639 lines
17 KiB
C++
639 lines
17 KiB
C++
/*
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www.sourceforge.net/projects/dfhack
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Copyright (c) 2009 Petr Mrázek (peterix), Kenneth Ferland (Impaler[WrG]), dorf
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This software is provided 'as-is', without any express or implied
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warranty. In no event will the authors be held liable for any
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damages arising from the use of this software.
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Permission is granted to anyone to use this software for any
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purpose, including commercial applications, and to alter it and
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redistribute it freely, subject to the following restrictions:
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1. The origin of this software must not be misrepresented; you must
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not claim that you wrote the original software. If you use this
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software in a product, an acknowledgment in the product documentation
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would be appreciated but is not required.
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2. Altered source versions must be plainly marked as such, and
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must not be misrepresented as being the original software.
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3. This notice may not be removed or altered from any source
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distribution.
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*/
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#include "DFCommonInternal.h"
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#include <errno.h>
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#include <sys/shm.h>
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#include <sys/types.h>
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#include <sys/ipc.h>
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#include <time.h>
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#include "../shmserver/shms.h"
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#include <sys/time.h>
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#include <time.h>
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using namespace DFHack;
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// a full memory barrier! better be safe than sorry.
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#define gcc_barrier asm volatile("" ::: "memory"); __sync_synchronize();
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class SHMProcess::Private
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{
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public:
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Private()
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{
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my_descriptor = NULL;
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my_pid = 0;
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my_shm = 0;
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my_shmid = -1;
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my_window = NULL;
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attached = false;
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suspended = false;
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identified = false;
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};
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~Private(){};
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memory_info * my_descriptor;
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DFWindow * my_window;
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pid_t my_pid;
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char *my_shm;
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int my_shmid;
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bool attached;
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bool suspended;
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bool identified;
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bool validate(char * exe_file, uint32_t pid, vector <memory_info> & known_versions);
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bool waitWhile (DF_PINGPONG state);
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bool DF_TestBridgeVersion(bool & ret);
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bool DF_GetPID(pid_t & ret);
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};
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bool SHMProcess::Private::waitWhile (DF_PINGPONG state)
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{
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uint32_t cnt = 0;
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struct shmid_ds descriptor;
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while (((shm_cmd *)my_shm)->pingpong == state)
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{
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if(cnt == 10000)
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{
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shmctl(my_shmid, IPC_STAT, &descriptor);
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if(descriptor.shm_nattch == 1)// DF crashed?
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{
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gcc_barrier
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((shm_cmd *)my_shm)->pingpong = DFPP_RUNNING;
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attached = suspended = false;
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return false;
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}
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else
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{
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cnt = 0;
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}
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}
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cnt++;
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}
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if(((shm_cmd *)my_shm)->pingpong == DFPP_SV_ERROR)
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{
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((shm_cmd *)my_shm)->pingpong = DFPP_RUNNING;
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attached = suspended = false;
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cerr << "shm server error!" << endl;
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assert (false);
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return false;
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}
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return true;
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}
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bool SHMProcess::Private::DF_TestBridgeVersion(bool & ret)
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{
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((shm_cmd *)my_shm)->pingpong = DFPP_VERSION;
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gcc_barrier
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if(!waitWhile(DFPP_VERSION))
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return false;
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gcc_barrier
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((shm_cmd *)my_shm)->pingpong = DFPP_SUSPENDED;
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ret =( ((shm_retval *)my_shm)->value == PINGPONG_VERSION );
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return true;
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}
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bool SHMProcess::Private::DF_GetPID(pid_t & ret)
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{
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((shm_cmd *)my_shm)->pingpong = DFPP_PID;
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gcc_barrier
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if(!waitWhile(DFPP_PID))
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return false;
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gcc_barrier
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((shm_cmd *)my_shm)->pingpong = DFPP_SUSPENDED;
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ret = ((shm_retval *)my_shm)->value;
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return true;
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}
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SHMProcess::SHMProcess(vector <memory_info> & known_versions)
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: d(new Private())
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{
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char exe_link_name [256];
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char target_name[1024];
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int target_result;
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/*
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* Locate the segment.
