blob: 4593876f0c82e061aa92a334ce2554fa8d63dcad [file] [log] [blame]
/*
* Copyright (C) 2008 Michael Brown <mbrown@fensystems.co.uk>.
*
* 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., 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 <stdint.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <strings.h>
#include <byteswap.h>
#include <errno.h>
#include <assert.h>
#include <time.h>
#include <ipxe/in.h>
#include <ipxe/ip.h>
#include <ipxe/ipv6.h>
#include <ipxe/vsprintf.h>
#include <ipxe/dhcp.h>
#include <ipxe/uuid.h>
#include <ipxe/uri.h>
#include <ipxe/base16.h>
#include <ipxe/base64.h>
#include <ipxe/pci.h>
#include <ipxe/init.h>
#include <ipxe/version.h>
#include <ipxe/settings.h>
/** @file
*
* Configuration settings
*
*/
/******************************************************************************
*
* Generic settings blocks
*
******************************************************************************
*/
/**
* A generic setting
*
*/
struct generic_setting {
/** List of generic settings */
struct list_head list;
/** Setting */
struct setting setting;
/** Size of setting name */
size_t name_len;
/** Size of setting data */
size_t data_len;
};
/**
* Get generic setting name
*
* @v generic Generic setting
* @ret name Generic setting name
*/
static inline void * generic_setting_name ( struct generic_setting *generic ) {
return ( ( ( void * ) generic ) + sizeof ( *generic ) );
}
/**
* Get generic setting data
*
* @v generic Generic setting
* @ret data Generic setting data
*/
static inline void * generic_setting_data ( struct generic_setting *generic ) {
return ( ( ( void * ) generic ) + sizeof ( *generic ) +
generic->name_len );
}
/**
* Find generic setting
*
* @v generics Generic settings block
* @v setting Setting to find
* @ret generic Generic setting, or NULL
*/
static struct generic_setting *
find_generic_setting ( struct generic_settings *generics,
const struct setting *setting ) {
struct generic_setting *generic;
list_for_each_entry ( generic, &generics->list, list ) {
if ( setting_cmp ( &generic->setting, setting ) == 0 )
return generic;
}
return NULL;
}
/**
* Store value of generic setting
*
* @v settings Settings block
* @v setting Setting to store
* @v data Setting data, or NULL to clear setting
* @v len Length of setting data
* @ret rc Return status code
*/
int generic_settings_store ( struct settings *settings,
const struct setting *setting,
const void *data, size_t len ) {
struct generic_settings *generics =
container_of ( settings, struct generic_settings, settings );
struct generic_setting *old;
struct generic_setting *new = NULL;
size_t name_len;
/* Identify existing generic setting, if any */
old = find_generic_setting ( generics, setting );
/* Create new generic setting, if required */
if ( len ) {
/* Allocate new generic setting */
name_len = ( strlen ( setting->name ) + 1 );
new = zalloc ( sizeof ( *new ) + name_len + len );
if ( ! new )
return -ENOMEM;
/* Populate new generic setting */
new->name_len = name_len;
new->data_len = len;
memcpy ( &new->setting, setting, sizeof ( new->setting ) );
new->setting.name = generic_setting_name ( new );
memcpy ( generic_setting_name ( new ),
setting->name, name_len );
memcpy ( generic_setting_data ( new ), data, len );
}
/* Delete existing generic setting, if any */
if ( old ) {
list_del ( &old->list );
free ( old );
}
/* Add new setting to list, if any */
if ( new )
list_add ( &new->list, &generics->list );
return 0;
}
/**
* Fetch value of generic setting
*
* @v settings Settings block
* @v setting Setting to fetch
* @v data Buffer to fill with setting data
* @v len Length of buffer
* @ret len Length of setting data, or negative error
*/
int generic_settings_fetch ( struct settings *settings,
struct setting *setting,
void *data, size_t len ) {
struct generic_settings *generics =
container_of ( settings, struct generic_settings, settings );
struct generic_setting *generic;
/* Find generic setting */
generic = find_generic_setting ( generics, setting );
if ( ! generic )
return -ENOENT;
/* Copy out generic setting data */
if ( len > generic->data_len )
len = generic->data_len;
memcpy ( data, generic_setting_data ( generic ), len );
/* Set setting type, if not yet specified */
if ( ! setting->type )
setting->type = generic->setting.type;
return generic->data_len;
}
/**
* Clear generic settings block
*
* @v settings Settings block
*/
void generic_settings_clear ( struct settings *settings ) {
struct generic_settings *generics =
container_of ( settings, struct generic_settings, settings );
struct generic_setting *generic;
struct generic_setting *tmp;
list_for_each_entry_safe ( generic, tmp, &generics->list, list ) {
list_del ( &generic->list );
free ( generic );
}
assert ( list_empty ( &generics->list ) );
}
/** Generic settings operations */
struct settings_operations generic_settings_operations = {
.store = generic_settings_store,
.fetch = generic_settings_fetch,
.clear = generic_settings_clear,
};
/******************************************************************************
*
* Registered settings blocks
*
******************************************************************************
*/
/** Root generic settings block */
struct generic_settings generic_settings_root = {
.settings = {
.refcnt = NULL,
.name = "",
.siblings =
LIST_HEAD_INIT ( generic_settings_root.settings.siblings ),
.children =
LIST_HEAD_INIT ( generic_settings_root.settings.children ),
.op = &generic_settings_operations,
},
.list = LIST_HEAD_INIT ( generic_settings_root.list ),
};
/** Root settings block */
#define settings_root generic_settings_root.settings
/** Autovivified settings block */
struct autovivified_settings {
/** Reference count */
struct refcnt refcnt;
/** Generic settings block */
struct generic_settings generic;
};
/**
* Free autovivified settings block
*
* @v refcnt Reference count
*/
static void autovivified_settings_free ( struct refcnt *refcnt ) {
struct autovivified_settings *autovivified =
container_of ( refcnt, struct autovivified_settings, refcnt );
generic_settings_clear ( &autovivified->generic.settings );
free ( autovivified );
}
/**
* Find child settings block
*
* @v parent Parent settings block
* @v name Name within this parent
* @ret settings Settings block, or NULL
*/
struct settings * find_child_settings ( struct settings *parent,
const char *name ) {
struct settings *settings;
/* Find target parent settings block */
parent = settings_target ( parent );
/* Treat empty name as meaning "this block" */
if ( ! *name )
return parent;
/* Look for child with matching name */
list_for_each_entry ( settings, &parent->children, siblings ) {
if ( strcmp ( settings->name, name ) == 0 )
return settings_target ( settings );
}
return NULL;
}
/**
* Find or create child settings block
*
* @v parent Parent settings block
* @v name Name within this parent
* @ret settings Settings block, or NULL
*/
struct settings * autovivify_child_settings ( struct settings *parent,
const char *name ) {
struct {
struct autovivified_settings autovivified;
char name[ strlen ( name ) + 1 /* NUL */ ];
} *new_child;
struct settings *settings;
/* Find target parent settings block */
parent = settings_target ( parent );
/* Return existing settings, if existent */
if ( ( settings = find_child_settings ( parent, name ) ) != NULL )
return settings;
/* Create new generic settings block */
new_child = zalloc ( sizeof ( *new_child ) );
if ( ! new_child ) {
DBGC ( parent, "Settings %p could not create child %s\n",
parent, name );
return NULL;
}
memcpy ( new_child->name, name, sizeof ( new_child->name ) );
ref_init ( &new_child->autovivified.refcnt,
autovivified_settings_free );
generic_settings_init ( &new_child->autovivified.generic,
&new_child->autovivified.refcnt );
settings = &new_child->autovivified.generic.settings;
register_settings ( settings, parent, new_child->name );
ref_put ( settings->refcnt );
return settings;
}
/**
* Return settings block name
*
* @v settings Settings block
* @ret name Settings block name
*/
const char * settings_name ( struct settings *settings ) {
static char buf[16];
char tmp[ 1 /* '.' */ + sizeof ( buf ) ];
/* Find target settings block */
settings = settings_target ( settings );
/* Construct name */
buf[0] = '\0';
tmp[0] = '\0';
for ( ; settings->parent ; settings = settings->parent ) {
memcpy ( ( tmp + 1 ), buf, ( sizeof ( tmp ) - 1 ) );
snprintf ( buf, sizeof ( buf ), "%s%s", settings->name, tmp );
tmp[0] = '.';
}
return buf;
}
/**
* Parse settings block name
*
* @v name Name
* @v get_child Function to find or create child settings block
* @ret settings Settings block, or NULL
*/
static struct settings *
parse_settings_name ( const char *name, get_child_settings_t get_child ) {
struct settings *settings = &settings_root;
char *name_copy;
char *subname;
char *remainder;
/* Create modifiable copy of name */
name_copy = strdup ( name );
if ( ! name_copy )
return NULL;
remainder = name_copy;
/* Parse each name component in turn */
while ( remainder ) {
subname = remainder;
remainder = strchr ( subname, '.' );
if ( remainder )
*(remainder++) = '\0';
settings = get_child ( settings, subname );
if ( ! settings )
break;
}
/* Free modifiable copy of name */
free ( name_copy );
return settings;
}
/**
* Find settings block
*
* @v name Name
* @ret settings Settings block, or NULL
*/
struct settings * find_settings ( const char *name ) {
return parse_settings_name ( name, find_child_settings );
}
/**
* Apply all settings
*
*/
static void apply_settings ( void ) {
struct settings_applicator *applicator;
int rc;
/* Call all settings applicators */
for_each_table_entry ( applicator, SETTINGS_APPLICATORS ) {
if ( ( rc = applicator->apply() ) != 0 ) {
DBG ( "Could not apply settings using applicator "
"%p: %s\n", applicator, strerror ( rc ) );
/* Continue to apply remaining settings */
}
}
}
/**
* Reprioritise settings
*
* @v settings Settings block
*
* Reorders the settings block amongst its siblings according to its
* priority.
