/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* * This file belongs to wc STREAMS module which has a D_MTPERMODE * inner perimeter. See "Locking Policy" comment in wscons.c for * more information. */ /* * Minor name device file Hotkeys * * 0 the system console /dev/console Alt + F1 * 0: virtual console #1 /dev/vt/0 Alt + F1 * * 2: virtual console #2 /dev/vt/2 Alt + F2 * 3: virtual console #3 /dev/vt/3 Alt + F3 * ...... * n: virtual console #n /dev/vt/n Alt + Fn * * Note that vtdaemon is running on /dev/vt/1 (minor=1), * which is not available to end users. * */ #define VT_DAEMON_MINOR 1 #define VT_IS_DAEMON(minor) ((minor) == VT_DAEMON_MINOR) extern void wc_get_size(vc_state_t *pvc); extern boolean_t consconfig_console_is_tipline(void); minor_t vc_last_console = VT_MINOR_INVALID; /* the last used console */ volatile uint_t vc_target_console; /* arg (1..n) */ static volatile minor_t vc_inuse_max_minor = 0; static list_t vc_waitactive_list; _NOTE(SCHEME_PROTECTS_DATA("D_MTPERMOD protected data", vc_target_console)) _NOTE(SCHEME_PROTECTS_DATA("D_MTPERMOD protected data", vc_last_console)) _NOTE(SCHEME_PROTECTS_DATA("D_MTPERMOD protected data", vc_inuse_max_minor)) _NOTE(SCHEME_PROTECTS_DATA("D_MTPERMOD protected data", vc_waitactive_list)) static int vt_pending_vtno = -1; kmutex_t vt_pending_vtno_lock; _NOTE(MUTEX_PROTECTS_DATA(vt_pending_vtno_lock, vt_pending_vtno)) static int vt_activate(uint_t vt_no, cred_t *credp); static void vt_copyout(queue_t *qp, mblk_t *mp, mblk_t *tmp, uint_t size); static void vt_copyin(queue_t *qp, mblk_t *mp, uint_t size); static void vt_iocnak(queue_t *qp, mblk_t *mp, int error); static void vt_iocack(queue_t *qp, mblk_t *mp); static uint_t vt_minor2arg(minor_t minor); static minor_t vt_arg2minor(uint_t arg); /* * If the system console is directed to tipline, consider /dev/vt/0 as * not being used. * For other VT, if it is opened and tty is initialized, consider it * as being used. */ #define VT_IS_INUSE(id) \ (((vt_minor2vc(id))->vc_flags & WCS_ISOPEN) && \ ((vt_minor2vc(id))->vc_flags & WCS_INIT) && \ (id != 0 || !consconfig_console_is_tipline())) /* * the vt switching message is encoded as: * * ------------------------------------------------------------- * | \033 | 'Q' | vtno + 'A' | opcode | 'z' | '\0' | * ------------------------------------------------------------- */ #define VT_MSG_SWITCH(mp) \ ((int)((mp)->b_wptr - (mp)->b_rptr) >= 5 && \ *((mp)->b_rptr) == '\033' && \ *((mp)->b_rptr + 1) == 'Q' && \ *((mp)->b_rptr + 4) == 'z') #define VT_MSG_VTNO(mp) (*((mp)->b_rptr + 2) - 'A') #define VT_MSG_OPCODE(mp) (*((mp)->b_rptr + 3)) #define VT_DOORCALL_MAX_RETRY 3 static void vt_init_ttycommon(tty_common_t *pcommon) { struct termios *termiosp; int len; mutex_init(&pcommon->t_excl, NULL, MUTEX_DEFAULT, NULL); pcommon->t_iflag = 0; /* * Get the default termios settings (cflag). * These are stored as a property in the * "options" node. */ if (ddi_getlongprop(DDI_DEV_T_ANY, ddi_root_node(), 0, "ttymodes", (caddr_t)&termiosp, &len) == DDI_PROP_SUCCESS) { if (len == sizeof (struct termios)) pcommon->t_cflag = termiosp->c_cflag; else cmn_err(CE_WARN, "wc: Couldn't get ttymodes property!"); kmem_free(termiosp, len); } else { /* * Gack! Whine