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serval-dna/conf_schema.h
Andrew Bettison c8bf8a7733 Refactor JNI out of CLI and server main loop 
The CLI and server main loop now have no conditional JNI code.  All JNI
code has been moved into separate source files, which #include the new
"jni_common.h" instead of <jni.h>.  The "cli.h" header no longer
includes <jni.h>, so the rest of the Serval source code is now
unaffected by JNI definitions.

The 'cf_limbo' global variable is now thread-local, so that each thread
has its own independent copy of the loaded configuration.  The JNI
server entry point now calls cf_init() once.  The new 'cf_initialised'
flag prevents clobbering the config state by redundant calls to
cf_init().

The CLI "stop" command now sends SIGHUP to the specific thread in which
the server is running.  This is achieved by writing the PID and TID
(Linux Thread ID) into the pidfile, separated by a space, on systems
that support the Linux gettid() and tgkill() system calls.  The server's
signal handler has been overhauled, and its logging improved.
2016-10-13 16:23:18 +10:30

514 lines
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/*
Serval DNA configuration
Copyright (C) 2012 Serval Project Inc.
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.
*/
/* This file contains definitions for the schema of the Serval DNA configuration file. See comments
* in "config.h" for a description of the internal configuration API.
*
* A configuration schema is set of nested structures and arrays. By convention, the top level, or
* root of the schema is called "main", but every structure and array has its own complete API which
* can be used by itself. So if there were two independent configuration files, both could be
* defined in this file, each with a conventional name for its own root element.
*
* A configuration file consists of lines of the form:
*
* FULLKEY "=" VALUE "\n"
*
* where FULLKEY has the form KEY [ "." KEY [ "." KEY [ ... ] ] ] and VALUE is any string not
* containing newline. Lines ending with "\r\n" have the "\r" stripped from the end of VALUE.
* Otherwise VALUE is preserved exactly, with all leading and trailing spaces intact.
*
* To describe a configuration file that looks like this:
*
* some.thing.element1=integer
* some.thing.element2=string
* some.list.foo.element1=integer
* some.list.foo.element2=string
* some.list.bar.element1=integer
* some.list.bar.element2=string
* another_thing=http://my.host.com:1234/path/to/nowhere
*
* the following schema would do:
*
* STRUCT(happy)
* ATOM(int32_t, element1, 0, int32_nonneg,, "An integer >= 0")
* STRING(80, element2, "boo!", str_nonempty, MANDATORY, "A non-empty string")
* END_STRUCT
*
* ARRAY(joy,)
* KEY_STRING(3, happy, str)
* VALUE_SUB_STRUCT(happy)
* END_ARRAY(16)
*
* STRUCT(love)
* SUB_STRUCT(happy, thing,)
* SUB_STRUCT(joy, list,)
* END_STRUCT
*
* STRUCT(main)
* SUB_STRUCT(love, some,)
* STRING(128, another_thing, "", uri,, "URL; protocol://hostname[:port][/path]")
* END_STRUCT
*
* which would produce an API based on the following definitions (see "config.h" for more
* information):
*
* struct config_happy {
* int32_t element1;
* char element2[81];
* };
* struct config_joy {
* unsigned ac;
* struct config_joy__element {
* char key[4];
* struct config_happy value;
* } av[16];
* };
* struct config_love {
* struct config_happy thing;
* struct config_joy list;
* };
* struct config_main {
* struct config_love some;
* char another_thing[129];
* };
*
* A schema definition is composed from the following STRUCT and ARRAY definitions:
*
* STRUCT(name) [ VALIDATOR(validatorfunc) ]
* element-declaration
* element-declaration
* ...
* END_STRUCT
*
* where each element-declaration is one of:
*
* ATOM(type, element, default, repr, flags, comment)
* NODE(type, element, default, repr, flags, comment)
* STRING(strlen, element, default, repr, flags, comment)
* SUB_STRUCT(structname, element, flags [, default_label])
* NODE_STRUCT(structname, element, repr, flags [, default_label])
*
* ARRAY(name, flags) [ VALIDATOR(validatorfunc) ]
* key-declaration
* value-declaration
* END_ARRAY(size)
*
* where key-declaration is one of:
*
* KEY_ATOM(type, repr)
* KEY_STRING(strlen, repr)
*
* and value-declaration is one of:
*
* VALUE_ATOM(type, repr)
* VALUE_STRING(strlen, repr)
* VALUE_NODE(type, repr)
* VALUE_SUB_STRUCT(structname)
* VALUE_NODE_STRUCT(structname, repr)
*
* For defining alternative STRUCT default settings:
*
* STRUCT_DEFAULT(name, default_label)
* default-declaration
* default-declaration
* ...
