dfhack/library/DFProcess-windows.cpp

500 lines
14 KiB
C++

/*
www.sourceforge.net/projects/dfhack
Copyright (c) 2009 Petr Mrázek (peterix), Kenneth Ferland (Impaler[WrG]), dorf
This software is provided 'as-is', without any express or implied
warranty. In no event will the authors be held liable for any
damages arising from the use of this software.
Permission is granted to anyone to use this software for any
purpose, including commercial applications, and to alter it and
redistribute it freely, subject to the following restrictions:
1. The origin of this software must not be misrepresented; you must
not claim that you wrote the original software. If you use this
software in a product, an acknowledgment in the product documentation
would be appreciated but is not required.
2. Altered source versions must be plainly marked as such, and
must not be misrepresented as being the original software.
3. This notice may not be removed or altered from any source
distribution.
*/
#include "Internal.h"
#include "dfhack/DFProcess.h"
#include "dfhack/VersionInfo.h"
#include "dfhack/DFError.h"
using namespace DFHack;
class NormalProcess::Private
{
public:
Private()
{
my_descriptor = NULL;
my_handle = NULL;
my_main_thread = NULL;
my_pid = 0;
attached = false;
suspended = false;
};
~Private(){};
VersionInfo * my_descriptor;
HANDLE my_handle;
HANDLE my_main_thread;
uint32_t my_pid;
string memFile;
bool attached;
bool suspended;
bool identified;
uint32_t STLSTR_buf_off;
uint32_t STLSTR_size_off;
uint32_t STLSTR_cap_off;
};
NormalProcess::NormalProcess(uint32_t pid, vector <VersionInfo *> & known_versions)
: d(new Private())
{
HMODULE hmod = NULL;
DWORD junk;
HANDLE hProcess;
bool found = false;
IMAGE_NT_HEADERS32 pe_header;
IMAGE_SECTION_HEADER sections[16];
d->identified = false;
// open process
hProcess = OpenProcess( PROCESS_ALL_ACCESS, FALSE, pid );
if (NULL == hProcess)
return;
// try getting the first module of the process
if(EnumProcessModules(hProcess, &hmod, 1 * sizeof(HMODULE), &junk) == 0)
{
CloseHandle(hProcess);
// cout << "EnumProcessModules fail'd" << endl;
return; //if enumprocessModules fails, give up
}
// got base ;)
uint32_t base = (uint32_t)hmod;
// temporarily assign this to allow some checks
d->my_handle = hProcess;
d->my_main_thread = 0;
// read from this process
try
{
uint32_t pe_offset = readDWord(base+0x3C);
read(base + pe_offset , sizeof(pe_header), (uint8_t *)&pe_header);
read(base + pe_offset+ sizeof(pe_header), sizeof(sections) , (uint8_t *)&sections );
d->my_handle = 0;
}
catch (exception &)
{
CloseHandle(hProcess);
d->my_handle = 0;
return;
}
// see if there's a version entry that matches this process
vector<VersionInfo*>::iterator it;
for ( it=known_versions.begin() ; it < known_versions.end(); it++ )
{
// filter by OS
if(VersionInfo::OS_WINDOWS != (*it)->getOS())
continue;
uint32_t pe_timestamp;
// filter by timestamp, skip entries without a timestamp
try
{
pe_timestamp = (*it)->getPE();
}
catch(Error::MissingMemoryDefinition&)
{
continue;
}
if (pe_timestamp != pe_header.FileHeader.TimeDateStamp)
continue;
// all went well
{
printf("Match found! Using version %s.\n", (*it)->getVersion().c_str());
d->identified = true;
// give the process a data model and memory layout fixed for the base of first module
VersionInfo *m = new VersionInfo(**it);
m->RebaseAll(base);
// keep track of created memory_info object so we can destroy it later
d->my_descriptor = m;
m->setParentProcess(this);
// process is responsible for destroying its data model
d->my_pid = pid;
d->my_handle = hProcess;
d->identified = true;
// TODO: detect errors in thread enumeration
vector<uint32_t> threads;
getThreadIDs( threads );
d->my_main_thread = OpenThread(THREAD_ALL_ACCESS, FALSE, (DWORD) threads[0]);
OffsetGroup * strGrp = m->getGroup("string")->getGroup("MSVC");
d->STLSTR_buf_off = strGrp->getOffset("buffer");
d->STLSTR_size_off = strGrp->getOffset("size");
d->STLSTR_cap_off = strGrp->getOffset("capacity");
found = true;
break; // break the iterator loop
}
}
// close handle of processes that aren't DF
if(!found)
{
