/* The kernel call implemented in this file: * m_type: SYS_PRIVCTL * * The parameters for this kernel call are: * m_lsys_krn_sys_privctl.endpt (process endpoint of target) * m_lsys_krn_sys_privctl.request (privilege control request) * m_lsys_krn_sys_privctl.arg_ptr (pointer to request data) * m.m_lsys_krn_sys_privctl.phys_start * m.m_lsys_krn_sys_privctl.phys_len */ #include "kernel/system.h" #include "kernel/ipc.h" #include #include #include #if USE_PRIVCTL #define PRIV_DEBUG 0 static int update_priv(struct proc *rp, struct priv *priv); /*===========================================================================* * do_privctl * *===========================================================================*/ int do_privctl(struct proc * caller, message * m_ptr) { /* Handle sys_privctl(). Update a process' privileges. If the process is not * yet a system process, make sure it gets its own privilege structure. */ struct proc *rp; proc_nr_t proc_nr; sys_id_t priv_id; sys_map_t map; int ipc_to_m, kcalls; int i, r; struct io_range io_range; struct minix_mem_range mem_range; struct priv priv; int irq; /* Check whether caller is allowed to make this call. Privileged processes * can only update the privileges of processes that are inhibited from * running by the RTS_NO_PRIV flag. This flag is set when a privileged process * forks. */ if (! (priv(caller)->s_flags & SYS_PROC)) return(EPERM); if(m_ptr->m_lsys_krn_sys_privctl.endpt == SELF) okendpt(caller->p_endpoint, &proc_nr); else if(!isokendpt(m_ptr->m_lsys_krn_sys_privctl.endpt, &proc_nr)) return(EINVAL); rp = proc_addr(proc_nr); switch(m_ptr->m_lsys_krn_sys_privctl.request) { case SYS_PRIV_ALLOW: /* Allow process to run. Make sure its privilege structure has already * been set. */ if (!RTS_ISSET(rp, RTS_NO_PRIV) || priv(rp)->s_proc_nr == NONE) { return(EPERM); } RTS_UNSET(rp, RTS_NO_PRIV); return(OK); case SYS_PRIV_YIELD: /* Allow process to run and suspend the caller. */ if (!RTS_ISSET(rp, RTS_NO_PRIV) || priv(rp)->s_proc_nr == NONE) { return(EPERM); } RTS_SET(caller, RTS_NO_PRIV); RTS_UNSET(rp, RTS_NO_PRIV); return(OK); case SYS_PRIV_DISALLOW: /* Disallow process from running. */ if (RTS_ISSET(rp, RTS_NO_PRIV)) return(EPERM); RTS_SET(rp, RTS_NO_PRIV); return(OK); case SYS_PRIV_CLEAR_IPC_REFS: /* Clear pending IPC for the process. */ clear_ipc_refs(rp, EDEADSRCDST); return(OK); case SYS_PRIV_SET_SYS: /* Set a privilege structure of a blocked system process. */ if (! RTS_ISSET(rp, RTS_NO_PRIV)) return(EPERM); /* Check whether a static or dynamic privilege id must be allocated. */ priv_id = NULL_PRIV_ID; if (m_ptr->m_lsys_krn_sys_privctl.arg_ptr) { /* Copy privilege structure from caller */ if((r=data_copy(caller->p_endpoint, m_ptr->m_lsys_krn_sys_privctl.arg_ptr, KERNEL, (vir_bytes) &priv, sizeof(priv))) != OK) return r; /* See if the caller wants to assign a static privilege id. */ if(!