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/*
* Zebra configuration command interface routine
* Copyright (C) 1997, 98 Kunihiro Ishiguro
*
* This file is part of GNU Zebra.
*
* GNU Zebra 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, or (at your
* option) any later version.
*
* GNU Zebra 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 GNU Zebra; see the file COPYING. If not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
#ifndef _ZEBRA_COMMAND_H
#define _ZEBRA_COMMAND_H
#include "vector.h"
#include "vty.h"
#include "lib/route_types.h"
/* Host configuration variable */
struct host
{
/* Host name of this router. */
char *name;
/* Password for vty interface. */
char *password;
char *password_encrypt;
/* Enable password */
char *enable;
char *enable_encrypt;
/* System wide terminal lines. */
int lines;
/* Log filename. */
char *logfile;
/* config file name of this host */
char *config;
/* Flags for services */
int advanced;
int encrypt;
/* Banner configuration. */
const char *motd;
char *motdfile;
};
/* There are some command levels which called from command node. */
enum node_type
{
AUTH_NODE, /* Authentication mode of vty interface. */
RESTRICTED_NODE, /* Restricted view mode */
VIEW_NODE, /* View node. Default mode of vty interface. */
AUTH_ENABLE_NODE, /* Authentication mode for change enable. */
ENABLE_NODE, /* Enable node. */
CONFIG_NODE, /* Config node. Default mode of config file. */
SERVICE_NODE, /* Service node. */
DEBUG_NODE, /* Debug node. */
AAA_NODE, /* AAA node. */
KEYCHAIN_NODE, /* Key-chain node. */
KEYCHAIN_KEY_NODE, /* Key-chain key node. */
INTERFACE_NODE, /* Interface mode node. */
ZEBRA_NODE, /* zebra connection node. */
TABLE_NODE, /* rtm_table selection node. */
RIP_NODE, /* RIP protocol mode node. */
RIPNG_NODE, /* RIPng protocol mode node. */
BABEL_NODE, /* Babel protocol mode node. */
BGP_NODE, /* BGP protocol mode which includes BGP4+ */
BGP_VPNV4_NODE, /* BGP MPLS-VPN PE exchange. */
BGP_IPV4_NODE, /* BGP IPv4 unicast address family. */
BGP_IPV4M_NODE, /* BGP IPv4 multicast address family. */
BGP_IPV6_NODE, /* BGP IPv6 address family */
BGP_IPV6M_NODE, /* BGP IPv6 multicast address family. */
OSPF_NODE, /* OSPF protocol mode */
OSPF6_NODE, /* OSPF protocol for IPv6 mode */
ISIS_NODE, /* ISIS protocol mode */
MASC_NODE, /* MASC for multicast. */
IRDP_NODE, /* ICMP Router Discovery Protocol mode. */
IP_NODE, /* Static ip route node. */
ACCESS_NODE, /* Access list node. */
PREFIX_NODE, /* Prefix list node. */
ACCESS_IPV6_NODE, /* Access list node. */
PREFIX_IPV6_NODE, /* Prefix list node. */
AS_LIST_NODE, /* AS list node. */
COMMUNITY_LIST_NODE, /* Community list node. */
RMAP_NODE, /* Route map node. */
SMUX_NODE, /* SNMP configuration node. */
DUMP_NODE, /* Packet dump node. */
FORWARDING_NODE, /* IP forwarding node. */
PROTOCOL_NODE, /* protocol filtering node */
VTY_NODE, /* Vty node. */
};
/* Node which has some commands and prompt string and configuration
function pointer . */
struct cmd_node
{
/* Node index. */
enum node_type node;
/* Prompt character at vty interface. */
const char *prompt;
/* Is this node's configuration goes to vtysh ? */
int vtysh;
/* Node's configuration write function */
int (*func) (struct vty *);
/* Vector of this node's command list. */
vector cmd_vector;
};
enum
{
CMD_ATTR_DEPRECATED = 1,
CMD_ATTR_HIDDEN,
};
/* Structure of command element. */
struct cmd_element
{
const char *string; /* Command specification by string. */
