int main()
{
struct Process *child;
struct TagItem tags[] =
{
{ NP_Entry, (IPTR) entry },
{ NP_Cli, (IPTR) TRUE },
{ NP_Name, (IPTR) "test" },
{ NP_NotifyOnDeath, (IPTR) TRUE },
{ TAG_DONE, 0 }
};
child = CreateNewProc(tags);
if(child)
{
ULONG childid = GetETask((struct Task*) child)->et_UniqueID;
Printf("Waiting for child with id %d\n", childid);
ChildWait(childid);
Printf("Child exited, freeing child\n");
ChildFree(childid);
}
else
PrintFault(IoErr(), "Couldn't create child process");
return 0;
}
int main()
{
tmpname = mktemp("T:flockXXXXXX");
int fd = open(tmpname, O_CREAT);
TEST((fd != -1));
TEST((flock(fd, LOCK_SH|LOCK_NB) == 0));
TEST((flock(fd, LOCK_UN) == 0));
TEST((flock(fd, LOCK_EX|LOCK_NB) == 0));
TEST((flock(fd, LOCK_UN) == 0));
TEST((flock(fd, LOCK_SH) == 0));
TEST((flock(fd, LOCK_UN) == 0));
TEST((flock(fd, LOCK_EX) == 0));
TEST((flock(fd, LOCK_UN) == 0));
close(fd);
/* Create NPROCS processes increasing counter ITERATIONS times in an ugly
way */
int counter = 0;
struct Process *procs[NPROCS];
ULONG ids[NPROCS];
struct TagItem tags[] =
{
{ NP_Entry, (IPTR) entry },
{ NP_Name, (IPTR) "flocker" },
{ NP_Output, (IPTR) Output() },
{ NP_CloseOutput, (IPTR) FALSE },
{ NP_UserData, (IPTR) &counter },
{ NP_NotifyOnDeath, (IPTR) TRUE },
{ TAG_DONE, 0 }
};
int i;
InitSemaphore(&sem);
for(i = 0; i < NPROCS; i++)
{
procs[i] = CreateNewProc(tags);
TEST((procs[i]));
ids[i] = GetETask(procs[i])->et_UniqueID;
Signal((struct Task *)procs[i], SIGBREAKF_CTRL_C);
}
for(i = 0; i < NPROCS; i++)
{
ChildWait(ids[i]);
ChildFree(ids[i]);
}
putchar('\n');
TEST((counter == NPROCS * ITERATIONS));
cleanup();
return OK;
}
int uae_start_thread (const TCHAR *name, void *(*f)(void *), void *arg, uae_thread_id *tid)
{
struct MsgPort *replyport;
struct Process *newtask = NULL;
struct TagItem procTags[] =
{
{ NP_Name, (IPTR) NULL},
{ NP_StackSize, (IPTR)(64 * 1024)},
{ NP_Entry, (IPTR) do_thread},
//{ NP_Output, Output ()},
//{ NP_Input, Input ()},
//{ NP_CloseOutput, FALSE},
//{ NP_CloseInput, FALSE},
{ TAG_DONE, 0}
};
#warning Do we need to care for priorities here? WinUAE does..