(priv.s_flags & DYN_PRIV_ID)) { priv_id = priv.s_id; } } /* Make sure this process has its own privileges structure. This may * fail, since there are only a limited number of system processes. * Then copy privileges from the caller and restore some defaults. */ if ((i=get_priv(rp, priv_id)) != OK) { printf("do_privctl: unable to allocate priv_id %d: %d\n", priv_id, i); return(i); } priv_id = priv(rp)->s_id; /* backup privilege id */ *priv(rp) = *priv(caller); /* copy from caller */ priv(rp)->s_id = priv_id; /* restore privilege id */ priv(rp)->s_proc_nr = proc_nr; /* reassociate process nr */ for (i=0; i< NR_SYS_CHUNKS; i++) /* remove pending: */ priv(rp)->s_asyn_pending.chunk[i] = 0; /* - incoming asyn */ for (i=0; i< NR_SYS_CHUNKS; i++) /* messages */ priv(rp)->s_notify_pending.chunk[i] = 0; /* - notifications */ priv(rp)->s_int_pending = 0; /* - interrupts */ (void) sigemptyset(&priv(rp)->s_sig_pending); /* - signals */ reset_kernel_timer(&priv(rp)->s_alarm_timer); /* - alarm */ priv(rp)->s_asyntab= -1; /* - asynsends */ priv(rp)->s_asynsize= 0; priv(rp)->s_asynendpoint = rp->p_endpoint; priv(rp)->s_diag_sig = FALSE; /* no request for diag sigs */ /* Set defaults for privilege bitmaps. */ priv(rp)->s_flags= DSRV_F; /* privilege flags */ priv(rp)->s_init_flags= DSRV_I; /* initialization flags */ priv(rp)->s_trap_mask= DSRV_T; /* allowed traps */ memset(&map, 0, sizeof(map)); ipc_to_m = DSRV_M; /* allowed targets */ if (ipc_to_m == ALL_M) { for (i = 0; i < NR_SYS_PROCS; i++) set_sys_bit(map, i); } fill_sendto_mask(rp, &map); kcalls = DSRV_KC; /* allowed kernel calls */ for(i = 0; i < SYS_CALL_MASK_SIZE; i++) { priv(rp)->s_k_call_mask[i] = (kcalls == NO_C ? 0 : (~0)); } /* Set the default signal managers. */ priv(rp)->s_sig_mgr = DSRV_SM; priv(rp)->s_bak_sig_mgr = NONE; /* Set defaults for resources: no I/O resources, no memory resources, * no IRQs, no grant table, no ipc filter */ priv(rp)->s_nr_io_range= 0; priv(rp)->s_nr_mem_range= 0; priv(rp)->s_nr_irq= 0; priv(rp)->s_grant_table= 0; priv(rp)->s_grant_entries= 0; priv(rp)->s_grant_endpoint = rp->p_endpoint; priv(rp)->s_state_table= 0; priv(rp)->s_state_entries= 0; priv(rp)->s_ipcf= 0; /* Override defaults if the caller has supplied a privilege structure. */ if (m_ptr->m_lsys_krn_sys_privctl.arg_ptr) { if((r = update_priv(rp, &priv)) != OK) { return r; } } return(OK); case SYS_PRIV_SET_USER: /* Set a privilege structure of a blocked user process. */ if (!RTS_ISSET(rp, RTS_NO_PRIV)) return(EPERM); /* Link the process to the privilege structure of the root user * process all the user processes share. */ priv(rp) = priv_addr(USER_PRIV_ID); return(OK); case SYS_PRIV_ADD_IO: if (RTS_ISSET(rp, RTS_NO_PRIV)) return(EPERM); #if 0 /* XXX -- do we need a call for this? */ if (strcmp(rp->p_name, "fxp") == 0 || strcmp(rp->p_name, "rtl8139") == 0) { printf("setting ipc_stats_target to %d\n", rp->p_endpoint); ipc_stats_target= rp->p_endpoint; } #endif /* Get the I/O range */ data_copy(caller->p_endpoint, m_ptr->m_lsys_krn_sys_privctl.arg_ptr, KERNEL, (vir_bytes) &io_range, sizeof(io_range)); /* Add the I/O range */ return priv_add_io(rp, &io_range); case SYS_PRIV_ADD_MEM: if (RTS_ISSET(rp, RTS_NO_PRIV)) return(EPERM); /* Get the memory range */ if((r=data_copy(caller->p_endpoint, m_ptr->m_lsys_krn_sys_privctl.arg_ptr, KERNEL, (vir_bytes) &mem_range, sizeof(mem_range))) != OK) return r; /* Add the memory range */ return priv_add_mem(rp, &mem_range); case SYS_PRIV_ADD_IRQ: if (RTS_ISSET(rp, RTS_NO_PRIV)) return(EPERM); #if 0 /* Only system processes get IRQs? */ if (!