about it. */ cmn_err(CE_WARN, "wc: Couldn't get ttymodes property!"); } pcommon->t_iocpending = NULL; } static int vt_config(uint_t count) { if (consmode != CONS_KFB) return (ENOTSUP); /* one for system console, one for vtdaemon */ if (count < 2) return (ENXIO); /* * Shouldn't allow to shrink the max vt minor to be smaller than * the max in used minor. */ if (count <= vc_inuse_max_minor) return (EBUSY); mutex_enter(&vc_lock); vt_resize(count); mutex_exit(&vc_lock); return (0); } void vt_clean(queue_t *q, vc_state_t *pvc) { ASSERT(MUTEX_HELD(&pvc->vc_state_lock)); if (pvc->vc_bufcallid != 0) { qunbufcall(q, pvc->vc_bufcallid); pvc->vc_bufcallid = 0; } if (pvc->vc_timeoutid != 0) { (void) quntimeout(q, pvc->vc_timeoutid); pvc->vc_timeoutid = 0; } ttycommon_close(&pvc->vc_ttycommon); pvc->vc_flags &= ~WCS_INIT; } /* * Reply the VT_WAITACTIVE ioctl. * Argument 'close' usage: * B_TRUE: the vt designated by argument 'minor' is being closed. * B_FALSE: the vt designated by argument 'minor' has been activated just now. */ static void vc_waitactive_reply(int minor, boolean_t close) { vc_waitactive_msg_t *index, *tmp; vc_state_t *pvc; index = list_head(&vc_waitactive_list); while (index != NULL) { tmp = index; index = list_next(&vc_waitactive_list, index); if ((close && tmp->wa_msg_minor == minor) || (!close && tmp->wa_wait_minor == minor)) { list_remove(&vc_waitactive_list, tmp); pvc = vt_minor2vc(tmp->wa_msg_minor); if (close) vt_iocnak(pvc->vc_wq, tmp->wa_mp, ENXIO); else vt_iocack(pvc->vc_wq, tmp->wa_mp); kmem_free(tmp, sizeof (vc_waitactive_msg_t)); } } } void vt_close(queue_t *q, vc_state_t *pvc, cred_t *credp) { minor_t index; mutex_enter(&pvc->vc_state_lock); vt_clean(q, pvc); pvc->vc_flags &= ~WCS_ISOPEN; mutex_exit(&pvc->vc_state_lock); tem_destroy(pvc->vc_tem, credp); pvc->vc_tem = NULL; index = pvc->vc_minor; if (index == vc_inuse_max_minor) { while ((--index > 0) && !VT_IS_INUSE(index)) ; vc_inuse_max_minor = index; } vc_waitactive_reply(pvc->vc_minor, B_TRUE); } static void vt_init_tty(vc_state_t *pvc) { ASSERT(MUTEX_HELD(&pvc->vc_state_lock)); pvc->vc_flags |= WCS_INIT; vt_init_ttycommon(&pvc->vc_ttycommon); wc_get_size(pvc); } /* * minor 0: /dev/vt/0 (index = 0, indicating the system console) * minor 1: /dev/vt/1 (index = 1, vtdaemon special console) * minor 2: /dev/vt/2 (index = 2, virtual consoles) * ...... * minor n: /dev/vt/n (index = n) * * * The system console (minor 0), is opened firstly and used during console * configuration. It also acts as the system hard console even when all * virtual consoles go off. * * In tipline case, minor 0 (/dev/vt/0) is reserved, and cannot be switched to. * And the system console is redirected to the tipline. During normal cases, * we can switch from virtual consoles to it by pressing 'Alt + F1'. * * minor 1 (/dev/vt/1) is reserved for vtdaemon special console, and it's * not available to end users. * * During early console configuration, consconfig_dacf opens wscons and then * issue a WC_OPEN_FB ioctl to kick off terminal init process. So during * consconfig_dacf first opening of wscons, tems (of type tem_state_t) is * not initialized. We do not initialize the tem_vt_state_t instance returned * by tem_init() for this open, since we do not have enough info to handle * normal terminal operation at this moment. This tem_vt_state_t instance * will get initialized when handling WC_OPEN_FB. */ int vt_open(minor_t minor, queue_t *rq, cred_t *crp) { vc_state_t *pvc; if (!vt_minor_valid(minor)) return (ENXIO); pvc = vt_minor2vc(minor); if (pvc == NULL) return (ENXIO); mutex_enter(&vc_lock); mutex_enter(&pvc->vc_state_lock); if (!