#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 #include #include "glo.h" #include "proto.h" #include "util.h" #include "region.h" /*===========================================================================* * do_mmap * *===========================================================================*/ int do_mmap(message *m) { int r, n; struct vmproc *vmp; int mfflags = 0; vir_bytes addr; struct vir_region *vr = NULL; int execpriv = 0; /* RS and VFS can do slightly more special mmap() things */ if(m->m_source == VFS_PROC_NR || m->m_source == RS_PROC_NR) execpriv = 1; if(m->VMM_FLAGS & MAP_THIRDPARTY) { if(!execpriv) return EPERM; if((r=vm_isokendpt(m->VMM_FORWHOM, &n)) != OK) return ESRCH; } else { /* regular mmap, i.e. for caller */ if((r=vm_isokendpt(m->m_source, &n)) != OK) { panic("do_mmap: message from strange source: %d", m->m_source); } } vmp = &vmproc[n]; if(m->VMM_FD == -1 || (m->VMM_FLAGS & MAP_ANON)) { mem_type_t *mt; u32_t vrflags = VR_ANON | VR_WRITABLE; size_t len = (vir_bytes) m->VMM_LEN; if(m->VMM_FD != -1 || len <= 0) { return EINVAL; } /* Contiguous phys memory has to be preallocated. */ if((m->VMM_FLAGS & (MAP_CONTIG|MAP_PREALLOC)) == MAP_CONTIG) { return EINVAL; } if(m->VMM_FLAGS & MAP_PREALLOC) mfflags |= MF_PREALLOC; if(m->VMM_FLAGS & MAP_LOWER16M) vrflags |= VR_LOWER16MB; if(m->VMM_FLAGS & MAP_LOWER1M) vrflags |= VR_LOWER1MB; if(m->VMM_FLAGS & MAP_ALIGN64K) vrflags |= VR_PHYS64K; if(m->VMM_FLAGS & MAP_UNINITIALIZED) { if(!execpriv) return EPERM; vrflags |= VR_UNINITIALIZED; } if(m->VMM_FLAGS & MAP_CONTIG) { vrflags |= VR_CONTIG; mt = &mem_type_anon_contig; } else mt = &mem_type_anon; if(len % VM_PAGE_SIZE) len += VM_PAGE_SIZE - (len % VM_PAGE_SIZE); vr = NULL; if (m->VMM_ADDR || (m->VMM_FLAGS & MAP_FIXED)) { /* An address is given, first try at that address. */ addr = m->VMM_ADDR; vr = map_page_region(vmp, addr, 0, len, vrflags, mfflags, mt); if(!vr && (m->VMM_FLAGS & MAP_FIXED)) return ENOMEM; } if (!vr) { /* No address given or address already in use. */ vr = map_page_region(vmp, 0, VM_DATATOP, len, vrflags, mfflags, mt); } if (!vr) { return ENOMEM; } } else { return ENOSYS; } /* Return mapping, as seen from process. */ assert(vr); m->VMM_RETADDR = vr->vaddr; return OK; } /*===========================================================================* * map_perm_check * *===========================================================================*/ int map_perm_check(endpoint_t caller, endpoint_t target, phys_bytes physaddr, phys_bytes len) { int r; /* TTY and memory are allowed to do anything. * They have to be special cases as they have to be able to do * anything; TTY even on behalf of anyone for the TIOCMAPMEM * ioctl. MEM just for itself. */ if(caller == TTY_PROC_NR) return OK; if(caller != target) return EPERM; if(caller == MEM_PROC_NR) return OK; /* Anyone else needs explicit permission from the kernel (ultimately * set by PCI). */ r = sys_privquery_mem(caller, physaddr, len); return r; } /*===========================================================================* * do_map_phys * *===========================================================================*/ int do_map_phys(message *m) { int r, n; struct vmproc *vmp; endpoint_t target; struct vir_region *vr; vir_bytes len; phys_bytes startaddr; size_t offset; target = m->VMMP_EP; len = m->VMMP_LEN; if (len <= 0) return EINVAL; if(target == SELF) target = m->m_source; if((r=vm_isokendpt(target, &n)) != OK) return EINVAL; startaddr = (vir_bytes)m->VMMP_PHADDR; /* First check permission, then round range down/up. Caller can't * help it if we can't map in lower than page granularity. */ if(map_perm_check(m->m_source, target, startaddr, len) != OK) { printf("VM: unauthorized mapping of 0x%lx by %d\n", startaddr, m->m_source); return EPERM; } vmp = &vmproc[n]; offset = startaddr % VM_PAGE_SIZE; len += offset; startaddr -= offset; if(len % VM_PAGE_SIZE) len += VM_PAGE_SIZE - (len % VM_PAGE_SIZE); if(!