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pigweed / third_party / github / zephyrproject-rtos / zephyr / 57c150af0cc5350f1f83365377f6674745cbb3ab / . / subsys / shell / shell.c
blob: c4d1177b4455f02cd2684281df673c2e3341f2a4 [file] [log] [blame]
/*
* Copyright (c) 2018 Nordic Semiconductor ASA
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <ctype.h>
#include <stdlib.h>
#include <zephyr/sys/atomic.h>
#include <zephyr/shell/shell.h>
#if defined(CONFIG_SHELL_BACKEND_DUMMY)
#include <zephyr/shell/shell_dummy.h>
#endif
#include "shell_ops.h"
#include "shell_help.h"
#include "shell_utils.h"
#include "shell_vt100.h"
#include "shell_wildcard.h"
/* 2 == 1 char for cmd + 1 char for '\0' */
#if (CONFIG_SHELL_CMD_BUFF_SIZE < 2)
#error too small CONFIG_SHELL_CMD_BUFF_SIZE
#endif
#if (CONFIG_SHELL_PRINTF_BUFF_SIZE < 1)
#error too small SHELL_PRINTF_BUFF_SIZE
#endif
#define SHELL_MSG_CMD_NOT_FOUND ": command not found"
#define SHELL_MSG_BACKEND_NOT_ACTIVE \
"WARNING: A print request was detected on not active shell backend.\n"
#define SHELL_MSG_TOO_MANY_ARGS "Too many arguments in the command.\n"
#define SHELL_INIT_OPTION_PRINTER (NULL)
#define SHELL_THREAD_PRIORITY \
COND_CODE_1(CONFIG_SHELL_THREAD_PRIORITY_OVERRIDE, \
(CONFIG_SHELL_THREAD_PRIORITY), (K_LOWEST_APPLICATION_THREAD_PRIO))
BUILD_ASSERT(SHELL_THREAD_PRIORITY >=
K_HIGHEST_APPLICATION_THREAD_PRIO
&& SHELL_THREAD_PRIORITY <= K_LOWEST_APPLICATION_THREAD_PRIO,
"Invalid range for thread priority");
static inline void receive_state_change(const struct shell *shell,
enum shell_receive_state state)
{
shell->ctx->receive_state = state;
}
static void cmd_buffer_clear(const struct shell *shell)
{
shell->ctx->cmd_buff[0] = '\0'; /* clear command buffer */
shell->ctx->cmd_buff_pos = 0;
shell->ctx->cmd_buff_len = 0;
}
static void shell_internal_help_print(const struct shell *shell)
{
if (!IS_ENABLED(CONFIG_SHELL_HELP)) {
return;
}
z_shell_help_cmd_print(shell, &shell->ctx->active_cmd);
z_shell_help_subcmd_print(shell, &shell->ctx->active_cmd,
"Subcommands:\n");
}
/**
* @brief Prints error message on wrong argument count.
* Optionally, printing help on wrong argument count.
*
* @param[in] shell Pointer to the shell instance.
* @param[in] arg_cnt_ok Flag indicating valid number of arguments.
*
* @return 0 if check passed
* @return -EINVAL if wrong argument count
*/
static int cmd_precheck(const struct shell *shell,
bool arg_cnt_ok)
{
if (!arg_cnt_ok) {
z_shell_fprintf(shell, SHELL_ERROR,
"%s: wrong parameter count\n",
shell->ctx->active_cmd.syntax);
if (IS_ENABLED(CONFIG_SHELL_HELP_ON_WRONG_ARGUMENT_COUNT)) {
shell_internal_help_print(shell);
}
return -EINVAL;
}
return 0;
}
static inline void state_set(const struct shell *shell, enum shell_state state)
{
shell->ctx->state = state;
if (state == SHELL_STATE_ACTIVE && !shell->ctx->bypass) {
cmd_buffer_clear(shell);
if (z_flag_print_noinit_get(shell)) {
z_shell_fprintf(shell, SHELL_WARNING, "%s",
SHELL_MSG_BACKEND_NOT_ACTIVE);
z_flag_print_noinit_set(shell, false);
}
z_shell_print_prompt_and_cmd(shell);
}
}
static inline enum shell_state state_get(const struct shell *shell)
{
return shell->ctx->state;
}
static inline const struct shell_static_entry *
selected_cmd_get(const struct shell *shell)
{
if (IS_ENABLED(CONFIG_SHELL_CMDS_SELECT)
|| (CONFIG_SHELL_CMD_ROOT[0] != 0)) {
return shell->ctx->selected_cmd;
}
return NULL;
}
static void tab_item_print(const struct shell *shell, const char *option,
uint16_t longest_option)
{
static const char *tab = " ";
uint16_t columns;
uint16_t diff;
/* Function initialization has been requested. */
