/* * Copyright (C) 2019 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 (at your option) 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., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301, USA. * * You can also choose to distribute this program under the terms of * the Unmodified Binary Distribution Licence (as given in the file * COPYING.UBDL), provided that you have satisfied its requirements. */ FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL ); #include #include #include #include #include #include /** @file * * Flattened Device Tree * */ /** The system flattened device tree (if present) */ static struct fdt fdt; /** A position within a device tree */ struct fdt_cursor { /** Offset within structure block */ unsigned int offset; /** Tree depth */ int depth; }; /** A lexical descriptor */ struct fdt_descriptor { /** Node or property name (if applicable) */ const char *name; /** Property data (if applicable) */ const void *data; /** Length of property data (if applicable) */ size_t len; }; /** * Check if device tree exists * * @v has_fdt Device tree exists */ static inline __attribute__ (( always_inline )) int fdt_exists ( void ) { return ( fdt.hdr != NULL ); } /** * Traverse device tree * * @v pos Position within device tree * @v desc Lexical descriptor to fill in * @ret rc Return status code */ static int fdt_traverse ( struct fdt_cursor *pos, struct fdt_descriptor *desc ) { const fdt_token_t *token; const void *data; const struct fdt_prop *prop; unsigned int name_off; size_t remaining; size_t len; /* Sanity checks */ assert ( pos->offset < fdt.len ); assert ( ( pos->offset & ( FDT_STRUCTURE_ALIGN - 1 ) ) == 0 ); /* Clear descriptor */ memset ( desc, 0, sizeof ( *desc ) ); /* Locate token and calculate remaining space */ token = ( fdt.raw + fdt.structure + pos->offset ); remaining = ( fdt.len - pos->offset ); if ( remaining < sizeof ( *token ) ) { DBGC ( &fdt, "FDT truncated tree at +%#04x\n", pos->offset ); return -EINVAL; } remaining -= sizeof ( *token ); data = ( ( ( const void * ) token ) + sizeof ( *token ) ); len = 0; /* Handle token */ switch ( *token ) { case cpu_to_be32 ( FDT_BEGIN_NODE ): /* Start of node */ desc->name = data; len = ( strnlen ( desc->name, remaining ) + 1 /* NUL */ ); if ( remaining < len ) { DBGC ( &fdt, "FDT unterminated node name at +%#04x\n", pos->offset ); return -EINVAL; } pos->depth++; break; case cpu_to_be32 ( FDT_END_NODE ): /* End of node */ if ( pos->depth < 0 ) { DBGC ( &fdt, "FDT spurious node end at +%#04x\n", pos->offset ); return -EINVAL; } pos->depth--; if ( pos->depth < 0 ) { /* End of (sub)tree */ return -ENOENT; } break; case cpu_to_be32 ( FDT_PROP ): /* Property */ prop = data; if ( remaining < sizeof ( *prop ) ) { DBGC ( &fdt, "FDT truncated property at +%#04x\n", pos->offset ); return -EINVAL; } desc->data = ( ( ( const void * ) prop ) + sizeof ( *prop ) ); desc->len = be32_to_cpu ( prop->len ); len = ( sizeof ( *prop ) + desc->len ); if ( remaining < len ) { DBGC ( &fdt, "FDT overlength property at +%#04x\n", pos->offset ); return -EINVAL; } name_off = be32_to_cpu ( prop->name_off ); if ( name_off > fdt.strings_len ) { DBGC ( &fdt, "FDT property name outside strings " "block at +%#04x\n", pos->offset ); return -EINVAL; } desc->name = ( fdt.raw + fdt.strings + name_off ); break; case cpu_to_be32 ( FDT_NOP ): /* Do nothing */ break; default: /* Unrecognised or unexpected token */ DBGC ( &fdt, "FDT unexpected token %#08x at +%#04x\n", be32_to_cpu ( *token ), pos->offset ); return -EINVAL; } /* Update cursor */ len = ( ( len + FDT_STRUCTURE_ALIGN - 1 ) & ~( FDT_STRUCTURE_ALIGN - 1 ) ); pos->offset += ( sizeof ( *token ) + len ); /* Sanity checks */ assert ( pos->offset <= fdt.len ); return 0; } /** * Find child node * * @v offset Starting node offset * @v name Node name * @v child Child node offset to fill in * @ret rc Return status code */ static int fdt_child ( unsigned int offset, const char *name, unsigned int *child ) { struct fdt_cursor pos; struct fdt_descriptor desc; unsigned int orig_offset; int rc; /* Record original offset (for debugging) */ orig_offset = offset; /* Initialise cursor */ pos.offset = offset; pos.depth = -1; /* Find child node */ while ( 1 ) { /* Record current offset */ *child = pos.offset; /* Traverse tree */ if ( ( rc = fdt_traverse ( &pos, &desc ) ) != 0 ) { DBGC ( &fdt, "FDT +%#04x has no child node \"%s\": " "%s\n", orig_offset, name, strerror ( rc ) ); return rc; } /* Check for matching immediate child node */ if ( ( pos.depth == 1 ) && desc.name && ( ! desc.data ) ) { DBGC2 ( &fdt, "FDT +%#04x has child node \"%s\"\n", orig_offset, desc.name ); if ( strcmp ( name, desc.name ) == 0 ) { DBGC2 ( &fdt, "FDT +%#04x found child node " "\"%s\" at +%#04x\n", orig_offset, desc.name, *child ); return 0; } } } } /** * Find node by path * * @v path Node path * @v offset Offset to fill in * @ret rc Return status code */ int fdt_path ( const char *path, unsigned int *offset ) { char *tmp = ( ( char * ) path ); char *del; int rc; /* Initialise offset */ *offset = 0; /* Traverse tree one path segment at a time */ while ( *tmp ) { /* Skip any leading '/' */ while ( *tmp == '/' ) tmp++; /* Find next '/' delimiter and convert to NUL */ del = strchr ( tmp, '/' ); if ( del ) *del = '\0'; /* Find child and restore delimiter */ rc = fdt_child ( *offset, tmp, offset ); if ( del ) *del = '/'; if ( rc != 0 ) return rc; /* Move to next path component, if any */ while ( *tmp && ( *tmp != '/' ) ) tmp++; } DBGC2 ( &fdt, "FDT found path \"%s\" at +%#04x\n", path, *offset ); return 0; } /** * Find node by alias * * @v name Alias name * @v offset Offset to fill in * @ret rc Return status code */ int fdt_alias ( const char *name, unsigned int *offset ) { const char *alias; int rc; /* Locate "/aliases" node */ if ( ( rc = fdt_child ( 0, "aliases", offset ) ) != 0 ) return rc; /* Locate alias property */ if ( ( alias = fdt_string ( *offset, name ) ) == NULL ) return -ENOENT; DBGC ( &fdt, "FDT alias \"%s\" is \"%s\"\n", name, alias ); /* Locate aliased node */ if ( ( rc = fdt_path ( alias, offset ) ) != 0 ) return rc; return 0; } /** * Find property * * @v offset Starting node offset * @v name Property name * @v desc Lexical descriptor to fill in * @ret rc Return status code */ static int fdt_property ( unsigned int offset, const char *name, struct fdt_descriptor *desc ) { struct fdt_cursor pos; int rc; /* Initialise cursor */ pos.offset = offset; pos.depth = -1; /* Find property */ while ( 1 ) { /* Traverse tree */ if ( ( rc = fdt_traverse ( &pos, desc ) ) != 0 ) { DBGC ( &fdt, "FDT +%#04x has no property \"%s\": %s\n", offset, name, strerror ( rc ) ); return rc; } /* Check for matching immediate child property */ if ( ( pos.depth == 0 ) && desc->data ) { DBGC2 ( &fdt, "FDT +%#04x has property \"%s\" len " "%#zx\n", offset, desc->name, desc->len ); if ( strcmp ( name, desc->name ) == 0 ) { DBGC2 ( &fdt, "FDT +%#04x found property " "\"%s\"\n", offset, desc->name ); DBGC2_HDA ( &fdt, 0, desc->data, desc->len ); return 0; } } } } /** * Find string property * * @v offset Starting node offset * @v