int (*func) (struct cmd_element *, struct vty *, int, const char *[]);
const char *doc; /* Documentation of this command. */
int daemon; /* Daemon to which this command belong. */
vector tokens; /* Vector of cmd_tokens */
u_char attr; /* Command attributes */
};
enum cmd_token_type
{
TOKEN_TERMINAL = 0,
TOKEN_MULTIPLE,
TOKEN_KEYWORD,
};
/* Command description structure. */
struct cmd_token
{
enum cmd_token_type type;
/* Used for type == MULTIPLE */
vector multiple; /* vector of cmd_token, type == FINAL */
/* Used for type == KEYWORD */
vector keyword; /* vector of vector of cmd_tokens */
/* Used for type == TERMINAL */
char *cmd; /* Command string. */
char *desc; /* Command's description. */
};
/* Return value of the commands. */
#define CMD_SUCCESS 0
#define CMD_WARNING 1
#define CMD_ERR_NO_MATCH 2
#define CMD_ERR_AMBIGUOUS 3
#define CMD_ERR_INCOMPLETE 4
#define CMD_ERR_EXEED_ARGC_MAX 5
#define CMD_ERR_NOTHING_TODO 6
#define CMD_COMPLETE_FULL_MATCH 7
#define CMD_COMPLETE_MATCH 8
#define CMD_COMPLETE_LIST_MATCH 9
#define CMD_SUCCESS_DAEMON 10
/* Argc max counts. */
#define CMD_ARGC_MAX 25
/* Turn off these macros when uisng cpp with extract.pl */
#ifndef VTYSH_EXTRACT_PL
/* helper defines for end-user DEFUN* macros */
#define DEFUN_CMD_ELEMENT(funcname, cmdname, cmdstr, helpstr, attrs, dnum) \
struct cmd_element cmdname = \
{ \
.string = cmdstr, \
.func = funcname, \
.doc = helpstr, \
.attr = attrs, \
.daemon = dnum, \
};
#define DEFUN_CMD_FUNC_DECL(funcname) \
static int funcname (struct cmd_element *, struct vty *, int, const char *[]);
#define DEFUN_CMD_FUNC_TEXT(funcname) \
static int funcname \
(struct cmd_element *self __attribute__ ((unused)), \
struct vty *vty __attribute__ ((unused)), \
int argc __attribute__ ((unused)), \
const char *argv[] __attribute__ ((unused)) )
/* DEFUN for vty command interafce. Little bit hacky ;-).
*
* DEFUN(funcname, cmdname, cmdstr, helpstr)
*
* funcname
* ========
*
* Name of the function that will be defined.
*
* cmdname
* =======
*
* Name of the struct that will be defined for the command.
*
* cmdstr
* ======
*
* The cmdstr defines the command syntax. It is used by the vty subsystem
* and vtysh to perform matching and completion in the cli. So you have to take
* care to construct it adhering to the following grammar. The names used
* for the production rules losely represent the names used in lib/command.c
*
* cmdstr = cmd_token , { " " , cmd_token } ;
*
* cmd_token = cmd_terminal
* | cmd_multiple
* | cmd_keyword ;
*
* cmd_terminal_fixed = fixed_string
* | variable
* | range
* | ipv4
* | ipv4_prefix
* | ipv6
* | ipv6_prefix ;
*
* cmd_terminal = cmd_terminal_fixed
* | option
* | vararg ;
*
* multiple_part = cmd_terminal_fixed ;
* cmd_multiple = "(" , multiple_part , ( "|" | { "|" , multiple_part } ) , ")" ;
*
* keyword_part = fixed_string , { " " , ( cmd_terminal_fixed | cmd_multiple ) } ;
* cmd_keyword = "{" , keyword_part , { "|" , keyword_part } , "}" ;
*
* lowercase = "a" | ... | "z" ;
* uppercase = "A" | ... | "Z" ;
* digit = "0" | ... | "9" ;
* number = digit , { digit } ;
*
* fixed_string = (lowercase | digit) , { lowercase | digit | uppercase | "-" | "_" } ;
* variable = uppercase , { uppercase | "_" } ;
* range = "<" , number , "-" , number , ">" ;
* ipv4 = "A.B.C.D" ;
* ipv4_prefix = "A.B.C.D/M" ;
* ipv6 = "X:X::X:X" ;
* ipv6_prefix = "X:X::X:X/M" ;
* option = "[" , variable , "]" ;
* vararg = "." , variable ;
*
* To put that all in a textual description: A cmdstr is a sequence of tokens,
* separated by spaces.