if (option == NULL) {
shell->ctx->vt100_ctx.printed_cmd = 0;
return;
}
longest_option += z_shell_strlen(tab);
columns = (shell->ctx->vt100_ctx.cons.terminal_wid
- z_shell_strlen(tab)) / longest_option;
diff = longest_option - z_shell_strlen(option);
if (shell->ctx->vt100_ctx.printed_cmd++ % columns == 0U) {
z_shell_fprintf(shell, SHELL_OPTION, "\n%s%s", tab, option);
} else {
z_shell_fprintf(shell, SHELL_OPTION, "%s", option);
}
z_shell_op_cursor_horiz_move(shell, diff);
}
static void history_init(const struct shell *shell)
{
if (!IS_ENABLED(CONFIG_SHELL_HISTORY)) {
return;
}
z_shell_history_init(shell->history);
}
static void history_purge(const struct shell *shell)
{
if (!IS_ENABLED(CONFIG_SHELL_HISTORY)) {
return;
}
z_shell_history_purge(shell->history);
}
static void history_mode_exit(const struct shell *shell)
{
if (!IS_ENABLED(CONFIG_SHELL_HISTORY)) {
return;
}
z_flag_history_exit_set(shell, false);
z_shell_history_mode_exit(shell->history);
}
static void history_put(const struct shell *shell, uint8_t *line, size_t length)
{
if (!IS_ENABLED(CONFIG_SHELL_HISTORY)) {
return;
}
z_shell_history_put(shell->history, line, length);
}
static void history_handle(const struct shell *shell, bool up)
{
bool history_mode;
uint16_t len;
/*optional feature */
if (!IS_ENABLED(CONFIG_SHELL_HISTORY)) {
return;
}
/* Checking if history process has been stopped */
if (z_flag_history_exit_get(shell)) {
z_flag_history_exit_set(shell, false);
z_shell_history_mode_exit(shell->history);
}
/* Backup command if history is entered */
if (!z_shell_history_active(shell->history)) {
if (up) {
uint16_t cmd_len = z_shell_strlen(shell->ctx->cmd_buff);
if (cmd_len) {
strcpy(shell->ctx->temp_buff,
shell->ctx->cmd_buff);
} else {
shell->ctx->temp_buff[0] = '\0';
}
} else {
/* Pressing 'down' not in history mode has no effect. */
return;
}
}
/* Start by checking if history is not empty. */
history_mode = z_shell_history_get(shell->history, up,
shell->ctx->cmd_buff, &len);
/* On exiting history mode print backed up command. */
if (!history_mode) {
strcpy(shell->ctx->cmd_buff, shell->ctx->temp_buff);
len = z_shell_strlen(shell->ctx->cmd_buff);
}
z_shell_op_cursor_home_move(shell);
z_clear_eos(shell);
z_shell_print_cmd(shell);
shell->ctx->cmd_buff_pos = len;
shell->ctx->cmd_buff_len = len;
z_shell_op_cond_next_line(shell);
}
static inline uint16_t completion_space_get(const struct shell *shell)
{
uint16_t space = (CONFIG_SHELL_CMD_BUFF_SIZE - 1) -
shell->ctx->cmd_buff_len;
return space;
}
/* Prepare arguments and return number of space available for completion. */
static bool tab_prepare(const struct shell *shell,
const struct shell_static_entry **cmd,
const char ***argv, size_t *argc,
size_t *complete_arg_idx,
struct shell_static_entry *d_entry)
{
uint16_t compl_space = completion_space_get(shell);
size_t search_argc;
if (compl_space == 0U) {
return false;
}
/* Copy command from its beginning to cursor position. */
memcpy(shell->ctx->temp_buff, shell->ctx->cmd_buff,
shell->ctx->cmd_buff_pos);
shell->ctx->temp_buff[shell->ctx->cmd_buff_pos] = '\0';
/* Create argument list. */
(void)z_shell_make_argv(argc, *argv, shell->ctx->temp_buff,
CONFIG_SHELL_ARGC_MAX);
if (*argc > CONFIG_SHELL_ARGC_MAX) {
return false;
}
/* terminate arguments with NULL */
(*argv)[*argc] = NULL;
if ((IS_ENABLED(CONFIG_SHELL_CMDS_SELECT) || (CONFIG_SHELL_CMD_ROOT[0] != 0))
&& (*argc > 0) &&
(strcmp("select", (*argv)[0]) == 0) &&
!z_shell_in_select_mode(shell)) {
*argv = *argv + 1;
*argc = *argc - 1;
}
/* If last command is not completed (followed by space) it is treated
* as uncompleted one.