* END_STRUCT_DEFAULT
*
* where each default-declaration is one of:
*
* ATOM_DEFAULT(element, default)
* STRING_DEFAULT(element, default)
* SUB_STRUCT_DEFAULT(structname, element [, default_label])
*
* Every structure defined by STRUCT has its own, native default values as given by
* the 'default' parameter in each of its element declarations. The STRUCT_DEFAULT
* declaration defines a variation on the default values that can be used to give the
* structure alternative defaults when included as a SUB_STRUCT (or NODE_STRUCT) from
* within another structure. Not all the STRUCT's elements have to be defined within
* a STRUCT_DEFAULT definition; any omitted ones take the STRUCT's native default.
*
* For defining that one STRUCT can be treated as a subset of another:
*
* STRUCT_ASSIGN(substruct, superstruct)
* element-declaration
* element-declaration
* ...
* END_STRUCT_ASSIGN
*
* where element-declaration is exactly as for STRUCT(...) above.
*
* This generates a structure copy function that copies the given elements of 'substruct'
* into the equivalent elements of 'superstruct'; ie, both structures must have the same
* element names and types.
*
* The meanings of the parameters are:
*
* 'name'
* A label used to qualify this struct/array's API from the API components of other structs and
* arrays. This label does not appear anywhere in the config file itself; it is purely for
* internal code-related purposes.
* 'strlen'
* For STRING, LABEL_STRING and VALUE_STRING, gives the maximum length of the string. The
* string is declared as an array of char[strlen+1] to leave room for a terminating nul.
* 'size'
* For all ARRAYs, gives the maximum size of the array.
* 'type'
* Used for ATOM, NODE, LABEL_ATOM, VALUE_ATOM and VALUE_NODE declarations. Gives the C type
* of the element. For STRING, KEY_STRING and VALUE_STRING this is implicitly char[strlen+1].
* 'structname'
* Only used for SUB_STRUCT, NODE_STRUCT, VALUE_SUB_STRUCT and VALUE_NODE_STRUCT declarations.
* Identifies a sub- structure by 'name' to nest in the enclosing struct or array.
* 'element'
* The name of the struct element and the key in the configuration file. This name does appear
* in the config file and also in the API, so that an option mamed "some.thing.element1" in the
* file is referred to as some.thing.element1 in the C code. Arrays are more complicated:
* "some.list.foo.element1" in the config file is referred to as some.list.av[n].value.element1
* in the C code, and some.list.ac gives the size of the some.list.av array.
* 'default'
* Only used for ATOM and NODE struct elements. Gives the default value for the element if
* absent from the config file.
* 'repr'
* The string representation. This name specifies a trio of functions, cf_opt_<repr>(),
* cf_fmt_<repr>() and cf_cmp_<repr>():
* - The cf_opt_<repr>() functions for ATOM, STRING, KEY_ATOM, KEY_STRING, VALUE_ATOM and
* VALUE_STRING take a (const char *) argument pointing to nul-terminated text. The
* <repr> functions for NODE and VALUE_NODE take a pointer to a COM node (const
* struct cf_om_node *), and are responsible for parsing the node's text and all of its
* descendents (children).
* - Each cf_fmt_<repr>() function is the inverse of cf_opt_<repr>. The cf_fmt_<repr>
* functions for ATOM, KEY_ATOM, KEY_STRING, VALUE_ATOM and VALUE_STRING all take a pointer
* to a const 'type', and produce a malloc()ed nul-terminated string which, if passed to
* cf_opt_<repr>(), would produce the same original value. If the value is invalid (outside
* the legal range) then cf_fmt_<repr> returns CFINVALID or CFEMPTY. The cf_fmt_<repr>
* functions for NODE and VALUE_NODE take a pointer to a const 'type' and produce a
* malloc()ed COM node (struct cf_om_node *) which, if passed to cf_opt_<repr> would produce
* the same original value.
* - Each cf_cmp_<repr>() function compares two values of the given 'type' and returns -1, 0
* or 1 to indicate the natural ordering of the values. These functions are used to detect
* when config elements have their default values, to avoid calling cf_fmt_<repr>(). They
* are also used to sort array keys.