*
* Terminal Tokens:
*
* A very simple cmdstring would be something like: "show ip bgp". It consists
* of three Terminal Tokens, each containing a fixed string. When this command
* is called, no arguments will be passed down to the function implementing it,
* as it only consists of fixed strings.
*
* Apart from fixed strings, Terminal Tokens can also contain variables:
* An example would be "show ip bgp A.B.C.D". This command expects an IPv4
* as argument. As this is a variable, the IP address entered by the user will
* be passed down as an argument. Apart from two exceptions, the other options
* for Terminal Tokens behave exactly as we just discussed and only make a
* difference for the CLI. The two exceptions will be discussed in the next
* paragraphs.
*
* A Terminal Token can contain a so called option match. This is a simple
* string variable that the user may omit. An example would be:
* "show interface [IFNAME]". If the user calls this without an interface as
* argument, no arguments will be passed down to the function implementing
* this command. Otherwise, the interface name will be provided to the function
* as a regular argument.
* Also, a Terminal Token can contain a so called vararg. This is used e.g. in
* "show ip bgp regexp .LINE". The last token is a vararg match and will
* consume all the arguments the user inputs on the command line and append
* those to the list of arguments passed down to the function implementing this
* command. (Therefore, it doesn't make much sense to have any tokens after a
* vararg because the vararg will already consume all the words the user entered
* in the CLI)
*
* Multiple Tokens:
*
* The Multiple Token type can be used if there are multiple possibilities what
* arguments may be used for a command, but it should map to the same function
* nonetheless. An example would be "ip route A.B.C.D/M (reject|blackhole)"
* In that case both "reject" and "blackhole" would be acceptable as last
* arguments. The words matched by Multiple Tokens are always added to the
* argument list, even if they are matched by fixed strings. Such a Multiple
* Token can contain almost any type of token that would also be acceptable
* for a Terminal Token, the exception are optional variables and varag.
*
* There is one special case that is used in some places of Quagga that should be
* pointed out here shortly. An example would be "password (8|) WORD". This
* construct is used to have fixed strings communicated as arguments. (The "8"
* will be passed down as an argument in this case) It does not mean that
* the "8" is optional. Another historic and possibly surprising property of
* this construct is that it consumes two parts of helpstr. (Help
* strings will be explained later)
*
* Keyword Tokens:
*
* There are commands that take a lot of different and possibly optional arguments.
* An example from ospf would be the "default-information originate" command. This
* command takes a lot of optional arguments that may be provided in any order.
* To accomodate such commands, the Keyword Token has been implemented.
* Using the keyword token, the "default-information originate" command and all
* its possible options can be represented using this single cmdstr:
* "default-information originate \
* {always|metric <0-16777214>|metric-type (1|2)|route-map WORD}"
*
* Keywords always start with a fixed string and may be followed by arguments.
* Except optional variables and vararg, everything is permitted here.
*
* For the special case of a keyword without arguments, either NULL or the
* keyword itself will be pushed as an argument, depending on whether the
* keyword is present.
* For the other keywords, arguments will be only pushed for
* variables/Multiple Tokens. If the keyword is not present, the arguments that
* would have been pushed will be substituted by NULL.