*/
static void reprioritise_settings ( struct settings *settings ) {
struct settings *parent = settings->parent;
long priority;
struct settings *tmp;
long tmp_priority;
/* Stop when we reach the top of the tree */
if ( ! parent )
return;
/* Read priority, if present */
priority = fetch_intz_setting ( settings, &priority_setting );
/* Remove from siblings list */
list_del ( &settings->siblings );
/* Reinsert after any existing blocks which have a higher priority */
list_for_each_entry ( tmp, &parent->children, siblings ) {
tmp_priority = fetch_intz_setting ( tmp, &priority_setting );
if ( priority > tmp_priority )
break;
if ( settings->order > tmp->order )
break;
}
list_add_tail ( &settings->siblings, &tmp->siblings );
/* Recurse up the tree */
reprioritise_settings ( parent );
}
/**
* Register settings block
*
* @v settings Settings block
* @v parent Parent settings block, or NULL
* @v name Settings block name
* @ret rc Return status code
*/
int register_settings ( struct settings *settings, struct settings *parent,
const char *name ) {
struct settings *old_settings;
/* Sanity check */
assert ( settings != NULL );
/* Find target parent settings block */
parent = settings_target ( parent );
/* Apply settings block name */
settings->name = name;
/* Remove any existing settings with the same name */
if ( ( old_settings = find_child_settings ( parent, settings->name ) ))
unregister_settings ( old_settings );
/* Add to list of settings */
ref_get ( settings->refcnt );
ref_get ( parent->refcnt );
settings->parent = parent;
list_add_tail ( &settings->siblings, &parent->children );
DBGC ( settings, "Settings %p (\"%s\") registered\n",
settings, settings_name ( settings ) );
/* Fix up settings priority */
reprioritise_settings ( settings );
/* Apply potentially-updated settings */
apply_settings();
return 0;
}
/**
* Unregister settings block
*
* @v settings Settings block
*/
void unregister_settings ( struct settings *settings ) {
struct settings *child;
/* Unregister child settings */
while ( ( child = list_first_entry ( &settings->children,
struct settings, siblings ) ) ) {
unregister_settings ( child );
}
DBGC ( settings, "Settings %p (\"%s\") unregistered\n",
settings, settings_name ( settings ) );
/* Remove from list of settings */
ref_put ( settings->parent->refcnt );
settings->parent = NULL;
list_del ( &settings->siblings );
ref_put ( settings->refcnt );
/* Apply potentially-updated settings */
apply_settings();
}
/******************************************************************************
*
* Core settings routines
*
******************************************************************************
*/
/**
* Redirect to target settings block
*
* @v settings Settings block, or NULL
* @ret settings Underlying settings block
*/
struct settings * settings_target ( struct settings *settings ) {
/* NULL settings implies the global settings root */
if ( ! settings )
settings = &settings_root;
/* Redirect to underlying settings block, if applicable */
if ( settings->op->redirect )
return settings->op->redirect ( settings );
/* Otherwise, return this settings block */
return settings;
}
/**
* Check applicability of setting
*
* @v settings Settings block
* @v setting Setting
* @ret applies Setting applies within this settings block
*/
int setting_applies ( struct settings *settings,
const struct setting *setting ) {
/* Find target settings block */
settings = settings_target ( settings );
/* Check applicability of setting */
return ( settings->op->applies ?
settings->op->applies ( settings, setting ) : 1 );
}
/**
* Find setting applicable to settings block, if any
*
* @v settings Settings block
* @v setting Setting
* @ret setting Applicable setting, if any
*/
static const struct setting *
applicable_setting ( struct settings *settings, const struct setting *setting ){
const struct setting *applicable;
/* If setting is already applicable, use it */
if ( setting_applies ( settings, setting ) )
return setting;
/* Otherwise, look for a matching predefined setting which does apply */
for_each_table_entry ( applicable, SETTINGS ) {
if ( ( setting_cmp ( setting, applicable ) == 0 ) &&
( setting_applies ( settings, applicable ) ) )
return applicable;
}
return NULL;
}
/**
* Store value of setting
*
* @v settings Settings block, or NULL
* @v setting Setting to store
* @v data Setting data, or NULL to clear setting
* @v len Length of setting data
* @ret rc Return status code
*/
int store_setting ( struct settings *settings, const struct setting *setting,
const void *data, size_t len ) {
int rc;
/* Find target settings block */
settings = settings_target ( settings );
/* Fail if setting does not apply to this settings block */
if ( ! setting_applies ( settings, setting ) )
return -ENOTTY;
/* Sanity check */
if ( ! settings->op->store )
return -ENOTSUP;
/* Store setting */
if ( ( rc = settings->op->store ( settings, setting,
data, len ) ) != 0 )
return rc;
/* Reprioritise settings if necessary */
if ( setting_cmp ( setting, &priority_setting ) == 0 )
reprioritise_settings ( settings );
/* If these settings are registered, apply potentially-updated
* settings
*/
for ( ; settings ; settings = settings->parent ) {
if ( settings == &settings_root ) {
apply_settings();
break;
}
}
return 0;
}
/**
* Fetch setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v origin Origin of setting to fill in, or NULL
* @v fetched Fetched setting to fill in, or NULL
* @v data Buffer to fill with setting data
* @v len Length of buffer
* @ret len Length of setting data, or negative error
*
* The actual length of the setting will be returned even if
* the buffer was too small.
*/
int fetch_setting ( struct settings *settings, const struct setting *setting,
struct settings **origin, struct setting *fetched,
void *data, size_t len ) {
const struct setting *applicable;
struct settings *child;
struct setting tmp;
int ret;
/* Avoid returning uninitialised data on error */
memset ( data, 0, len );
if ( origin )
*origin = NULL;
if ( fetched )
memcpy ( fetched, setting, sizeof ( *fetched ) );
/* Find target settings block */
settings = settings_target ( settings );
/* Sanity check */
if ( ! settings->op->fetch )
return -ENOTSUP;
/* Try this block first, if an applicable setting exists */
if ( ( applicable = applicable_setting ( settings, setting ) ) ) {
/* Create modifiable copy of setting */
memcpy ( &tmp, applicable, sizeof ( tmp ) );
if ( ( ret = settings->op->fetch ( settings, &tmp,
data, len ) ) >= 0 ) {
/* Default to string type, if not yet specified */
if ( ! tmp.type )
tmp.type = &setting_type_string;
/* Record origin, if applicable */
if ( origin )
*origin = settings;
/* Record fetched setting, if applicable */
if ( fetched )
memcpy ( fetched, &tmp, sizeof ( *fetched ) );
return ret;
}
}
/* Recurse into each child block in turn */
list_for_each_entry ( child, &settings->children, siblings ) {
if ( ( ret = fetch_setting ( child, setting, origin, fetched,
data, len ) ) >= 0 )
return ret;
}
return -ENOENT;
}
/**
* Fetch allocated copy of setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v origin Origin of setting to fill in, or NULL
* @v fetched Fetched setting to fill in, or NULL
* @v data Buffer to allocate and fill with setting data
* @v alloc Allocation function
* @ret len Length of setting, or negative error
*
* The caller is responsible for eventually freeing the allocated
* buffer.