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*/
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if ((d->my_shmid = shmget(SHM_KEY, SHM_SIZE, 0666)) < 0)
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{
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return;
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}
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/*
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* Attach the segment
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*/
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if ((d->my_shm = (char *) shmat(d->my_shmid, NULL, 0)) == (char *) -1)
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{
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return;
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}
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/*
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* Check if there are two processes connected to the segment
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*/
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shmid_ds descriptor;
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shmctl(d->my_shmid, IPC_STAT, &descriptor);
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if(descriptor.shm_nattch != 2)// badness
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{
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fprintf(stderr,"dfhack: %d : invalid no. of processes connected\n", (int) descriptor.shm_nattch);
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fprintf(stderr,"detach: %d",shmdt(d->my_shm));
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return;
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}
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/*
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* Test bridge version, will also detect when we connect to something that doesn't respond
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*/
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bool bridgeOK;
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if(!d->DF_TestBridgeVersion(bridgeOK))
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{
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fprintf(stderr,"DF terminated during reading\n");
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return;
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}
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if(!bridgeOK)
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{
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fprintf(stderr,"SHM bridge version mismatch\n");
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return;
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}
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/*
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* get the PID from DF
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*/
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if(d->DF_GetPID(d->my_pid))
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{
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// find its binary
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sprintf(exe_link_name,"/proc/%d/exe", d->my_pid);
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target_result = readlink(exe_link_name, target_name, sizeof(target_name)-1);
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if (target_result == -1)
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{
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perror("readlink");
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return;
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}
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// make sure we have a null terminated string...
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// see http://www.opengroup.org/onlinepubs/000095399/functions/readlink.html
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target_name[target_result] = 0;
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// try to identify the DF version
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d->validate(target_name, d->my_pid, known_versions);
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d->my_window = new DFWindow(this);
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}
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gcc_barrier
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// at this point, DF is stopped and waiting for commands. make it run again
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((shm_cmd *)d->my_shm)->pingpong = DFPP_RUNNING;
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shmdt(d->my_shm); // detach so we don't attach twice when attach() is called
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}
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bool SHMProcess::isSuspended()
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{
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return d->suspended;
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}
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bool SHMProcess::isAttached()
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{
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return d->attached;
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}
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bool SHMProcess::isIdentified()
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{
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return d->identified;
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}
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bool SHMProcess::Private::validate(char * exe_file, uint32_t pid, vector <memory_info> & known_versions)
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{
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md5wrapper md5;
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// get hash of the running DF process
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string hash = md5.getHashFromFile(exe_file);
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vector<memory_info>::iterator it;
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cerr << exe_file << " " << hash << endl;
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// iterate over the list of memory locations
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for ( it=known_versions.begin() ; it < known_versions.end(); it++ )
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{
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if(hash == (*it).getString("md5")) // are the md5 hashes the same?
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{
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memory_info * m = &*it;
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my_descriptor = m;
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my_pid = pid;
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identified = true;
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cerr << "identified " << m->getVersion() << endl;
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return true;
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}
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}
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return false;
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}
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SHMProcess::~SHMProcess()
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{
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if(d->attached)
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{
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detach();
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}
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// destroy data model. this is assigned by processmanager
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if(d->my_window)
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{
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delete d->my_window;
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}
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if(d->my_shm)
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{
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fprintf(stderr,"detach: %d",shmdt(d->my_shm));
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}
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delete d;
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}
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memory_info * SHMProcess::getDescriptor()
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{
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return d->my_descriptor;
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}
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DFWindow * SHMProcess::getWindow()
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{
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return d->my_window;
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}
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int SHMProcess::getPID()
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{
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return d->my_pid;
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}
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//FIXME: implement
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bool SHMProcess::getThreadIDs(vector<uint32_t> & threads )
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{
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return false;
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}
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//FIXME: cross-reference with ELF segment entries?
