/* * Server-side handle management * * Copyright (C) 1998 Alexandre Julliard * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include "config.h" #include "wine/port.h" #include #include #include #include #include #include #include "ntstatus.h" #define WIN32_NO_STATUS #include "windef.h" #include "winternl.h" #include "handle.h" #include "process.h" #include "thread.h" #include "security.h" #include "request.h" struct handle_entry { struct object *ptr; /* object */ unsigned int access; /* access rights */ }; struct handle_table { struct object obj; /* object header */ struct process *process; /* process owning this table */ int count; /* number of allocated entries */ int last; /* last used entry */ int free; /* first entry that may be free */ struct handle_entry *entries; /* handle entries */ }; static struct handle_table *global_table; /* reserved handle access rights */ #define RESERVED_SHIFT 26 #define RESERVED_INHERIT (HANDLE_FLAG_INHERIT << RESERVED_SHIFT) #define RESERVED_CLOSE_PROTECT (HANDLE_FLAG_PROTECT_FROM_CLOSE << RESERVED_SHIFT) #define RESERVED_ALL (RESERVED_INHERIT | RESERVED_CLOSE_PROTECT) #define MIN_HANDLE_ENTRIES 32 #define MAX_HANDLE_ENTRIES 0x00ffffff /* handle to table index conversion */ /* handles are a multiple of 4 under NT; handle 0 is not used */ static inline obj_handle_t index_to_handle( int index ) { return (obj_handle_t)((index + 1) << 2); } static inline int handle_to_index( obj_handle_t handle ) { return (handle >> 2) - 1; } /* global handle conversion */ #define HANDLE_OBFUSCATOR 0x544a4def static inline int handle_is_global( obj_handle_t handle) { return (handle ^ HANDLE_OBFUSCATOR) <= (MAX_HANDLE_ENTRIES << 2); } static inline obj_handle_t handle_local_to_global( obj_handle_t handle ) { if (!handle) return 0; return handle ^ HANDLE_OBFUSCATOR; } static inline obj_handle_t handle_global_to_local( obj_handle_t handle ) { return handle ^ HANDLE_OBFUSCATOR; } /* grab an object and increment its handle count */ static struct object *grab_object_for_handle( struct object *obj ) { obj->handle_count++; return grab_object( obj ); } /* release an object and decrement its handle count */ static void release_object_from_handle( struct object *obj ) { assert( obj->handle_count ); obj->handle_count--; release_object( obj ); } static void handle_table_dump( struct object *obj, int verbose ); static void handle_table_destroy( struct object *obj ); static const struct object_ops handle_table_ops = { sizeof(struct handle_table), /* size */ handle_table_dump, /* dump */ no_get_type, /* get_type */ no_add_queue, /* add_queue */ NULL, /* remove_queue */ NULL, /* signaled */ NULL, /* satisfied */ no_signal, /* signal */ no_get_fd, /* get_fd */ no_map_access, /* map_access */ default_get_sd, /* get_sd */ default_set_sd, /* set_sd */ no_lookup_name, /* lookup_name */ no_open_file, /* open_file */ no_close_handle, /* close_handle */ handle_table_destroy /* destroy */ }; /* dump a handle table */ static void handle_table_dump( struct object *obj, int verbose ) { int i; struct handle_table *table = (struct handle_table *)obj; struct handle_entry *entry; assert( obj->ops == &handle_table_ops ); fprintf( stderr, "Handle table last=%d count=%d process=%p\n", table->last, table->count, table->process ); if (!verbose) return; entry = table->entries; for (i = 0; i <= table->last; i++, entry++) { if (!entry->ptr) continue; fprintf( stderr, " %04x: %p %08x ", index_to_handle(i), entry->ptr, entry->access ); dump_object_name( entry->ptr ); entry->ptr->ops->dump( entry->ptr, 0 ); } } /* destroy a handle table */ static void handle_table_destroy( struct object *obj ) { int i; struct handle_table *table = (struct handle_table *)obj; struct handle_entry *entry; assert( obj->ops == &handle_table_ops ); /* first notify all objects that handles are being closed */ if (table->process) { for (i = 0, entry = table->entries; i <= table->last; i++, entry++) { struct object *obj = entry->ptr; if (obj) obj->ops->close_handle( obj, table->process, index_to_handle(i) ); } } for (i = 0, entry = table->entries; i <= table->last; i++, entry++) { struct object *obj = entry->ptr; entry->ptr = NULL; if (obj) release_object_from_handle( obj ); } free( table->entries ); } /* close all the process handles and free the handle table */ void close_process_handles( struct process *process ) { struct handle_table *table = process->handles; process->handles = NULL; if (table) release_object( table ); } /* allocate a new handle table */ struct handle_table *alloc_handle_table( struct process *process, int count ) { struct handle_table *table; if (count < MIN_HANDLE_ENTRIES) count = MIN_HANDLE_ENTRIES; if (!