* 'validatorfunc'
* A function that is called after the struct/array is fully parsed and populated. This
* function can perform validation checks on the whole struct/array that cannot be performed by
* the parse functions of each element in isolation, and can even alter the contents of the
* struct/array, eg, sort an array or fill in default values in structs that depend on other
* elements. Takes as its second argument the CFxxx code produced by the parser, and returns
* an updated CFxxx result code (which could be the same) as documented in "config.h".
* 'flags'
* A space-separated list of flags. At present only the MANDATORY flag is supported, which
* will cause parsing to fail if the given STRUCT element is not set in the config file. In
* the case of struct elements that are arrays, the config file must set at least one element
* of the array, or parsing fails.
* 'comment'
* A human-readable string describing the value of the configuration option. Must be
* informative enough to help users diagnose parse errors. Eg, "An integer" is not enough;
* better would be "Integer >= 0, number of seconds since Unix epoch".
* 'default_label'
* A label used to qualify an alternative STRUCT default set. These labels need only be unique
* for each given struct 'name', so different STRUCTs may re-use the same labels.
*
* @author Andrew Bettison <andrew@servalproject.com>
*/
STRUCT(debug)
ATOM(bool_t, verbose, 0, boolean,, "")
ATOM(bool_t, ack, 0, boolean,, "")
ATOM(bool_t, config, 0, boolean,, "")
ATOM(bool_t, dnahelper, 0, boolean,, "")
ATOM(bool_t, timing, 0, boolean,, "")
ATOM(bool_t, http_server, 0, boolean,, "")
ATOM(bool_t, httpd, 0, boolean,, "")
ATOM(bool_t, nohttptx, 0, boolean,, "")
ATOM(bool_t, io, 0, boolean,, "")
ATOM(bool_t, jni, 0, boolean,, "")
ATOM(bool_t, verbose_io, 0, boolean,, "")
ATOM(bool_t, keyring, 0, boolean,, "")
ATOM(bool_t, mdprequests, 0, boolean,, "")
ATOM(bool_t, mdp_filter, 0, boolean,, "")
ATOM(bool_t, msp, 0, boolean,, "")
ATOM(bool_t, monitor, 0, boolean,, "")
ATOM(bool_t, radio_link, 0, boolean,, "")
ATOM(bool_t, overlaybuffer, 0, boolean,, "")
ATOM(bool_t, overlayframes, 0, boolean,, "")
ATOM(bool_t, packets_sent, 0, boolean,, "")
ATOM(bool_t, overlaytick, 0, boolean,, "")
ATOM(bool_t, overlayrouting, 0, boolean,, "")
ATOM(bool_t, overlayinterfaces, 0, boolean,, "")
ATOM(bool_t, broadcasts, 0, boolean,, "")
ATOM(bool_t, packettx, 0, boolean,, "")
ATOM(bool_t, packetrx, 0, boolean,, "")
ATOM(bool_t, packetradio, 0, boolean,, "")
ATOM(bool_t, rhizome, 0, boolean,, "")
ATOM(bool_t, rhizome_manifest, 0, boolean,, "")
ATOM(bool_t, rhizome_sql_bind, 0, boolean,, "")
ATOM(bool_t, rhizome_store, 0, boolean,, "")
ATOM(bool_t, rhizome_sync, 0, boolean,, "")
ATOM(bool_t, rhizome_sync_keys, 0, boolean,, "")
ATOM(bool_t, rhizome_tx, 0, boolean,, "")
ATOM(bool_t, rhizome_rx, 0, boolean,, "")
ATOM(bool_t, rhizome_ads, 0, boolean,, "")
ATOM(bool_t, rhizome_mdp_rx, 0, boolean,, "")
ATOM(bool_t, rhizome_direct, 0, boolean,, "")
ATOM(bool_t, subscriber, 0, boolean,, "")
ATOM(bool_t, meshms, 0, boolean,, "")
ATOM(bool_t, vomp, 0, boolean,, "")
ATOM(bool_t, profiling, 0, boolean,, "")
ATOM(bool_t, linkstate, 0, boolean,, "")
ATOM(bool_t, watchdog, 0, boolean,, "")
END_STRUCT
#define LOG_FORMAT_OPTIONS \
ATOM(bool_t, show_pid, 1, boolean,, "If true, all log lines contain PID of logging process") \
ATOM(bool_t, show_time, 1, boolean,, "If true, all log lines contain time stamp") \