(pvc->vc_flags & WCS_ISOPEN)) { /* * vc_tem might not be intialized if !tems.ts_initialized, * and this only happens during console configuration. */ pvc->vc_tem = tem_init(crp); } if (!(pvc->vc_flags & WCS_INIT)) vt_init_tty(pvc); /* * In normal case, the first screen is the system console; * In tipline case, the first screen is the first VT that gets started. */ if (vc_active_console == VT_MINOR_INVALID && minor != VT_DAEMON_MINOR) if (minor == 0 || consmode == CONS_KFB) { boolean_t unblank = B_FALSE; vc_active_console = minor; vc_last_console = minor; if (minor != 0) { /* * If we are not opening the system console * as the first console, clear the phyical * screen. */ unblank = B_TRUE; } tem_activate(pvc->vc_tem, unblank, crp); } if ((pvc->vc_ttycommon.t_flags & TS_XCLUDE) && (secpolicy_excl_open(crp) != 0)) { mutex_exit(&pvc->vc_state_lock); mutex_exit(&vc_lock); return (EBUSY); } if (minor > vc_inuse_max_minor) vc_inuse_max_minor = minor; pvc->vc_flags |= WCS_ISOPEN; pvc->vc_ttycommon.t_readq = rq; pvc->vc_ttycommon.t_writeq = WR(rq); mutex_exit(&pvc->vc_state_lock); mutex_exit(&vc_lock); rq->q_ptr = pvc; WR(rq)->q_ptr = pvc; pvc->vc_wq = WR(rq); qprocson(rq); return (0); } static minor_t vt_find_prev(minor_t cur) { minor_t i, t, max; ASSERT(vc_active_console != VT_MINOR_INVALID); max = VC_INSTANCES_COUNT; for (i = cur - 1; (t = (i + max) % max) != cur; i--) if (!VT_IS_DAEMON(t) && VT_IS_INUSE(t)) return (t); return (VT_MINOR_INVALID); } static minor_t vt_find_next(minor_t cur) { minor_t i, t, max; ASSERT(vc_active_console != VT_MINOR_INVALID); max = VC_INSTANCES_COUNT; for (i = cur + 1; (t = (i + max) % max) != cur; i++) if (!VT_IS_DAEMON(t) && VT_IS_INUSE(t)) return (t); return (VT_MINOR_INVALID); } /* ARGSUSED */ void vt_send_hotkeys(void *timeout_arg) { door_handle_t door; vt_cmd_arg_t arg; int error = 0; int retries = 0; door_arg_t door_arg; mutex_enter(&vt_pending_vtno_lock); arg.vt_ev = VT_EV_HOTKEYS; arg.vt_num = vt_pending_vtno; /* only available in kernel context or user context */ if (door_ki_open(VT_DAEMON_DOOR_FILE, &door) != 0) { vt_pending_vtno = -1; mutex_exit(&vt_pending_vtno_lock); return; } door_arg.rbuf = NULL; door_arg.rsize = 0; door_arg.data_ptr = (void *)&arg; door_arg.data_size = sizeof (arg); door_arg.desc_ptr = NULL; door_arg.desc_num = 0; /* * Make door upcall */ while ((error = door_ki_upcall(door, &door_arg)) != 0 && retries < VT_DOORCALL_MAX_RETRY) if (error == EAGAIN || error == EINTR) retries++; else break; door_ki_rele(door); vt_pending_vtno = -1; mutex_exit(&vt_pending_vtno_lock); } static boolean_t vt_validate_hotkeys(int minor) { /* * minor should not succeed the existing minor numbers range. */ if (!vt_minor_valid(minor)) return (B_FALSE); /* * Shouldn't switch to /dev/vt/1 or an unused vt. */ if (!VT_IS_DAEMON(minor) && VT_IS_INUSE(minor)) return (B_TRUE); return (B_FALSE); } static void vt_trigger_hotkeys(int vtno) { mutex_enter(&vt_pending_vtno_lock); if (vt_pending_vtno != -1) { mutex_exit(&vt_pending_vtno_lock); return; } vt_pending_vtno = vtno; mutex_exit(&vt_pending_vtno_lock); (void) timeout(vt_send_hotkeys, NULL, 1); } /* * return value: * 0: non msg of vt hotkeys * 1: msg of vt hotkeys */ int vt_check_hotkeys(mblk_t *mp) { int vtno = 0; minor_t minor = 0; /* LINTED E_PTRDIFF_OVERFLOW */ if (!VT_MSG_SWITCH(mp)) return (0); switch (VT_MSG_OPCODE(mp)) { case 'B': /* find out the previous vt */ if (vc_active_console == VT_MINOR_INVALID) return (1); if (VT_IS_DAEMON(vc_active_console)) { minor = vt_find_prev(vt_arg2minor(vc_target_console)); break; } minor = vt_find_prev(vc_active_console); break; case 'F': /* find out the next vt */ if (vc_active_console == VT_MINOR_INVALID) return (1); if (VT_IS_DAEMON(vc_active_console)) { minor = vt_find_next(vt_arg2minor(vc_target_console)); break; } minor = vt_find_next(vc_active_console); break; case 'H': /* find out the specified vt */ minor = VT_MSG_VTNO(mp); /* check for system console, Alt + F1 */ if (minor == 1) minor = 0; break; case 'L': /* find out the last vt */ if ((minor = vc_last_console) == VT_MINOR_INVALID) return (1); break; default: return (1); } if (!vt_validate_hotkeys(minor)) return (1); /* * for system console, the argument of vtno for * vt_activate is 1, though its minor is 0 */ if (minor == 0) vtno = 1; /* for system console */ else vtno = minor; vt_trigger_hotkeys(vtno); return (1); } static void vt_proc_sendsig(pid_t pid, int sig) { register proc_t *p; if (pid <= 0) return; mutex_enter(&pidlock); if ((p = prfind(pid)) == NULL || p->p_stat == SIDL) { mutex_exit(&pidlock); return; } psignal(p, sig); mutex_exit(&pidlock); } static int vt_proc_exists(pid_t pid) { register proc_t *p; if (pid <= 0) return (EINVAL); mutex_enter(&pidlock); if ((p = prfind(pid)) == NULL || p->p_stat == SIDL) { mutex_exit(&pidlock); return (ESRCH); } mutex_exit(&pidlock); return (0); } #define SIG_VALID(x) (((x) > 0) && ((x) < _SIGRTMAX) && \ ((x) != SIGKILL) && ((x) != SIGSTOP)) static int vt_setmode(vc_state_t *pvc, struct vt_mode *pmode) { if ((pmode->mode != VT_PROCESS) && (pmode->mode != VT_AUTO)) return (EINVAL); if (!SIG_VALID(pmode->relsig) || !SIG_VALID(pmode->acqsig)) return (EINVAL); if (pmode->mode == VT_PROCESS) { pvc->vc_pid = curproc->p_pid; } else { pvc->vc_dispnum = 0; pvc->vc_login = 0; } pvc->vc_switch_mode = pmode->mode; pvc->vc_waitv = pmode->waitv; pvc->vc_relsig = pmode->relsig; pvc->vc_acqsig = pmode->acqsig; return (0); } static void vt_reset(vc_state_t *pvc) { pvc->vc_switch_mode = VT_AUTO; pvc->vc_pid = -1; pvc->vc_dispnum = 0; pvc->vc_login = 0; pvc->vc_switchto = VT_MINOR_INVALID; } /* * switch to vt_no from vc_active_console */ static void vt_switch(uint_t vt_no, cred_t *credp) { vc_state_t *pvc_active = vt_minor2vc(vc_active_console); vc_state_t *pvc = vt_minor2vc(vt_no); minor_t index; ASSERT(pvc_active && pvc); mutex_enter(&vc_lock); tem_switch(pvc_active->vc_tem, pvc->vc_tem, credp); if (!VT_IS_DAEMON(vc_active_console)) vc_last_console = vc_active_console; else vc_last_console = vt_arg2minor(vc_target_console); vc_active_console = pvc->vc_minor; if (pvc->vc_switch_mode == VT_PROCESS) { pvc->vc_switchto = pvc->vc_minor; /* send it an acquired signal */ vt_proc_sendsig(pvc->vc_pid, pvc->vc_acqsig); } vc_waitactive_reply(vc_active_console, B_FALSE); mutex_exit(&vc_lock); if (!VT_IS_DAEMON(vt_no)) { /* * Applications that open the virtual console device may request * asynchronous notification of VT switching from a previous VT * to another one by setting the S_MSG flag in an I_SETSIG * STREAMS ioctl. Such processes receive a SIGPOLL signal when * a VT switching succeeds. */ for (index = 0; index < VC_INSTANCES_COUNT; index++) { vc_state_t *tmp_pvc = vt_minor2vc(index); mblk_t *mp; if ((tmp_pvc->vc_flags & WCS_ISOPEN) && (tmp_pvc->vc_flags & WCS_INIT) && (mp = allocb(sizeof (unsigned char), BPRI_HI))) { mp->b_datap->db_type = M_PCSIG; *mp->b_wptr = SIGPOLL; mp->b_wptr += sizeof (unsigned char); putnext(RD(tmp_pvc->vc_wq), mp); } } } } /* * vt_no from 0 to n * * 0 for the vtdaemon sepcial console (only vtdaemon will use it) * 1 for the system console (Alt + F1, or Alt + Ctrl + F1), * aka Virtual Console #1 * * 2 for Virtual Console #2 * n for Virtual Console #n */ static minor_t vt_arg2minor(uint_t arg) { if (arg == 0) return (1); if (arg == 1) return (0); return (arg); } static uint_t vt_minor2arg(minor_t minor) { if (minor == 0) return (1); if (VT_IS_DAEMON(minor)) { /* here it should be the real console */ return (vc_target_console); } return (minor); } static int vt_activate(uint_t vt_no, cred_t *credp) { vc_state_t *pvc; minor_t minor; minor = vt_arg2minor(vt_no); if (!vt_minor_valid(minor)) return (ENXIO); if (minor == vc_active_console) { if (VT_IS_DAEMON(minor)) { /* * vtdaemon is reactivating itself to do locking * on behalf of another console, so record current * target console as the last console. */ vc_last_console = vt_arg2minor(vc_target_console); } return (0); } /* * In tipline case, the system console is redirected to tipline * and thus is always available. */ if (minor == 0 && consconfig_console_is_tipline()) return (0); if (!VT_IS_INUSE(minor)) return (ENXIO); pvc = vt_minor2vc(minor); if (pvc == NULL) return (ENXIO); if (pvc->vc_tem == NULL) return (ENXIO); pvc = vt_minor2vc(vc_active_console); if (pvc == NULL) return (ENXIO); if (pvc->vc_switch_mode != VT_PROCESS) { vt_switch(minor, credp); return (0); } /* * Validate the process, reset the * vt to auto mode if failed. */ if (pvc->vc_pid == -1 || vt_proc_exists(pvc->vc_pid) != 0) { /* * Xserver has not started up yet, * or it dose not exist. */ vt_reset(pvc); return (0); } /* * Send the release signal to the process, * and wait VT_RELDISP ioctl from Xserver * after its leaving VT. */ vt_proc_sendsig(pvc->vc_pid, pvc->vc_relsig); pvc->vc_switchto = minor; /* * We don't need a timeout here, for if Xserver refuses * or fails to respond to release signal using VT_RELDISP, * we cannot successfully switch to our text mode. Actually * users can try again. At present we don't support force * switch. */ return (0); } static int vt_reldisp(vc_state_t *pvc, int arg, cred_t *credp) { minor_t target_vtno = pvc->vc_switchto; if ((pvc->vc_switch_mode != VT_PROCESS) || (pvc->vc_minor != vc_active_console)) return (EACCES); if (target_vtno == VT_MINOR_INVALID) return (EINVAL); pvc->vc_switchto = VT_MINOR_INVALID; if (arg == VT_ACKACQ) return (0); if (arg == 0) return (0); /* refuse to release */ /* Xserver has left VT */ vt_switch(target_vtno, credp); return (0); } void vt_ioctl(queue_t *q, mblk_t *mp) { vc_state_t *pvc = (vc_state_t *)q->q_ptr; struct iocblk *iocp; struct vt_mode vtmode; struct vt_stat vtinfo; struct vt_dispinfo vtdisp; mblk_t *tmp; int minor; int arg; int error = 0; vc_waitactive_msg_t *wait_msg; iocp = (struct iocblk *)(void *)mp->b_rptr; if (consmode != CONS_KFB && iocp->ioc_cmd != VT_ENABLED) { vt_iocnak(q, mp, EINVAL); return; } switch (iocp->ioc_cmd) { case VT_ENABLED: if (!(tmp = allocb(sizeof (int), BPRI_MED))) { error = ENOMEM; break; } *(int *)(void *)tmp->b_rptr = consmode; tmp->b_wptr += sizeof (int); vt_copyout(q, mp, tmp, sizeof (int)); return; case KDSETMODE: arg = *(intptr_t *)(void *)mp->b_cont->b_rptr; if (arg != KD_TEXT && arg != KD_GRAPHICS) { error = EINVAL; break; } if (tem_get_fbmode(pvc->vc_tem) == arg) break; tem_set_fbmode(pvc->vc_tem, (uchar_t)arg, iocp->ioc_cr); break; case KDGETMODE: if (!(tmp = allocb(sizeof (int), BPRI_MED))) { error = ENOMEM; break; } *(int *)(void *)tmp->b_rptr = tem_get_fbmode(pvc->vc_tem); tmp->b_wptr += sizeof (int); vt_copyout(q, mp, tmp, sizeof (int)); return; case VT_OPENQRY: /* return number of first free VT */ if (!(tmp = allocb(sizeof (int), BPRI_MED))) { error = ENOMEM; break; } /* minors of 0 and 1 are not available to end users */ for (minor = 2; vt_minor_valid(minor); minor++) if (!VT_IS_INUSE(minor)) break; if (!vt_minor_valid(minor)) minor = -1; *(int *)(void *)tmp->b_rptr = minor; /* /dev/vt/minor */ tmp->b_wptr += sizeof (int); vt_copyout(q, mp, tmp, sizeof (int)); return; case VT_GETMODE: vtmode.mode = pvc->vc_switch_mode; vtmode.waitv = pvc->vc_waitv; vtmode.relsig = pvc->vc_relsig; vtmode.acqsig = pvc->vc_acqsig; vtmode.frsig = 0; if (!(tmp = allocb(sizeof (struct vt_mode), BPRI_MED))) { error = ENOMEM; break; } *(struct vt_mode *)(void *)tmp->b_rptr = vtmode; tmp->b_wptr += sizeof (struct vt_mode); vt_copyout(q, mp, tmp, sizeof (struct vt_mode)); return; case VT_SETMODE: vt_copyin(q, mp, sizeof (struct vt_mode)); return; case VT_SETDISPINFO: /* always enforce sys_devices privilege for setdispinfo */ if ((error = secpolicy_console(iocp->ioc_cr)) != 0) break; pvc->vc_dispnum = *(intptr_t *)(void *)mp->b_cont->b_rptr; break; case VT_SETDISPLOGIN: pvc->vc_login = *(intptr_t *)(void *)mp->b_cont->b_rptr; break; case VT_GETDISPINFO: vtdisp.v_pid = pvc->vc_pid; vtdisp.v_dispnum = pvc->vc_dispnum; vtdisp.v_login = pvc->vc_login; if (!(tmp = allocb(sizeof (struct vt_dispinfo), BPRI_MED))) { error = ENOMEM; break; } *(struct vt_dispinfo *)(void *)tmp->b_rptr = vtdisp; tmp->b_wptr += sizeof (struct vt_dispinfo); vt_copyout(q, mp, tmp, sizeof (struct vt_dispinfo)); return; case VT_RELDISP: arg = *(intptr_t *)(void *)mp->b_cont->b_rptr; error = vt_reldisp(pvc, arg, iocp->ioc_cr); break; case VT_CONFIG: /* always enforce sys_devices privilege for config */ if ((error = secpolicy_console(iocp->ioc_cr)) != 0) break; arg = *(intptr_t *)(void *)mp->b_cont->b_rptr; error = vt_config(arg); break; case