if(!name)
procTags[0].ti_Data = (IPTR)default_name;
else
procTags[0].ti_Data = (IPTR)name;
bug("[JUAE:PX] %s('%s', f %lx, arg %lx, tid %lx)\n", __PRETTY_FUNCTION__, procTags[0].ti_Data, f, arg, tid);
replyport = CreateMsgPort();
if(!replyport) {
write_log("ERROR: Unable to create MsgPort!\n");
}
newtask = CreateNewProc (procTags);
bug("[JUAE:PX] %s: Process @ %p, MsgPort @ %p\n", __PRETTY_FUNCTION__, newtask, newtask->pr_MsgPort);
if(newtask) {
struct startupmsg msg;
msg.msg.mn_ReplyPort = replyport;
msg.msg.mn_Length = sizeof msg;
msg.func = f;
msg.arg = arg;
PutMsg (&newtask->pr_MsgPort, (struct Message*)&msg);
WaitPort (replyport);
}
DeleteMsgPort (replyport);
if(tid) {
*tid=newtask;
}
return (newtask != 0);
}
static int WBOpen(LIBBASETYPEPTR LIBBASE)
{
ObtainSemaphore(&(WorkbenchBase->wb_InitializationSemaphore));
if (!(WorkbenchBase->wb_Initialized))
{
struct CommandLineInterface *cli;
/* Duplicate the search path ---------------------------------------*/
if ((cli = Cli()) != NULL)
{
WorkbenchBase->wb_SearchPath = DuplicateSearchPath
(
cli->cli_CommandDir
);
}
const struct TagItem tags[]=
{
{NP_Entry , (IPTR)WorkbenchHandler },
{NP_Name , (IPTR)"Workbench Handler" },
{NP_UserData , (IPTR)WorkbenchBase },
{NP_StackSize, 8129 },
{TAG_DONE , 0 }
};
/* Start workbench handler -----------------------------------------*/
if ((CreateNewProc(tags)) != NULL)
{
/* Prevent expunging while the handler is running */
AROS_ATOMIC_INC(WorkbenchBase->LibNode.lib_OpenCnt);
}
else
{
// FIXME: free resources
return FALSE;
}
WorkbenchBase->wb_Initialized = TRUE;
}
ReleaseSemaphore(&(WorkbenchBase->wb_InitializationSemaphore));
return TRUE;
} /* L_OpenLib */
int main()
{
struct Process *child;
struct TagItem tags[] =
{
{ NP_Entry, (IPTR) entry },
{ NP_Cli, (IPTR) TRUE },
{ NP_Name, (IPTR) "test" },
{ NP_NotifyOnDeath, (IPTR) TRUE },
{ TAG_DONE, 0 }
};
child = CreateNewProc(tags);
if(child)
{
ULONG childstatus;
ULONG childid = GetETask((struct Task*) child)->et_UniqueID;
Printf("Checking status value for non-existing child id\n");
childstatus = ChildStatus(-1);
assert(childstatus == CHILD_NOTFOUND);
Printf("Result: CHILD_NOTFOUND\n");
Printf("Checking status value for running child id\n");
childstatus = ChildStatus(childid);
assert(childstatus == CHILD_ACTIVE);
Printf("Result: CHILD_ACTIVE\n");
ChildWait(childid);
Printf("Checking status value for died child id\n");
childstatus = ChildStatus(childid);
assert(childstatus == CHILD_EXITED);
Printf("Result: CHILD_EXITED\n");
ChildFree(childid);
Printf("Checking status value for freed child id\n");
childstatus = ChildStatus(childid);
assert(childstatus == CHILD_NOTFOUND);
Printf("Result: CHILD_NOTFOUND\n");
}
else
PrintFault(IoErr(), "Couldn't create child process");
return 0;
}
ULONG _AHIsub_Start(
ULONG Flags,
struct AHIAudioCtrlDrv *AudioCtrl,
struct DriverBase* AHIsubBase )
{
struct FilesaveBase* FilesaveBase = (struct FilesaveBase*) AHIsubBase;
AHIsub_Stop(Flags, AudioCtrl);
if(Flags & AHISF_PLAY)
{
ULONG savebufferlength;
if(!(dd->fs_MixBuffer = AllocVec(AudioCtrl->ahiac_BuffSize, MEMF_ANY)))
return AHIE_NOMEM;
dd->fs_SaveBufferSize = AudioCtrl->ahiac_MaxBuffSamples;
// S16 has two buffers (L/R) instead
if((AudioCtrl->ahiac_Flags & AHIACF_STEREO) && dd->fs_Format != FORMAT_S16)
{
dd->fs_SaveBufferSize <<=1;
}
if(dd->fs_SaveBufferSize < SAVEBUFFERSIZE)
{
dd->fs_SaveBufferSize = SAVEBUFFERSIZE;
}
savebufferlength = dd->fs_SaveBufferSize;
switch(dd->fs_Format)
{
case FORMAT_8SVX:
break;
case FORMAT_AIFF:
savebufferlength <<= 1;
break;
case FORMAT_AIFC:
savebufferlength <<= 1;
break;
case FORMAT_S16:
savebufferlength <<= 1;
break;
case FORMAT_WAVE:
savebufferlength <<= 1;
break;
default:
break;
}
if(!(dd->fs_SaveBuffer = AllocVec(savebufferlength, MEMF_ANY)))
{
return AHIE_NOMEM;
}
if ((AudioCtrl->ahiac_Flags & AHIACF_STEREO) && dd->fs_Format == FORMAT_S16)
{
if(!(dd->fs_SaveBuffer2 = AllocVec(savebufferlength, MEMF_ANY)))
{
return AHIE_NOMEM;
}
}
if(AslRequest(dd->fs_FileReq,NULL))
{
struct TagItem proctags[] =
{
{ NP_Entry, (ULONG) SlaveEntry },
{ NP_Name, (ULONG) LibName },
{ NP_Priority, -1 }, // It's a number cruncher...