*/
static int fetch_setting_alloc ( struct settings *settings,
const struct setting *setting,
struct settings **origin,
struct setting *fetched,
void **data,
void * ( * alloc ) ( size_t len ) ) {
struct settings *tmp_origin;
struct setting tmp_fetched;
int len;
int check_len;
/* Use local buffers if necessary */
if ( ! origin )
origin = &tmp_origin;
if ( ! fetched )
fetched = &tmp_fetched;
/* Avoid returning uninitialised data on error */
*data = NULL;
/* Check existence, and fetch setting length */
len = fetch_setting ( settings, setting, origin, fetched, NULL, 0 );
if ( len < 0 )
return len;
/* Allocate buffer */
*data = alloc ( len );
if ( ! *data )
return -ENOMEM;
/* Fetch setting value */
check_len = fetch_setting ( *origin, fetched, NULL, NULL, *data, len );
assert ( check_len == len );
return len;
}
/**
* Fetch copy of setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v origin Origin of setting to fill in, or NULL
* @v fetched Fetched setting to fill in, or NULL
* @v data Buffer to allocate and fill with setting data
* @ret len Length of setting, or negative error
*
* The caller is responsible for eventually freeing the allocated
* buffer.
*/
int fetch_setting_copy ( struct settings *settings,
const struct setting *setting,
struct settings **origin, struct setting *fetched,
void **data ) {
return fetch_setting_alloc ( settings, setting, origin, fetched,
data, malloc );
}
/**
* Fetch value of setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v data Buffer to fill with setting string data
* @v len Length of buffer
* @ret len Length of setting, or negative error
*/
int fetch_raw_setting ( struct settings *settings,
const struct setting *setting,
void *data, size_t len ) {
return fetch_setting ( settings, setting, NULL, NULL, data, len );
}
/**
* Fetch value of setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v data Buffer to allocate and fill with setting data
* @ret len Length of setting, or negative error
*
* The caller is responsible for eventually freeing the allocated
* buffer.
*/
int fetch_raw_setting_copy ( struct settings *settings,
const struct setting *setting,
void **data ) {
return fetch_setting_copy ( settings, setting, NULL, NULL, data );
}
/**
* Fetch value of string setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v data Buffer to fill with setting string data
* @v len Length of buffer
* @ret len Length of string setting, or negative error
*
* The resulting string is guaranteed to be correctly NUL-terminated.
* The returned length will be the length of the underlying setting
* data.
*/
int fetch_string_setting ( struct settings *settings,
const struct setting *setting,
char *data, size_t len ) {
memset ( data, 0, len );
return fetch_raw_setting ( settings, setting, data,
( ( len > 0 ) ? ( len - 1 ) : 0 ) );
}
/**
* Allocate memory for copy of string setting
*
* @v len Length of setting
* @ret ptr Allocated memory
*/
static void * fetch_string_setting_copy_alloc ( size_t len ) {
return zalloc ( len + 1 /* NUL */ );
}
/**
* Fetch value of string setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v data Buffer to allocate and fill with setting string data
* @ret len Length of string setting, or negative error
*
* The resulting string is guaranteed to be correctly NUL-terminated.
* The returned length will be the length of the underlying setting
* data. The caller is responsible for eventually freeing the
* allocated buffer.
*/
int fetch_string_setting_copy ( struct settings *settings,
const struct setting *setting, char **data ) {
return fetch_setting_alloc ( settings, setting, NULL, NULL,
( ( void ** ) data ),
fetch_string_setting_copy_alloc );
}
/**
* Fetch value of IPv4 address setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v inp IPv4 addresses to fill in
* @v count Maximum number of IPv4 addresses
* @ret len Length of setting, or negative error
*/
int fetch_ipv4_array_setting ( struct settings *settings,
const struct setting *setting,
struct in_addr *inp, unsigned int count ) {
int len;
len = fetch_raw_setting ( settings, setting, inp,
( sizeof ( *inp ) * count ) );
if ( len < 0 )
return len;
if ( ( len % sizeof ( *inp ) ) != 0 )
return -ERANGE;
return len;
}
/**
* Fetch value of IPv4 address setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v inp IPv4 address to fill in
* @ret len Length of setting, or negative error
*/
int fetch_ipv4_setting ( struct settings *settings,
const struct setting *setting,
struct in_addr *inp ) {
return fetch_ipv4_array_setting ( settings, setting, inp, 1 );
}
/**
* Fetch value of IPv6 address setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v inp IPv6 addresses to fill in
* @v count Maximum number of IPv6 addresses
* @ret len Length of setting, or negative error
*/
int fetch_ipv6_array_setting ( struct settings *settings,
const struct setting *setting,
struct in6_addr *inp, unsigned int count ) {
int len;
len = fetch_raw_setting ( settings, setting, inp,
( sizeof ( *inp ) * count ) );
if ( len < 0 )
return len;
if ( ( len % sizeof ( *inp ) ) != 0 )
return -ERANGE;
return len;
}
/**
* Fetch value of IPv6 address setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v inp IPv6 address to fill in
* @ret len Length of setting, or negative error
*/
int fetch_ipv6_setting ( struct settings *settings,
const struct setting *setting,
struct in6_addr *inp ) {
return fetch_ipv6_array_setting ( settings, setting, inp, 1 );
}
/**
* Extract numeric value of setting
*
* @v is_signed Treat value as a signed integer
* @v raw Raw setting data
* @v len Length of raw setting data
* @ret value Numeric value
* @ret len Length of setting, or negative error
*/
static int numeric_setting_value ( int is_signed, const void *raw, size_t len,
unsigned long *value ) {
const uint8_t *unsigned_bytes = raw;
const int8_t *signed_bytes = raw;
int is_negative;
unsigned int i;
uint8_t pad;
uint8_t byte;
/* Convert to host-ordered longs */
is_negative = ( len && ( signed_bytes[0] < 0 ) );
*value = ( ( is_signed && is_negative ) ? -1L : 0 );
pad = *value;
for ( i = 0 ; i < len ; i++ ) {
byte = unsigned_bytes[i];
*value = ( ( *value << 8 ) | byte );
if ( ( ( i + sizeof ( *value ) ) < len ) && ( byte != pad ) )
return -ERANGE;
}
return len;
}
/**
* Fetch value of numeric setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v value Integer value to fill in
* @ret len Length of setting, or negative error
*/
int fetch_numeric_setting ( struct settings *settings,
const struct setting *setting,
unsigned long *value, int is_signed ) {
unsigned long tmp;
int len;
/* Avoid returning uninitialised data on error */
*value = 0;
/* Fetch raw (network-ordered, variable-length) setting */
len = fetch_raw_setting ( settings, setting, &tmp, sizeof ( tmp ) );
if ( len < 0 )
return len;
/* Extract numeric value */
return numeric_setting_value ( is_signed, &tmp, len, value );
}
/**
* Fetch value of signed integer setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v value Integer value to fill in
* @ret len Length of setting, or negative error
*/
int fetch_int_setting ( struct settings *settings,
const struct setting *setting,
long *value ) {
return fetch_numeric_setting ( settings, setting,
( ( unsigned long * ) value ), 1 );
}
/**
* Fetch value of unsigned integer setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v value Integer value to fill in
* @ret len Length of setting, or negative error
*/
int fetch_uint_setting ( struct settings *settings,
const struct setting *setting,
unsigned long *value ) {
return fetch_numeric_setting ( settings, setting, value, 0 );
}
/**
* Fetch value of signed integer setting, or zero
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @ret value Setting value, or zero
*/
long fetch_intz_setting ( struct settings *settings,
const struct setting *setting ) {
unsigned long value;
fetch_numeric_setting ( settings, setting, &value, 1 );
return value;
}
/**
* Fetch value of unsigned integer setting, or zero
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @ret value Setting value, or zero
*/
unsigned long fetch_uintz_setting ( struct settings *settings,
const struct setting *setting ) {
unsigned long value;
fetch_numeric_setting ( settings, setting, &value, 0 );
return value;
}
/**
* Fetch value of UUID setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v uuid UUID to fill in
* @ret len Length of setting, or negative error
*/
int fetch_uuid_setting ( struct settings *settings,
const struct setting *setting,
union uuid *uuid ) {
int len;
len = fetch_raw_setting ( settings, setting, uuid, sizeof ( *uuid ) );
if ( len < 0 )
return len;
if ( len != sizeof ( *uuid ) )
return -ERANGE;
return len;
}
/**
* Clear settings block
*
* @v settings Settings block
*/
void clear_settings ( struct settings *settings ) {
/* Find target settings block */
settings = settings_target ( settings );
/* Clear settings, if applicable */
if ( settings->op->clear )
settings->op->clear ( settings );
}
/**
* Compare two settings
*
* @v a Setting to compare
* @v b Setting to compare