(priv(rp)->s_flags & SYS_PROC)) return EPERM; #endif data_copy(caller->p_endpoint, m_ptr->m_lsys_krn_sys_privctl.arg_ptr, KERNEL, (vir_bytes) &irq, sizeof(irq)); /* Add the IRQ. */ return priv_add_irq(rp, irq); case SYS_PRIV_QUERY_MEM: { phys_bytes addr, limit; struct priv *sp; /* See if a certain process is allowed to map in certain physical * memory. */ addr = (phys_bytes) m_ptr->m_lsys_krn_sys_privctl.phys_start; limit = addr + (phys_bytes) m_ptr->m_lsys_krn_sys_privctl.phys_len - 1; if(limit < addr) return EPERM; if(!(sp = priv(rp))) return EPERM; for(i = 0; i < sp->s_nr_mem_range; i++) { if(addr >= sp->s_mem_tab[i].mr_base && limit <= sp->s_mem_tab[i].mr_limit) return OK; } return EPERM; } case SYS_PRIV_UPDATE_SYS: /* Update the privilege structure of a system process. */ if(!m_ptr->m_lsys_krn_sys_privctl.arg_ptr) return EINVAL; /* Copy privilege structure from caller */ if((r=data_copy(caller->p_endpoint, m_ptr->m_lsys_krn_sys_privctl.arg_ptr, KERNEL, (vir_bytes) &priv, sizeof(priv))) != OK) return r; /* Override settings in existing privilege structure. */ if((r = update_priv(rp, &priv)) != OK) { return r; } return(OK); default: printf("do_privctl: bad request %d\n", m_ptr->m_lsys_krn_sys_privctl.request); return EINVAL; } } /*===========================================================================* * update_priv * *===========================================================================*/ static int update_priv(struct proc *rp, struct priv *priv) { /* Update the privilege structure of a given process. */ int i; /* Copy flags and signal managers. */ priv(rp)->s_flags = priv->s_flags; priv(rp)->s_init_flags = priv->s_init_flags; priv(rp)->s_sig_mgr = priv->s_sig_mgr; priv(rp)->s_bak_sig_mgr = priv->s_bak_sig_mgr; /* Copy IRQs. */ if(priv->s_flags & CHECK_IRQ) { if (priv->s_nr_irq < 0 || priv->s_nr_irq > NR_IRQ) return EINVAL; priv(rp)->s_nr_irq= priv->s_nr_irq; for (i= 0; is_nr_irq; i++) { priv(rp)->s_irq_tab[i]= priv->s_irq_tab[i]; #if PRIV_DEBUG printf("do_privctl: adding IRQ %d for %d\n", priv(rp)->s_irq_tab[i], rp->p_endpoint); #endif } } /* Copy I/O ranges. */ if(priv->s_flags & CHECK_IO_PORT) { if (priv->s_nr_io_range < 0 || priv->s_nr_io_range > NR_IO_RANGE) return EINVAL; priv(rp)->s_nr_io_range= priv->s_nr_io_range; for (i= 0; is_nr_io_range; i++) { priv(rp)->s_io_tab[i]= priv->s_io_tab[i]; #if PRIV_DEBUG printf("do_privctl: adding I/O range [%x..%x] for %d\n", priv(rp)->s_io_tab[i].ior_base, priv(rp)->s_io_tab[i].ior_limit, rp->p_endpoint); #endif } } /* Copy memory ranges. */ if(priv->s_flags & CHECK_MEM) { if (priv->s_nr_mem_range < 0 || priv->s_nr_mem_range > NR_MEM_RANGE) return EINVAL; priv(rp)->s_nr_mem_range= priv->s_nr_mem_range; for (i= 0; is_nr_mem_range; i++) { priv(rp)->s_mem_tab[i]= priv->s_mem_tab[i]; #if PRIV_DEBUG printf("do_privctl: adding mem range [%x..%x] for %d\n", priv(rp)->s_mem_tab[i].mr_base, priv(rp)->s_mem_tab[i].mr_limit, rp->p_endpoint); #endif } } /* Copy trap mask. */ priv(rp)->s_trap_mask = priv->s_trap_mask; /* Copy target mask. */ #if PRIV_DEBUG printf("do_privctl: Setting ipc target mask for %d:"); for (i=0; i < NR_SYS_PROCS; i += BITCHUNK_BITS) { printf(" %08x", get_sys_bits(priv->s_ipc_to, i)); } printf("\n"); #endif fill_sendto_mask(rp, &priv->s_ipc_to); #if PRIV_DEBUG printf("do_privctl: Set ipc target mask for %d:"); for (i=0; i < NR_SYS_PROCS; i += BITCHUNK_BITS) { printf(" %08x", get_sys_bits(priv(rp)->s_ipc_to, i)); } printf("\n"); #endif /* Copy kernel call mask. */ memcpy(priv(rp)->s_k_call_mask, priv->s_k_call_mask, sizeof(priv(rp)->s_k_call_mask)); return OK; } #endif /* USE_PRIVCTL */