name Property name * @ret string String property, or NULL on error */ const char * fdt_string ( unsigned int offset, const char *name ) { struct fdt_descriptor desc; int rc; /* Find property */ if ( ( rc = fdt_property ( offset, name, &desc ) ) != 0 ) return NULL; /* Check NUL termination */ if ( strnlen ( desc.data, desc.len ) == desc.len ) { DBGC ( &fdt, "FDT unterminated string property \"%s\"\n", name ); return NULL; } return desc.data; } /** * Get MAC address from property * * @v offset Starting node offset * @v netdev Network device * @ret rc Return status code */ int fdt_mac ( unsigned int offset, struct net_device *netdev ) { struct fdt_descriptor desc; size_t len; int rc; /* Find applicable MAC address property */ if ( ( ( rc = fdt_property ( offset, "mac-address", &desc ) ) != 0 ) && ( ( rc = fdt_property ( offset, "local-mac-address", &desc ) ) != 0 ) ) { return rc; } /* Check length */ len = netdev->ll_protocol->hw_addr_len; if ( len != desc.len ) { DBGC ( &fdt, "FDT malformed MAC address \"%s\":\n", desc.name ); DBGC_HDA ( &fdt, 0, desc.data, desc.len ); return -ERANGE; } /* Fill in MAC address */ memcpy ( netdev->hw_addr, desc.data, len ); return 0; } /** * Register device tree * * @v fdt Device tree header * @ret rc Return status code */ int register_fdt ( const struct fdt_header *hdr ) { const uint8_t *end; /* Record device tree location */ fdt.hdr = hdr; fdt.len = be32_to_cpu ( hdr->totalsize ); DBGC ( &fdt, "FDT version %d at %p+%#04zx\n", be32_to_cpu ( hdr->version ), fdt.hdr, fdt.len ); /* Check signature */ if ( hdr->magic != cpu_to_be32 ( FDT_MAGIC ) ) { DBGC ( &fdt, "FDT has invalid magic value %#08x\n", be32_to_cpu ( hdr->magic ) ); goto err; } /* Check version */ if ( hdr->last_comp_version != cpu_to_be32 ( FDT_VERSION ) ) { DBGC ( &fdt, "FDT unsupported version %d\n", be32_to_cpu ( hdr->last_comp_version ) ); goto err; } /* Record structure block location */ fdt.structure = be32_to_cpu ( hdr->off_dt_struct ); fdt.structure_len = be32_to_cpu ( hdr->size_dt_struct ); DBGC ( &fdt, "FDT structure block at +[%#04x,%#04zx)\n", fdt.structure, ( fdt.structure + fdt.structure_len ) ); if ( ( fdt.structure > fdt.len ) || ( fdt.structure_len > ( fdt.len - fdt.structure ) ) ) { DBGC ( &fdt, "FDT structure block exceeds table\n" ); goto err; } if ( ( fdt.structure | fdt.structure_len ) & ( FDT_STRUCTURE_ALIGN - 1 ) ) { DBGC ( &fdt, "FDT structure block is misaligned\n" ); goto err; } /* Record strings block location */ fdt.strings = be32_to_cpu ( hdr->off_dt_strings ); fdt.strings_len = be32_to_cpu ( hdr->size_dt_strings ); DBGC ( &fdt, "FDT strings block at +[%#04x,%#04zx)\n", fdt.strings, ( fdt.strings + fdt.strings_len ) ); if ( ( fdt.strings > fdt.len ) || ( fdt.strings_len > ( fdt.len - fdt.strings ) ) ) { DBGC ( &fdt, "FDT strings block exceeds table\n" ); goto err; } /* Shrink strings block to ensure NUL termination safety */ end = ( fdt.raw + fdt.strings + fdt.strings_len ); for ( ; fdt.strings_len ; fdt.strings_len-- ) { if ( *(--end) == '\0' ) break; } if ( fdt.strings_len != be32_to_cpu ( hdr->size_dt_strings ) ) { DBGC ( &fdt, "FDT strings block shrunk to +[%#04x,%#04zx)\n", fdt.strings, ( fdt.strings + fdt.strings_len ) ); } /* Print model name (for debugging) */ DBGC ( &fdt, "FDT model is \"%s\"\n", fdt_string ( 0, "model" ) ); return 0; err: DBGC_HDA ( &fdt, 0, hdr, sizeof ( *hdr ) ); fdt.hdr = NULL; return -EINVAL; } /* Drag in objects via register_fdt */ REQUIRING_SYMBOL ( register_fdt ); /* Drag in device tree configuration */ REQUIRE_OBJECT ( config_fdt );