radare2/libr/include/r_cmd.h
2022-11-19 01:05:18 +01:00

298 lines
9.6 KiB
C

#ifndef R2_CMD_H
#define R2_CMD_H
#include <r_util.h>
#include <r_bind.h>
#include <sdb/ht_pp.h>
#ifdef __cplusplus
extern "C" {
#endif
typedef struct r_core_t RCore;
#define MACRO_LIMIT 1024
#define MACRO_LABELS 20
#define R_CMD_MAXLEN 4096
typedef enum r_cmd_status_t {
R_CMD_STATUS_OK = 0, // command handler exited in the right way
R_CMD_STATUS_WRONG_ARGS, // command handler could not handle the arguments passed to it
R_CMD_STATUS_ERROR, // command handler had issues while running (e.g. allocation error, etc.)
R_CMD_STATUS_INVALID, // command could not be executed (e.g. shell level error, not existing command, bad expression, etc.)
R_CMD_STATUS_EXIT, // command handler asks to exit the prompt loop
} RCmdStatus;
typedef int (*RCmdCb) (void *user, const char *input);
typedef RCmdStatus (*RCmdArgvCb) (RCore *core, int argc, const char **argv);
typedef int (*RCmdNullCb) (void *user);
typedef struct r_cmd_parsed_args_t {
int argc;
char **argv;
bool has_space_after_cmd;
} RCmdParsedArgs;
typedef struct r_cmd_macro_label_t {
char name[80];
char *ptr;
} RCmdMacroLabel;
typedef struct r_cmd_macro_item_t {
char *name;
char *args;
char *code;
int codelen;
int nargs;
} RCmdMacroItem;
typedef struct r_cmd_macro_t {
int counter;
ut64 *brk_value;
ut64 _brk_value;
int brk;
int macro_level;
RCoreCmd cmd;
PrintfCallback cb_printf;
void *user;
RNum *num;
int labels_n;
RCmdMacroLabel labels[MACRO_LABELS];
RList *macros;
} RCmdMacro;
typedef struct r_cmd_item_t {
char cmd[64];
RCmdCb callback;
} RCmdItem;
typedef HtPP *RCmdAlias;
typedef struct r_cmd_alias_val_t {
ut8 *data; // The actual value buffer
int sz; // Buffer size
bool is_str; // Is the buffer string-safe? (i.e. strlen(v) == sz-1. dont strlen if this isnt set)
bool is_data; // Is the buffer data or a command? (if false, is_str must be true - commands can't be raw)
} RCmdAliasVal;
typedef struct r_cmd_desc_example_t {
const char *example;
const char *comment;
} RCmdDescExample;
/**
* Define how the command looks like in the help.
*/
typedef struct r_cmd_desc_help_t {
/**
* Short-sentence explaining what the command does.
* This is shown, for example, when the list of sub-commands is printed
* and each sub-command has a very short description on the right,
* explaining what it does.
*/
const char *summary;
/**
* Long description of what the command does. It can be as long as you
* want and it should explain well how the command behaves.
* This is shown, for example, when `??` is appended on command or `?`
* is appended and the command has no children to show. In that case,
* the short summary is extended with this longer description.
*
* Optional.
*/
const char *description;
/**
* String used to identify the arguments. This usually comes together
* with the summary.
* TODO: explain how to differentiate between required and optional arguments
*/
const char *args_str;
/**
* String that overrides the name+args_str usually used to describe the
* command.
*
* Optional.
*/
const char *usage;
/**
* String to use as sub-commands suggestions instead of the
* auto-generated one (e.g. [abcd] or [?] that you can see near command
* names when doing `w?`). If not provided, the options will be
* auto-generated.
*
* Optional.
*/
const char *options;
/**
* List of examples used to better explain how to use the command. This
* is shown together with the long description.
*
* Optional.
*/
const RCmdDescExample *examples;
} RCmdDescHelp;
typedef enum {
// for old handlers that parse their own input and accept a single string
R_CMD_DESC_TYPE_OLDINPUT = 0,
// for handlers that accept argc/argv
R_CMD_DESC_TYPE_ARGV,
// for cmd descriptors that are just used to group together related
// sub-commands. Do not use this if the command can be used by itself or
// if it's necessary to show its help, because this descriptor is not
// stored in the hashtable and cannot be retrieved except by listing the
// children of its parent.