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void SHMProcess::getMemRanges( vector<t_memrange> & ranges )
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{
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char buffer[1024];
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char permissions[5]; // r/-, w/-, x/-, p/s, 0
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sprintf(buffer, "/proc/%lu/maps", d->my_pid);
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FILE *mapFile = ::fopen(buffer, "r");
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uint64_t offset, device1, device2, node;
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while (fgets(buffer, 1024, mapFile))
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{
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t_memrange temp;
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temp.name[0] = 0;
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sscanf(buffer, "%llx-%llx %s %llx %2llu:%2llu %llu %s",
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&temp.start,
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&temp.end,
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(char*)&permissions,
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&offset, &device1, &device2, &node,
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(char*)&temp.name);
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temp.read = permissions[0] == 'r';
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temp.write = permissions[1] == 'w';
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temp.execute = permissions[2] == 'x';
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ranges.push_back(temp);
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}
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}
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bool SHMProcess::suspend()
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{
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if(!d->attached)
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{
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return false;
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}
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if(d->suspended)
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{
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return true;
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}
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((shm_cmd *)d->my_shm)->pingpong = DFPP_SUSPEND;
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if(!d->waitWhile(DFPP_SUSPEND))
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{
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return false;
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}
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d->suspended = true;
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return true;
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}
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bool SHMProcess::asyncSuspend()
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{
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if(!d->attached)
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{
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return false;
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}
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if(d->suspended)
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{
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return true;
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}
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if(((shm_cmd *)d->my_shm)->pingpong == DFPP_SUSPENDED)
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{
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d->suspended = true;
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return true;
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}
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else
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{
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((shm_cmd *)d->my_shm)->pingpong = DFPP_SUSPEND;
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return false;
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}
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}
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bool SHMProcess::forceresume()
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{
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return resume();
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}
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bool SHMProcess::resume()
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{
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if(!d->attached)
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return false;
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if(!d->suspended)
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return true;
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((shm_cmd *)d->my_shm)->pingpong = DFPP_RUNNING;
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d->suspended = false;
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return true;
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}
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bool SHMProcess::attach()
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{
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int status;
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if(g_pProcess != 0)
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{
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cerr << "there's already a different process attached" << endl;
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return false;
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}
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/*
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* Attach the segment
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*/
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if ((d->my_shm = (char *) shmat(d->my_shmid, NULL, 0)) != (char *) -1)
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{
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d->attached = true;
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if(suspend())
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{
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d->suspended = true;
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g_pProcess = this;
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return true;
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}
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d->attached = false;
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cerr << "unable to suspend" << endl;
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// FIXME: detach sehment here
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return false;
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}
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cerr << "unable to attach" << endl;
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return false;
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}
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bool SHMProcess::detach()
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{
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if(!d->attached)
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{
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return false;
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}
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if(d->suspended)
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{
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resume();
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}
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// detach segment
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if(shmdt(d->my_shm) != -1)
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{
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d->attached = false;
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d->suspended = false;
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g_pProcess = 0;