{ NP_StackSize, 10000, },
{ TAG_DONE, 0 }
};
Forbid();
dd->fs_SlaveTask = CreateNewProc( proctags );
if( dd->fs_SlaveTask != NULL )
{
dd->fs_SlaveTask->pr_Task.tc_UserData = AudioCtrl;
}
Permit();
if(dd->fs_SlaveTask)
{
Wait(1L<<dd->fs_MasterSignal); // Wait for slave to come alive
if(dd->fs_SlaveTask == NULL) // Is slave alive or dead?
{
return AHIE_UNKNOWN;
}
}
else
{
return AHIE_NOMEM;
}
}
else
{
if(IoErr())
{
return AHIE_NOMEM; //error occured
}
else
{
return AHIE_ABORTED; //requester cancelled
}
}
}
if(Flags & AHISF_RECORD)
{
if(!(dd->fs_RecBuffer = AllocVec(RECBUFFERSIZE*4,MEMF_ANY)))
{
return AHIE_NOMEM;
}
if(AslRequest(dd->fs_RecFileReq,NULL))
{
struct TagItem proctags[] =
{
{ NP_Entry, (ULONG) RecSlaveEntry },
{ NP_Name, (ULONG) LibName },
{ NP_Priority, 1 }, // Make it steady...
{ TAG_DONE, 0 }
};
Delay(TICKS_PER_SECOND); // Wait for window to close etc...
Forbid();
dd->fs_RecSlaveTask = CreateNewProc( proctags );
if( dd->fs_RecSlaveTask != NULL )
{
dd->fs_RecSlaveTask->pr_Task.tc_UserData = AudioCtrl;
}
Permit();
if(dd->fs_RecSlaveTask)
{
Wait(1L<<dd->fs_RecMasterSignal); // Wait for slave to come alive
if(dd->fs_RecSlaveTask == NULL) // Is slave alive or dead?
{
return AHIE_UNKNOWN;
}
}
else
{
return AHIE_NOMEM;
}
}
else
{
if(IoErr())
{
return AHIE_NOMEM; //error occured
}
else
{
return AHIE_ABORTED; //requester cancelled
}
}
}
return AHIE_OK;
}
pid_t __vfork(jmp_buf env)
{
struct Task *this = FindTask(NULL);
struct vfork_data *udata = AllocMem(sizeof(struct vfork_data), MEMF_ANY | MEMF_CLEAR);
if(udata == NULL)
{
errno = ENOMEM;
longjmp(env, -1);
}
D(bug("__vfork: allocated udata %p\n", udata));
bcopy(env, &udata->vfork_jump, sizeof(jmp_buf));
struct TagItem tags[] =
{
{ NP_Entry, (IPTR) launcher },
{ NP_CloseInput, (IPTR) FALSE },
{ NP_CloseOutput, (IPTR) FALSE },
{ NP_CloseError, (IPTR) FALSE },
{ NP_Cli, (IPTR) TRUE },
{ NP_Name, (IPTR) "vfork()" },
{ NP_UserData, (IPTR) udata },
{ NP_NotifyOnDeath, (IPTR) TRUE },
{ TAG_DONE, 0 }
};
udata->parent = this;
struct arosc_privdata *ppriv = __get_arosc_privdata();
udata->ppriv = ppriv;
/* Store parent's vfork_data to restore it later */
udata->prev = __get_arosc_privdata()->acpd_vfork_data;
D(bug("__vfork: Saved old parent's vfork_data: %p\n", udata->prev));
D(bug("__vfork: backuping startup buffer\n"));
/* Backup startup buffer */
CopyMem(&__aros_startup_jmp_buf, &udata->startup_jmp_buf, sizeof(jmp_buf));
D(bug("__vfork: Allocating parent signal\n"));
/* Allocate signal for child->parent communication */
udata->parent_signal = AllocSignal(-1);
if(udata->parent_signal == -1)
{
/* Couldn't allocate the signal, return -1 */
FreeMem(udata, sizeof(struct vfork_data));
errno = ENOMEM;
longjmp(udata->vfork_jump, -1);
}
D(bug("__vfork: Creating child\n"));
udata->child = (struct Task*) CreateNewProc(tags);
if(udata->child == NULL)
{
/* Something went wrong, return -1 */
FreeMem(udata, sizeof(struct vfork_data));
errno = ENOMEM; /* Most likely */
longjmp(env, -1);