* @ret 0 Settings are the same
* @ret non-zero Settings are not the same
*/
int setting_cmp ( const struct setting *a, const struct setting *b ) {
/* If the settings have tags, compare them */
if ( a->tag && ( a->tag == b->tag ) && ( a->scope == b->scope ) )
return 0;
/* Otherwise, if the settings have names, compare them */
if ( a->name && b->name && a->name[0] )
return strcmp ( a->name, b->name );
/* Otherwise, return a non-match */
return ( ! 0 );
}
/******************************************************************************
*
* Formatted setting routines
*
******************************************************************************
*/
/**
* Format setting value as a string
*
* @v type Setting type
* @v raw Raw setting value
* @v raw_len Length of raw setting value
* @v buf Buffer to contain formatted value
* @v len Length of buffer
* @ret len Length of formatted value, or negative error
*/
int setting_format ( const struct setting_type *type, const void *raw,
size_t raw_len, char *buf, size_t len ) {
/* Sanity check */
if ( ! type->format )
return -ENOTSUP;
return type->format ( type, raw, raw_len, buf, len );
}
/**
* Parse formatted string to setting value
*
* @v type Setting type
* @v value Formatted setting value
* @v buf Buffer to contain raw value
* @v len Length of buffer
* @ret len Length of raw value, or negative error
*/
int setting_parse ( const struct setting_type *type, const char *value,
void *buf, size_t len ) {
/* Sanity check */
if ( ! type->parse )
return -ENOTSUP;
return type->parse ( type, value, buf, len );
}
/**
* Convert setting value to number
*
* @v type Setting type
* @v raw Raw setting value
* @v raw_len Length of raw setting value
* @ret value Numeric value
* @ret rc Return status code
*/
int setting_numerate ( const struct setting_type *type, const void *raw,
size_t raw_len, unsigned long *value ) {
/* Sanity check */
if ( ! type->numerate )
return -ENOTSUP;
return type->numerate ( type, raw, raw_len, value );
}
/**
* Convert number to setting value
*
* @v type Setting type
* @v value Numeric value
* @v buf Buffer to contain raw value
* @v len Length of buffer
* @ret len Length of raw value, or negative error
*/
int setting_denumerate ( const struct setting_type *type, unsigned long value,
void *buf, size_t len ) {
/* Sanity check */
if ( ! type->denumerate )
return -ENOTSUP;
return type->denumerate ( type, value, buf, len );
}
/**
* Fetch formatted value of setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v origin Origin of setting to fill in, or NULL
* @v fetched Fetched setting to fill in, or NULL
* @v buf Buffer to contain formatted value
* @v len Length of buffer
* @ret len Length of formatted value, or negative error
*/
int fetchf_setting ( struct settings *settings, const struct setting *setting,
struct settings **origin, struct setting *fetched,
char *buf, size_t len ) {
struct setting tmp_fetched;
void *raw;
int raw_len;
int ret;
/* Use local buffers if necessary */
if ( ! fetched )
fetched = &tmp_fetched;
/* Fetch raw value */
raw_len = fetch_setting_copy ( settings, setting, origin, fetched,
&raw );
if ( raw_len < 0 ) {
ret = raw_len;
goto err_fetch_copy;
}
/* Sanity check */
assert ( fetched->type != NULL );
/* Format setting */
if ( ( ret = setting_format ( fetched->type, raw, raw_len, buf,
len ) ) < 0 )
goto err_format;
err_format:
free ( raw );
err_fetch_copy:
return ret;
}
/**
* Fetch copy of formatted value of setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v origin Origin of setting to fill in, or NULL
* @v fetched Fetched setting to fill in, or NULL
* @v value Buffer to allocate and fill with formatted value
* @ret len Length of formatted value, or negative error
*
* The caller is responsible for eventually freeing the allocated
* buffer.
*/
int fetchf_setting_copy ( struct settings *settings,
const struct setting *setting,
struct settings **origin, struct setting *fetched,
char **value ) {
struct settings *tmp_origin;
struct setting tmp_fetched;
int len;
int check_len;
/* Use local buffers if necessary */
if ( ! origin )
origin = &tmp_origin;
if ( ! fetched )
fetched = &tmp_fetched;
/* Avoid returning uninitialised data on error */
*value = NULL;
/* Check existence, and fetch formatted value length */
len = fetchf_setting ( settings, setting, origin, fetched, NULL, 0 );
if ( len < 0 )
return len;
/* Allocate buffer */
*value = zalloc ( len + 1 /* NUL */ );
if ( ! *value )
return -ENOMEM;
/* Fetch formatted value */
check_len = fetchf_setting ( *origin, fetched, NULL, NULL, *value,
( len + 1 /* NUL */ ) );
assert ( check_len == len );
return len;
}
/**
* Store formatted value of setting
*
* @v settings Settings block
* @v setting Setting to store
* @v value Formatted setting data, or NULL
* @ret rc Return status code
*/
int storef_setting ( struct settings *settings, const struct setting *setting,
const char *value ) {
void *raw;
int raw_len;
int check_len;
int rc;
/* NULL value or empty string implies deletion */
if ( ( ! value ) || ( ! value[0] ) )
return delete_setting ( settings, setting );
/* Sanity check */
assert ( setting->type != NULL );
/* Get raw value length */
raw_len = setting_parse ( setting->type, value, NULL, 0 );
if ( raw_len < 0 ) {
rc = raw_len;
goto err_raw_len;
}
/* Allocate buffer for raw value */
raw = malloc ( raw_len );
if ( ! raw ) {
rc = -ENOMEM;
goto err_alloc_raw;
}
/* Parse formatted value */
check_len = setting_parse ( setting->type, value, raw, raw_len );
assert ( check_len == raw_len );
/* Store raw value */
if ( ( rc = store_setting ( settings, setting, raw, raw_len ) ) != 0 )
goto err_store;
err_store:
free ( raw );
err_alloc_raw:
err_raw_len:
return rc;
}
/**
* Fetch numeric value of setting
*
* @v settings Settings block, or NULL to search all blocks
* @v setting Setting to fetch
* @v origin Origin of setting to fill in, or NULL
* @v fetched Fetched setting to fill in, or NULL
* @v value Numeric value to fill in
* @ret rc Return status code
*/
int fetchn_setting ( struct settings *settings, const struct setting *setting,
struct settings **origin, struct setting *fetched,
unsigned long *value ) {
struct setting tmp_fetched;
void *raw;
int raw_len;
int rc;
/* Use local buffers if necessary */
if ( ! fetched )
fetched = &tmp_fetched;
/* Fetch raw value */
raw_len = fetch_setting_copy ( settings, setting, origin, fetched,
&raw );
if ( raw_len < 0 ) {
rc = raw_len;
goto err_fetch_copy;
}
/* Sanity check */
assert ( fetched->type != NULL );
/* Numerate setting */
if ( ( rc = setting_numerate ( fetched->type, raw, raw_len,
value ) ) < 0 )
goto err_numerate;
err_numerate:
free ( raw );
err_fetch_copy:
return rc;
}
/**
* Store numeric value of setting
*
* @v settings Settings block
* @v setting Setting
* @v value Numeric value
* @ret rc Return status code
*/
int storen_setting ( struct settings *settings, const struct setting *setting,
unsigned long value ) {
void *raw;
int raw_len;
int check_len;
int rc;
/* Sanity check */
assert ( setting->type != NULL );
/* Get raw value length */
raw_len = setting_denumerate ( setting->type, value, NULL, 0 );
if ( raw_len < 0 ) {
rc = raw_len;
goto err_raw_len;
}
/* Allocate buffer for raw value */
raw = malloc ( raw_len );
if ( ! raw ) {
rc = -ENOMEM;
goto err_alloc_raw;
}
/* Denumerate value */
check_len = setting_denumerate ( setting->type, value, raw, raw_len );
assert ( check_len == raw_len );
/* Store raw value */
if ( ( rc = store_setting ( settings, setting, raw, raw_len ) ) != 0 )
goto err_store;
err_store:
free ( raw );
err_alloc_raw:
err_raw_len:
return rc;
}
/******************************************************************************
*
* Named settings
*
******************************************************************************
*/
/**
* Find predefined setting
*
* @v name Name
* @ret setting Setting, or NULL
*/
struct setting * find_setting ( const char *name ) {
struct setting *setting;
for_each_table_entry ( setting, SETTINGS ) {
if ( strcmp ( name, setting->name ) == 0 )
return setting;
}
return NULL;
}
/**
* Parse setting name as tag number
*
* @v name Name
* @ret tag Tag number, or 0 if not a valid number
*/
static uint64_t parse_setting_tag ( const char *name ) {
char *tmp = ( ( char * ) name );
uint64_t tag = 0;
while ( 1 ) {
tag = ( ( tag << 8 ) | strtoul ( tmp, &tmp, 0 ) );
if ( *tmp == 0 )
return tag;
if ( *tmp != '.' )
return 0;
tmp++;
}
}
/**
* Find setting type
*
* @v name Name
* @ret type Setting type, or NULL
*/
static const struct setting_type * find_setting_type ( const char *name ) {
const struct setting_type *type;
for_each_table_entry ( type, SETTING_TYPES ) {
if ( strcmp ( name, type->name ) == 0 )
return type;
}
return NULL;
}
/**
* Parse setting name
*
* @v name Name of setting
* @v get_child Function to find or create child settings block
* @v settings Settings block to fill in
* @v setting Setting to fill in
* @ret rc Return status code
*
* Interprets a name of the form
* "[settings_name/]tag_name[:type_name]" and fills in the appropriate
* fields.