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return true;
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}
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// fail if we can't detach
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perror("failed to detach shared segment");
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return false;
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}
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void SHMProcess::read (uint32_t src_address, uint32_t size, uint8_t *target_buffer)
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{
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// normal read under 1MB
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if(size <= SHM_BODY)
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{
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((shm_read *)d->my_shm)->address = src_address;
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((shm_read *)d->my_shm)->length = size;
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gcc_barrier
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((shm_read *)d->my_shm)->pingpong = DFPP_READ;
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d->waitWhile(DFPP_READ);
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memcpy (target_buffer, d->my_shm + SHM_HEADER,size);
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}
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// a big read, we pull data over the shm in iterations
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else
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{
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// first read equals the size of the SHM window
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uint32_t to_read = SHM_BODY;
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while (size)
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{
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// read to_read bytes from src_cursor
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((shm_read *)d->my_shm)->address = src_address;
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((shm_read *)d->my_shm)->length = to_read;
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gcc_barrier
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((shm_read *)d->my_shm)->pingpong = DFPP_READ;
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d->waitWhile(DFPP_READ);
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memcpy (target_buffer, d->my_shm + SHM_HEADER,size);
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// decrease size by bytes read
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size -= to_read;
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// move the cursors
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src_address += to_read;
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target_buffer += to_read;
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// check how much to write in the next iteration
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to_read = min(size, (uint32_t) SHM_BODY);
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}
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}
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}
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uint8_t SHMProcess::readByte (const uint32_t offset)
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{
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((shm_read_small *)d->my_shm)->address = offset;
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gcc_barrier
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((shm_read_small *)d->my_shm)->pingpong = DFPP_READ_BYTE;
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d->waitWhile(DFPP_READ_BYTE);
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return ((shm_retval *)d->my_shm)->value;
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}
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void SHMProcess::readByte (const uint32_t offset, uint8_t &val )
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{
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((shm_read_small *)d->my_shm)->address = offset;
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gcc_barrier
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((shm_read_small *)d->my_shm)->pingpong = DFPP_READ_BYTE;
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d->waitWhile(DFPP_READ_BYTE);
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val = ((shm_retval *)d->my_shm)->value;
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}
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uint16_t SHMProcess::readWord (const uint32_t offset)
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{
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((shm_read_small *)d->my_shm)->address = offset;
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gcc_barrier
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((shm_read_small *)d->my_shm)->pingpong = DFPP_READ_WORD;
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d->waitWhile(DFPP_READ_WORD);
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return ((shm_retval *)d->my_shm)->value;
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}
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void SHMProcess::readWord (const uint32_t offset, uint16_t &val)
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{
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((shm_read_small *)d->my_shm)->address = offset;
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gcc_barrier
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((shm_read_small *)d->my_shm)->pingpong = DFPP_READ_WORD;
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d->waitWhile(DFPP_READ_WORD);
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val = ((shm_retval *)d->my_shm)->value;
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}
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uint32_t SHMProcess::readDWord (const uint32_t offset)
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{
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((shm_read_small *)d->my_shm)->address = offset;
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gcc_barrier
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((shm_read_small *)d->my_shm)->pingpong = DFPP_READ_DWORD;
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d->waitWhile(DFPP_READ_DWORD);
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return ((shm_retval *)d->my_shm)->value;
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}
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void SHMProcess::readDWord (const uint32_t offset, uint32_t &val)
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{
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((shm_read_small *)d->my_shm)->address = offset;
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gcc_barrier
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((shm_read_small *)d->my_shm)->pingpong = DFPP_READ_DWORD;
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d->waitWhile(DFPP_READ_DWORD);
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val = ((shm_retval *)d->my_shm)->value;
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}
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/*
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* WRITING
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*/
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void SHMProcess::writeDWord (uint32_t offset, uint32_t data)
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{
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((shm_write_small *)d->my_shm)->address = offset;
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((shm_write_small *)d->my_shm)->value = data;
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gcc_barrier
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((shm_write_small *)d->my_shm)->pingpong = DFPP_WRITE_DWORD;
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d->waitWhile(DFPP_WRITE_DWORD);
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}
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// using these is expensive.