*/
int space = isspace((int)shell->ctx->cmd_buff[
shell->ctx->cmd_buff_pos - 1]);
/* root command completion */
if ((*argc == 0) || ((space == 0) && (*argc == 1))) {
*complete_arg_idx = Z_SHELL_CMD_ROOT_LVL;
*cmd = selected_cmd_get(shell);
return true;
}
search_argc = space ? *argc : *argc - 1;
*cmd = z_shell_get_last_command(selected_cmd_get(shell), search_argc,
*argv, complete_arg_idx, d_entry,
false);
/* if search_argc == 0 (empty command line) shell_get_last_command will
* return NULL tab is allowed, otherwise not.
*/
if ((*cmd == NULL) && (search_argc != 0)) {
return false;
}
return true;
}
static inline bool is_completion_candidate(const char *candidate,
const char *str, size_t len)
{
return (strncmp(candidate, str, len) == 0) ? true : false;
}
static void find_completion_candidates(const struct shell *shell,
const struct shell_static_entry *cmd,
const char *incompl_cmd,
size_t *first_idx, size_t *cnt,
uint16_t *longest)
{
const struct shell_static_entry *candidate;
struct shell_static_entry dloc;
size_t incompl_cmd_len;
size_t idx = 0;
incompl_cmd_len = z_shell_strlen(incompl_cmd);
*longest = 0U;
*cnt = 0;
while ((candidate = z_shell_cmd_get(cmd, idx, &dloc)) != NULL) {
bool is_candidate;
is_candidate = is_completion_candidate(candidate->syntax,
incompl_cmd, incompl_cmd_len);
if (is_candidate) {
*longest = Z_MAX(strlen(candidate->syntax), *longest);
if (*cnt == 0) {
*first_idx = idx;
}
(*cnt)++;
}
idx++;
}
}
static void autocomplete(const struct shell *shell,
const struct shell_static_entry *cmd,
const char *arg,
size_t subcmd_idx)
{
const struct shell_static_entry *match;
uint16_t cmd_len;
uint16_t arg_len = z_shell_strlen(arg);
/* shell->ctx->active_cmd can be safely used outside of command context
* to save stack
*/
match = z_shell_cmd_get(cmd, subcmd_idx, &shell->ctx->active_cmd);
__ASSERT_NO_MSG(match != NULL);
cmd_len = z_shell_strlen(match->syntax);
if (!IS_ENABLED(CONFIG_SHELL_TAB_AUTOCOMPLETION)) {
/* Add a space if the Tab button is pressed when command is
* complete.
*/
if (cmd_len == arg_len) {
z_shell_op_char_insert(shell, ' ');
}
return;
}
/* no exact match found */
if (cmd_len != arg_len) {
z_shell_op_completion_insert(shell,
match->syntax + arg_len,
cmd_len - arg_len);
}
/* Next character in the buffer is not 'space'. */
if (!isspace((int) shell->ctx->cmd_buff[
shell->ctx->cmd_buff_pos])) {
if (z_flag_insert_mode_get(shell)) {
z_flag_insert_mode_set(shell, false);
z_shell_op_char_insert(shell, ' ');
z_flag_insert_mode_set(shell, true);
} else {
z_shell_op_char_insert(shell, ' ');
}
} else {
/* case:
* | | -> cursor
* cons_name $: valid_cmd valid_sub_cmd| |argument <tab>
*/
z_shell_op_cursor_move(shell, 1);
/* result:
* cons_name $: valid_cmd valid_sub_cmd |a|rgument
*/
}
}
static size_t str_common(const char *s1, const char *s2, size_t n)
{
size_t common = 0;
while ((n > 0) && (*s1 == *s2) && (*s1 != '\0')) {
s1++;
s2++;
n--;
common++;
}
return common;
}
static void tab_options_print(const struct shell *shell,
const struct shell_static_entry *cmd,
const char *str, size_t first, size_t cnt,
uint16_t longest)
{
const struct shell_static_entry *match;
size_t str_len = z_shell_strlen(str);
size_t idx = first;
/* Printing all matching commands (options). */
tab_item_print(shell, SHELL_INIT_OPTION_PRINTER, longest);
while (cnt) {
/* shell->ctx->active_cmd can be safely used outside of command
* context to save stack
*/
match = z_shell_cmd_get(cmd, idx, &shell->ctx->active_cmd);
__ASSERT_NO_MSG(match != NULL);
idx++;
if (str && match->syntax &&
!is_completion_candidate(match->syntax, str, str_len)) {
continue;
}
tab_item_print(shell, match->syntax, longest);
cnt--;
}
z_cursor_next_line_move(shell);