*
* Note that on success, this function will have modified the original
* setting @c name.
*/
int parse_setting_name ( char *name, get_child_settings_t get_child,
struct settings **settings, struct setting *setting ) {
char *settings_name;
char *setting_name;
char *type_name;
struct setting *predefined;
int rc;
/* Set defaults */
*settings = &settings_root;
memset ( setting, 0, sizeof ( *setting ) );
setting->name = "";
/* Split name into "[settings_name/]setting_name[:type_name]" */
if ( ( setting_name = strchr ( name, '/' ) ) != NULL ) {
*(setting_name++) = 0;
settings_name = name;
} else {
setting_name = name;
settings_name = NULL;
}
if ( ( type_name = strchr ( setting_name, ':' ) ) != NULL )
*(type_name++) = 0;
/* Identify settings block, if specified */
if ( settings_name ) {
*settings = parse_settings_name ( settings_name, get_child );
if ( *settings == NULL ) {
DBG ( "Unrecognised settings block \"%s\" in \"%s\"\n",
settings_name, name );
rc = -ENODEV;
goto err;
}
}
/* Identify setting */
setting->tag = parse_setting_tag ( setting_name );
setting->scope = (*settings)->default_scope;
setting->name = setting_name;
for_each_table_entry ( predefined, SETTINGS ) {
/* Matches a predefined setting; use that setting */
if ( setting_cmp ( predefined, setting ) == 0 ) {
memcpy ( setting, predefined, sizeof ( *setting ) );
break;
}
}
/* Identify setting type, if specified */
if ( type_name ) {
setting->type = find_setting_type ( type_name );
if ( setting->type == NULL ) {
DBG ( "Invalid setting type \"%s\" in \"%s\"\n",
type_name, name );
rc = -ENOTSUP;
goto err;
}
}
return 0;
err:
/* Restore original name */
if ( settings_name )
*( setting_name - 1 ) = '/';
if ( type_name )
*( type_name - 1 ) = ':';
return rc;
}
/**
* Return full setting name
*
* @v settings Settings block, or NULL
* @v setting Setting
* @v buf Buffer
* @v len Length of buffer
* @ret len Length of setting name, or negative error
*/
int setting_name ( struct settings *settings, const struct setting *setting,
char *buf, size_t len ) {
const char *name;
settings = settings_target ( settings );
name = settings_name ( settings );
return snprintf ( buf, len, "%s%s%s:%s", name, ( name[0] ? "/" : "" ),
setting->name, setting->type->name );
}
/******************************************************************************
*
* Setting types
*
******************************************************************************
*/
/**
* Parse string setting value
*
* @v type Setting type
* @v value Formatted setting value
* @v buf Buffer to contain raw value
* @v len Length of buffer
* @ret len Length of raw value, or negative error
*/
static int parse_string_setting ( const struct setting_type *type __unused,
const char *value, void *buf, size_t len ) {
size_t raw_len = strlen ( value ); /* Exclude terminating NUL */
/* Copy string to buffer */
if ( len > raw_len )
len = raw_len;
memcpy ( buf, value, len );
return raw_len;
}
/**
* Format string setting value
*
* @v type Setting type
* @v raw Raw setting value
* @v raw_len Length of raw setting value
* @v buf Buffer to contain formatted value
* @v len Length of buffer
* @ret len Length of formatted value, or negative error
*/
static int format_string_setting ( const struct setting_type *type __unused,
const void *raw, size_t raw_len, char *buf,
size_t len ) {
/* Copy string to buffer, and terminate */
memset ( buf, 0, len );
if ( len > raw_len )
len = raw_len;
memcpy ( buf, raw, len );
return raw_len;
}
/** A string setting type */
const struct setting_type setting_type_string __setting_type = {
.name = "string",
.parse = parse_string_setting,
.format = format_string_setting,
};
/**
* Parse URI-encoded string setting value
*
* @v type Setting type
* @v value Formatted setting value
* @v buf Buffer to contain raw value
* @v len Length of buffer
* @ret len Length of raw value, or negative error
*/
static int parse_uristring_setting ( const struct setting_type *type __unused,
const char *value, void *buf, size_t len ){
return uri_decode ( value, buf, len );
}
/**
* Format URI-encoded string setting value
*
* @v type Setting type
* @v raw Raw setting value
* @v raw_len Length of raw setting value
* @v buf Buffer to contain formatted value
* @v len Length of buffer
* @ret len Length of formatted value, or negative error
*/
static int format_uristring_setting ( const struct setting_type *type __unused,
const void *raw, size_t raw_len,
char *buf, size_t len ) {
return uri_encode ( 0, raw, raw_len, buf, len );
}
/** A URI-encoded string setting type */
const struct setting_type setting_type_uristring __setting_type = {
.name = "uristring",
.parse = parse_uristring_setting,
.format = format_uristring_setting,
};
/**
* Parse IPv4 address setting value (when IPv4 support is not present)
*
* @v type Setting type
* @v value Formatted setting value
* @v buf Buffer to contain raw value
* @v len Length of buffer
* @ret len Length of raw value, or negative error
*/
__weak int parse_ipv4_setting ( const struct setting_type *type __unused,
const char *value __unused, void *buf __unused,
size_t len __unused ) {
return -ENOTSUP;
}
/**
* Format IPv4 address setting value (when IPv4 support is not present)
*
* @v type Setting type
* @v raw Raw setting value
* @v raw_len Length of raw setting value
* @v buf Buffer to contain formatted value
* @v len Length of buffer
* @ret len Length of formatted value, or negative error
*/
__weak int format_ipv4_setting ( const struct setting_type *type __unused,
const void *raw __unused,
size_t raw_len __unused, char *buf __unused,
size_t len __unused ) {
return -ENOTSUP;
}
/** An IPv4 address setting type */
const struct setting_type setting_type_ipv4 __setting_type = {
.name = "ipv4",
.parse = parse_ipv4_setting,
.format = format_ipv4_setting,
};
/**
* Parse IPv6 address setting value (when IPv6 support is not present)
*
* @v type Setting type
* @v value Formatted setting value
* @v buf Buffer to contain raw value
* @v len Length of buffer
* @ret len Length of raw value, or negative error
*/
__weak int parse_ipv6_setting ( const struct setting_type *type __unused,
const char *value __unused, void *buf __unused,
size_t len __unused ) {
return -ENOTSUP;
}
/**
* Format IPv6 address setting value (when IPv6 support is not present)
*
* @v type Setting type
* @v raw Raw setting value
* @v raw_len Length of raw setting value
* @v buf Buffer to contain formatted value
* @v len Length of buffer
* @ret len Length of formatted value, or negative error
*/
__weak int format_ipv6_setting ( const struct setting_type *type __unused,
const void *raw __unused,
size_t raw_len __unused, char *buf __unused,
size_t len __unused ) {
return -ENOTSUP;
}
/** An IPv6 address setting type */
const struct setting_type setting_type_ipv6 __setting_type = {
.name = "ipv6",
.parse = parse_ipv6_setting,
.format = format_ipv6_setting,
};
/** IPv6 settings scope */
const struct settings_scope dhcpv6_scope;
/**
* Integer setting type indices
*
* These indexes are defined such that (1<<index) gives the width of
* the integer, in bytes.