R_CMD_DESC_TYPE_INNER,
// for cmd descriptors that are parent of other sub-commands but that
// may also have a sub-command with the same name. For example, `wc` is
// both the parent of `wci`, `wc*`, etc. but there is also `wc` as a
// sub-command.
R_CMD_DESC_TYPE_GROUP,
} RCmdDescType;
typedef struct r_cmd_desc_t {
RCmdDescType type;
char *name;
struct r_cmd_desc_t *parent;
int n_children;
RPVector children;
const RCmdDescHelp *help;
union {
struct {
RCmdCb cb;
} oldinput_data;
struct {
RCmdArgvCb cb;
} argv_data;
struct {
struct r_cmd_desc_t *exec_cd;
} group_data;
} d;
} RCmdDesc;
typedef struct r_cmd_t {
void *data;
RCmdNullCb nullcallback;
RCmdItem *cmds[UT8_MAX];
RCmdMacro macro;
RList *lcmds;
RList *plist;
RCmdAlias aliases;
void *language; // used to store TSLanguage *
HtUP *ts_symbols_ht;
RCmdDesc *root_cmd_desc;
HtPP *ht_cmds;
} RCmd;
// TODO: remove this once transitioned to RCmdDesc
typedef struct r_cmd_descriptor_t {
const char *cmd;
const char **help_msg;
const char **help_detail;
const char **help_detail2;
struct r_cmd_descriptor_t *sub[127];
} RCmdDescriptor;
#define DEFINE_CMD_ARGV_DESC_DETAIL(core, name, c_name, parent, handler, help) \
RCmdDesc *c_name##_cd = r_cmd_desc_argv_new (core->rcmd, parent, #name, handler, help); \
r_warn_if_fail (c_name##_cd)
#define DEFINE_CMD_ARGV_DESC_SPECIAL(core, name, c_name, parent) \
DEFINE_CMD_ARGV_DESC_DETAIL (core, name, c_name, parent, c_name##_handler, &c_name##_help)
#define DEFINE_CMD_ARGV_DESC_INNER(core, name, c_name, parent) \
RCmdDesc *c_name##_cd = r_cmd_desc_inner_new (core->rcmd, parent, #name, &c_name##_help); \
r_warn_if_fail (c_name##_cd)
#define DEFINE_CMD_ARGV_GROUP_WITH_CHILD(core, name, parent) \
RCmdDesc *name##_cd = r_cmd_desc_group_new (core->rcmd, parent, #name, name##_handler, &name##_help, &name##_group_help); \
r_warn_if_fail (name##_cd)
#define DEFINE_CMD_ARGV_DESC(core, name, parent) \
DEFINE_CMD_ARGV_DESC_SPECIAL (core, name, name, parent)
#define DEFINE_CMD_OLDINPUT_DESC(core, name, parent) \
RCmdDesc *name##_cd = r_cmd_desc_oldinput_new (core->rcmd, parent, #name, name##_handler_old, &name##_help); \
r_warn_if_fail (name##_cd)
#ifdef R_API
R_API RCmd *r_cmd_new(void);
R_API RCmd *r_cmd_free(RCmd *cmd);
R_API int r_cmd_call(RCmd *cmd, const char *command);
R_API void r_cmd_set_data(RCmd *cmd, void *data);
R_API bool r_cmd_add(RCmd *cmd, const char *command, RCmdCb callback);
static inline RCmdStatus r_cmd_int2status(int v) {
if (v == -2) {
return R_CMD_STATUS_EXIT;
} else if (v < 0) {
return R_CMD_STATUS_ERROR;
} else {
return R_CMD_STATUS_OK;
}
}
static inline int r_cmd_status2int(RCmdStatus s) {
switch (s) {
case R_CMD_STATUS_OK:
return 0;
case R_CMD_STATUS_ERROR:
case R_CMD_STATUS_WRONG_ARGS:
case R_CMD_STATUS_INVALID:
return -1;
case R_CMD_STATUS_EXIT:
default:
return -2;
