#define _POSIX_SOURCE 1 #define _MINIX 1 #define _SYSTEM 1 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define _MAIN 1 #include "glo.h" #include "proto.h" #include "util.h" #include "vm.h" #include "sanitycheck.h" extern int missing_spares; #include #include "kernel/const.h" #include "kernel/config.h" #include "kernel/proc.h" #include /* Table of calls and a macro to test for being in range. */ struct { int (*vmc_func)(message *); /* Call handles message. */ char *vmc_name; /* Human-readable string. */ } vm_calls[NR_VM_CALLS]; /* Macro to verify call range and map 'high' range to 'base' range * (starting at 0) in one. Evaluates to zero-based call number if call * number is valid, returns -1 otherwise. */ #define CALLNUMBER(c) (((c) >= VM_RQ_BASE && \ (c) < VM_RQ_BASE + ELEMENTS(vm_calls)) ? \ ((c) - VM_RQ_BASE) : -1) FORWARD _PROTOTYPE(int map_service, (struct rprocpub *rpub)); FORWARD _PROTOTYPE(int vm_acl_ok, (endpoint_t caller, int call)); extern int unmap_ok; /* SEF functions and variables. */ FORWARD _PROTOTYPE( void sef_local_startup, (void) ); FORWARD _PROTOTYPE( int sef_cb_init_fresh, (int type, sef_init_info_t *info) ); FORWARD _PROTOTYPE( void sef_cb_signal_handler, (int signo) ); /*===========================================================================* * main * *===========================================================================*/ PUBLIC int main(void) { message msg; int result, who_e, rcv_sts; sigset_t sigset; /* SEF local startup. */ sef_local_startup(); SANITYCHECK(SCL_TOP); /* This is VM's main loop. */ while (TRUE) { int r, c; SANITYCHECK(SCL_TOP); if(missing_spares > 0) { pt_cycle(); /* pagetable code wants to be called */ } SANITYCHECK(SCL_DETAIL); if ((r=sef_receive_status(ANY, &msg, &rcv_sts)) != OK) panic("sef_receive_status() error: %d", r); SANITYCHECK(SCL_DETAIL); if (is_ipc_notify(rcv_sts)) { /* Unexpected notify(). */ printf("VM: ignoring notify() from %d\n", msg.m_source); continue; } who_e = msg.m_source; c = CALLNUMBER(msg.m_type); result = ENOSYS; /* Out of range or restricted calls return this. */ if (msg.m_type == VM_PAGEFAULT) { if (!IPC_STATUS_FLAGS_TEST(rcv_sts, IPC_FLG_MSG_FROM_KERNEL)) { printf("VM: process %d faked VM_PAGEFAULT " "message!\n", msg.m_source); } do_pagefaults(&msg); /* * do not reply to this call, the caller is unblocked by * a sys_vmctl() call in do_pagefaults if success. VM panics * otherwise */ continue; } else if(c < 0 || !vm_calls[c].vmc_func) { printf("VM: out of range or missing callnr %d from %d\n", msg.m_type, who_e); } else { if (vm_acl_ok(who_e, c) != OK) { printf("VM: unauthorized %s by %d\n", vm_calls[c].vmc_name, who_e); } else { SANITYCHECK(SCL_FUNCTIONS); result = vm_calls[c].vmc_func(&msg); SANITYCHECK(SCL_FUNCTIONS); } } /* Send reply message, unless the return code is SUSPEND, * which is a pseudo-result suppressing the reply message. */ if(result != SUSPEND) { SANITYCHECK(SCL_DETAIL); msg.m_type = result; if((r=send(who_e, &msg)) != OK) { printf("VM: couldn't send %d to %d (err %d)\n", msg.m_type, who_e, r); panic("send() error"); } SANITYCHECK(SCL_DETAIL); } SANITYCHECK(SCL_DETAIL); } return(OK); } /*===========================================================================* * sef_local_startup * *===========================================================================*/ PRIVATE void sef_local_startup() { /* Register init callbacks. */ sef_setcb_init_fresh(sef_cb_init_fresh); sef_setcb_init_restart(sef_cb_init_fail); /* No live update support for now. */ /* Register signal callbacks. */ sef_setcb_signal_handler(sef_cb_signal_handler); /* Let SEF perform startup. */ sef_startup(); } /*===========================================================================* * sef_cb_init_fresh * *===========================================================================*/ PRIVATE int sef_cb_init_fresh(int type, sef_init_info_t *info) { /* Initialize the vm server. */ int s, i; int click, clicksforgotten = 0; struct memory mem_chunks[NR_MEMS]; struct boot_image image[NR_BOOT_PROCS]; struct boot_image *ip; struct rprocpub rprocpub[NR_BOOT_PROCS]; phys_bytes limit = 0; #if SANITYCHECKS incheck = nocheck = 0; #endif vm_paged = 1; env_parse("vm_paged", "d", 0, &vm_paged, 0, 1); #if SANITYCHECKS env_parse("vm_sanitychecklevel", "d", 0, &vm_sanitychecklevel, 0, SCL_MAX); #endif /* Get chunks of available memory. */ get_mem_chunks(mem_chunks); /* Initialize VM's process table. Request a copy of the system * image table that is defined at the kernel level to see which * slots to fill in. */ if (OK != (s=sys_getimage(image))) panic("couldn't get image table: %d", s); /* Set table to 0. This invalidates all slots (clear VMF_INUSE). */ memset(vmproc, 0, sizeof(vmproc)); for(i = 0; i < ELEMENTS(vmproc); i++) { vmproc[i].vm_slot = i; } /* Walk through boot-time system processes that are alive * now and make valid slot entries for them. */ for (ip = &image[0]; ip < &image[NR_BOOT_PROCS]; ip++) { phys_bytes proclimit; struct vmproc *vmp; if(ip->proc_nr >= _NR_PROCS) { panic("proc: %d", ip->proc_nr); } if(ip->proc_nr < 0 && ip->proc_nr != SYSTEM) continue; #define GETVMP(v, nr) \ if(nr >= 0) { \ vmp = &vmproc[ip->proc_nr]; \ } else if(nr == SYSTEM) { \ vmp = &vmproc[VMP_SYSTEM]; \ } else { \ panic("init: crazy proc_nr: %d", nr); \ } /* Initialize normal process table slot or special SYSTEM * table slot. Kernel memory is already reserved. */ GETVMP(vmp, ip->proc_nr); /* reset fields as if exited */ clear_proc(vmp); /* Get memory map for this process from the kernel. */ if ((s=get_mem_map(ip->proc_nr, vmp->vm_arch.vm_seg)) != OK) panic("couldn't get process mem_map: %d", s); /* Remove this memory from the free list. */ reserve_proc_mem(mem_chunks, vmp->vm_arch.vm_seg); /* Set memory limit. */ proclimit = CLICK2ABS(vmp->vm_arch.vm_seg[S].mem_phys + vmp->vm_arch.vm_seg[S].mem_len) - 1; if(proclimit > limit) limit = proclimit; vmp->vm_flags = VMF_INUSE; vmp->vm_endpoint = ip->endpoint; vmp->vm_stacktop = CLICK2ABS(vmp->vm_arch.vm_seg[S].mem_vir + vmp->vm_arch.vm_seg[S].mem_len); if (vmp->vm_arch.vm_seg[T].mem_len != 0) vmp->vm_flags |= VMF_SEPARATE; } /* Architecture-dependent initialization. */ pt_init(limit); /* Initialize tables to all physical memory. */ mem_init(mem_chunks); meminit_done = 1; /* Give these processes their own page table. */ for (ip = &image[0]; ip < &image[NR_BOOT_PROCS]; ip++) { int s; struct vmproc *vmp; vir_bytes old_stacktop, old_stack; if(ip->proc_nr < 0) continue; GETVMP(vmp, ip->proc_nr); if(!(ip->flags & PROC_FULLVM)) continue; old_stack = vmp->vm_arch.vm_seg[S].mem_vir + vmp->vm_arch.vm_seg[S].mem_len - vmp->vm_arch.vm_seg[D].mem_len; if(pt_new(&vmp->vm_pt) != OK) panic("VM: no new pagetable"); #define BASICSTACK VM_PAGE_SIZE old_stacktop = CLICK2ABS(vmp->vm_arch.vm_seg[S].mem_vir + vmp->vm_arch.vm_seg[S].mem_len); if(sys_vmctl(vmp->vm_endpoint, VMCTL_INCSP, VM_STACKTOP - old_stacktop) != OK) { panic("VM: vmctl for new stack failed"); } free_mem(vmp->vm_arch.vm_seg[D].mem_phys + vmp->vm_arch.vm_seg[D].mem_len, old_stack); if(proc_new(vmp, VM_PROCSTART, CLICK2ABS(vmp->vm_arch.vm_seg[T].mem_len), CLICK2ABS(vmp->vm_arch.vm_seg[D].mem_len), BASICSTACK, CLICK2ABS(vmp->vm_arch.vm_seg[S].mem_vir + vmp->vm_arch.vm_seg[S].mem_len - vmp->vm_arch.vm_seg[D].mem_len) - BASICSTACK, CLICK2ABS(vmp->vm_arch.vm_seg[T].mem_phys), CLICK2ABS(vmp->vm_arch.vm_seg[D].mem_phys), VM_STACKTOP, 0) != OK) { panic("failed proc_new for boot process"); } } /* Set up table of calls. */ #define CALLMAP(code, func) { int i; \ if((i=CALLNUMBER(code)) < 0) { panic(#code " invalid: %d", (code)); } \ if(i >= NR_VM_CALLS) { panic(#code " invalid: %d", (code)); } \ vm_calls[i].vmc_func = (func); \ vm_calls[i].vmc_name = #code; \ } /* Set call table to 0. This invalidates all calls (clear * vmc_func). */ memset(vm_calls, 0, sizeof(vm_calls)); /* Basic VM calls. */ CALLMAP(VM_MMAP, do_mmap); CALLMAP(VM_MUNMAP, do_munmap); CALLMAP(VM_MUNMAP_TEXT, do_munmap); CALLMAP(VM_MAP_PHYS, do_map_phys); CALLMAP(VM_UNMAP_PHYS, do_unmap_phys); /* Calls from PM. */ CALLMAP(VM_EXIT, do_exit); CALLMAP(VM_FORK, do_fork); CALLMAP(VM_BRK, do_brk); CALLMAP(VM_EXEC_NEWMEM, do_exec_newmem); CALLMAP(VM_PUSH_SIG, do_push_sig); CALLMAP(VM_WILLEXIT, do_willexit); CALLMAP(VM_ADDDMA, do_adddma); CALLMAP(VM_DELDMA, do_deldma); CALLMAP(VM_GETDMA, do_getdma); CALLMAP(VM_NOTIFY_SIG, do_notify_sig); /* Calls from RS */ CALLMAP(VM_RS_SET_PRIV, do_rs_set_priv); CALLMAP(VM_RS_UPDATE, do_rs_update); /* Generic calls. */ CALLMAP(VM_REMAP, do_remap); CALLMAP(VM_GETPHYS, do_get_phys); CALLMAP(VM_SHM_UNMAP, do_shared_unmap); CALLMAP(VM_GETREF, do_get_refcount); CALLMAP(VM_INFO, do_info); CALLMAP(VM_QUERY_EXIT, do_query_exit); /* Sanity checks */ if(find_kernel_top() >= VM_PROCSTART) panic("kernel loaded too high"); /* Initialize the structures for queryexit */ init_query_exit(); /* Unmap our own low pages. */ unmap_ok = 1; _minix_unmapzero(); /* Map all the services in the boot image. */ if((s = sys_safecopyfrom(RS_PROC_NR, info->rproctab_gid, 0, (vir_bytes) rprocpub, sizeof(rprocpub), S)) != OK) { panic("sys_safecopyfrom failed: %d", s); } for(i=0;i < NR_BOOT_PROCS;i++) { if(rprocpub[i].in_use) { if((s = map_service(&rprocpub[i])) != OK) { panic("unable to map service: %d", s); } } } return(OK); } /*===========================================================================* * sef_cb_signal_handler * *===========================================================================*/ PRIVATE void sef_cb_signal_handler(int signo) { /* Check for known kernel signals, ignore anything else. */ switch(signo) { /* There is a pending memory request from the kernel. */ case SIGKMEM: do_memory(); break; } } /*===========================================================================* * map_service * *===========================================================================*/ PRIVATE int map_service(rpub) struct rprocpub *rpub; { /* Map a new service by initializing its call mask. */ int r, proc_nr; if ((r = vm_isokendpt(rpub->endpoint, &proc_nr)) != OK) { return r; } /* Copy the call mask. */ memcpy(&vmproc[proc_nr].vm_call_mask, &rpub->vm_call_mask, sizeof(vmproc[proc_nr].vm_call_mask)); return(OK); } /*===========================================================================* * vm_acl_ok * *===========================================================================*/ PRIVATE int vm_acl_ok(endpoint_t caller, int call) { int n, r; if ((r = vm_isokendpt(caller, &n)) != OK) panic("VM: from strange source: %d", caller); /* See if the call is allowed. */ if (!GET_BIT(vmproc[n].vm_call_mask, call)) { return EPERM; } return OK; }