ATOM(int, level, LOG_LEVEL_DEBUG, log_level,, "Only log messages at and above this level of severity") \
ATOM(bool_t, dump_config, 1, boolean,, "If true, current configuration is dumped into start of log")
STRUCT(log_format)
LOG_FORMAT_OPTIONS
END_STRUCT
STRUCT(log_format_file)
STRING(256, directory_path, "", str,, "Path of directory for log files, either absolute or relative to instance log directory")
STRING(256, path, "", str_nonempty,, "Path of single log file, either absolute or relative to directory_path")
ATOM(unsigned short, rotate, 12, ushort,, "Number of log files to rotate, zero means no deletion")
ATOM(uint32_t, duration, 3600, uint32_time_interval,, "Time duration of each log file, zero means one file per invocation")
LOG_FORMAT_OPTIONS
END_STRUCT
STRUCT_ASSIGN(log_format, log_format_file)
LOG_FORMAT_OPTIONS
END_STRUCT_ASSIGN
STRUCT(log)
SUB_STRUCT(log_format_file, file,,)
SUB_STRUCT(log_format, console,, console)
SUB_STRUCT(log_format, android,, android)
END_STRUCT
STRUCT_DEFAULT(log_format, console)
ATOM_DEFAULT(show_pid, 0)
ATOM_DEFAULT(show_time, 0)
ATOM_DEFAULT(level, LOG_LEVEL_HINT)
ATOM_DEFAULT(dump_config, 0)
END_STRUCT_DEFAULT
STRUCT_DEFAULT(log_format, android)
ATOM_DEFAULT(show_pid, 0)
ATOM_DEFAULT(show_time, 0)
END_STRUCT_DEFAULT
STRUCT(watchdog)
STRING(256, executable, "", absolute_path,, "Absolute path of watchdog executable")
ATOM(uint32_t, interval_ms, 60000, uint32_nonzero,, "Time interval between watchdog invocations, in milliseconds")
END_STRUCT
STRUCT(server)
STRING(256, chdir, "/", absolute_path,, "Absolute path of chdir(2) for server process")
STRING(256, interface_path, "", str_nonempty,, "Path of directory containing interface files, either absolute or relative to instance directory")
ATOM(uint32_t, config_reload_interval_ms, 1000, uint32_nonzero,, "Time interval between configuration reload polls, in milliseconds")
SUB_STRUCT(watchdog, watchdog,)
STRING(120, motd, "", str_nonempty,, "Message Of The Day displayed on HTTPD root page")
END_STRUCT
STRUCT(monitor)
ATOM(uint32_t, uid, 0, uint32_nonzero,, "Allowed UID for monitor socket client")
END_STRUCT
STRUCT(mdp_iftype)
ATOM(int32_t, mtu, 1200, int32_nonneg,, "Maximum transmision size")
ATOM(int32_t, tick_ms, -1, int32_nonneg,, "Keep alive interval")
ATOM(int32_t, packet_interval, -1, int32_nonneg,, "Minimum interval between packets in microseconds")
ATOM(int32_t, reachable_timeout_ms, -1, int32_nonneg,, "Inactivity timeout after which node considered unreachable")
ATOM(int32_t, transmit_timeout_ms, 1000, int32_nonneg,, "Maximum duration to hold a packet before transmission")
ATOM(bool_t, drop, 0, boolean,, "If true, drop all incoming packets")
ATOM(bool_t, send, 1, boolean,, "If false, don't send any packets")
ATOM(bool_t, route, 1, boolean,, "If false, do not advertise any links")
ATOM(short, encapsulation, ENCAP_OVERLAY, encapsulation,, "Type of packet encapsulation")
END_STRUCT
STRUCT(mdp)
ATOM(bool_t, enable_inet, 0, boolean,, "If true, allow mdp clients to connect over loopback UDP")
STRING(256, filter_rules_path, "", str_nonempty,, "Path of file containing MDP filter rules, either absolute or relative to instance directory")
END_STRUCT
STRUCT(vomp)
ATOM(int32_t, dial_timeout_ms, 15000, int32_nonneg,, "Timeout to establish a call when dialling")
ATOM(int32_t, ring_timeout_ms, 30000, int32_nonneg,, "Timeout for the other user to answer")