(table = alloc_object( &handle_table_ops ))) return NULL; table->process = process; table->count = count; table->last = -1; table->free = 0; if ((table->entries = mem_alloc( count * sizeof(*table->entries) ))) return table; release_object( table ); return NULL; } /* grow a handle table */ static int grow_handle_table( struct handle_table *table ) { struct handle_entry *new_entries; int count = min( table->count * 2, MAX_HANDLE_ENTRIES ); if (count == table->count || !(new_entries = realloc( table->entries, count * sizeof(struct handle_entry) ))) { set_error( STATUS_INSUFFICIENT_RESOURCES ); return 0; } table->entries = new_entries; table->count = count; return 1; } /* allocate the first free entry in the handle table */ static obj_handle_t alloc_entry( struct handle_table *table, void *obj, unsigned int access ) { struct handle_entry *entry = table->entries + table->free; int i; for (i = table->free; i <= table->last; i++, entry++) if (!entry->ptr) goto found; if (i >= table->count) { if (!grow_handle_table( table )) return 0; entry = table->entries + i; /* the entries may have moved */ } table->last = i; found: table->free = i + 1; entry->ptr = grab_object_for_handle( obj ); entry->access = access; return index_to_handle(i); } /* allocate a handle for an object, incrementing its refcount */ static obj_handle_t alloc_handle_entry( struct process *process, void *ptr, unsigned int access, unsigned int attr ) { struct object *obj = ptr; assert( !(access & RESERVED_ALL) ); if (attr & OBJ_INHERIT) access |= RESERVED_INHERIT; if (!process->handles) { set_error( STATUS_PROCESS_IS_TERMINATING ); return 0; } return alloc_entry( process->handles, obj, access ); } /* allocate a handle for an object, incrementing its refcount */ /* return the handle, or 0 on error */ obj_handle_t alloc_handle_no_access_check( struct process *process, void *ptr, unsigned int access, unsigned int attr ) { struct object *obj = ptr; access = obj->ops->map_access( obj, access ) & ~RESERVED_ALL; return alloc_handle_entry( process, ptr, access, attr ); } /* allocate a handle for an object, checking the dacl allows the process to */ /* access it and incrementing its refcount */ /* return the handle, or 0 on error */ obj_handle_t alloc_handle( struct process *process, void *ptr, unsigned int access, unsigned int attr ) { struct object *obj = ptr; access = obj->ops->map_access( obj, access ) & ~RESERVED_ALL; if (access && !check_object_access( obj, &access )) return 0; return alloc_handle_entry( process, ptr, access, attr ); } /* allocate a global handle for an object, incrementing its refcount */ /* return the handle, or 0 on error */ static obj_handle_t alloc_global_handle_no_access_check( void *obj, unsigned int access ) { if (!global_table) { if (!(global_table = alloc_handle_table( NULL, 0 ))) return 0; make_object_static( &global_table->obj ); } return handle_local_to_global( alloc_entry( global_table, obj, access )); } /* allocate a global handle for an object, checking the dacl allows the */ /* process to access it and incrementing its refcount and incrementing its refcount */ /* return the handle, or 0 on error */ static obj_handle_t alloc_global_handle( void *obj, unsigned int access ) { if (access && !check_object_access( obj, &access )) return 0; return alloc_global_handle_no_access_check( obj, access ); } /* return a handle entry, or NULL if the handle is invalid */ static struct handle_entry *get_handle( struct process *process, obj_handle_t handle ) { struct handle_table *table = process->handles; struct handle_entry *entry; int index; if (handle_is_global(handle)) { handle = handle_global_to_local(handle); table = global_table; } if (!table) return NULL; index = handle_to_index( handle ); if (index < 0) return NULL; if (index > table->last) return NULL; entry = table->entries + index; if (!entry->ptr) return NULL; return entry; } /* attempt to shrink a table */ static void shrink_handle_table( struct handle_table *table ) { struct handle_entry *entry = table->entries + table->last; struct handle_entry *new_entries; int count = table->count; while (table->last >= 0) { if (entry->ptr) break; table->last--; entry--; } if (table->last >= count / 4) return; /* no need to shrink */ if (count < MIN_HANDLE_ENTRIES * 2) return; /* too small to shrink */ count /= 2; if (!