*
* A few examples:
* "default information originate metric-type 1 metric 1000"
* would yield the following arguments:
* { NULL, "1000", "1", NULL }
*
* "default information originate always route-map RMAP-DEFAULT"
* would yield the following arguments:
* { "always", NULL, NULL, "RMAP-DEFAULT" }
*
* helpstr
* =======
*
* The helpstr is used to show a short explantion for the commands that
* are available when the user presses '?' on the CLI. It is the concatenation
* of the helpstrings for all the tokens that make up the command.
*
* There should be one helpstring for each token in the cmdstr except those
* containing other tokens, like Multiple or Keyword Tokens. For those, there
* will only be the helpstrings of the contained tokens.
*
* The individual helpstrings are expected to be in the same order as their
* respective Tokens appear in the cmdstr. They should each be terminated with
* a linefeed. The last helpstring should be terminated with a linefeed as well.
*
* Care should also be taken to avoid having similar tokens with different
* helpstrings. Imagine e.g. the commands "show ip ospf" and "show ip bgp".
* they both contain a helpstring for "show", but only one will be displayed
* when the user enters "sh?". If those two helpstrings differ, it is not
* defined which one will be shown and the behavior is therefore unpredictable.
*/
#define DEFUN(funcname, cmdname, cmdstr, helpstr) \
DEFUN_CMD_FUNC_DECL(funcname) \
DEFUN_CMD_ELEMENT(funcname, cmdname, cmdstr, helpstr, 0, 0) \
DEFUN_CMD_FUNC_TEXT(funcname)
#define DEFUN_ATTR(funcname, cmdname, cmdstr, helpstr, attr) \
DEFUN_CMD_FUNC_DECL(funcname) \
DEFUN_CMD_ELEMENT(funcname, cmdname, cmdstr, helpstr, attr, 0) \
DEFUN_CMD_FUNC_TEXT(funcname)
#define DEFUN_HIDDEN(funcname, cmdname, cmdstr, helpstr) \
DEFUN_ATTR (funcname, cmdname, cmdstr, helpstr, CMD_ATTR_HIDDEN)
#define DEFUN_DEPRECATED(funcname, cmdname, cmdstr, helpstr) \
DEFUN_ATTR (funcname, cmdname, cmdstr, helpstr, CMD_ATTR_DEPRECATED) \
/* DEFUN_NOSH for commands that vtysh should ignore */
#define DEFUN_NOSH(funcname, cmdname, cmdstr, helpstr) \
DEFUN(funcname, cmdname, cmdstr, helpstr)
/* DEFSH for vtysh. */
#define DEFSH(daemon, cmdname, cmdstr, helpstr) \
DEFUN_CMD_ELEMENT(NULL, cmdname, cmdstr, helpstr, 0, daemon) \
/* DEFUN + DEFSH */
#define DEFUNSH(daemon, funcname, cmdname, cmdstr, helpstr) \
DEFUN_CMD_FUNC_DECL(funcname) \
DEFUN_CMD_ELEMENT(funcname, cmdname, cmdstr, helpstr, 0, daemon) \
DEFUN_CMD_FUNC_TEXT(funcname)
/* DEFUN + DEFSH with attributes */
#define DEFUNSH_ATTR(daemon, funcname, cmdname, cmdstr, helpstr, attr) \
DEFUN_CMD_FUNC_DECL(funcname) \
DEFUN_CMD_ELEMENT(funcname, cmdname, cmdstr, helpstr, attr, daemon) \
DEFUN_CMD_FUNC_TEXT(funcname)
#define DEFUNSH_HIDDEN(daemon, funcname, cmdname, cmdstr, helpstr) \
DEFUNSH_ATTR (daemon, funcname, cmdname, cmdstr, helpstr, CMD_ATTR_HIDDEN)