ATOM(int32_t, network_timeout_ms, 30000, int32_nonneg,, "Timeout for network activity until a call will end")
END_STRUCT
STRUCT(olsr)
ATOM(bool_t, enable, 0, boolean,, "If true, OLSR is used for mesh routing")
ATOM(uint16_t, remote_port, 4130, uint16_nonzero,, "Remote port number")
ATOM(uint16_t, local_port, 4131, uint16_nonzero,, "Local port number")
END_STRUCT
ARRAY(argv, NO_DUPLICATES, VALIDATOR(vld_argv))
KEY_ATOM(unsigned short, ushort_nonzero)
VALUE_STRING(128, str)
END_ARRAY(16)
STRUCT(executable)
STRING(256, executable, "", absolute_path, MANDATORY, "Absolute path of dna helper executable")
SUB_STRUCT(argv, argv,)
END_STRUCT
STRUCT(dna)
SUB_STRUCT(executable, helper,)
END_STRUCT
STRUCT(rhizome_peer)
STRING(25, protocol, "http", protocol,, "Protocol name")
STRING(256, host, "", str_nonempty, MANDATORY, "Host name or IP address")
ATOM(uint16_t, port, HTTPD_PORT_DEFAULT, uint16_nonzero,, "Port number")
END_STRUCT
ARRAY(peerlist,)
KEY_STRING(15, str)
VALUE_NODE_STRUCT(rhizome_peer, rhizome_peer)
END_ARRAY(10)
STRUCT(rhizome_direct)
SUB_STRUCT(peerlist, peer,)
END_STRUCT
STRUCT(rhizome_api_addfile)
STRING(64, uri_path, "", absolute_path,, "URI path for HTTP add-file request")
ATOM(struct in_addr, allow_host, hton_in_addr(INADDR_LOOPBACK), in_addr,, "IP address of host allowed to make HTTP add-file request")
STRING(256, manifest_template_file, "", str_nonempty,, "Path of manifest template file, either absolute or relative to instance directory")
ATOM(sid_t, default_author, SID_ANY, sid,, "Author of add-file bundle if sender not given")
ATOM(rhizome_bk_t, bundle_secret_key, RHIZOME_BK_NONE, rhizome_bk,, "Secret key of add-file bundle to try if sender not given")
END_STRUCT
STRUCT(rhizome_api)
SUB_STRUCT(rhizome_api_addfile, addfile,)
END_STRUCT
STRUCT(rhizome_http)
ATOM(bool_t, enable, 1, boolean,, "If true, Rhizome HTTP server is started")
ATOM(uint16_t, port, HTTPD_PORT_DEFAULT, uint16_nonzero,, "Port number for Rhizome HTTP server")
END_STRUCT
STRUCT(rhizome_mdp)
ATOM(bool_t, enable, 1, boolean,, "If true, Rhizome MDP server is started")
ATOM(uint64_t, stall_timeout, 1000, uint64_scaled,, "Timeout to request more data.")
ATOM(uint64_t, block_size, 512, uint64_scaled,, "Transfer block size.")
END_STRUCT
STRUCT(rhizome_advertise)
ATOM(bool_t, enable, 1, boolean,, "If true, Rhizome advertisements are sent")
ATOM(uint32_t, interval, 500, uint32_nonzero,, "Interval between Rhizome advertisements")
END_STRUCT
STRUCT(rhizome)
ATOM(bool_t, enable, 1, boolean,, "If true, server opens Rhizome database when starting")
ATOM(bool_t, fetch, 1, boolean,, "If false, no new bundles will be fetched from peers")
ATOM(bool_t, reliable_clock, 1, boolean,, "If false, consider the system clock to be unreliable for generating timestamps")
ATOM(bool_t, clean_on_open, 0, boolean,, "If true, Rhizome database is cleaned at start of every command")
STRING(256, datastore_path, "", str_nonempty,, "Path of rhizome storage directory, absolute or relative to instance directory")
ATOM(uint64_t, database_size, UINT64_MAX, uint64_scaled,, "Maximum size of database in bytes")
ATOM(uint64_t, min_free_space, 100*1024*1024, uint64_scaled,, "Minimum free space to preserve on the disk")
ATOM(uint32_t, max_blob_size, 128 * 1024, uint32_scaled,, "Store payloads larger than this in files not SQLite blobs")
ATOM(uint64_t, idle_timeout, RHIZOME_IDLE_TIMEOUT, uint64_scaled,, "Rhizome transfer timeout if no data received.")