*/
enum setting_type_int_index {
SETTING_TYPE_INT8 = 0,
SETTING_TYPE_INT16 = 1,
SETTING_TYPE_INT32 = 2,
};
/**
* Integer setting type names
*
* These names exist as a static array in order to allow the type's
* integer size and signedness to be determined from the type's name.
* Note that there are no separate entries for the signed integer
* types: the name pointers simply point to the second character of
* the relevant string.
*/
static const char setting_type_int_name[][8] = {
[SETTING_TYPE_INT8] = "uint8",
[SETTING_TYPE_INT16] = "uint16",
[SETTING_TYPE_INT32] = "uint32",
};
/**
* Get unsigned integer setting type name
*
* @v index Integer setting type index
* @ret name Setting type name
*/
#define SETTING_TYPE_UINT_NAME( index ) setting_type_int_name[index]
/**
* Get signed integer setting type name
*
* @v index Integer setting type index
* @ret name Setting type name
*/
#define SETTING_TYPE_INT_NAME( index ) ( setting_type_int_name[index] + 1 )
/**
* Get integer setting type index
*
* @v type Setting type
* @ret index Integer setting type index
*/
static unsigned int setting_type_int_index ( const struct setting_type *type ) {
return ( ( type->name - setting_type_int_name[0] ) /
sizeof ( setting_type_int_name[0] ) );
}
/**
* Get integer setting type width
*
* @v type Setting type
* @ret index Integer setting type width
*/
static unsigned int setting_type_int_width ( const struct setting_type *type ) {
return ( 1 << setting_type_int_index ( type ) );
}
/**
* Get integer setting type signedness
*
* @v type Setting type
* @ret is_signed Integer setting type is signed
*/
static int setting_type_int_is_signed ( const struct setting_type *type ) {
return ( ( type->name - setting_type_int_name[0] ) & 1 );
}
/**
* Convert number to setting value
*
* @v type Setting type
* @v value Numeric value
* @v buf Buffer to contain raw value
* @v len Length of buffer
* @ret len Length of raw value, or negative error
*/
static int denumerate_int_setting ( const struct setting_type *type,
unsigned long value, void *buf,
size_t len ) {
unsigned int size = setting_type_int_width ( type );
union {
uint32_t num;
uint8_t bytes[4];
} u;
u.num = htonl ( value );
if ( len > size )
len = size;
memcpy ( buf, &u.bytes[ sizeof ( u ) - size ], len );
return size;
}
/**
* Convert setting value to number
*
* @v type Setting type
* @v raw Raw setting value
* @v raw_len Length of raw setting value
* @v value Numeric value to fill in
* @ret rc Return status code
*/
static int numerate_int_setting ( const struct setting_type *type,
const void *raw, size_t raw_len,
unsigned long *value ) {
int is_signed = setting_type_int_is_signed ( type );
int check_len;
/* Extract numeric value */
check_len = numeric_setting_value ( is_signed, raw, raw_len, value );
if ( check_len < 0 )
return check_len;
assert ( check_len == ( int ) raw_len );
return 0;
}
/**
* Parse integer setting value
*
* @v type Setting type
* @v value Formatted setting value
* @v buf Buffer to contain raw value
* @v len Length of buffer
* @ret len Length of raw value, or negative error
*/
static int parse_int_setting ( const struct setting_type *type,
const char *value, void *buf, size_t len ) {
char *endp;
unsigned long num_value;
/* Parse value */
num_value = strtoul ( value, &endp, 0 );
if ( *endp )
return -EINVAL;
return type->denumerate ( type, num_value, buf, len );
}
/**
* Format signed integer setting value
*
* @v type Setting type
* @v raw Raw setting value
* @v raw_len Length of raw setting value
* @v buf Buffer to contain formatted value
* @v len Length of buffer
* @ret len Length of formatted value, or negative error
*/
static int format_int_setting ( const struct setting_type *type,
const void *raw, size_t raw_len,
char *buf, size_t len ) {
unsigned long value;
int ret;
/* Extract numeric value */
if ( ( ret = type->numerate ( type, raw, raw_len, &value ) ) < 0 )
return ret;
/* Format value */
return snprintf ( buf, len, "%ld", value );
}
/**
* Format unsigned integer setting value
*
* @v type Setting type
* @v raw Raw setting value
* @v raw_len Length of raw setting value
* @v buf Buffer to contain formatted value
* @v len Length of buffer
* @ret len Length of formatted value, or negative error
*/
static int format_uint_setting ( const struct setting_type *type,
const void *raw, size_t raw_len,
char *buf, size_t len ) {
unsigned long value;
int ret;
/* Extract numeric value */
if ( ( ret = type->numerate ( type, raw, raw_len, &value ) ) < 0 )
return ret;
/* Format value */
return snprintf ( buf, len, "%#lx", value );
}
/**
* Define a signed integer setting type
*
* @v index Integer setting type index
* @ret type Setting type
*/
#define SETTING_TYPE_INT( index ) { \
.name = SETTING_TYPE_INT_NAME ( index ), \
.parse = parse_int_setting, \
.format = format_int_setting, \
.denumerate = denumerate_int_setting, \
.numerate = numerate_int_setting, \
}
/**
* Define an unsigned integer setting type
*
* @v index Integer setting type index
* @ret type Setting type
*/
#define SETTING_TYPE_UINT( index ) { \
.name = SETTING_TYPE_UINT_NAME ( index ), \
.parse = parse_int_setting, \
.format = format_uint_setting, \
.denumerate = denumerate_int_setting, \
.numerate = numerate_int_setting, \
}
/** A signed 8-bit integer setting type */
const struct setting_type setting_type_int8 __setting_type =
SETTING_TYPE_INT ( SETTING_TYPE_INT8 );
/** A signed 16-bit integer setting type */
const struct setting_type setting_type_int16 __setting_type =
SETTING_TYPE_INT ( SETTING_TYPE_INT16 );
/** A signed 32-bit integer setting type */
const struct setting_type setting_type_int32 __setting_type =
SETTING_TYPE_INT ( SETTING_TYPE_INT32 );
/** An unsigned 8-bit integer setting type */
const struct setting_type setting_type_uint8 __setting_type =
SETTING_TYPE_UINT ( SETTING_TYPE_INT8 );
/** An unsigned 16-bit integer setting type */
const struct setting_type setting_type_uint16 __setting_type =
SETTING_TYPE_UINT ( SETTING_TYPE_INT16 );
/** An unsigned 32-bit integer setting type */
const struct setting_type setting_type_uint32 __setting_type =
SETTING_TYPE_UINT ( SETTING_TYPE_INT32 );
/**
* Parse hex string setting value (using colon delimiter)
*
* @v type Setting type
* @v value Formatted setting value
* @v buf Buffer to contain raw value
* @v len Length of buffer
* @v size Integer size, in bytes
* @ret len Length of raw value, or negative error
*/
static int parse_hex_setting ( const struct setting_type *type __unused,
const char *value, void *buf, size_t len ) {
return hex_decode ( ':', value, buf, len );
}
/**
* Format hex string setting value (using colon delimiter)
*
* @v type Setting type
* @v raw Raw setting value
* @v raw_len Length of raw setting value
* @v buf Buffer to contain formatted value
* @v len Length of buffer
* @ret len Length of formatted value, or negative error
*/
static int format_hex_colon_setting ( const struct setting_type *type __unused,
const void *raw, size_t raw_len,
char *buf, size_t len ) {
return hex_encode ( ':', raw, raw_len, buf, len );
}
/**
* Parse hex string setting value (using hyphen delimiter)
*
* @v type Setting type
* @v value Formatted setting value
* @v buf Buffer to contain raw value
* @v len Length of buffer
* @v size Integer size, in bytes
* @ret len Length of raw value, or negative error
*/