}
D(bug("__vfork: Child created %p, waiting to finish setup\n", udata->child));
udata->child_id = GetETaskID(udata->child);
D(bug("__vfork: Got unique child id: %d\n", udata->child_id));
/* Wait for child to finish setup */
Wait(1 << udata->parent_signal);
if(udata->child_errno)
{
/* An error occured during child setup */
errno = udata->child_errno;
longjmp(env, -1);
}
D(bug("__vfork: Setting jmp_buf at %p in %p\n", __aros_startup, &__aros_startup_jmp_buf));
if(setjmp(__aros_startup_jmp_buf))
{
D(bug("__vfork: child exited\n or executed\n"));
if(!GETUDATA->child_executed)
{
D(bug("__vfork: not executed\n"));
((struct aros_startup*) GetIntETask(GETUDATA->child)->iet_startup)->as_startup_error = __aros_startup_error;
D(bug("__vfork: Signaling child\n"));
Signal(GETUDATA->child, 1 << GETUDATA->child_signal);
}
D(bug("__vfork: Waiting for child to finish using udata\n"));
/* Wait for child to finish using GETUDATA */
Wait(1 << GETUDATA->parent_signal);
D(bug("__vfork: fflushing\n"));
fflush(NULL);
D(bug("__vfork: restoring old fd_array\n"));
/* Restore parent's old fd_array */
((struct arosc_privdata *) GetIntETask(GETUDATA->parent)->iet_acpd)->acpd_fd_mempool = GETUDATA->parent_acpd_fd_mempool;
((struct arosc_privdata *) GetIntETask(GETUDATA->parent)->iet_acpd)->acpd_numslots = GETUDATA->parent_acpd_numslots;
((struct arosc_privdata *) GetIntETask(GETUDATA->parent)->iet_acpd)->acpd_fd_array = GETUDATA->parent_acpd_fd_array;
D(bug("__vfork: restoring startup buffer\n"));
/* Restore parent startup buffer */
CopyMem(&GETUDATA->startup_jmp_buf, &__aros_startup_jmp_buf, sizeof(jmp_buf));
D(bug("__vfork: freeing parent signal\n"));
FreeSignal(GETUDATA->parent_signal);
errno = GETUDATA->child_errno;
FreeAndJump(GETUDATA);
assert(0); /* not reached */
return (pid_t) 1;
}
/* Remember parent fd descriptor table */
udata->parent_acpd_fd_mempool = ppriv->acpd_fd_mempool;
udata->parent_acpd_numslots = ppriv->acpd_numslots;
udata->parent_acpd_fd_array = ppriv->acpd_fd_array;
/* Pretend to be running as the child created by vfork */
ppriv->acpd_vfork_data = udata;
ppriv->acpd_flags |= PRETEND_CHILD;
ppriv->acpd_fd_mempool = udata->cpriv->acpd_fd_mempool;
ppriv->acpd_numslots = udata->cpriv->acpd_numslots;
ppriv->acpd_fd_array = udata->cpriv->acpd_fd_array;
D(bug("__vfork: Jumping to jmp_buf %p\n", &udata->vfork_jump));
D(bug("__vfork: ip: %p, stack: %p\n", udata->vfork_jump[0].retaddr, udata->vfork_jump[0].regs[_JMPLEN - 1]));
vfork_longjmp(udata->vfork_jump, 0);
assert(0); /* not reached */
return (pid_t) 0;
}
// Launch a generic process
int ASM L_IPC_Launch(
REG(a0, struct ListLock *list),
REG(a1, IPCData **storage),
REG(a2, char *name),
REG(d0, ULONG entry),
REG(d1, ULONG stack),
REG(d2, ULONG data),
REG(a3, struct Library *dos_base),
REG(a6, struct MyLibrary *libbase))
{
struct LibData *libdata;
IPCData *ipc;
BOOL path=0;
struct TagItem *tags;
#ifdef __amigaos4__
libbase = dopuslibbase_global;
#endif
// Want path?