CloseHandle(hProcess);
}
}
/*
*/
NormalProcess::~NormalProcess()
{
if(d->attached)
{
detach();
}
// destroy our rebased copy of the memory descriptor
delete d->my_descriptor;
if(d->my_handle != NULL)
{
CloseHandle(d->my_handle);
}
if(d->my_main_thread != NULL)
{
CloseHandle(d->my_main_thread);
}
delete d;
}
VersionInfo * NormalProcess::getDescriptor()
{
return d->my_descriptor;
}
int NormalProcess::getPID()
{
return d->my_pid;
}
bool NormalProcess::isSuspended()
{
return d->suspended;
}
bool NormalProcess::isAttached()
{
return d->attached;
}
bool NormalProcess::isIdentified()
{
return d->identified;
}
bool NormalProcess::asyncSuspend()
{
return suspend();
}
bool NormalProcess::suspend()
{
if(!d->attached)
return false;
if(d->suspended)
{
return true;
}
SuspendThread(d->my_main_thread);
d->suspended = true;
return true;
}
bool NormalProcess::forceresume()
{
if(!d->attached)
return false;
while (ResumeThread(d->my_main_thread) > 1);
d->suspended = false;
return true;
}
bool NormalProcess::resume()
{
if(!d->attached)
return false;
if(!d->suspended)
{
return true;
}
ResumeThread(d->my_main_thread);
d->suspended = false;
return true;
}
bool NormalProcess::attach()
{
if(d->attached)
{
if(!d->suspended)
return suspend();
return true;
}
d->attached = true;
suspend();
return true;
}
bool NormalProcess::detach()
{
if(!d->attached) return true;
resume();
d->attached = false;
return true;
}
bool NormalProcess::getThreadIDs(vector<uint32_t> & threads )
{
HANDLE AllThreads = INVALID_HANDLE_VALUE;
THREADENTRY32 te32;
AllThreads = CreateToolhelp32Snapshot( TH32CS_SNAPTHREAD, 0 );
if( AllThreads == INVALID_HANDLE_VALUE )
{
return false;
}
te32.dwSize = sizeof(THREADENTRY32 );
if( !Thread32First( AllThreads, &te32 ) )
{
CloseHandle( AllThreads );
return false;
}
do
{
if( te32.th32OwnerProcessID == d->my_pid )
{
threads.push_back(te32.th32ThreadID);
}
} while( Thread32Next(AllThreads, &te32 ) );
CloseHandle( AllThreads );
return true;
}
//FIXME: use VirtualQuery to probe for memory ranges, cross-reference with base-corrected PE segment entries
void NormalProcess::getMemRanges( vector<t_memrange> & ranges )
{
// code here is taken from hexsearch by Silas Dunmore.
// As this IMHO isn't a 'sunstantial portion' of anything, I'm not including the MIT license here
// I'm faking this, because there's no way I'm using VirtualQuery
t_memrange temp;
uint32_t base = d->my_descriptor->getBase();
temp.start = base + 0x1000; // more fakery.
temp.end = base + readDWord(base+readDWord(base+0x3C)+0x50)-1; // yay for magic.
temp.read = 1;
temp.write = 1;
temp.execute = 0; // fake
strcpy(temp.name,"pants");// that's right. I'm calling it pants. Windows can go to HELL
ranges.push_back(temp);
}
uint8_t NormalProcess::readByte (const uint32_t offset)
{
uint8_t result;
if(!ReadProcessMemory(d->my_handle, (int*) offset, &result, sizeof(uint8_t), NULL))
throw Error::MemoryAccessDenied();
return result;
}
void NormalProcess::readByte (const uint32_t offset,uint8_t &result)
{
if(!ReadProcessMemory(d->my_handle, (int*) offset, &result, sizeof(uint8_t), NULL))
throw Error::MemoryAccessDenied();
}
uint16_t NormalProcess::readWord (const uint32_t offset)
{
uint16_t result;
if(!ReadProcessMemory(d->my_handle, (int*) offset, &result, sizeof(uint16_t), NULL))
throw Error::MemoryAccessDenied();
return result;
}
void NormalProcess::readWord (const uint32_t offset, uint16_t &result)
{
if(!ReadProcessMemory(d->my_handle, (int*) offset, &result, sizeof(uint16_t), NULL))
throw Error::MemoryAccessDenied();
}
uint32_t NormalProcess::readDWord (const uint32_t offset)
{
uint32_t result;
if(!ReadProcessMemory(d->my_handle, (int*) offset, &result, sizeof(uint32_t), NULL))
throw Error::MemoryAccessDenied();
return result;
}
void NormalProcess::readDWord (const uint32_t offset, uint32_t &result)
{
if(!ReadProcessMemory(d->my_handle, (int*) offset, &result, sizeof(uint32_t), NULL))
throw Error::MemoryAccessDenied();
}
uint64_t NormalProcess::readQuad (const uint32_t offset)
{
uint64_t result;
if(!ReadProcessMemory(d->my_handle, (int*) offset, &result, sizeof(uint64_t), NULL))
