/* * Copyright (C) 2007 Michael Brown . * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of the * License, or any later version. * * This program 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 * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ FILE_LICENCE ( GPL2_OR_LATER ); #include #include #include #include #include #include #include #include #include /** @file * * Name resolution * */ /*************************************************************************** * * Name resolution interfaces * *************************************************************************** */ /** * Name resolution completed * * @v resolv Name resolution interface * @v sa Completed socket address (if successful) * @v rc Final status code */ void resolv_done ( struct resolv_interface *resolv, struct sockaddr *sa, int rc ) { struct resolv_interface *dest = resolv_get_dest ( resolv ); resolv_unplug ( resolv ); dest->op->done ( dest, sa, rc ); resolv_put ( dest ); } /** * Ignore name resolution done() event * * @v resolv Name resolution interface * @v sa Completed socket address (if successful) * @v rc Final status code */ void ignore_resolv_done ( struct resolv_interface *resolv __unused, struct sockaddr *sa __unused, int rc __unused ) { /* Do nothing */ } /** Null name resolution interface operations */ struct resolv_interface_operations null_resolv_ops = { .done = ignore_resolv_done, }; /** Null name resolution interface */ struct resolv_interface null_resolv = { .intf = { .dest = &null_resolv.intf, .refcnt = NULL, }, .op = &null_resolv_ops, }; /*************************************************************************** * * Numeric name resolver * *************************************************************************** */ /** A numeric name resolver */ struct numeric_resolv { /** Reference counter */ struct refcnt refcnt; /** Name resolution interface */ struct resolv_interface resolv; /** Process */ struct process process; /** Completed socket address */ struct sockaddr sa; /** Overall status code */ int rc; }; static void numeric_step ( struct process *process ) { struct numeric_resolv *numeric = container_of ( process, struct numeric_resolv, process ); resolv_done ( &numeric->resolv, &numeric->sa, numeric->rc ); process_del ( process ); } static int numeric_resolv ( struct resolv_interface *resolv, const char *name, struct sockaddr *sa ) { struct numeric_resolv *numeric; struct sockaddr_in *sin; /* Allocate and initialise structure */ numeric = zalloc ( sizeof ( *numeric ) ); if ( ! numeric ) return -ENOMEM; resolv_init ( &numeric->resolv, &null_resolv_ops, &numeric->refcnt ); process_init ( &numeric->process, numeric_step, &numeric->refcnt ); memcpy ( &numeric->sa, sa, sizeof ( numeric->sa ) ); DBGC ( numeric, "NUMERIC %p attempting to resolve \"%s\"\n", numeric, name ); /* Attempt to resolve name */ sin = ( ( struct sockaddr_in * ) &numeric->sa ); sin->sin_family = AF_INET; if ( inet_aton ( name, &sin->sin_addr ) == 0 ) numeric->rc = -EINVAL; /* Attach to parent interface, mortalise self, and return */ resolv_plug_plug ( &numeric->resolv, resolv ); ref_put ( &numeric->refcnt ); return 0; } struct resolver numeric_resolver __resolver ( RESOLV_NUMERIC ) = { .name = "NUMERIC", .resolv = numeric_resolv, }; /*************************************************************************** * * Name resolution multiplexer * *************************************************************************** */ /** A name resolution multiplexer */ struct resolv_mux { /** Reference counter */ struct refcnt refcnt; /** Parent name resolution interface */ struct resolv_interface parent; /** Child name resolution interface */ struct resolv_interface child; /** Current child resolver */ struct resolver *resolver; /** Socket address to complete */ struct sockaddr sa; /** Name to be resolved * * Must be at end of structure */ char name[0]; }; /** * Try current child name resolver * * @v mux Name resolution multiplexer * @ret rc Return status code */ static int resolv_mux_try ( struct resolv_mux *mux ) { struct resolver *resolver = mux->resolver; int rc; DBGC ( mux, "RESOLV %p trying method %s\n", mux, resolver->name ); if ( ( rc = resolver->resolv ( &mux->child, mux->name, &mux->sa ) ) != 0 ) { DBGC ( mux, "RESOLV %p could not use method %s: %s\n", mux, resolver->name, strerror ( rc ) ); return rc; } return 0; } /** * Handle done() event from child name resolver * * @v resolv Child name resolution interface * @v sa Completed socket address (if successful) * @v rc Final status code */ static void resolv_mux_done ( struct resolv_interface *resolv, struct sockaddr *sa, int rc ) { struct resolv_mux *mux = container_of ( resolv, struct resolv_mux, child ); /* Unplug child */ resolv_unplug ( &mux->child ); /* If this resolution succeeded, stop now */ if ( rc == 0 ) { DBGC ( mux, "RESOLV %p succeeded using method %s\n", mux, mux->resolver->name ); goto finished; } /* Attempt next