/* This file contains the heart of the mechanism used to read (and write) * files. Read and write requests are split up into chunks that do not cross * block boundaries. Each chunk is then processed in turn. Reads on special * files are also detected and handled. * * The entry points into this file are * do_read: perform the READ system call by calling read_write * do_getdents: read entries from a directory (GETDENTS) * read_write: actually do the work of READ and WRITE * */ #include "fs.h" #include #include #include #include #include "file.h" #include "fproc.h" #include "param.h" #include #include #include #include "vnode.h" #include "vmnt.h" /*===========================================================================* * do_read * *===========================================================================*/ PUBLIC int do_read() { return(do_read_write(READING)); } /*===========================================================================* * lock_bsf * *===========================================================================*/ PUBLIC void lock_bsf(void) { message org_m_in; struct fproc *org_fp; struct worker_thread *org_self; if (mutex_trylock(&bsf_lock) == 0) return; org_m_in = m_in; org_fp = fp; org_self = self; if (mutex_lock(&bsf_lock) != 0) panic("unable to lock block special file lock"); m_in = org_m_in; fp = org_fp; self = org_self; } /*===========================================================================* * unlock_bsf * *===========================================================================*/ PUBLIC void unlock_bsf(void) { if (mutex_unlock(&bsf_lock) != 0) panic("failed to unlock block special file lock"); } /*===========================================================================* * do_read_write * *===========================================================================*/ PUBLIC int do_read_write(rw_flag) int rw_flag; /* READING or WRITING */ { /* Perform read(fd, buffer, nbytes) or write(fd, buffer, nbytes) call. */ struct filp *f; tll_access_t locktype; int r; locktype = (rw_flag == READING) ? VNODE_READ : VNODE_WRITE; if ((f = get_filp(m_in.fd, locktype)) == NULL) return(err_code); if (((f->filp_mode) & (rw_flag == READING ? R_BIT : W_BIT)) == 0) { unlock_filp(f); return(f->filp_mode == FILP_CLOSED ? EIO : EBADF); } if (m_in.nbytes == 0) { unlock_filp(f); return(0); /* so char special files need not check for 0*/ } r = read_write(rw_flag, f, m_in.buffer, m_in.nbytes, who_e); unlock_filp(f); return(r); } /*===========================================================================* * read_write * *===========================================================================*/ PUBLIC int read_write(int rw_flag, struct filp *f, char *buf, size_t size, endpoint_t for_e) { register struct vnode *vp; u64_t position, res_pos, new_pos; unsigned int cum_io, cum_io_incr, res_cum_io; int op, oflags, r, block_spec, char_spec, regular; mode_t mode_word; position = f->filp_pos; oflags = f->filp_flags; vp = f->filp_vno; r = OK; cum_io = 0; if (size > SSIZE_MAX) return(EINVAL); if (vp->v_pipe == I_PIPE) { if (fp->fp_cum_io_partial != 0) { panic("VFS: read_write: fp_cum_io_partial not clear"); } r = rw_pipe(rw_flag, for_e, f, buf, size); return(r); } op = (rw_flag == READING ? VFS_DEV_READ : VFS_DEV_WRITE); mode_word = vp->v_mode & I_TYPE; regular = mode_word == I_REGULAR; if ((char_spec = (mode_word == I_CHAR_SPECIAL ? 1 : 0))) { if (vp->v_sdev == NO_DEV) panic("VFS: read_write tries to access char dev NO_DEV"); } if ((block_spec = (mode_word == I_BLOCK_SPECIAL ? 