}
}
/* RCmdDescriptor */
R_API RCmdDesc *r_cmd_desc_argv_new(RCmd *cmd, RCmdDesc *parent, const char *name, RCmdArgvCb cb, const RCmdDescHelp *help);
R_API RCmdDesc *r_cmd_desc_inner_new(RCmd *cmd, RCmdDesc *parent, const char *name, const RCmdDescHelp *help);
R_API RCmdDesc *r_cmd_desc_group_new(RCmd *cmd, RCmdDesc *parent, const char *name, RCmdArgvCb cb, const RCmdDescHelp *help, const RCmdDescHelp *group_help);
R_API RCmdDesc *r_cmd_desc_oldinput_new(RCmd *cmd, RCmdDesc *parent, const char *name, RCmdCb cb, const RCmdDescHelp *help);
R_API RCmdDesc *r_cmd_desc_parent(RCmdDesc *cd);
R_API bool r_cmd_desc_has_handler(RCmdDesc *cd);
R_API bool r_cmd_desc_remove(RCmd *cmd, RCmdDesc *cd);
#define r_cmd_desc_children_foreach(root, it_cd) r_pvector_foreach (&root->children, it_cd)
/* RCmdParsedArgs */
R_API RCmdParsedArgs *r_cmd_parsed_args_new(const char *cmd, int n_args, char **args);
R_API RCmdParsedArgs *r_cmd_parsed_args_newcmd(const char *cmd);
R_API RCmdParsedArgs *r_cmd_parsed_args_newargs(int n_args, char **args);
R_API void r_cmd_parsed_args_free(RCmdParsedArgs *args);
R_API bool r_cmd_parsed_args_setargs(RCmdParsedArgs *arg, int n_args, char **args);
R_API bool r_cmd_parsed_args_setcmd(RCmdParsedArgs *arg, const char *cmd);
R_API char *r_cmd_parsed_args_argstr(RCmdParsedArgs *arg);
R_API char *r_cmd_parsed_args_execstr(RCmdParsedArgs *arg);
R_API const char *r_cmd_parsed_args_cmd(RCmdParsedArgs *arg);
#define r_cmd_parsed_args_foreach_arg(args, i, arg) for ((i) = 1; (i) < (args->argc) && ((arg) = (args)->argv[i]); (i)++)
/* r_cmd_macro */
R_API RCmdMacroItem *r_cmd_macro_item_new(void);
R_API void r_cmd_macro_item_free(RCmdMacroItem *item);
R_API void r_cmd_macro_init(RCmdMacro *mac);
R_API bool r_cmd_macro_add(RCmdMacro *mac, const char *name);
R_API bool r_cmd_macro_rm(RCmdMacro *mac, const char *_name);
R_API void r_cmd_macro_list(RCmdMacro *mac, int mode);
R_API int r_cmd_macro_call(RCmdMacro *mac, const char *name);
R_API int r_cmd_macro_break(RCmdMacro *mac, const char *value);
R_API bool r_cmd_alias_del(RCmd *cmd, const char *k);
R_API const char **r_cmd_alias_keys(RCmd *cmd);
R_API int r_cmd_alias_set_cmd(RCmd *cmd, const char *k, const char *v);
R_API int r_cmd_alias_set_str(RCmd *cmd, const char *k, const char *v);
R_API int r_cmd_alias_set_raw(RCmd *cmd, const char *k, const ut8 *v, int sz);
R_API RCmdAliasVal *r_cmd_alias_get(RCmd *cmd, const char *k);
R_API int r_cmd_alias_append_str(RCmd *cmd, const char *k, const char *a);
R_API int r_cmd_alias_append_raw(RCmd *cmd, const char *k, const ut8 *a, int sz);
R_API char *r_cmd_alias_val_strdup(RCmdAliasVal *v);
R_API char *r_cmd_alias_val_strdup_b64(RCmdAliasVal *v);
R_API void r_cmd_alias_free(RCmd *cmd);
R_API void r_cmd_macro_fini(RCmdMacro *mac);
#ifdef __cplusplus
}
#endif
#endif
#endif