(new_entries = realloc( table->entries, count * sizeof(*new_entries) ))) return; table->count = count; table->entries = new_entries; } /* copy the handle table of the parent process */ /* return 1 if OK, 0 on error */ struct handle_table *copy_handle_table( struct process *process, struct process *parent ) { struct handle_table *parent_table = parent->handles; struct handle_table *table; int i; assert( parent_table ); assert( parent_table->obj.ops == &handle_table_ops ); if (!(table = alloc_handle_table( process, parent_table->count ))) return NULL; if ((table->last = parent_table->last) >= 0) { struct handle_entry *ptr = table->entries; memcpy( ptr, parent_table->entries, (table->last + 1) * sizeof(struct handle_entry) ); for (i = 0; i <= table->last; i++, ptr++) { if (!ptr->ptr) continue; if (ptr->access & RESERVED_INHERIT) grab_object_for_handle( ptr->ptr ); else ptr->ptr = NULL; /* don't inherit this entry */ } } /* attempt to shrink the table */ shrink_handle_table( table ); return table; } /* close a handle and decrement the refcount of the associated object */ unsigned int close_handle( struct process *process, obj_handle_t handle ) { struct handle_table *table; struct handle_entry *entry; struct object *obj; if (!(entry = get_handle( process, handle ))) return STATUS_INVALID_HANDLE; if (entry->access & RESERVED_CLOSE_PROTECT) return STATUS_HANDLE_NOT_CLOSABLE; obj = entry->ptr; if (!obj->ops->close_handle( obj, process, handle )) return STATUS_HANDLE_NOT_CLOSABLE; entry->ptr = NULL; table = handle_is_global(handle) ? global_table : process->handles; if (entry < table->entries + table->free) table->free = entry - table->entries; if (entry == table->entries + table->last) shrink_handle_table( table ); release_object_from_handle( obj ); return STATUS_SUCCESS; } /* retrieve the object corresponding to one of the magic pseudo-handles */ static inline struct object *get_magic_handle( obj_handle_t handle ) { switch(handle) { case 0xfffffffe: /* current thread pseudo-handle */ return ¤t->obj; case 0x7fffffff: /* current process pseudo-handle */ case 0xffffffff: /* current process pseudo-handle */ return (struct object *)current->process; default: return NULL; } } /* retrieve the object corresponding to a handle, incrementing its refcount */ struct object *get_handle_obj( struct process *process, obj_handle_t handle, unsigned int access, const struct object_ops *ops ) { struct handle_entry *entry; struct object *obj; if (!(obj = get_magic_handle( handle ))) { if (!(entry = get_handle( process, handle ))) { set_error( STATUS_INVALID_HANDLE ); return NULL; } obj = entry->ptr; if (ops && (obj->ops != ops)) { set_error( STATUS_OBJECT_TYPE_MISMATCH ); /* not the right type */ return NULL; } if ((entry->access & access) != access) { set_error( STATUS_ACCESS_DENIED ); return NULL; } } else if (ops && (obj->ops != ops)) { set_error( STATUS_OBJECT_TYPE_MISMATCH ); /* not the right type */ return NULL; } return grab_object( obj ); } /* retrieve the access rights of a given handle */ unsigned int get_handle_access( struct process *process, obj_handle_t handle ) { struct handle_entry *entry; if (get_magic_handle( handle )) return ~RESERVED_ALL; /* magic handles have all access rights */ if (!