(vr = map_page_region(vmp, 0, VM_DATATOP, len, VR_DIRECT | VR_WRITABLE, 0, &mem_type_directphys))) { return ENOMEM; } phys_setphys(vr, startaddr); m->VMMP_VADDR_REPLY = (void *) (vr->vaddr + offset); return OK; } /*===========================================================================* * do_remap * *===========================================================================*/ int do_remap(message *m) { int dn, sn; vir_bytes da, sa; size_t size; u32_t flags; struct vir_region *src_region, *vr; struct vmproc *dvmp, *svmp; int r; int readonly; if(m->m_type == VM_REMAP) readonly = 0; else if(m->m_type == VM_REMAP_RO) readonly = 1; else panic("do_remap: can't be"); da = (vir_bytes) m->VMRE_DA; sa = (vir_bytes) m->VMRE_SA; size = m->VMRE_SIZE; if (size <= 0) return EINVAL; if ((r = vm_isokendpt((endpoint_t) m->VMRE_D, &dn)) != OK) return EINVAL; if ((r = vm_isokendpt((endpoint_t) m->VMRE_S, &sn)) != OK) return EINVAL; dvmp = &vmproc[dn]; svmp = &vmproc[sn]; if (!(src_region = map_lookup(svmp, sa, NULL))) return EINVAL; if(src_region->vaddr != sa) { printf("VM: do_remap: not start of region.\n"); return EFAULT; } if (size % VM_PAGE_SIZE) size += VM_PAGE_SIZE - size % VM_PAGE_SIZE; if(size != src_region->length) { printf("VM: do_remap: not size of region.\n"); return EFAULT; } flags = VR_SHARED; if(!readonly) flags |= VR_WRITABLE; if(da) vr = map_page_region(dvmp, da, 0, size, flags, 0, &mem_type_shared); else vr = map_page_region(dvmp, 0, VM_DATATOP, size, flags, 0, &mem_type_shared); if(!vr) { printf("VM: re-map of shared area failed\n"); return ENOMEM; } shared_setsource(vr, svmp->vm_endpoint, src_region); m->VMRE_RETA = (char *) vr->vaddr; return OK; } /*===========================================================================* * do_get_phys * *===========================================================================*/ int do_get_phys(message *m) { int r, n; struct vmproc *vmp; endpoint_t target; phys_bytes ret; vir_bytes addr; target = m->VMPHYS_ENDPT; addr = m->VMPHYS_ADDR; if ((r = vm_isokendpt(target, &n)) != OK) return EINVAL; vmp = &vmproc[n]; r = map_get_phys(vmp, addr, &ret); m->VMPHYS_RETA = ret; return r; } /*===========================================================================* * do_get_refcount * *===========================================================================*/ int do_get_refcount(message *m) { int r, n; struct vmproc *vmp; endpoint_t target; u8_t cnt; vir_bytes addr; target = m->VMREFCNT_ENDPT; addr = m->VMREFCNT_ADDR; if ((r = vm_isokendpt(target, &n)) != OK) return EINVAL; vmp = &vmproc[n]; r = map_get_ref(vmp, addr, &cnt); m->VMREFCNT_RETC = cnt; return r; } /*===========================================================================* * do_munmap * *===========================================================================*/ int do_munmap(message *m) { int r, n; struct vmproc *vmp; vir_bytes addr, len, offset; struct vir_region *vr; endpoint_t target = SELF; if(m->m_type == VM_UNMAP_PHYS) { target = m->VMUP_EP; } else if(m->m_type == VM_SHM_UNMAP) { target = m->VMUN_ENDPT; } if(target == SELF) target = m->m_source; if((r=vm_isokendpt(target, &n)) != OK) { panic("do_mmap: message from strange source: %d", m->m_source); } vmp = &vmproc[n]; if(m->m_type == VM_UNMAP_PHYS) { addr = (vir_bytes) m->VMUP_VADDR; } else if(m->m_type == VM_SHM_UNMAP) { addr = (vir_bytes) m->VMUN_ADDR; } else addr = (vir_bytes) m->VMUM_ADDR; if(!(vr = map_lookup(vmp, addr, NULL))) { printf("VM: unmap: virtual address 0x%lx not found in %d\n", addr, target); return EFAULT; } if(addr % VM_PAGE_SIZE) return EFAULT; if(m->m_type == VM_UNMAP_PHYS || m->m_type == VM_SHM_UNMAP) { len = vr->length; } else len = roundup(m->VMUM_LEN, VM_PAGE_SIZE); offset = addr - vr->vaddr; if(offset + len > vr->length) { printf("munmap: addr 0x%lx len 0x%lx spills out of region\n", addr, len); return EFAULT; } if(map_unmap_region(vmp, vr, offset, len) != OK) panic("do_munmap: map_unmap_region failed"); return OK; }