throw Error::MemoryAccessDenied();
return result;
}
void NormalProcess::readQuad (const uint32_t offset, uint64_t &result)
{
if(!ReadProcessMemory(d->my_handle, (int*) offset, &result, sizeof(uint64_t), NULL))
throw Error::MemoryAccessDenied();
}
float NormalProcess::readFloat (const uint32_t offset)
{
float result;
if(!ReadProcessMemory(d->my_handle, (int*) offset, &result, sizeof(float), NULL))
throw Error::MemoryAccessDenied();
return result;
}
void NormalProcess::readFloat (const uint32_t offset, float &result)
{
if(!ReadProcessMemory(d->my_handle, (int*) offset, &result, sizeof(float), NULL))
throw Error::MemoryAccessDenied();
}
void NormalProcess::read (const uint32_t offset, uint32_t size, uint8_t *target)
{
if(!ReadProcessMemory(d->my_handle, (int*) offset, target, size, NULL))
throw Error::MemoryAccessDenied();
}
// WRITING
void NormalProcess::writeQuad (const uint32_t offset, uint64_t data)
{
if(!WriteProcessMemory(d->my_handle, (int*) offset, &data, sizeof(data), NULL))
throw Error::MemoryAccessDenied();
}
void NormalProcess::writeDWord (const uint32_t offset, uint32_t data)
{
if(!WriteProcessMemory(d->my_handle, (int*) offset, &data, sizeof(data), NULL))
throw Error::MemoryAccessDenied();
}
// using these is expensive.
void NormalProcess::writeWord (uint32_t offset, uint16_t data)
{
if(!WriteProcessMemory(d->my_handle, (int*) offset, &data, sizeof(data), NULL))
throw Error::MemoryAccessDenied();
}
void NormalProcess::writeByte (uint32_t offset, uint8_t data)
{
if(!WriteProcessMemory(d->my_handle, (int*) offset, &data, sizeof(data), NULL))
throw Error::MemoryAccessDenied();
}
void NormalProcess::write (uint32_t offset, uint32_t size, uint8_t *source)
{
if(!WriteProcessMemory(d->my_handle, (int*) offset, source, size, NULL))
throw Error::MemoryAccessDenied();
}
///FIXME: reduce use of temporary objects
const string NormalProcess::readCString (const uint32_t offset)
{
string temp;
char temp_c[256];
SIZE_T read;
if(!ReadProcessMemory(d->my_handle, (int *) offset, temp_c, 254, &read))
throw Error::MemoryAccessDenied();
// needs to be 254+1 byte for the null term
temp_c[read+1] = 0;
temp.assign(temp_c);
return temp;
}
size_t NormalProcess::readSTLString (uint32_t offset, char * buffer, size_t bufcapacity)
{
uint32_t start_offset = offset + d->STLSTR_buf_off;
size_t length = readDWord(offset + d->STLSTR_size_off);
size_t capacity = readDWord(offset + d->STLSTR_cap_off);
size_t read_real = min(length, bufcapacity-1);// keep space for null termination
// read data from inside the string structure
if(capacity < 16)
{
read(start_offset, read_real , (uint8_t *)buffer);
}
else // read data from what the offset + 4 dword points to
{
start_offset = readDWord(start_offset);// dereference the start offset
read(start_offset, read_real, (uint8_t *)buffer);
}
buffer[read_real] = 0;
return read_real;
}
const string NormalProcess::readSTLString (uint32_t offset)
{
uint32_t start_offset = offset + d->STLSTR_buf_off;
size_t length = readDWord(offset + d->STLSTR_size_off);
size_t capacity = readDWord(offset + d->STLSTR_cap_off);
char * temp = new char[capacity+1];
// read data from inside the string structure
if(capacity < 16)
{
read(start_offset, capacity, (uint8_t *)temp);
}
else // read data from what the offset + 4 dword points to
{
start_offset = readDWord(start_offset);// dereference the start offset
read(start_offset, capacity, (uint8_t *)temp);
}
temp[length] = 0;
string ret = temp;
delete temp;
return ret;
}
string NormalProcess::readClassName (uint32_t vptr)
{
int rtti = readDWord(vptr - 0x4);
int typeinfo = readDWord(rtti + 0xC);
string raw = readCString(typeinfo + 0xC); // skips the .?AV
raw.resize(raw.length() - 2);// trim @@ from end
return raw;
}
string NormalProcess::getPath()
{
HMODULE hmod;
DWORD junk;
char String[255];
EnumProcessModules(d->my_handle, &hmod, 1 * sizeof(HMODULE), &junk); //get the module from the handle
GetModuleFileNameEx(d->my_handle,hmod,String,sizeof(String)); //get the filename from the module
string out(String);
return(out.substr(0,out.find_last_of("\\")));
}