z_shell_print_prompt_and_cmd(shell);
}
static uint16_t common_beginning_find(const struct shell *shell,
const struct shell_static_entry *cmd,
const char **str,
size_t first, size_t cnt, uint16_t arg_len)
{
struct shell_static_entry dynamic_entry;
const struct shell_static_entry *match;
uint16_t common = UINT16_MAX;
size_t idx = first + 1;
__ASSERT_NO_MSG(cnt > 1);
match = z_shell_cmd_get(cmd, first, &dynamic_entry);
__ASSERT_NO_MSG(match);
strncpy(shell->ctx->temp_buff, match->syntax,
sizeof(shell->ctx->temp_buff) - 1);
*str = match->syntax;
while (cnt > 1) {
struct shell_static_entry dynamic_entry2;
const struct shell_static_entry *match2;
int curr_common;
match2 = z_shell_cmd_get(cmd, idx++, &dynamic_entry2);
if (match2 == NULL) {
break;
}
curr_common = str_common(shell->ctx->temp_buff, match2->syntax,
UINT16_MAX);
if ((arg_len == 0U) || (curr_common >= arg_len)) {
--cnt;
common = (curr_common < common) ? curr_common : common;
}
}
return common;
}
static void partial_autocomplete(const struct shell *shell,
const struct shell_static_entry *cmd,
const char *arg,
size_t first, size_t cnt)
{
const char *completion;
uint16_t arg_len = z_shell_strlen(arg);
uint16_t common = common_beginning_find(shell, cmd, &completion, first,
cnt, arg_len);
if (!IS_ENABLED(CONFIG_SHELL_TAB_AUTOCOMPLETION)) {
return;
}
if (common) {
z_shell_op_completion_insert(shell, &completion[arg_len],
common - arg_len);
}
}
static int exec_cmd(const struct shell *shell, size_t argc, const char **argv,
const struct shell_static_entry *help_entry)
{
int ret_val = 0;
if (shell->ctx->active_cmd.handler == NULL) {
if ((help_entry != NULL) && IS_ENABLED(CONFIG_SHELL_HELP)) {
if (help_entry->help == NULL) {
return -ENOEXEC;
}
if (help_entry->help != shell->ctx->active_cmd.help) {
shell->ctx->active_cmd = *help_entry;
}
shell_internal_help_print(shell);
return SHELL_CMD_HELP_PRINTED;
} else {
z_shell_fprintf(shell, SHELL_ERROR,
SHELL_MSG_SPECIFY_SUBCOMMAND);
return -ENOEXEC;
}
}
if (shell->ctx->active_cmd.args.mandatory) {
uint32_t mand = shell->ctx->active_cmd.args.mandatory;
uint8_t opt8 = shell->ctx->active_cmd.args.optional;
uint32_t opt = (opt8 == SHELL_OPT_ARG_CHECK_SKIP) ?
UINT16_MAX : opt8;
const bool in_range = IN_RANGE(argc, mand, mand + opt);
/* Check if argc is within allowed range */
ret_val = cmd_precheck(shell, in_range);
}
if (!ret_val) {
#if CONFIG_SHELL_GETOPT
getopt_init();
#endif
z_flag_cmd_ctx_set(shell, true);
/* Unlock thread mutex in case command would like to borrow
* shell context to other thread to avoid mutex deadlock.
*/
k_mutex_unlock(&shell->ctx->wr_mtx);
ret_val = shell->ctx->active_cmd.handler(shell, argc,
(char **)argv);
/* Bring back mutex to shell thread. */
k_mutex_lock(&shell->ctx->wr_mtx, K_FOREVER);
z_flag_cmd_ctx_set(shell, false);
}
return ret_val;
}
static void active_cmd_prepare(const struct shell_static_entry *entry,
struct shell_static_entry *active_cmd,
struct shell_static_entry *help_entry,
size_t *lvl, size_t *handler_lvl,
size_t *args_left)
{
if (entry->handler) {
*handler_lvl = *lvl;
*active_cmd = *entry;
/* If command is final handler and it has a raw optional argument,
* then set remaining arguments to mandatory - 1 so after processing mandatory
* args, handler is passed remaining raw string
*/
if ((entry->subcmd == NULL)
&& entry->args.optional == SHELL_OPT_ARG_RAW) {
*args_left = entry->args.mandatory - 1;
}
}
if (entry->help) {
*help_entry = *entry;
}
}
static bool wildcard_check_report(const struct shell *shell, bool found,
const struct shell_static_entry *entry)
{
/* An error occurred, fnmatch argument cannot be followed by argument
* with a handler to avoid multiple function calls.