VT_ACTIVATE: /* always enforce sys_devices privilege for secure switch */ if ((error = secpolicy_console(iocp->ioc_cr)) != 0) break; arg = *(intptr_t *)(void *)mp->b_cont->b_rptr; error = vt_activate(arg, iocp->ioc_cr); break; case VT_WAITACTIVE: arg = *(intptr_t *)(void *)mp->b_cont->b_rptr; arg = vt_arg2minor(arg); if (!vt_minor_valid(arg)) { error = ENXIO; break; } if (arg == vc_active_console) break; wait_msg = kmem_zalloc(sizeof (vc_waitactive_msg_t), KM_NOSLEEP); if (wait_msg == NULL) { error = ENXIO; break; } wait_msg->wa_mp = mp; wait_msg->wa_msg_minor = pvc->vc_minor; wait_msg->wa_wait_minor = arg; list_insert_head(&vc_waitactive_list, wait_msg); return; case VT_GETSTATE: /* * Here v_active is the argument for vt_activate, * not minor. */ vtinfo.v_active = vt_minor2arg(vc_active_console); vtinfo.v_state = 3; /* system console and vtdaemon */ /* we only support 16 vt states since the v_state is short */ for (minor = 2; minor < 16; minor++) { pvc = vt_minor2vc(minor); if (pvc == NULL) break; if (VT_IS_INUSE(minor)) vtinfo.v_state |= (1 << pvc->vc_minor); } if (!(tmp = allocb(sizeof (struct vt_stat), BPRI_MED))) { error = ENOMEM; break; } *(struct vt_stat *)(void *)tmp->b_rptr = vtinfo; tmp->b_wptr += sizeof (struct vt_stat); vt_copyout(q, mp, tmp, sizeof (struct vt_stat)); return; case VT_SET_TARGET: /* always enforce sys_devices privilege */ if ((error = secpolicy_console(iocp->ioc_cr)) != 0) break; arg = *(intptr_t *)(void *)mp->b_cont->b_rptr; /* vtdaemon is doing authentication for this target console */ vc_target_console = arg; break; case VT_GETACTIVE: /* get real active console (minor) */ if (!(tmp = allocb(sizeof (int), BPRI_MED))) { error = ENOMEM; break; } *(int *)(void *)tmp->b_rptr = vc_active_console; tmp->b_wptr += sizeof (int); vt_copyout(q, mp, tmp, sizeof (int)); return; default: error = ENXIO; break; } if (error != 0) vt_iocnak(q, mp, error); else vt_iocack(q, mp); } void vt_miocdata(queue_t *qp, mblk_t *mp) { vc_state_t *pvc = (vc_state_t *)qp->q_ptr; struct copyresp *copyresp; struct vt_mode *pmode; int error = 0; copyresp = (struct copyresp *)(void *)mp->b_rptr; if (copyresp->cp_rval) { vt_iocnak(qp, mp, EAGAIN); return; } switch (copyresp->cp_cmd) { case VT_SETMODE: pmode = (struct vt_mode *)(void *)mp->b_cont->b_rptr; error = vt_setmode(pvc, pmode); break; case KDGETMODE: case VT_OPENQRY: case VT_GETMODE: case VT_GETDISPINFO: case VT_GETSTATE: case VT_ENABLED: case VT_GETACTIVE: break; default: error = ENXIO; break; } if (error != 0) vt_iocnak(qp, mp, error); else vt_iocack(qp, mp); } static void vt_iocack(queue_t *qp, mblk_t *mp) { struct iocblk *iocbp = (struct iocblk *)(void *)mp->b_rptr; mp->b_datap->db_type = M_IOCACK; mp->b_wptr = mp->b_rptr + sizeof (struct iocblk); iocbp->ioc_error = 0; iocbp->ioc_count = 0; iocbp->ioc_rval = 0; if (mp->b_cont != NULL) { freemsg(mp->b_cont); mp->b_cont = NULL; } qreply(qp, mp); } static void vt_iocnak(queue_t *qp, mblk_t *mp, int error) { struct iocblk *iocp = (struct iocblk *)(void *)mp->b_rptr; mp->b_datap->db_type = M_IOCNAK; iocp->ioc_rval = 0; iocp->ioc_count = 0; iocp->ioc_error = error; if (mp->b_cont != NULL) { freemsg(mp->b_cont); mp->b_cont = NULL; } qreply(qp, mp); } static