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void SHMProcess::writeWord (uint32_t offset, uint16_t data)
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{
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((shm_write_small *)d->my_shm)->address = offset;
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((shm_write_small *)d->my_shm)->value = data;
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gcc_barrier
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((shm_write_small *)d->my_shm)->pingpong = DFPP_WRITE_WORD;
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d->waitWhile(DFPP_WRITE_WORD);
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}
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void SHMProcess::writeByte (uint32_t offset, uint8_t data)
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{
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((shm_write_small *)d->my_shm)->address = offset;
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((shm_write_small *)d->my_shm)->value = data;
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gcc_barrier
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((shm_write_small *)d->my_shm)->pingpong = DFPP_WRITE_BYTE;
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d->waitWhile(DFPP_WRITE_BYTE);
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}
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void SHMProcess::write (uint32_t dst_address, uint32_t size, uint8_t *source_buffer)
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{
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// normal write under 1MB
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if(size <= SHM_BODY)
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{
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((shm_write *)d->my_shm)->address = dst_address;
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((shm_write *)d->my_shm)->length = size;
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memcpy(d->my_shm+SHM_HEADER,source_buffer, size);
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gcc_barrier
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((shm_write *)d->my_shm)->pingpong = DFPP_WRITE;
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d->waitWhile(DFPP_WRITE);
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}
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// a big write, we push this over the shm in iterations
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else
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{
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// first write equals the size of the SHM window
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uint32_t to_write = SHM_BODY;
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while (size)
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{
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// write to_write bytes to dst_cursor
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((shm_write *)d->my_shm)->address = dst_address;
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((shm_write *)d->my_shm)->length = to_write;
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memcpy(d->my_shm+SHM_HEADER,source_buffer, to_write);
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gcc_barrier
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((shm_write *)d->my_shm)->pingpong = DFPP_WRITE;
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d->waitWhile(DFPP_WRITE);
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// decrease size by bytes written
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size -= to_write;
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// move the cursors
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source_buffer += to_write;
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dst_address += to_write;
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// check how much to write in the next iteration
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to_write = min(size, (uint32_t) SHM_BODY);
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}
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}
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}
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// FIXME: butt-fugly
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const std::string SHMProcess::readCString (uint32_t offset)
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{
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std::string temp;
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char temp_c[256];
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int counter = 0;
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char r;
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do
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{
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r = readByte(offset+counter);
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temp_c[counter] = r;
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counter++;
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} while (r && counter < 255);
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temp_c[counter] = 0;
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temp = temp_c;
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return temp;
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}
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DfVector SHMProcess::readVector (uint32_t offset, uint32_t item_size)
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{
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/*
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GNU libstdc++ vector is three pointers long
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ptr start
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ptr end
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ptr alloc_end
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|
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we don't care about alloc_end because we don't try to add stuff
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*/
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uint32_t start = g_pProcess->readDWord(offset);
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uint32_t end = g_pProcess->readDWord(offset+4);
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uint32_t size = (end - start) /4;
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return DfVector(start,size,item_size);
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}
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const std::string SHMProcess::readSTLString(uint32_t offset)
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{
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((shm_read_small *)d->my_shm)->address = offset;
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full_barrier
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((shm_read_small *)d->my_shm)->pingpong = DFPP_READ_STL_STRING;
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d->waitWhile(DFPP_READ_STL_STRING);
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//int length = ((shm_retval *)d->my_shm)->value;
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return(string( (char *)d->my_shm+SHM_HEADER));
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}
|
|
|
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size_t SHMProcess::readSTLString (uint32_t offset, char * buffer, size_t bufcapacity)
|
|
{
|
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((shm_read_small *)d->my_shm)->address = offset;
|
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full_barrier
|
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((shm_read_small *)d->my_shm)->pingpong = DFPP_READ_STL_STRING;
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d->waitWhile(DFPP_READ_STL_STRING);
|
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size_t length = ((shm_retval *)d->my_shm)->value;
|
|
size_t fit = min(bufcapacity - 1, length);
|
|
strncpy(buffer,(char *)d->my_shm+SHM_HEADER,fit);
|
|
buffer[fit] = 0;
|
|
return fit;
|
|
}
|
|
|
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void SHMProcess::writeSTLString(const uint32_t address, const std::string writeString)
|
|
{
|
|
((shm_write_small *)d->my_shm)->address = address;
|
|
strncpy(d->my_shm+SHM_HEADER,writeString.c_str(),writeString.length()+1); // length + 1 for the null terminator
|
|
full_barrier
|
|
((shm_write_small *)d->my_shm)->pingpong = DFPP_WRITE_STL_STRING;
|
|
d->waitWhile(DFPP_WRITE_STL_STRING);
|
|
} |