(entry = get_handle( process, handle ))) return 0; return entry->access & ~RESERVED_ALL; } /* find the first inherited handle of the given type */ /* this is needed for window stations and desktops (don't ask...) */ obj_handle_t find_inherited_handle( struct process *process, const struct object_ops *ops ) { struct handle_table *table = process->handles; struct handle_entry *ptr; int i; if (!table) return 0; for (i = 0, ptr = table->entries; i <= table->last; i++, ptr++) { if (!ptr->ptr) continue; if (ptr->ptr->ops != ops) continue; if (ptr->access & RESERVED_INHERIT) return index_to_handle(i); } return 0; } /* enumerate handles of a given type */ /* this is needed for window stations and desktops */ obj_handle_t enumerate_handles( struct process *process, const struct object_ops *ops, unsigned int *index ) { struct handle_table *table = process->handles; unsigned int i; struct handle_entry *entry; if (!table) return 0; for (i = *index, entry = &table->entries[i]; i <= table->last; i++, entry++) { if (!entry->ptr) continue; if (entry->ptr->ops != ops) continue; *index = i + 1; return index_to_handle(i); } return 0; } /* get/set the handle reserved flags */ /* return the old flags (or -1 on error) */ static int set_handle_flags( struct process *process, obj_handle_t handle, int mask, int flags ) { struct handle_entry *entry; unsigned int old_access; if (get_magic_handle( handle )) { /* we can retrieve but not set info for magic handles */ if (mask) set_error( STATUS_ACCESS_DENIED ); return 0; } if (!(entry = get_handle( process, handle ))) { set_error( STATUS_INVALID_HANDLE ); return -1; } old_access = entry->access; mask = (mask << RESERVED_SHIFT) & RESERVED_ALL; flags = (flags << RESERVED_SHIFT) & mask; entry->access = (entry->access & ~mask) | flags; return (old_access & RESERVED_ALL) >> RESERVED_SHIFT; } /* duplicate a handle */ obj_handle_t duplicate_handle( struct process *src, obj_handle_t src_handle, struct process *dst, unsigned int access, unsigned int attr, unsigned int options ) { obj_handle_t res; struct handle_entry *entry; unsigned int src_access; struct object *obj = get_handle_obj( src, src_handle, 0, NULL ); if (!obj) return 0; if ((entry = get_handle( src, src_handle ))) src_access = entry->access; else /* pseudo-handle, give it full access */ src_access = obj->ops->map_access( obj, GENERIC_ALL ); src_access &= ~RESERVED_ALL; if (options & DUP_HANDLE_SAME_ACCESS) access = src_access; else access = obj->ops->map_access( obj, access ) & ~RESERVED_ALL; /* asking for the more access rights than src_access? */ if (access & ~src_access) { if (options & DUP_HANDLE_MAKE_GLOBAL) res = alloc_global_handle( obj, access ); else res = alloc_handle( dst, obj, access, attr ); } else { if (options & DUP_HANDLE_MAKE_GLOBAL) res = alloc_global_handle_no_access_check( obj, access ); else if ((options & DUP_HANDLE_CLOSE_SOURCE) && src == dst && entry && !(entry->access & RESERVED_CLOSE_PROTECT)) { if (attr & OBJ_INHERIT) access |= RESERVED_INHERIT; entry->access = access; res = src_handle; } else res = alloc_handle_entry( dst, obj, access, attr ); } release_object( obj ); return res; } /* open a new handle to an existing object */ obj_handle_t open_object( const struct namespace *namespace, const struct unicode_str *name, const struct object_ops *ops, unsigned int access, unsigned int attr ) { obj_handle_t handle = 0; struct object *obj = find_object( namespace, name, attr ); if (obj) { if (ops && obj->ops != ops) set_error( STATUS_OBJECT_TYPE_MISMATCH ); else handle = alloc_handle( current->process, obj, access, attr ); release_object( obj ); } else set_error( STATUS_OBJECT_NAME_NOT_FOUND ); return handle; } /* return the size of the handle table of a given process */ unsigned int get_handle_table_count( struct process *process ) { if (!process->handles) return 0; return process->handles->count; } /* close a handle */ DECL_HANDLER(close_handle) { unsigned int err = close_handle( current->process, req->handle ); set_error( err ); } /* set a handle information */ DECL_HANDLER(set_handle_info) { reply->old_flags = set_handle_flags( current->process, req->handle, req->mask, req->flags ); } /* duplicate a handle */ DECL_HANDLER(dup_handle) { struct process *src, *dst = NULL; reply->handle = 0; if ((src = get_process_from_handle( req->src_process, PROCESS_DUP_HANDLE ))) { if (req->options & DUP_HANDLE_MAKE_GLOBAL) { reply->handle = duplicate_handle( src, req->src_handle, NULL, req->access, req->attributes, req->options ); } else if ((dst = get_process_from_handle( req->dst_process, PROCESS_DUP_HANDLE ))) { reply->handle = duplicate_handle( src, req->src_handle, dst, req->access, req->attributes, req->options ); release_object( dst ); } /* close the handle no matter what happened */ if ((req->options & DUP_HANDLE_CLOSE_SOURCE) && (src != dst || req->src_handle != reply->handle)) reply->closed = !close_handle( src, req->src_handle ); reply->self = (src == current->process); release_object( src ); } } DECL_HANDLER(get_object_info) { struct object *obj; WCHAR *name; if (!