void vt_copyin(queue_t *qp, mblk_t *mp, uint_t size) { struct copyreq *cqp; cqp = (struct copyreq *)(void *)mp->b_rptr; cqp->cq_addr = *((caddr_t *)(void *)mp->b_cont->b_rptr); cqp->cq_size = size; cqp->cq_flag = 0; cqp->cq_private = (mblk_t *)NULL; mp->b_wptr = mp->b_rptr + sizeof (struct copyreq); mp->b_datap->db_type = M_COPYIN; if (mp->b_cont) freemsg(mp->b_cont); mp->b_cont = (mblk_t *)NULL; qreply(qp, mp); } static void vt_copyout(queue_t *qp, mblk_t *mp, mblk_t *tmp, uint_t size) { struct copyreq *cqp; cqp = (struct copyreq *)(void *)mp->b_rptr; cqp->cq_size = size; cqp->cq_addr = *((caddr_t *)(void *)mp->b_cont->b_rptr); cqp->cq_flag = 0; cqp->cq_private = (mblk_t *)NULL; mp->b_wptr = mp->b_rptr + sizeof (struct copyreq); mp->b_datap->db_type = M_COPYOUT; if (mp->b_cont) freemsg(mp->b_cont); mp->b_cont = tmp; qreply(qp, mp); } /* * Get vc state from minor. * Once a caller gets a vc_state_t from this function, * the vc_state_t is guaranteed not being freed before * the caller leaves this STREAMS module by the D_MTPERMOD * perimeter. */ vc_state_t * vt_minor2vc(minor_t minor) { avl_index_t where; vc_state_t target; if (minor != VT_ACTIVE) { target.vc_minor = minor; return (avl_find(&vc_avl_root, &target, &where)); } if (vc_active_console == VT_MINOR_INVALID) target.vc_minor = 0; else target.vc_minor = vc_active_console; return (avl_find(&vc_avl_root, &target, &where)); } static void vt_state_init(vc_state_t *vcptr, minor_t minor) { mutex_init(&vcptr->vc_state_lock, NULL, MUTEX_DRIVER, NULL); mutex_enter(&vcptr->vc_state_lock); vcptr->vc_flags = 0; mutex_exit(&vcptr->vc_state_lock); vcptr->vc_pid = -1; vcptr->vc_dispnum = 0; vcptr->vc_login = 0; vcptr->vc_switchto = VT_MINOR_INVALID; vcptr->vc_switch_mode = VT_AUTO; vcptr->vc_relsig = SIGUSR1; vcptr->vc_acqsig = SIGUSR1; vcptr->vc_tem = NULL; vcptr->vc_bufcallid = 0; vcptr->vc_timeoutid = 0; vcptr->vc_wq = NULL; vcptr->vc_minor = minor; } void vt_resize(uint_t count) { uint_t vc_num, i; ASSERT(MUTEX_HELD(&vc_lock)); vc_num = VC_INSTANCES_COUNT; if (count == vc_num) return; if (count > vc_num) { for (i = vc_num; i < count; i++) { vc_state_t *vcptr = kmem_zalloc(sizeof (vc_state_t), KM_SLEEP); vt_state_init(vcptr, i); avl_add(&vc_avl_root, vcptr); } return; } for (i = vc_num; i > count; i--) { avl_index_t where; vc_state_t target, *found; target.vc_minor = i - 1; found = avl_find(&vc_avl_root, &target, &where); ASSERT(found != NULL && found->vc_flags == 0); avl_remove(&vc_avl_root, found); kmem_free(found, sizeof (vc_state_t)); } } static int vc_avl_compare(const void *first, const void *second) { const vc_state_t *vcptr1 = first; const vc_state_t *vcptr2 = second; if (vcptr1->vc_minor < vcptr2->vc_minor) return (-1); if (vcptr1->vc_minor == vcptr2->vc_minor) return (0); return (1); } /* * Only called from wc init(). */ void vt_init(void) { #ifdef __lock_lint ASSERT(NO_COMPETING_THREADS); #endif avl_create(&vc_avl_root, vc_avl_compare, sizeof (vc_state_t), offsetof(vc_state_t, vc_avl_node)); list_create(&vc_waitactive_list, sizeof (vc_waitactive_msg_t), offsetof(vc_waitactive_msg_t, wa_list_node)); mutex_init(&vc_lock, NULL, MUTEX_DRIVER, NULL); mutex_init(&vt_pending_vtno_lock, NULL, MUTEX_DRIVER, NULL); }