib == NULL)
{
snprintf(m_szCurrName, LIB_SYMBOL_NAME_MAX, "syslib_%08X", nid);
}
else
{
snprintf(m_szCurrName, LIB_SYMBOL_NAME_MAX, "%s_%08X", lib, nid);
}
return m_szCurrName;
}
/* Search the NID list for a function and return the name */
const char *CNidMgr::SearchLibs(const char *lib, u32 nid)
{
const char *pName = NULL;
LibraryEntry *pLib;
if(m_pMasterNids)
{
pLib = m_pMasterNids;
}
else
{
pLib = m_pLibHead;
}
/* Very lazy, could be sped up using a hash table */
while(pLib != NULL)
{
if((strcmp(lib, pLib->lib_name) == 0) || (m_pMasterNids))
{
int iNidLoop;
for(iNidLoop = 0; iNidLoop < pLib->entry_count; iNidLoop++)
{
if(pLib->pNids[iNidLoop].nid == nid)
{
pName = pLib->pNids[iNidLoop].name;
COutput::Printf(LEVEL_DEBUG, "Using %s, nid %08X\n", pName, nid);
break;
}
}
if(pName != NULL)
{
break;
}
}
if(m_pMasterNids)
{
pLib = NULL;
}
else
{
pLib = pLib->pNext;
}
}
if(pName == NULL)
{
/* First check special case system library stuff */
if(strcmp(lib, PSP_SYSTEM_EXPORT) == 0)
{
int size;
int i;
size = sizeof(g_syslib) / sizeof(SyslibEntry);
for(i = 0; i < size; i++)
{
if(nid == g_syslib[i].nid)
{
pName = g_syslib[i].name;
break;
}
}
}
if(pName == NULL)
{
COutput::Puts(LEVEL_DEBUG, "Using default name");
pName = GenName(lib, nid);
}
}
return pName;
}
/* Read the NID data from the XML file */
const char* CNidMgr::ReadNid(TiXmlElement *pElement, u32 &nid)
{
TiXmlHandle nidHandle(pElement);
TiXmlText *pNid;
TiXmlText *pName;
const char* szName;
szName = NULL;
pNid = nidHandle.FirstChild("NID").FirstChild().Text();
pName = nidHandle.FirstChild("NAME").FirstChild().Text();
if((pNid != NULL) && (pName != NULL))
{
nid = strtoul(pNid->Value(), NULL, 16);
szName = pName->Value();
}
return szName;
}
/* Count the number of nids in the current element */
int CNidMgr::CountNids(TiXmlElement *pElement, const char *name)
{
TiXmlElement *pIterator;
u32 nid;
int iCount = 0;
pIterator = pElement;
while(pIterator != NULL)
{
if(ReadNid(pIterator, nid) != NULL)
{
iCount++;
}
pIterator = pIterator->NextSiblingElement(name);
}
return iCount;
}
/* Process a library XML element */
void CNidMgr::ProcessLibrary(TiXmlElement *pLibrary, const char *prx_name, const char *prx)
{
TiXmlHandle libHandle(pLibrary);
TiXmlText *elmName;
TiXmlText *elmFlags;
TiXmlElement *elmFunction;
TiXmlElement *elmVariable;
int fCount;
int vCount;
bool blMasterNids = false;
assert(prx_name != NULL);
assert(prx != NULL);
elmName = libHandle.FirstChild("NAME").FirstChild().Text();
elmFlags = libHandle.FirstChild("FLAGS").FirstChild().Text();
if(elmName)
{
LibraryEntry *pLib;
COutput::Printf(LEVEL_DEBUG, "Library %s\n", elmName->Value());
SAFE_ALLOC(pLib, LibraryEntry);
if(pLib != NULL)
{
memset(pLib, 0, sizeof(LibraryEntry));
strcpy(pLib->lib_name, elmName->Value());
if(strcmp(pLib->lib_name, MASTER_NID_MAPPER) == 0)
{
blMasterNids = true;
COutput::Printf(LEVEL_DEBUG, "Found master NID table\n");
}
if(elmFlags)
{
pLib->flags = strtoul(elmFlags->Value(), NULL, 16);
}
strcpy(pLib->prx_name, prx_name);
strcpy(pLib->prx, prx);
elmFunction = libHandle.FirstChild("FUNCTIONS").FirstChild("FUNCTION").Element();
elmVariable = libHandle.FirstChild("VARIABLES").FirstChild("VARIABLE").Element();
fCount = CountNids(elmFunction, "FUNCTION");
vCount = CountNids(elmVariable, "VARIABLE");
pLib->vcount = vCount;
pLib->fcount = fCount;
if((fCount+vCount) > 0)
{
SAFE_ALLOC(pLib->pNids, LibraryNid[vCount+fCount]);
if(pLib->pNids != NULL)
{
int iLoop;
const char *pName;
memset(pLib->pNids, 0, sizeof(LibraryNid) * (vCount+fCount));
pLib->entry_count = vCount + fCount;
iLoop = 0;
while(elmFunction != NULL)
{
pName = ReadNid(elmFunction, pLib->pNids[iLoop].nid);
if(pName)
{
pLib->pNids[iLoop].pParentLib = pLib;
strcpy(pLib->pNids[iLoop].name, pName);