child resolver, if possible */ mux->resolver++; if ( mux->resolver >= table_end ( RESOLVERS ) ) { DBGC ( mux, "RESOLV %p failed to resolve name\n", mux ); goto finished; } if ( ( rc = resolv_mux_try ( mux ) ) != 0 ) goto finished; /* Next resolver is now running */ return; finished: resolv_done ( &mux->parent, sa, rc ); } /** Name resolution multiplexer operations */ static struct resolv_interface_operations resolv_mux_child_ops = { .done = resolv_mux_done, }; /** * Start name resolution * * @v resolv Name resolution interface * @v name Name to resolve * @v sa Socket address to complete * @ret rc Return status code */ int resolv ( struct resolv_interface *resolv, const char *name, struct sockaddr *sa ) { struct resolv_mux *mux; size_t name_len = ( strlen ( name ) + 1 ); int rc; /* Allocate and initialise structure */ mux = zalloc ( sizeof ( *mux ) + name_len ); if ( ! mux ) return -ENOMEM; resolv_init ( &mux->parent, &null_resolv_ops, &mux->refcnt ); resolv_init ( &mux->child, &resolv_mux_child_ops, &mux->refcnt ); mux->resolver = table_start ( RESOLVERS ); memcpy ( &mux->sa, sa, sizeof ( mux->sa ) ); memcpy ( mux->name, name, name_len ); DBGC ( mux, "RESOLV %p attempting to resolve \"%s\"\n", mux, name ); /* Start first resolver in chain. There will always be at * least one resolver (the numeric resolver), so no need to * check for the zero-resolvers-available case. */ if ( ( rc = resolv_mux_try ( mux ) ) != 0 ) goto err; /* Attach parent interface, mortalise self, and return */ resolv_plug_plug ( &mux->parent, resolv ); ref_put ( &mux->refcnt ); return 0; err: ref_put ( &mux->refcnt ); return rc; } /*************************************************************************** * * Named socket opening * *************************************************************************** */ /** A named socket */ struct named_socket { /** Reference counter */ struct refcnt refcnt; /** Data transfer interface */ struct xfer_interface xfer; /** Name resolution interface */ struct resolv_interface resolv; /** Communication semantics (e.g. SOCK_STREAM) */ int semantics; /** Stored local socket address, if applicable */ struct sockaddr local; /** Stored local socket address exists */ int have_local; }; /** * Finish using named socket * * @v named Named socket * @v rc Reason for finish */ static void named_done ( struct named_socket *named, int rc ) { /* Close all interfaces */ resolv_nullify ( &named->resolv ); xfer_nullify ( &named->xfer ); xfer_close ( &named->xfer, rc ); } /** * Handle close() event * * @v xfer Data transfer interface * @v rc Reason for close */ static void named_xfer_close ( struct xfer_interface *xfer, int rc ) { struct named_socket *named = container_of ( xfer, struct named_socket, xfer ); named_done ( named, rc ); } /** Named socket opener data transfer interface operations */ static struct xfer_interface_operations named_xfer_ops = { .close = named_xfer_close, .vredirect = ignore_xfer_vredirect, .window = no_xfer_window, .alloc_iob = default_xfer_alloc_iob, .deliver_iob = xfer_deliver_as_raw, .deliver_raw = ignore_xfer_deliver_raw, }; /** * Handle done() event * * @v resolv Name resolution interface * @v sa Completed socket address (if successful) * @v rc Final status code */ static void named_resolv_done ( struct resolv_interface *resolv, struct sockaddr *sa, int rc ) { struct named_socket *named = container_of ( resolv, struct named_socket, resolv ); /* Redirect if name resolution was successful */ if ( rc == 0 ) { rc = xfer_redirect ( &named->xfer, LOCATION_SOCKET, named->semantics, sa, ( named->have_local ? &named->local : NULL ) ); } /* Terminate resolution */ named_done ( named, rc ); } /** Named socket opener name resolution interface operations */ static struct resolv_interface_operations named_resolv_ops = { .done = named_resolv_done, }; /** * Open named socket * * @v semantics Communication semantics (e.g. SOCK_STREAM) * @v peer Peer socket address to complete * @v name Name to resolve * @v local Local socket address, or NULL * @ret rc Return status code */ int xfer_open_named_socket ( struct xfer_interface *xfer, int semantics, struct sockaddr *peer, const char *name, struct sockaddr *local ) { struct named_socket *named; int rc; /* Allocate and initialise structure */ named = zalloc ( sizeof ( *named ) ); if ( ! named ) return -ENOMEM; xfer_init ( &named->xfer, &named_xfer_ops, &named->refcnt ); resolv_init ( &named->resolv, &named_resolv_ops, &named->refcnt ); named->semantics = semantics; if ( local ) { memcpy ( &named->local, local, sizeof ( named->local ) ); named->have_local = 1; } DBGC ( named, "RESOLV %p opening named socket \"%s\"\n", named, name ); /* Start name resolution */ if ( ( rc = resolv ( &named->resolv, name, peer ) ) != 0 ) goto err; /* Attach parent interface, mortalise self, and return */ xfer_plug_plug ( &named->xfer, xfer ); ref_put ( &named->refcnt ); return 0; err: ref_put ( &named->refcnt ); return rc; }