#define DEFUNSH_DEPRECATED(daemon, funcname, cmdname, cmdstr, helpstr) \
DEFUNSH_ATTR (daemon, funcname, cmdname, cmdstr, helpstr, CMD_ATTR_DEPRECATED)
/* ALIAS macro which define existing command's alias. */
#define ALIAS(funcname, cmdname, cmdstr, helpstr) \
DEFUN_CMD_ELEMENT(funcname, cmdname, cmdstr, helpstr, 0, 0)
#define ALIAS_ATTR(funcname, cmdname, cmdstr, helpstr, attr) \
DEFUN_CMD_ELEMENT(funcname, cmdname, cmdstr, helpstr, attr, 0)
#define ALIAS_HIDDEN(funcname, cmdname, cmdstr, helpstr) \
DEFUN_CMD_ELEMENT(funcname, cmdname, cmdstr, helpstr, CMD_ATTR_HIDDEN, 0)
#define ALIAS_DEPRECATED(funcname, cmdname, cmdstr, helpstr) \
DEFUN_CMD_ELEMENT(funcname, cmdname, cmdstr, helpstr, CMD_ATTR_DEPRECATED, 0)
#define ALIAS_SH(daemon, funcname, cmdname, cmdstr, helpstr) \
DEFUN_CMD_ELEMENT(funcname, cmdname, cmdstr, helpstr, 0, daemon)
#define ALIAS_SH_HIDDEN(daemon, funcname, cmdname, cmdstr, helpstr) \
DEFUN_CMD_ELEMENT(funcname, cmdname, cmdstr, helpstr, CMD_ATTR_HIDDEN, daemon)
#define ALIAS_SH_DEPRECATED(daemon, funcname, cmdname, cmdstr, helpstr) \
DEFUN_CMD_ELEMENT(funcname, cmdname, cmdstr, helpstr, CMD_ATTR_DEPRECATED, daemon)
#endif /* VTYSH_EXTRACT_PL */
/* Some macroes */
#define CMD_OPTION(S) ((S[0]) == '[')
#define CMD_VARIABLE(S) (((S[0]) >= 'A' && (S[0]) <= 'Z') || ((S[0]) == '<'))
#define CMD_VARARG(S) ((S[0]) == '.')
#define CMD_RANGE(S) ((S[0] == '<'))
#define CMD_IPV4(S) ((strcmp ((S), "A.B.C.D") == 0))
#define CMD_IPV4_PREFIX(S) ((strcmp ((S), "A.B.C.D/M") == 0))
#define CMD_IPV6(S) ((strcmp ((S), "X:X::X:X") == 0))
#define CMD_IPV6_PREFIX(S) ((strcmp ((S), "X:X::X:X/M") == 0))
/* Common descriptions. */
#define SHOW_STR "Show running system information\n"
#define IP_STR "IP information\n"
#define IPV6_STR "IPv6 information\n"
#define NO_STR "Negate a command or set its defaults\n"
#define REDIST_STR "Redistribute information from another routing protocol\n"
#define CLEAR_STR "Reset functions\n"
#define RIP_STR "RIP information\n"
#define BGP_STR "BGP information\n"
#define OSPF_STR "OSPF information\n"
#define NEIGHBOR_STR "Specify neighbor router\n"
#define DEBUG_STR "Debugging functions (see also 'undebug')\n"
#define UNDEBUG_STR "Disable debugging functions (see also 'debug')\n"
#define ROUTER_STR "Enable a routing process\n"
#define AS_STR "AS number\n"
#define MBGP_STR "MBGP information\n"
#define MATCH_STR "Match values from routing table\n"
#define SET_STR "Set values in destination routing protocol\n"
#define OUT_STR "Filter outgoing routing updates\n"
#define IN_STR "Filter incoming routing updates\n"
#define V4NOTATION_STR "specify by IPv4 address notation(e.g. 0.0.0.0)\n"
#define OSPF6_NUMBER_STR "Specify by number\n"
#define INTERFACE_STR "Interface infomation\n"
#define IFNAME_STR "Interface name(e.g. ep0)\n"
#define IP6_STR "IPv6 Information\n"
#define OSPF6_STR "Open Shortest Path First (OSPF) for IPv6\n"