COutput::Printf(LEVEL_DEBUG, "Read func:%s nid:0x%08X\n", pLib->pNids[iLoop].name, pLib->pNids[iLoop].nid);
iLoop++;
}
elmFunction = elmFunction->NextSiblingElement("FUNCTION");
}
while(elmVariable != NULL)
{
pName = ReadNid(elmVariable, pLib->pNids[iLoop].nid);
if(pName)
{
strcpy(pLib->pNids[iLoop].name, pName);
COutput::Printf(LEVEL_DEBUG, "Read var:%s nid:0x%08X\n", pLib->pNids[iLoop].name, pLib->pNids[iLoop].nid);
iLoop++;
}
elmVariable = elmVariable->NextSiblingElement("VARIABLE");
}
}
}
/* Link into list */
if(m_pLibHead == NULL)
{
m_pLibHead = pLib;
}
else
{
pLib->pNext = m_pLibHead;
m_pLibHead = pLib;
}
if(blMasterNids)
{
m_pMasterNids = pLib;
}
}
/* Allocate library memory */
}
}
/* Process a PRXFILE XML element */
void CNidMgr::ProcessPrxfile(TiXmlElement *pPrxfile)
{
TiXmlHandle prxHandle(pPrxfile);
TiXmlElement *elmLibrary;
TiXmlText *txtName;
TiXmlText *txtPrx;
const char *szPrx;
txtPrx = prxHandle.FirstChild("PRX").FirstChild().Text();
txtName = prxHandle.FirstChild("PRXNAME").FirstChild().Text();
elmLibrary = prxHandle.FirstChild("LIBRARIES").FirstChild("LIBRARY").Element();
while(elmLibrary)
{
COutput::Puts(LEVEL_DEBUG, "Found LIBRARY");
if(txtPrx == NULL)
{
szPrx = "unknown.prx";
}
else
{
szPrx = txtPrx->Value();
}
if(txtName != NULL)
{
ProcessLibrary(elmLibrary, txtName->Value(), szPrx);
}
elmLibrary = elmLibrary->NextSiblingElement("LIBRARY");
}
}
/* Add an XML file to the current library list */
bool CNidMgr::AddXmlFile(const char *szFilename)
{
TiXmlDocument doc(szFilename);
bool blRet = false;
if(doc.LoadFile())
{
COutput::Printf(LEVEL_DEBUG, "Loaded XML file %s", szFilename);
TiXmlHandle docHandle(&doc);
TiXmlElement *elmPrxfile;
elmPrxfile = docHandle.FirstChild("PSPLIBDOC").FirstChild("PRXFILES").FirstChild("PRXFILE").Element();
while(elmPrxfile)
{
COutput::Puts(LEVEL_DEBUG, "Found PRXFILE");
ProcessPrxfile(elmPrxfile);
elmPrxfile = elmPrxfile->NextSiblingElement("PRXFILE");
}
blRet = true;
}
else
{
COutput::Printf(LEVEL_ERROR, "Couldn't load xml file %s\n", szFilename);
}
return blRet;
}
/* Find the name based on our list of names */
const char *CNidMgr::FindLibName(const char *lib, u32 nid)
{
return SearchLibs(lib, nid);
}
LibraryEntry *CNidMgr::GetLibraries(void)
{
return m_pLibHead;
}
/* Find the name of the dependany library for a specified lib */
const char *CNidMgr::FindDependancy(const char *lib)
{
LibraryEntry *pLib;
pLib = m_pLibHead;
while(pLib != NULL)
{
if(strcmp(pLib->lib_name, lib) == 0)
{
return pLib->prx;
}
pLib = pLib->pNext;
}
return NULL;
}
static char *strip_whitesp(char *str)
{
int len;
while(isspace(*str))
{
str++;
}
len = strlen(str);
while((len > 0) && (isspace(str[len-1])))
{
str[len-1] = 0;
len--;
}
if(len == 0)
{
return NULL;
}
return str;
}
bool CNidMgr::AddFunctionFile(const char *szFilename)
{
FILE *fp;
fp = fopen(szFilename, "r");
if(fp)
{
char line[1024];
while(fgets(line, sizeof(line), fp))
{
char *name;
char *args = NULL;
char *ret = NULL;
name = strip_whitesp(line);
if(name == NULL)
{
continue;
}
args = strchr(name, '|');
if(args)
{
*args++ = 0;
ret = strchr(args, '|');
if(ret)
{
*ret++ = 0;
}
}
if((name) && (name[0] != '#'))
{
FunctionType *p = new FunctionType;
memset(p, 0, sizeof(FunctionType));
snprintf(p->name, FUNCTION_NAME_MAX, "%s", name);
if(args)
{
snprintf(p->args, FUNCTION_ARGS_MAX, "%s", args);
}
if(ret)
{
snprintf(p->ret, FUNCTION_RET_MAX, "%s", ret);
}
m_funcMap.insert(m_funcMap.end(), p);
COutput::Printf(LEVEL_DEBUG, "Function: %s %s(%s)\n", p->ret, p->name, p->args);
}
}
fclose(fp);
return true;
}
return false;
}
FunctionType *CNidMgr::FindFunctionType(const char *name)
{
FunctionType *ret = NULL;
for(unsigned int i = 0; i < m_funcMap.size(); i++)
{
FunctionType *p = NULL;
p = m_funcMap[i];
if((p) && (strcmp(name, p->name) == 0))
{
ret = p;
break;
}
}
return ret;
}