static int parse_hex_hyphen_setting ( const struct setting_type *type __unused,
const char *value, void *buf,
size_t len ) {
return hex_decode ( '-', value, buf, len );
}
/**
* Format hex string setting value (using hyphen delimiter)
*
* @v type Setting type
* @v raw Raw setting value
* @v raw_len Length of raw setting value
* @v buf Buffer to contain formatted value
* @v len Length of buffer
* @ret len Length of formatted value, or negative error
*/
static int format_hex_hyphen_setting ( const struct setting_type *type __unused,
const void *raw, size_t raw_len,
char *buf, size_t len ) {
return hex_encode ( '-', raw, raw_len, buf, len );
}
/**
* Parse hex string setting value (using no delimiter)
*
* @v type Setting type
* @v value Formatted setting value
* @v buf Buffer to contain raw value
* @v len Length of buffer
* @v size Integer size, in bytes
* @ret len Length of raw value, or negative error
*/
static int parse_hex_raw_setting ( const struct setting_type *type __unused,
const char *value, void *buf, size_t len ) {
return hex_decode ( 0, value, buf, len );
}
/**
* Format hex string setting value (using no delimiter)
*
* @v type Setting type
* @v raw Raw setting value
* @v raw_len Length of raw setting value
* @v buf Buffer to contain formatted value
* @v len Length of buffer
* @ret len Length of formatted value, or negative error
*/
static int format_hex_raw_setting ( const struct setting_type *type __unused,
const void *raw, size_t raw_len,
char *buf, size_t len ) {
return hex_encode ( 0, raw, raw_len, buf, len );
}
/** A hex-string setting (colon-delimited) */
const struct setting_type setting_type_hex __setting_type = {
.name = "hex",
.parse = parse_hex_setting,
.format = format_hex_colon_setting,
};
/** A hex-string setting (hyphen-delimited) */
const struct setting_type setting_type_hexhyp __setting_type = {
.name = "hexhyp",
.parse = parse_hex_hyphen_setting,
.format = format_hex_hyphen_setting,
};
/** A hex-string setting (non-delimited) */
const struct setting_type setting_type_hexraw __setting_type = {
.name = "hexraw",
.parse = parse_hex_raw_setting,
.format = format_hex_raw_setting,
};
/**
* Parse Base64-encoded setting value
*
* @v type Setting type
* @v value Formatted setting value
* @v buf Buffer to contain raw value
* @v len Length of buffer
* @v size Integer size, in bytes
* @ret len Length of raw value, or negative error
*/
static int parse_base64_setting ( const struct setting_type *type __unused,
const char *value, void *buf, size_t len ) {
return base64_decode ( value, buf, len );
}
/**
* Format Base64-encoded setting value
*
* @v type Setting type
* @v raw Raw setting value
* @v raw_len Length of raw setting value
* @v buf Buffer to contain formatted value
* @v len Length of buffer
* @ret len Length of formatted value, or negative error
*/
static int format_base64_setting ( const struct setting_type *type __unused,
const void *raw, size_t raw_len,
char *buf, size_t len ) {
return base64_encode ( raw, raw_len, buf, len );
}
/** A Base64-encoded setting */
const struct setting_type setting_type_base64 __setting_type = {
.name = "base64",
.parse = parse_base64_setting,
.format = format_base64_setting,
};
/**
* Parse UUID/GUID setting value
*
* @v type Setting type
* @v value Formatted setting value
* @v buf Buffer to contain raw value
* @v len Length of buffer
* @v size Integer size, in bytes
* @ret len Length of raw value, or negative error
*/
static int parse_uuid_setting ( const struct setting_type *type,
const char *value, void *buf, size_t len ) {
union uuid uuid;
int rc;
/* Parse UUID */
if ( ( rc = uuid_aton ( value, &uuid ) ) != 0 )
return rc;
/* Mangle GUID byte ordering */
if ( type == &setting_type_guid )
uuid_mangle ( &uuid );
/* Copy value */
if ( len > sizeof ( uuid ) )
len = sizeof ( uuid );
memcpy ( buf, uuid.raw, len );
return ( sizeof ( uuid ) );
}
/**
* Format UUID/GUID setting value
*
* @v type Setting type
* @v raw Raw setting value
* @v raw_len Length of raw setting value
* @v buf Buffer to contain formatted value
* @v len Length of buffer
* @ret len Length of formatted value, or negative error
*/
static int format_uuid_setting ( const struct setting_type *type,
const void *raw, size_t raw_len, char *buf,
size_t len ) {
union uuid uuid;
/* Range check */
if ( raw_len != sizeof ( uuid ) )
return -ERANGE;
/* Copy value */
memcpy ( &uuid, raw, sizeof ( uuid ) );
/* Mangle GUID byte ordering */
if ( type == &setting_type_guid )
uuid_mangle ( &uuid );
/* Format value */
return snprintf ( buf, len, "%s", uuid_ntoa ( &uuid ) );
}
/** UUID setting type */
const struct setting_type setting_type_uuid __setting_type = {
.name = "uuid",
.parse = parse_uuid_setting,
.format = format_uuid_setting,
};
/** GUID setting type */
const struct setting_type setting_type_guid __setting_type = {
.name = "guid",
.parse = parse_uuid_setting,
.format = format_uuid_setting,
};
/**
* Format PCI bus:dev.fn setting value
*
* @v type Setting type
* @v raw Raw setting value
* @v raw_len Length of raw setting value
* @v buf Buffer to contain formatted value
* @v len Length of buffer
* @ret len Length of formatted value, or negative error
*/
static int format_busdevfn_setting ( const struct setting_type *type __unused,
const void *raw, size_t raw_len, char *buf,
size_t len ) {
unsigned long busdevfn;
unsigned int seg;
unsigned int bus;
unsigned int slot;
unsigned int func;
int check_len;
/* Extract numeric value */
check_len = numeric_setting_value ( 0, raw, raw_len, &busdevfn );
if ( check_len < 0 )
return check_len;
assert ( check_len == ( int ) raw_len );
/* Extract PCI address components */
seg = PCI_SEG ( busdevfn );
bus = PCI_BUS ( busdevfn );
slot = PCI_SLOT ( busdevfn );
func = PCI_FUNC ( busdevfn );
/* Format value */
return snprintf ( buf, len, "%04x:%02x:%02x.%x", seg, bus, slot, func );
}
/** PCI bus:dev.fn setting type */
const struct setting_type setting_type_busdevfn __setting_type = {
.name = "busdevfn",
.format = format_busdevfn_setting,
};
/******************************************************************************
*
* Setting expansion
*
******************************************************************************
*/
/**
* Expand variables within string
*
* @v string String
* @ret expstr Expanded string
*
* The expanded string is allocated with malloc() and the caller must
* eventually free() it.
*/
char * expand_settings ( const char *string ) {
struct settings *settings;
struct setting setting;
char *expstr;
char *start;
char *end;
char *head;
char *name;
char *tail;
char *value;
char *tmp;
int new_len;
int rc;
/* Obtain temporary modifiable copy of string */
expstr = strdup ( string );
if ( ! expstr )
return NULL;
/* Expand while expansions remain */
while ( 1 ) {
head = expstr;
/* Locate setting to be expanded */
start = NULL;
end = NULL;
for ( tmp = expstr ; *tmp ; tmp++ ) {
if ( ( tmp[0] == '$' ) && ( tmp[1] == '{' ) )
start = tmp;
if ( start && ( tmp[0] == '}' ) ) {
end = tmp;
break;
}
}
if ( ! end )
break;
*start = '\0';
name = ( start + 2 );
*end = '\0';
tail = ( end + 1 );
/* Expand setting */
if ( ( rc = parse_setting_name ( name, find_child_settings,
&settings,
&setting ) ) != 0 ) {
/* Treat invalid setting names as empty */
value = NULL;
} else {
/* Fetch and format setting value. Ignore
* errors; treat non-existent settings as empty.
