/* This file deals with the suspension and revival of processes. A process can * be suspended because it wants to read or write from a pipe and can't, or * because it wants to read or write from a special file and can't. When a * process can't continue it is suspended, and revived later when it is able * to continue. * * The entry points into this file are * do_pipe: perform the PIPE system call * pipe_check: check to see that a read or write on a pipe is feasible now * suspend: suspend a process that cannot do a requested read or write * release: check to see if a suspended process can be released and do * it * revive: mark a suspended process as able to run again * unsuspend_by_endpt: revive all processes blocking on a given process * do_unpause: a signal has been sent to a process; see if it suspended */ #include "fs.h" #include #include #include #include #include #include #include #include #include #include #include "file.h" #include "scratchpad.h" #include "param.h" #include #include "vnode.h" #include "vmnt.h" static int create_pipe(int fil_des[2], int flags); /*===========================================================================* * do_pipe * *===========================================================================*/ int do_pipe(message *m_out) { /* Perform the pipe(fil_des[2]) system call. */ int r; int fil_des[2]; /* reply goes here */ r = create_pipe(fil_des, 0 /* no flags */); if (r == OK) { m_out->reply_i1 = fil_des[0]; m_out->reply_i2 = fil_des[1]; } return r; } /*===========================================================================* * do_pipe2 * *===========================================================================*/ int do_pipe2(message *m_out) { /* Perform the pipe2(fil_des[2], flags) system call. */ int r, flags; int fil_des[2]; /* reply goes here */ flags = job_m_in.pipe_flags; r = create_pipe(fil_des, flags); if (r == OK) { m_out->reply_i1 = fil_des[0]; m_out->reply_i2 = fil_des[1]; } return r; } /*===========================================================================* * create_pipe * *===========================================================================*/ static int create_pipe(int fil_des[2], int flags) { register struct fproc *rfp; int r; struct filp *fil_ptr0, *fil_ptr1; struct vnode *vp; struct vmnt *vmp; struct node_details res; /* Get a lock on PFS */ if ((vmp = find_vmnt(PFS_PROC_NR)) == NULL) panic("PFS gone"); if ((r = lock_vmnt(vmp, VMNT_READ)) != OK) return(r); /* See if a free vnode is available */ if ((vp = get_free_vnode()) == NULL) { unlock_vmnt(vmp); return(err_code); } lock_vnode(vp, VNODE_OPCL); /* Acquire two file descriptors. */ rfp = fp; if ((r = get_fd(fp, 0, R_BIT, &fil_des[0], &fil_ptr0)) != OK) { unlock_vnode(vp); unlock_vmnt(vmp); return(r); } rfp->fp_filp[fil_des[0]] = fil_ptr0; fil_ptr0->filp_count = 1; /* mark filp in use */ if ((r = get_fd(fp, 0, W_BIT, &fil_des[1], &fil_ptr1)) != OK) { rfp->fp_filp[fil_des[0]] = NULL; fil_ptr0->filp_count = 0; /* mark filp free */ unlock_filp(fil_ptr0); unlock_vnode(vp); unlock_vmnt(vmp); return(r); } rfp->fp_filp[fil_des[1]] = fil_ptr1; fil_ptr1->filp_count = 1; /* Create a named pipe inode on PipeFS */ r = req_newnode(PFS_PROC_NR, fp->fp_effuid, fp->fp_effgid, I_NAMED_PIPE, NO_DEV, &res); if (r != OK) { rfp->fp_filp[fil_des[0]] = NULL; fil_ptr0->filp_count = 0; rfp->fp_filp[fil_des[1]] = NULL; fil_ptr1->filp_count = 0; unlock_filp(fil_ptr1); unlock_filp(fil_ptr0); unlock_vnode(vp); unlock_vmnt(vmp); return(r); } /* Fill in vnode */ vp->v_fs_e = res.fs_e; vp->v_mapfs_e = res.fs_e; vp->v_inode_nr = res.inode_nr; vp->v_mapinode_nr = res.inode_nr; vp->v_mode = res.fmode; vp->v_fs_count = 1; vp->v_mapfs_count = 1; vp->v_ref_count = 1; vp->v_size = 0; vp->v_vmnt = NULL; vp->v_dev = NO_DEV; /* Fill in filp objects */ fil_ptr0->filp_vno = vp; dup_vnode(vp); fil_ptr1->filp_vno = vp; fil_ptr0->filp_flags = O_RDONLY | (flags & ~O_ACCMODE); fil_ptr1->filp_flags = O_WRONLY | (flags & ~O_ACCMODE); if (flags & O_CLOEXEC) { FD_SET(fil_des[0], &rfp->fp_cloexec_set); FD_SET(fil_des[1], &rfp->fp_cloexec_set); } unlock_filps(fil_ptr0, fil_ptr1); unlock_vmnt(vmp); return(OK); } /*===========================================================================* * map_vnode * *===========================================================================*/ int map_vnode(vp, map_to_fs_e) struct vnode *vp; endpoint_t map_to_fs_e; { int r; struct vmnt *vmp; struct node_details res; if(vp->v_mapfs_e != NONE) return(OK); /* Already mapped; nothing to do. */ if ((vmp = find_vmnt(map_to_fs_e)) == NULL) panic("Can't map to unknown endpoint"); if ((r = lock_vmnt(vmp, VMNT_WRITE)) != OK) { if (r == EBUSY) vmp = NULL; /* Already locked, do not unlock */ else return(r); } /* Create a temporary mapping of this inode to another FS. Read and write * operations on data will be handled by that FS. The rest by the 'original' * FS that holds the inode. */ if ((r = req_newnode(map_to_fs_e, fp->fp_effuid, fp->fp_effgid, I_NAMED_PIPE, vp->v_dev, &res)) == OK) { vp->v_mapfs_e = res.fs_e; vp->v_mapinode_nr = res.inode_nr; vp->v_mapfs_count = 1; } if (vmp) unlock_vmnt(vmp); return(r); } /*===========================================================================* * pipe_check * *===========================================================================*/ int pipe_check( struct filp *filp, /* the filp of the pipe */ int rw_flag, /* READING or WRITING */ int oflags, /* flags set by open or fcntl */ int bytes, /* bytes to be read or written (all chunks) */ int notouch /* check only */ ) { /* Pipes are a little different. If a process reads from an empty pipe for * which a writer still exists, suspend the reader. If the pipe is empty * and there is no writer, return 0 bytes. If a process is writing to a * pipe and no one is reading from it, give a broken pipe error. */ struct vnode *vp; off_t pos; int r = OK; vp = filp->filp_vno; /* Reads start at the beginning; writes append to pipes */ if (notouch) /* In this case we don't actually care whether data transfer * would succeed. See POSIX 1003.1-2008 */ pos = 0; else if (rw_flag == READING) pos = 0; else { pos = vp->v_size; } /* If reading, check for empty pipe. */ if (rw_flag == READING) { if (vp->v_size == 0) { /* Process is reading from an empty pipe. */ if (find_filp(vp, W_BIT) != NULL) { /* Writer exists */ if (oflags & O_NONBLOCK) r = EAGAIN; else r = SUSPEND; /* If need be, activate sleeping writers. */ if (susp_count > 0) release(vp, WRITE, susp_count); } return(r); } return(bytes); } /* Process is writing to a pipe. */ if (find_filp(vp, R_BIT) == NULL) { return(EPIPE); } /* Calculate how many bytes can be written. */ if (pos + bytes > PIPE_BUF) { if (oflags & O_NONBLOCK) { if (bytes <= PIPE_BUF) { /* Write has to be atomic */ return(EAGAIN); } /* Compute available space */ bytes = PIPE_BUF - pos; if (bytes > 0) { /* Do a partial write. Need to wakeup reader */ if (!notouch) release(vp, READ, susp_count); return(bytes); } else { /* Pipe is full */ return(EAGAIN); } } if (bytes > PIPE_BUF) { /* Compute available space */ bytes = PIPE_BUF - pos; if (bytes > 0) { /* Do a partial write. Need to wakeup reader * since we'll suspend ourself in read_write() */ if (!notouch) release(vp, READ, susp_count); return(bytes); } } /* Pipe is full */ return(SUSPEND); } /* Writing to an empty pipe. Search for suspended reader. */ if (pos == 0 && !notouch) release(vp, READ, susp_count); /* Requested amount fits */ return(bytes); } /*===========================================================================* * suspend * *===========================================================================*/ void suspend(int why) { /* Take measures to suspend the processing of the present system call. * Store the parameters to be used upon resuming in the process table. * (Actually they