/* www.sourceforge.net/projects/dfhack Copyright (c) 2009 Petr Mrázek (peterix) 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. */ /** * This is the source for the DF <-> dfhack shm bridge's core module. */ #include #include "../include/DFIntegers.h" #include #include #include #include #define SHM_INTERNAL // for things only visible to the SHM #include "shms.h" #include "mod-core.h" #include "mod-maps.h" #include "mod-creature40d.h" std::vector module_registry; // shared by shms_OS extern int errorstate; extern char *shm; extern int shmid; // file-globals bool useYield = 0; int currentClient = -1; #define SHMHDR ((shm_core_hdr *)shm) #define SHMCMD ((uint32_t *)shm )[currentClient] #define SHMDATA(type) ((type *)(shm + SHM_HEADER)) void ReadRaw (void * data) { memcpy(SHMDATA(void), (void *) SHMHDR->address,SHMHDR->length); } void ReadQuad (void * data) { SHMHDR->Qvalue = *((uint64_t*) SHMHDR->address); } void ReadDWord (void * data) { SHMHDR->value = *((uint32_t*) SHMHDR->address); } void ReadWord (void * data) { SHMHDR->value = *((uint16_t*) SHMHDR->address); } void ReadByte (void * data) { SHMHDR->value = *((uint8_t*) SHMHDR->address); } void WriteRaw (void * data) { memcpy((void *)SHMHDR->address, SHMDATA(void),SHMHDR->length); } void WriteQuad (void * data) { (*(uint64_t*)SHMHDR->address) = SHMHDR->Qvalue; } void WriteDWord (void * data) { (*(uint32_t*)SHMHDR->address) = SHMHDR->value; } void WriteWord (void * data) { (*(uint16_t*)SHMHDR->address) = SHMHDR->value; } void WriteByte (void * data) { (*(uint8_t*)SHMHDR->address) = SHMHDR->value; } void ReadSTLString (void * data) { std::string * myStringPtr = (std::string *) SHMHDR->address; unsigned int l = myStringPtr->length(); SHMHDR->value = l; // FIXME: there doesn't have to be a null terminator! strncpy( SHMDATA(char),myStringPtr->c_str(),l+1); } void WriteSTLString (void * data) { std::string * myStringPtr = (std::string *) SHMHDR->address; // here we DO expect a 0 terminator myStringPtr->assign( SHMDATA(const char) ); } // MIT HAKMEM bitcount int bitcount(uint32_t n) { register uint32_t tmp; tmp = n - ((n >> 1) & 033333333333) - ((n >> 2) & 011111111111); return ((tmp + (tmp >> 3)) & 030707070707) % 63; } // get local and remote affinity, set up yield if required (single core available) void CoreAttach (void * data) { // sync affinity uint32_t local = OS_getAffinity(); uint32_t remote = SHMDATA(coreattach)->cl_affinity; uint32_t pool = local | remote; SHMDATA(coreattach)->sv_useYield = useYield = (bitcount(pool) == 1); // return our PID SHMDATA(coreattach)->sv_PID = OS_getPID(); // return core version SHMDATA(coreattach)->sv_version = module_registry[0].version; } void FindModule (void * data) { bool found = false; modulelookup * payload = SHMDATA(modulelookup); std::string test = payload->name; uint32_t version = payload->version; for(unsigned int i = 0; i < module_registry.size();i++) { if(module_registry[i].name == test && module_registry[i].version == version) { // gotcha SHMHDR->value = i; found = true; break; } } SHMHDR->error = !found; } void FindCommand (void * data) { bool found = false; commandlookup * payload = SHMDATA(commandlookup); std::string modname = payload->module; std::string cmdname = payload->name; uint32_t version = payload->version; for(unsigned int i = 0; i < module_registry.size();i++) { if(module_registry[i].name == modname && module_registry[i].version == version) { for(unsigned int j = 0 ; j < module_registry[i].commands.size();j++) { if(module_registry[i].commands[j].name == cmdname) { // gotcha SHMHDR->value = j + (i << 16); SHMHDR->error = false; return; } } } } SHMHDR->error = true; } void ReleaseSuspendLock( void * data ) { OS_releaseSuspendLock(currentClient); } void AcquireSuspendLock( void * data ) { OS_lockSuspendLock(currentClient); } DFPP_module InitCore(void) { DFPP_module core; core.name = "Core"; core.version = CORE_VERSION; core.modulestate = 0; // this one is dumb and has no real state core.reserve(NUM_CORE_CMDS); // basic states core.set_command(CORE_RUNNING, CANCELLATION, "Running"); //core.set_command(CORE_RUN, FUNCTION, "Run!",AcquireSuspendLock,CORE_RUNNING); core.set_command(CORE_RUN, CANCELLATION, "Run!",0,CORE_RUNNING); core.set_command(CORE_STEP, CANCELLATION, "Suspend on next step",0,CORE_SUSPEND);// set command to CORE_SUSPEND, check next client core.set_command(CORE_SUSPEND, FUNCTION, "Suspend", ReleaseSuspendLock , CORE_SUSPENDED, LOCKING_LOCKS); core.set_command(CORE_SUSPENDED, CLIENT_WAIT, "Suspended"); core.set_command(CORE_ERROR, CANCELLATION, "Error"); // utility commands core.set_command(CORE_ATTACH, FUNCTION,"Core attach",CoreAttach, CORE_SUSPENDED); core.set_command(CORE_ACQUIRE_MODULE, FUNCTION, "Module lookup", FindModule, CORE_SUSPENDED); core.set_command(CORE_ACQUIRE_COMMAND, FUNCTION, "Command lookup", FindCommand, CORE_SUSPENDED); // raw reads core.set_command(CORE_READ, FUNCTION,"Raw read",ReadRaw, CORE_SUSPENDED); core.set_command(CORE_READ_QUAD, FUNCTION,"Read QUAD",ReadQuad, CORE_SUSPENDED); core.set_command(CORE_READ_DWORD, FUNCTION,"Read DWORD",ReadDWord, CORE_SUSPENDED); core.set_command(CORE_READ_WORD, FUNCTION,"Read WORD",ReadWord, CORE_SUSPENDED); core.set_command(CORE_READ_BYTE, FUNCTION,"Read BYTE",ReadByte, CORE_SUSPENDED); // raw writes core.set_command(CORE_WRITE, FUNCTION, "Raw write", WriteRaw, CORE_SUSPENDED); core.set_command(CORE_WRITE_QUAD, FUNCTION, "Write QUAD", WriteQuad, CORE_SUSPENDED); core.set_command(CORE_WRITE_DWORD, FUNCTION, "Write DWORD", WriteDWord, CORE_SUSPENDED); core.set_command(CORE_WRITE_WORD, FUNCTION, "Write WORD", WriteWord, CORE_SUSPENDED); core.set_command(CORE_WRITE_BYTE, FUNCTION, "Write BYTE", WriteByte, CORE_SUSPENDED); // stl string commands core.set_command(CORE_READ_STL_STRING, FUNCTION, "Read STL string", ReadSTLString, CORE_SUSPENDED); core.set_command(CORE_READ_C_STRING, CLIENT_WAIT, "RESERVED"); core.set_command(CORE_WRITE_STL_STRING, FUNCTION, "Write STL string", WriteSTLString, CORE_SUSPENDED); return core; } void InitModules (void) { // create the core module module_registry.push_back(InitCore()); module_registry.push_back(DFHack::Server::Maps::Init()); //module_registry.push_back(DFHack::Server::Creatures::Init()); for(int i = 0; i < module_registry.size();i++) { fprintf(stderr,"Initialized module %s, version %d\n",module_registry[i].name.c_str(),module_registry[i].version); } // TODO: dynamic module init } void KillModules (void) { for(unsigned int i = 0; i < module_registry.size();i++) { if(module_registry[i].modulestate) free(module_registry[i].modulestate); } module_registry.clear(); } void SHM_Act (void) { volatile uint32_t atomic = 0; if(errorstate) { return; } //static uint oldcl = 88; for(currentClient = 0; currentClient < SHM_MAX_CLIENTS;currentClient++) { // set the offset for the shared memory used for the client uint32_t numwaits = 0; check_again: // goto target!!! if(numwaits == 10000) { // this tests if there's a process on the other side if(isValidSHM(currentClient)) { numwaits = 0; } else { full_barrier SHMCMD = CORE_RUNNING; fprintf(stderr,"dfhack: Broke out of loop, other process disappeared.\n"); } } full_barrier // I don't want the compiler to reorder my code. //fprintf(stderr,"%d: %x %x\n",currentClient, (uint) SHMHDR, (uint) &(SHMHDR->cmd[currentClient])); // this is very important! copying two words separately from the command variable leads to inconsistency. // Always copy the thing in one go. // Also, this whole SHM thing probably only works on intel processors atomic = SHMCMD; full_barrier DFPP_module & mod = module_registry[ ((shm_cmd)atomic).parts.module ]; DFPP_command & cmd = mod.commands[ ((shm_cmd)atomic).parts.command ]; /* if(atomic == CORE_RUNNING) { // we are running again for this process // reaquire the suspend lock OS_lockSuspendLock(currentClient); continue; } full_barrier */ // set next state BEFORE we act on the command - good for locks if(cmd.locking == LOCKING_LOCKS) { if(cmd.nextState != -1) SHMCMD = cmd.nextState; } if(cmd._function) { cmd._function(mod.modulestate); } full_barrier // set next state AFTER we act on the command - good for busy waits if(cmd.locking == LOCKING_BUSY) { /* char text [512]; char text2 [512]; sprintf (text,"Client %d invoked %d:%d = %x = %s\n",currentClient,((shm_cmd)atomic).parts.module,((shm_cmd)atomic).parts.command, cmd._function,cmd.name.c_str()); sprintf(text2, "Server set %d\n",cmd.nextState); */ // FIXME: WHAT HAPPENS WHEN A 'NEXTSTATE' IS FROM A DIFFERENT MODULE THAN 'CORE'? Yeah. It doesn't work. if(cmd.nextState != -1) SHMCMD = cmd.nextState; //MessageBox(0,text,text2, MB_OK); //fflush(stderr); // make sure this finds its way to the terminal! } full_barrier if(cmd.type != CANCELLATION) { if(useYield) { SCHED_YIELD } numwaits ++; // watchdog timeout goto check_again; } full_barrier // we are running again for this process // reaquire the suspend lock OS_lockSuspendLock(currentClient); } }