#define OSPF6_ROUTER_STR "Enable a routing process\n"
#define OSPF6_INSTANCE_STR "<1-65535> Instance ID\n"
#define SECONDS_STR "<1-65535> Seconds\n"
#define ROUTE_STR "Routing Table\n"
#define PREFIX_LIST_STR "Build a prefix list\n"
#define OSPF6_DUMP_TYPE_LIST \
"(neighbor|interface|area|lsa|zebra|config|dbex|spf|route|lsdb|redistribute|hook|asbr|prefix|abr)"
#define ISIS_STR "IS-IS information\n"
#define AREA_TAG_STR "[area tag]\n"
#define CONF_BACKUP_EXT ".sav"
/* IPv4 only machine should not accept IPv6 address for peer's IP
address. So we replace VTY command string like below. */
#ifdef HAVE_IPV6
#define NEIGHBOR_CMD "neighbor (A.B.C.D|X:X::X:X) "
#define NO_NEIGHBOR_CMD "no neighbor (A.B.C.D|X:X::X:X) "
#define NEIGHBOR_ADDR_STR "Neighbor address\nIPv6 address\n"
#define NEIGHBOR_CMD2 "neighbor (A.B.C.D|X:X::X:X|WORD) "
#define NO_NEIGHBOR_CMD2 "no neighbor (A.B.C.D|X:X::X:X|WORD) "
#define NEIGHBOR_ADDR_STR2 "Neighbor address\nNeighbor IPv6 address\nNeighbor tag\n"
#else
#define NEIGHBOR_CMD "neighbor A.B.C.D "
#define NO_NEIGHBOR_CMD "no neighbor A.B.C.D "
#define NEIGHBOR_ADDR_STR "Neighbor address\n"
#define NEIGHBOR_CMD2 "neighbor (A.B.C.D|WORD) "
#define NO_NEIGHBOR_CMD2 "no neighbor (A.B.C.D|WORD) "
#define NEIGHBOR_ADDR_STR2 "Neighbor address\nNeighbor tag\n"
#endif /* HAVE_IPV6 */
/* Prototypes. */
extern void install_node (struct cmd_node *, int (*) (struct vty *));
extern void install_default (enum node_type);
extern void install_element (enum node_type, struct cmd_element *);
/* Concatenates argv[shift] through argv[argc-1] into a single NUL-terminated
string with a space between each element (allocated using
XMALLOC(MTYPE_TMP)). Returns NULL if shift >= argc. */
extern char *argv_concat (const char **argv, int argc, int shift);
extern vector cmd_make_strvec (const char *);
extern void cmd_free_strvec (vector);
extern vector cmd_describe_command (vector, struct vty *, int *status);
extern char **cmd_complete_command (vector, struct vty *, int *status);
extern const char *cmd_prompt (enum node_type);
extern int config_from_file (struct vty *, FILE *, unsigned int *line_num);
extern enum node_type node_parent (enum node_type);
extern int cmd_execute_command (vector, struct vty *, struct cmd_element **, int);
extern int cmd_execute_command_strict (vector, struct vty *, struct cmd_element **);
extern void cmd_init (int);
extern void cmd_terminate (void);
/* Export typical functions. */
extern struct cmd_element config_end_cmd;
extern struct cmd_element config_exit_cmd;
extern struct cmd_element config_quit_cmd;
extern struct cmd_element config_help_cmd;
extern struct cmd_element config_list_cmd;
extern char *host_config_file (void);
extern void host_config_set (char *);
extern void print_version (const char *);
/* struct host global, ick */
extern struct host host;
/* "<cr>" global */
extern char *command_cr;
#endif /* _ZEBRA_COMMAND_H */