ATOM(uint32_t, fetch_delay_ms, 50, uint32_nonzero,, "Delay from receiving first bundle advert to initiating fetch")
SUB_STRUCT(rhizome_direct, direct,)
SUB_STRUCT(rhizome_api, api,)
SUB_STRUCT(rhizome_http, http,)
SUB_STRUCT(rhizome_mdp, mdp,)
SUB_STRUCT(rhizome_advertise, advertise,)
END_STRUCT
STRUCT(directory)
ATOM(sid_t, service, SID_ANY, sid,, "Subscriber ID of Serval Directory Service")
END_STRUCT
STRUCT(host)
STRING(INTERFACE_NAME_STRLEN, interface, "", str_nonempty,, "Interface name")
STRING(256, host, "", str_nonempty,, "Host Name")
ATOM(struct in_addr, address, hton_in_addr(INADDR_NONE), in_addr,, "Host IP address")
ATOM(uint16_t, port, PORT_DNA, uint16_nonzero,, "Port number")
END_STRUCT
ARRAY(host_list, NO_DUPLICATES)
KEY_ATOM(sid_t, sid)
VALUE_SUB_STRUCT(host)
END_ARRAY(32)
STRUCT(network_interface, VALIDATOR(vld_network_interface))
ATOM(bool_t, exclude, 0, boolean,, "If true, do not use matching interfaces")
ATOM(struct pattern_list, match, PATTERN_LIST_EMPTY, pattern_list,, "Names that match network interface")
ATOM(short, socket_type, SOCK_UNSPECIFIED, socket_type,, "Type of network socket; stream, dgram or file")
STRING(256, file, "", str_nonempty,, "Path of interface file, absolute or relative to server.interface_path")
ATOM(struct in_addr, dummy_address, hton_in_addr(INADDR_LOOPBACK), in_addr,, "Dummy interface address")
ATOM(struct in_addr, dummy_netmask, hton_in_addr(0xFFFFFF00), in_addr,, "Dummy interface netmask")
ATOM(uint16_t, port, PORT_DNA, uint16_nonzero,, "Port number for network interface")
ATOM(uint16_t, drop_packets, 0, uint16_nonzero,, "Percentage of incoming packets that should be dropped for testing purposes")
ATOM(short, type, OVERLAY_INTERFACE_WIFI, interface_type,, "Type of network interface")
ATOM(short, radiotype, RADIO_TYPE_RFD900, radio_type,, "Type of packet radio interface")
SUB_STRUCT(mdp_iftype, broadcast,)
SUB_STRUCT(mdp_iftype, unicast,)
ATOM(int32_t, idle_tick_ms, 5000, int32_nonneg,, "Tick interval when no peers are present")
ATOM(bool_t, default_route, 0, boolean,, "If true, use this interface as a default route")
ATOM(bool_t, prefer_unicast, 1, boolean,, "If true, send data as unicast IP packets if available")
ATOM(bool_t, debug, 0, boolean,, "If true, log details of every outgoing packet")
ATOM(bool_t, point_to_point, 0, boolean,, "If true, assume there will only be two devices on this interface")
ATOM(bool_t, ctsrts, 0, boolean,, "If true, enable CTS/RTS hardware handshaking")
ATOM(int32_t, uartbps, 57600, int32_rs232baudrate,, "Speed of serial UART link speed (which may be different to serial device link speed)")
END_STRUCT
ARRAY(interface_list, NO_DUPLICATES)
KEY_ATOM(unsigned, uint)
VALUE_NODE_STRUCT(network_interface, network_interface)
END_ARRAY(10)
STRUCT(user)
STRING(50, password, "", str,, "Authentication password")
END_STRUCT
ARRAY(userlist,)
KEY_STRING(25, str)
VALUE_SUB_STRUCT(user)
END_ARRAY(10)
STRUCT(api_restful)
SUB_STRUCT(userlist, users,)
ATOM(uint32_t, newsince_timeout, 60, uint32_time_interval,, "Time to block while reporting new bundles")
END_STRUCT
STRUCT(api)
SUB_STRUCT(api_restful, restful,)
END_STRUCT
// The top level.
STRUCT(main)
NODE_STRUCT(interface_list, interfaces, interface_list,)
SUB_STRUCT(log, log,)
SUB_STRUCT(server, server,)
SUB_STRUCT(monitor, monitor,)
SUB_STRUCT(mdp, mdp,)
SUB_STRUCT(dna, dna,)
SUB_STRUCT(vomp, vomp,)
SUB_STRUCT(debug, debug,)
SUB_STRUCT(rhizome, rhizome,)
SUB_STRUCT(directory, directory,)
SUB_STRUCT(olsr, olsr,)
SUB_STRUCT(host_list, hosts,)
SUB_STRUCT(api, api,)
END_STRUCT
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