(obj = get_handle_obj( current->process, req->handle, 0, NULL ))) return; reply->access = get_handle_access( current->process, req->handle ); reply->ref_count = obj->refcount; reply->handle_count = obj->handle_count; if ((name = get_object_full_name( obj, &reply->total ))) set_reply_data_ptr( name, min( reply->total, get_reply_max_size() )); release_object( obj ); } DECL_HANDLER(set_security_object) { data_size_t sd_size = get_req_data_size(); const struct security_descriptor *sd = get_req_data(); struct object *obj; unsigned int access = 0; if (!sd_is_valid( sd, sd_size )) { set_error( STATUS_ACCESS_VIOLATION ); return; } if (req->security_info & OWNER_SECURITY_INFORMATION || req->security_info & GROUP_SECURITY_INFORMATION) access |= WRITE_OWNER; if (req->security_info & SACL_SECURITY_INFORMATION) access |= ACCESS_SYSTEM_SECURITY; if (req->security_info & DACL_SECURITY_INFORMATION) access |= WRITE_DAC; if (!(obj = get_handle_obj( current->process, req->handle, access, NULL ))) return; obj->ops->set_sd( obj, sd, req->security_info ); release_object( obj ); } DECL_HANDLER(get_security_object) { const struct security_descriptor *sd; struct object *obj; unsigned int access = READ_CONTROL; struct security_descriptor req_sd; int present; const SID *owner, *group; const ACL *sacl, *dacl; if (req->security_info & SACL_SECURITY_INFORMATION) access |= ACCESS_SYSTEM_SECURITY; if (!(obj = get_handle_obj( current->process, req->handle, access, NULL ))) return; sd = obj->ops->get_sd( obj ); if (sd) { req_sd.control = sd->control & ~SE_SELF_RELATIVE; owner = sd_get_owner( sd ); if (req->security_info & OWNER_SECURITY_INFORMATION) req_sd.owner_len = sd->owner_len; else req_sd.owner_len = 0; group = sd_get_group( sd ); if (req->security_info & GROUP_SECURITY_INFORMATION) req_sd.group_len = sd->group_len; else req_sd.group_len = 0; req_sd.control |= SE_SACL_PRESENT; sacl = sd_get_sacl( sd, &present ); if (req->security_info & SACL_SECURITY_INFORMATION && present) req_sd.sacl_len = sd->sacl_len; else req_sd.sacl_len = 0; req_sd.control |= SE_DACL_PRESENT; dacl = sd_get_dacl( sd, &present ); if (req->security_info & DACL_SECURITY_INFORMATION && present) req_sd.dacl_len = sd->dacl_len; else req_sd.dacl_len = 0; reply->sd_len = sizeof(req_sd) + req_sd.owner_len + req_sd.group_len + req_sd.sacl_len + req_sd.dacl_len; if (reply->sd_len <= get_reply_max_size()) { char *ptr = set_reply_data_size(reply->sd_len); memcpy( ptr, &req_sd, sizeof(req_sd) ); ptr += sizeof(req_sd); memcpy( ptr, owner, req_sd.owner_len ); ptr += req_sd.owner_len; memcpy( ptr, group, req_sd.group_len ); ptr += req_sd.group_len; memcpy( ptr, sacl, req_sd.sacl_len ); ptr += req_sd.sacl_len; memcpy( ptr, dacl, req_sd.dacl_len ); } else set_error(STATUS_BUFFER_TOO_SMALL); } release_object( obj ); } struct enum_handle_info { unsigned int count; struct handle_info *handle; }; static int enum_handles( struct process *process, void *user ) { struct enum_handle_info *info = user; struct handle_table *table = process->handles; struct handle_entry *entry; struct handle_info *handle; unsigned int i; if (!table) return 0; for (i = 0, entry = table->entries; i <= table->last; i++, entry++) { if (!entry->ptr) continue; if (!info->handle) { info->count++; continue; } assert( info->count ); handle = info->handle++; handle->owner = process->id; handle->handle = index_to_handle(i); handle->access = entry->access & ~RESERVED_ALL; info->count--; } return 0; } DECL_HANDLER(get_system_handles) { struct enum_handle_info info; struct handle_info *handle; data_size_t max_handles = get_reply_max_size() / sizeof(*handle); info.handle = NULL; info.count = 0; enum_processes( enum_handles, &info ); reply->count = info.count; if (max_handles < info.count) set_error( STATUS_BUFFER_TOO_SMALL ); else if ((handle = set_reply_data_size( info.count * sizeof(*handle) ))) { info.handle = handle; enum_processes( enum_handles, &info ); } }