*/
fetchf_setting_copy ( settings, &setting, NULL, NULL,
&value );
}
/* Construct expanded string and discard old string */
tmp = expstr;
new_len = asprintf ( &expstr, "%s%s%s",
head, ( value ? value : "" ), tail );
free ( value );
free ( tmp );
if ( new_len < 0 )
return NULL;
}
return expstr;
}
/******************************************************************************
*
* Settings
*
******************************************************************************
*/
/** Hostname setting */
const struct setting hostname_setting __setting ( SETTING_HOST, hostname ) = {
.name = "hostname",
.description = "Host name",
.tag = DHCP_HOST_NAME,
.type = &setting_type_string,
};
/** Domain name setting */
const struct setting domain_setting __setting ( SETTING_IP_EXTRA, domain ) = {
.name = "domain",
.description = "DNS domain",
.tag = DHCP_DOMAIN_NAME,
.type = &setting_type_string,
};
/** TFTP server setting */
const struct setting next_server_setting __setting ( SETTING_BOOT,next-server)={
.name = "next-server",
.description = "TFTP server",
.tag = DHCP_EB_SIADDR,
.type = &setting_type_ipv4,
};
/** Filename setting */
const struct setting filename_setting __setting ( SETTING_BOOT, filename ) = {
.name = "filename",
.description = "Boot filename",
.tag = DHCP_BOOTFILE_NAME,
.type = &setting_type_string,
};
/** Root path setting */
const struct setting root_path_setting __setting ( SETTING_SANBOOT, root-path)={
.name = "root-path",
.description = "SAN root path",
.tag = DHCP_ROOT_PATH,
.type = &setting_type_string,
};
/** SAN filename setting */
const struct setting san_filename_setting __setting ( SETTING_SANBOOT,
san-filename ) = {
.name = "san-filename",
.description = "SAN filename",
.tag = DHCP_EB_SAN_FILENAME,
.type = &setting_type_string,
};
/** Username setting */
const struct setting username_setting __setting ( SETTING_AUTH, username ) = {
.name = "username",
.description = "User name",
.tag = DHCP_EB_USERNAME,
.type = &setting_type_string,
};
/** Password setting */
const struct setting password_setting __setting ( SETTING_AUTH, password ) = {
.name = "password",
.description = "Password",
.tag = DHCP_EB_PASSWORD,
.type = &setting_type_string,
};
/** Priority setting */
const struct setting priority_setting __setting ( SETTING_MISC, priority ) = {
.name = "priority",
.description = "Settings priority",
.tag = DHCP_EB_PRIORITY,
.type = &setting_type_int8,
};
/** DHCP user class setting */
const struct setting user_class_setting __setting ( SETTING_HOST_EXTRA,
user-class ) = {
.name = "user-class",
.description = "DHCP user class",
.tag = DHCP_USER_CLASS_ID,
.type = &setting_type_string,
};
/** DHCP vendor class setting */
const struct setting vendor_class_setting __setting ( SETTING_HOST_EXTRA,
vendor-class ) = {
.name = "vendor-class",
.description = "DHCP vendor class",
.tag = DHCP_VENDOR_CLASS_ID,
.type = &setting_type_string,
};
/******************************************************************************
*
* Built-in settings block
*
******************************************************************************
*/
/** Built-in setting scope */
const struct settings_scope builtin_scope;
/**
* Fetch error number setting
*
* @v data Buffer to fill with setting data
* @v len Length of buffer
* @ret len Length of setting data, or negative error
*/
static int errno_fetch ( void *data, size_t len ) {
uint32_t content;
/* Return current error */
content = htonl ( errno );
if ( len > sizeof ( content ) )
len = sizeof ( content );
memcpy ( data, &content, len );
return sizeof ( content );
}
/** Error number setting */
const struct setting errno_setting __setting ( SETTING_MISC, errno ) = {
.name = "errno",
.description = "Last error",
.type = &setting_type_uint32,
.scope = &builtin_scope,
};
/** Error number built-in setting */
struct builtin_setting errno_builtin_setting __builtin_setting = {
.setting = &errno_setting,
.fetch = errno_fetch,
};
/**
* Fetch build architecture setting
*
* @v data Buffer to fill with setting data
* @v len Length of buffer
* @ret len Length of setting data, or negative error
*/
static int buildarch_fetch ( void *data, size_t len ) {
static const char buildarch[] = _S2 ( ARCH );
strncpy ( data, buildarch, len );
return ( sizeof ( buildarch ) - 1 /* NUL */ );
}
/** Build architecture setting */
const struct setting buildarch_setting __setting ( SETTING_MISC, buildarch ) = {
.name = "buildarch",
.description = "Build architecture",
.type = &setting_type_string,
.scope = &builtin_scope,
};
/** Build architecture built-in setting */
struct builtin_setting buildarch_builtin_setting __builtin_setting = {
.setting = &buildarch_setting,
.fetch = buildarch_fetch,
};
/**
* Fetch platform setting
*
* @v data Buffer to fill with setting data
* @v len Length of buffer
* @ret len Length of setting data, or negative error
*/
static int platform_fetch ( void *data, size_t len ) {
static const char platform[] = _S2 ( PLATFORM );
strncpy ( data, platform, len );
return ( sizeof ( platform ) - 1 /* NUL */ );
}
/** Platform setting */
const struct setting platform_setting __setting ( SETTING_MISC, platform ) = {
.name = "platform",
.description = "Platform",
.type = &setting_type_string,
.scope = &builtin_scope,
};
/** Platform built-in setting */
struct builtin_setting platform_builtin_setting __builtin_setting = {
.setting = &platform_setting,
.fetch = platform_fetch,
};
/**
* Fetch version setting
*
* @v data Buffer to fill with setting data
* @v len Length of buffer
* @ret len Length of setting data, or negative error
*/
static int version_fetch ( void *data, size_t len ) {
strncpy ( data, product_version, len );
return ( strlen ( product_version ) );
}
/** Version setting */
const struct setting version_setting __setting ( SETTING_MISC, version ) = {
.name = "version",
.description = "Version",
.type = &setting_type_string,
.scope = &builtin_scope,
};
/** Version built-in setting */
struct builtin_setting version_builtin_setting __builtin_setting = {
.setting = &version_setting,
.fetch = version_fetch,
};
/**
* Fetch current time setting
*
* @v data Buffer to fill with setting data
* @v len Length of buffer
* @ret len Length of setting data, or negative error
*/
static int unixtime_fetch ( void *data, size_t len ) {
uint32_t content;
/* Return current time */
content = htonl ( time(NULL) );
if ( len > sizeof ( content ) )
len = sizeof ( content );
memcpy ( data, &content, len );
return sizeof ( content );
}
/** Current time setting */
const struct setting unixtime_setting __setting ( SETTING_MISC, unixtime ) = {
.name = "unixtime",
.description = "Seconds since the Epoch",
.type = &setting_type_uint32,
.scope = &builtin_scope,
};
/** Current time built-in setting */
struct builtin_setting unixtime_builtin_setting __builtin_setting = {
.setting = &unixtime_setting,
.fetch = unixtime_fetch,
};
/**
* Fetch built-in setting
*
* @v settings Settings block
* @v setting Setting to fetch
* @v data Buffer to fill with setting data
* @v len Length of buffer
* @ret len Length of setting data, or negative error
*/
static int builtin_fetch ( struct settings *settings __unused,
struct setting *setting,
void *data, size_t len ) {
struct builtin_setting *builtin;
for_each_table_entry ( builtin, BUILTIN_SETTINGS ) {
if ( setting_cmp ( setting, builtin->setting ) == 0 )
return builtin->fetch ( data, len );
}
return -ENOENT;
}
/**
* Check applicability of built-in setting
*
* @v settings Settings block
* @v setting Setting
* @ret applies Setting applies within this settings block
*/
static int builtin_applies ( struct settings *settings __unused,
const struct setting *setting ) {
return ( setting->scope == &builtin_scope );
}
/** Built-in settings operations */
static struct settings_operations builtin_settings_operations = {
.applies = builtin_applies,
.fetch = builtin_fetch,
};
/** Built-in settings */
static struct settings builtin_settings = {
.refcnt = NULL,
.siblings = LIST_HEAD_INIT ( builtin_settings.siblings ),
.children = LIST_HEAD_INIT ( builtin_settings.children ),
.op = &builtin_settings_operations,
};
/** Initialise built-in settings */
static void builtin_init ( void ) {
int rc;
if ( ( rc = register_settings ( &builtin_settings, NULL,
"builtin" ) ) != 0 ) {
DBG ( "Could not register built-in settings: %s\n",
strerror ( rc ) );
return;
}
}
/** Built-in settings initialiser */
struct init_fn builtin_init_fn __init_fn ( INIT_NORMAL ) = {
.initialise = builtin_init,
};