are not used when a process is waiting for an I/O device, * but they are needed for pipes, and it is not worth making the distinction.) * The SUSPEND pseudo error should be returned after calling suspend(). */ if (why == FP_BLOCKED_ON_POPEN || why == FP_BLOCKED_ON_PIPE) /* #procs susp'ed on pipe*/ susp_count++; fp->fp_blocked_on = why; assert(fp->fp_grant == GRANT_INVALID || !GRANT_VALID(fp->fp_grant)); fp->fp_block_callnr = job_call_nr; } /*===========================================================================* * wait_for * *===========================================================================*/ void wait_for(endpoint_t who) { if(who == NONE || who == ANY) panic("suspend on NONE or ANY"); suspend(FP_BLOCKED_ON_OTHER); fp->fp_task = who; } /*===========================================================================* * pipe_suspend * *===========================================================================*/ void pipe_suspend(filp, buf, size) struct filp *filp; char *buf; size_t size; { /* Take measures to suspend the processing of the present system call. * Store the parameters to be used upon resuming in the process table. */ scratch(fp).file.filp = filp; scratch(fp).io.io_buffer = buf; scratch(fp).io.io_nbytes = size; suspend(FP_BLOCKED_ON_PIPE); } /*===========================================================================* * unsuspend_by_endpt * *===========================================================================*/ void unsuspend_by_endpt(endpoint_t proc_e) { /* Revive processes waiting for drivers (SUSPENDed) that have disappeared with * return code EAGAIN. */ struct fproc *rp; for (rp = &fproc[0]; rp < &fproc[NR_PROCS]; rp++) { if (rp->fp_pid == PID_FREE) continue; if (rp->fp_blocked_on == FP_BLOCKED_ON_OTHER && rp->fp_task == proc_e) revive(rp->fp_endpoint, EIO); } /* Revive processes waiting in drivers on select()s with EAGAIN too */ select_unsuspend_by_endpt(proc_e); return; } /*===========================================================================* * release * *===========================================================================*/ void release(vp, op, count) register struct vnode *vp; /* inode of pipe */ int op; /* READ, WRITE, or OPEN */ int count; /* max number of processes to release */ { /* Check to see if any process is hanging on vnode 'vp'. If one is, and it * was trying to perform the call indicated by 'call_nr', release it. */ register struct fproc *rp; struct filp *f; int selop; /* Trying to perform the call also includes SELECTing on it with that * operation. */ if (op == READ || op == WRITE) { if (op == READ) selop = SEL_RD; else selop = SEL_WR; for (f = &filp[0]; f < &filp[NR_FILPS]; f++) { if (f->filp_count < 1 || !(f->filp_pipe_select_ops & selop) || f->filp_vno != vp) continue; select_callback(f, selop); f->filp_pipe_select_ops &= ~selop; } } /* Search the proc table. */ for (rp = &fproc[0]; rp < &fproc[NR_PROCS] && count > 0; rp++) { if (rp->fp_pid != PID_FREE && fp_is_blocked(rp) && !(rp->fp_flags & FP_REVIVED) && rp->fp_block_callnr == op) { /* Find the vnode. Depending on the reason the process was * suspended, there are different ways of finding it. */ if (rp->fp_blocked_on == FP_BLOCKED_ON_POPEN || rp->fp_blocked_on == FP_BLOCKED_ON_LOCK || rp->fp_blocked_on == FP_BLOCKED_ON_OTHER) { f = rp->fp_filp[scratch(rp).file.fd_nr]; if (f == NULL || f->filp_mode == FILP_CLOSED) continue; if (rp->fp_filp[scratch(rp).file.fd_nr]->filp_vno != vp) continue; } else if (rp->fp_blocked_on == FP_BLOCKED_ON_PIPE) { if (scratch(rp).file.filp == NULL) continue; if (scratch(rp).file.filp->filp_vno != vp) continue; } else continue; /* We found the vnode. Revive process. */ revive(rp->fp_endpoint, 0); susp_count--; /* keep track of who is suspended */ if(susp_count < 0) panic("susp_count now negative: %d", susp_count); if (--count == 0) return; } } } /*===========================================================================* * revive * *===========================================================================*/ void revive(endpoint_t proc_e, int returned) { /* Revive a previously blocked process. When a process hangs on tty, this * is the way it is eventually released. For processes blocked on _SELECT and * _OTHER, this function MUST NOT block its calling thread. */ struct fproc *rfp; int blocked_on; int fd_nr, slot; if (proc_e == NONE || isokendpt(proc_e, &slot) != OK) return; rfp = &fproc[slot]; if (!fp_is_blocked(rfp) || (rfp->fp_flags & FP_REVIVED)) return; /* The 'reviving' flag only applies to pipes. Processes waiting for TTY get * a message right away. The revival process is different for TTY and pipes. * For select and TTY revival, the work is already done, for pipes it is not: * the proc must be restarted so it can try again. */ blocked_on = rfp->fp_blocked_on; fd_nr = scratch(rfp).file.fd_nr; if (blocked_on == FP_BLOCKED_ON_PIPE || blocked_on == FP_BLOCKED_ON_LOCK) { /* Revive a process suspended on a pipe or lock. */ rfp->fp_flags |= FP_REVIVED; reviving++; /* process was waiting on pipe or lock */ } else { rfp->fp_blocked_on = FP_BLOCKED_ON_NONE; scratch(rfp).file.fd_nr = 0; if (blocked_on == FP_BLOCKED_ON_POPEN) { /* process blocked in open or create */ replycode(proc_e, fd_nr); } else if (blocked_on == FP_BLOCKED_ON_SELECT) { replycode(proc_e, returned); } else { /* Revive a process suspended on TTY or other device. * Pretend it wants only what there is. */ scratch(rfp).io.io_nbytes = returned; /* If a grant has been issued by FS for this I/O, revoke * it again now that I/O is done. */ if (GRANT_VALID(rfp->fp_grant)) { if(cpf_revoke(rfp->fp_grant)) { panic("VFS: revoke failed for grant: %d", rfp->fp_grant); } rfp->fp_grant = GRANT_INVALID; } replycode(proc_e, returned);/* unblock the process */ } } } /*===========================================================================* * unpause * *===========================================================================*/ void unpause(void) { /* A signal has been sent to a user who is paused on the file system. * Abort the system call with the EINTR error message. */ int blocked_on, fild, status = EINTR; struct filp *f; dev_t dev; int wasreviving = 0; if (!fp_is_blocked(fp)) return; blocked_on = fp->fp_blocked_on; /* Clear the block status now. The procedure below might make blocking calls * and it is imperative that while at least cdev_cancel() is executing, other * parts of VFS do not perceive this process as blocked on something. */ fp->fp_blocked_on = FP_BLOCKED_ON_NONE; if (fp->fp_flags & FP_REVIVED) { fp->fp_flags &= ~FP_REVIVED; reviving--; wasreviving = 1; } switch (blocked_on) { case FP_BLOCKED_ON_PIPE:/* process trying to read or write a pipe */ /* If the operation succeeded partially, return the bytes * processed so far, and clear the remembered state. Otherwise, * return EINTR as usual. */ if (fp->fp_cum_io_partial > 0) { status = fp->fp_cum_io_partial; fp->fp_cum_io_partial = 0; } break; case FP_BLOCKED_ON_LOCK:/* process trying to set a lock with FCNTL */ break; case FP_BLOCKED_ON_SELECT:/* process blocking on select() */ select_forget(); break; case FP_BLOCKED_ON_POPEN: /* process trying to open a fifo */ break; case FP_BLOCKED_ON_OTHER:/* process trying to do device I/O (e.g. tty)*/ fild = scratch(fp).file.fd_nr; if (fild < 0 || fild >= OPEN_MAX) panic("file descriptor out-of-range"); f = fp->fp_filp[fild]; if(!f) { sys_sysctl_stacktrace(fp->fp_endpoint); panic("process %d blocked on empty fd %d", fp->fp_endpoint, fild); } dev = (dev_t) f->filp_vno->v_sdev; /* device hung on */ status = cdev_cancel(dev); break; default : panic("VFS: unknown block reason: %d", blocked_on); } if ((blocked_on == FP_BLOCKED_ON_PIPE || blocked_on == FP_BLOCKED_ON_POPEN)&& !wasreviving) { susp_count--; } replycode(fp->fp_endpoint, status); /* signal interrupted call */ }