1 : 0))) { if (vp->v_sdev == NO_DEV) panic("VFS: read_write tries to access block dev NO_DEV"); } if (char_spec) { /* Character special files. */ dev_t dev; int suspend_reopen; suspend_reopen = (f->filp_state != FS_NORMAL); dev = (dev_t) vp->v_sdev; r = dev_io(op, dev, for_e, buf, position, size, oflags, suspend_reopen); if (r >= 0) { cum_io = r; position = add64ul(position, r); r = OK; } } else if (block_spec) { /* Block special files. */ lock_bsf(); r = req_breadwrite(vp->v_bfs_e, for_e, vp->v_sdev, position, size, buf, rw_flag, &res_pos, &res_cum_io); if (r == OK) { position = res_pos; cum_io += res_cum_io; } unlock_bsf(); } else { /* Regular files */ if (rw_flag == WRITING && block_spec == 0) { /* Check for O_APPEND flag. */ if (oflags & O_APPEND) position = cvul64(vp->v_size); } /* Issue request */ r = req_readwrite(vp->v_fs_e, vp->v_inode_nr, position, rw_flag, for_e, buf, size, &new_pos, &cum_io_incr); if (r >= 0) { if (ex64hi(new_pos)) panic("read_write: bad new pos"); position = new_pos; cum_io += cum_io_incr; } } /* On write, update file size and access time. */ if (rw_flag == WRITING) { if (regular || mode_word == I_DIRECTORY) { if (cmp64ul(position, vp->v_size) > 0) { if (ex64hi(position) != 0) { panic("read_write: file size too big "); } vp->v_size = ex64lo(position); } } } f->filp_pos = position; if (r == OK) return(cum_io); return(r); } /*===========================================================================* * do_getdents * *===========================================================================*/ PUBLIC int do_getdents() { /* Perform the getdents(fd, buf, size) system call. */ int r = OK; u64_t new_pos; register struct filp *rfilp; /* Is the file descriptor valid? */ if ( (rfilp = get_filp(m_in.fd, VNODE_READ)) == NULL) return(err_code); if (!(rfilp->filp_mode & R_BIT)) r = EBADF; else if ((rfilp->filp_vno->v_mode & I_TYPE) != I_DIRECTORY) r = EBADF; if (r == OK) { if (ex64hi(rfilp->filp_pos) != 0) panic("do_getdents: can't handle large offsets"); r = req_getdents(rfilp->filp_vno->v_fs_e, rfilp->filp_vno->v_inode_nr, rfilp->filp_pos, m_in.buffer, m_in.nbytes,&new_pos,0); if (r > 0) rfilp->filp_pos = new_pos; } unlock_filp(rfilp); return(r); } /*===========================================================================* * rw_pipe * *===========================================================================*/ PUBLIC int rw_pipe(rw_flag, usr_e, f, buf, req_size) int rw_flag; /* READING or WRITING */ endpoint_t usr_e; struct filp *f; char *buf; size_t req_size; { int r, oflags, partial_pipe = 0; size_t size, cum_io, cum_io_incr; struct vnode *vp; u64_t position, new_pos; /* Must make sure we're operating on locked filp and vnode */ assert(tll_islocked(&f->filp_vno->v_lock)); assert(mutex_trylock(&f->filp_lock) == -EDEADLK); oflags = f->filp_flags; vp = f->filp_vno; position = cvu64((rw_flag == READING) ? vp->v_pipe_rd_pos : vp->v_pipe_wr_pos); /* fp->fp_cum_io_partial is only nonzero when doing partial writes */ cum_io = fp->fp_cum_io_partial; r = pipe_check(vp, rw_flag, oflags, req_size, position, 0); if (r <= 0) { if (r == SUSPEND) pipe_suspend(rw_flag, f, buf, req_size); return(r); } size = r; if (size < req_size) partial_pipe = 1; /* Truncate read request at size. */ if((rw_flag == READING) && cmp64ul(add64ul(position, size), vp->v_size) > 0) { /* Position always should fit in an off_t (LONG_MAX). */ off_t pos32; assert(cmp64ul(position, LONG_MAX) <= 0); pos32 = cv64ul(position); assert(pos32 >= 0); assert(pos32 <= LONG_MAX); size = vp->v_size - pos32; } if (vp->v_mapfs_e == 0) panic("unmapped pipe"); r = req_readwrite(vp->v_mapfs_e, vp->v_mapinode_nr, position, rw_flag, usr_e, buf, size, &new_pos, &cum_io_incr); if (r >= 0) { if (ex64hi(new_pos)) panic("rw_pipe: bad new pos"); position = new_pos; cum_io += cum_io_incr; buf += cum_io_incr; req_size -= cum_io_incr; } /* On write, update file size and access time. */ if (rw_flag == WRITING) { if (cmp64ul(position, vp->v_size) > 0) { if (ex64hi(position) != 0) { panic("read_write: file size too big for v_size"); } vp->v_size = ex64lo(position); } } else { if (cmp64ul(position, vp->v_size) >= 0) { /* Reset pipe pointers */ vp->v_size = 0; vp->v_pipe_rd_pos= 0; vp->v_pipe_wr_pos= 0; position = cvu64(0); } } if (rw_flag == READING) vp->v_pipe_rd_pos= cv64ul(position); else vp->v_pipe_wr_pos= cv64ul(position); if (r == OK) { if (partial_pipe) { /* partial write on pipe with */ /* O_NONBLOCK, return write count */ if (!(oflags & O_NONBLOCK)) { /* partial write on pipe with req_size > PIPE_SIZE, * non-atomic */ fp->fp_cum_io_partial = cum_io; pipe_suspend(rw_flag, f, buf, req_size); return(SUSPEND); } } fp->fp_cum_io_partial = 0; return(cum_io); } return(r); }