if (stack&IPCF_GETPATH) path=1;
// Get data pointer
libdata=(struct LibData *)libbase->ml_UserData;
// Clear storage
if (storage) *storage=0;
// Allocate data
if (!(ipc=AllocVec(sizeof(IPCData),MEMF_CLEAR)) ||
!((tags=AllocVec(sizeof(struct TagItem)*8,MEMF_ANY))))
{
FreeVec(ipc);
return 0;
}
// Store memory and list pointers
ipc->memory=libdata->memory;
ipc->list=list;
// Fill out process tags
tags[0].ti_Tag=NP_Entry;
tags[0].ti_Data = IPC_GET_ENTRY(entry);
tags[1].ti_Tag=NP_Name;
tags[1].ti_Data=(ULONG)name;
tags[2].ti_Tag=NP_WindowPtr;
tags[2].ti_Data=(ULONG)-1;
tags[3].ti_Tag=NP_StackSize;
tags[3].ti_Data=IPCM_STACK(stack);
tags[4].ti_Tag=NP_Priority;
tags[4].ti_Data=0;
#if defined(__MORPHOS__)
if (IPC_GET_CODETYPE(entry) == CODETYPE_PPC)
{
tags[3].ti_Tag = NP_CodeType; // Overwriting NP_StackSize (it is not required in PPC native code)
tags[3].ti_Data = IPC_GET_CODETYPE(entry);
}
#endif
// Want a path?
if (path)
{
BPTR pathlist;
#define DOpusBase (libdata->dopus_base)
// Lock path list
GetSemaphore(&libdata->path_lock,SEMF_SHARED,0);
// Get path list copy
pathlist=GetDosPathList(libdata->path_list);
// Unlock path list
FreeSemaphore(&libdata->path_lock);
#undef DOpusBase
// Fill out tags
tags[5].ti_Tag=NP_Cli;
tags[5].ti_Data=TRUE;
tags[6].ti_Tag=NP_Path;
tags[6].ti_Data=(ULONG)pathlist;
tags[7].ti_Tag=TAG_END;
}
else tags[5].ti_Tag=TAG_END;
#define DOSBase (dos_base)
// Launch process
ipc->proc=CreateNewProc(tags);
#undef DOSBase
// Free tags now
FreeVec(tags);
// Failed to launch?
if (!ipc->proc)
{
FreeVec(ipc);
return 0;
}
// Store pointer
if (storage) *storage=ipc;
// Send startup message
return L_IPC_Startup(ipc,(APTR)data,0);
}
static void __startup_detach(void)
{
struct CommandLineInterface *cli;
struct Process *newproc;
BPTR mysegment = NULL;
STRPTR detached_name;
D(bug("Entering __startup_detach(\"%s\", %d, %x)\n", argstr, argsize, SysBase));
cli = Cli();
/* Without a CLI detaching makes no sense, just jump to
the real program. */
if (!cli)
{
__startup_entries_next();
}
else
{
mysegment = cli->cli_Module;
cli->cli_Module = NULL;
detached_name = __detached_name ? __detached_name : (STRPTR)FindTask(NULL)->tc_Node.ln_Name;
{
struct TagItem tags[] =
{
{ NP_Seglist, (IPTR)mysegment },
{ NP_Entry, (IPTR)&__detach_trampoline },
{ NP_Name, (IPTR)detached_name },
{ NP_Arguments, (IPTR)__argstr },
{ NP_Cli, TRUE },
{ TAG_DONE, 0 }
};
__detacher_process = (struct Process *)FindTask(NULL);
/* CreateNewProc() will take care of freeing the seglist */
newproc = CreateNewProc(tags);
}
if (!newproc)
{
cli->cli_Module = mysegment;
__detached_return_value = RETURN_ERROR;
}
else
while (!__detacher_go_away) Wait(SIGF_SINGLE);
if (__detached_return_value != RETURN_OK)
{
PutStr(FindTask(NULL)->tc_Node.ln_Name); PutStr(": Failed to detach.\n");
}
if (newproc)
{
Forbid();
Signal(&newproc->pr_Task, SIGF_SINGLE);
}
__aros_startup.as_startup_error = __detached_return_value;
}
D(bug("Leaving __startup_detach\n"));
}
static APTR createnewproctags(APTR DOSBase,ULONG Tag,...)
{ return CreateNewProc((struct TagItem *)&Tag); }