*/
if (IS_ENABLED(CONFIG_SHELL_WILDCARD) && found && entry->handler) {
z_shell_op_cursor_end_move(shell);
z_shell_op_cond_next_line(shell);
z_shell_fprintf(shell, SHELL_ERROR,
"Error: requested multiple function executions\n");
return false;
}
return true;
}
/* Function is analyzing the command buffer to find matching commands. Next, it
* invokes the last recognized command which has a handler and passes the rest
* of command buffer as arguments.
*
* By default command buffer is parsed and spaces are treated by arguments
* separators. Complex arguments are provided in quotation marks with quotation
* marks escaped within the argument. Argument parser is removing quotation
* marks at argument boundary as well as escape characters within the argument.
* However, it is possible to indicate that command shall treat remaining part
* of command buffer as the last argument without parsing. This can be used for
* commands which expects whole command buffer to be passed directly to
* the command handler without any preprocessing.
* Because of that feature, command buffer is processed argument by argument and
* decision on further processing is based on currently processed command.
*/
static int execute(const struct shell *shell)
{
struct shell_static_entry dloc; /* Memory for dynamic commands. */
const char *argv[CONFIG_SHELL_ARGC_MAX + 1] = {0}; /* +1 reserved for NULL */
const struct shell_static_entry *parent = selected_cmd_get(shell);
const struct shell_static_entry *entry = NULL;
struct shell_static_entry help_entry;
size_t cmd_lvl = 0;
size_t cmd_with_handler_lvl = 0;
bool wildcard_found = false;
size_t argc = 0, args_left = SIZE_MAX;
char quote;
const char **argvp;
char *cmd_buf = shell->ctx->cmd_buff;
bool has_last_handler = false;
z_shell_op_cursor_end_move(shell);
if (!z_shell_cursor_in_empty_line(shell)) {
z_cursor_next_line_move(shell);
}
memset(&shell->ctx->active_cmd, 0, sizeof(shell->ctx->active_cmd));
if (IS_ENABLED(CONFIG_SHELL_HISTORY)) {
z_shell_cmd_trim(shell);
history_put(shell, shell->ctx->cmd_buff,
shell->ctx->cmd_buff_len);
}
if (IS_ENABLED(CONFIG_SHELL_WILDCARD)) {
z_shell_wildcard_prepare(shell);
}
/* Parent present means we are in select mode. */
if (parent != NULL) {
argv[0] = parent->syntax;
argv[1] = cmd_buf;
argvp = &argv[1];
active_cmd_prepare(parent, &shell->ctx->active_cmd, &help_entry,
&cmd_lvl, &cmd_with_handler_lvl, &args_left);
cmd_lvl++;
} else {
help_entry.help = NULL;
argvp = &argv[0];
}
/* Below loop is analyzing subcommands of found root command. */
while ((argc != 1) && (cmd_lvl < CONFIG_SHELL_ARGC_MAX)
&& args_left > 0) {
quote = z_shell_make_argv(&argc, argvp, cmd_buf, 2);
cmd_buf = (char *)argvp[1];
if (argc == 0) {
return -ENOEXEC;
} else if ((argc == 1) && (quote != 0)) {
z_shell_fprintf(shell, SHELL_ERROR,
"not terminated: %c\n", quote);
return -ENOEXEC;
}
if (IS_ENABLED(CONFIG_SHELL_HELP) && (cmd_lvl > 0) &&
z_shell_help_request(argvp[0])) {
/* Command called with help option so it makes no sense
* to search deeper commands.
*/
if (help_entry.help) {
shell->ctx->active_cmd = help_entry;
shell_internal_help_print(shell);
return SHELL_CMD_HELP_PRINTED;
}
z_shell_fprintf(shell, SHELL_ERROR,
SHELL_MSG_SPECIFY_SUBCOMMAND);
return -ENOEXEC;
}
if (IS_ENABLED(CONFIG_SHELL_WILDCARD) && (cmd_lvl > 0)) {
enum shell_wildcard_status status;
status = z_shell_wildcard_process(shell, entry,
argvp[0]);
/* Wildcard character found but there is no matching
* command.
*/
if (status == SHELL_WILDCARD_CMD_NO_MATCH_FOUND) {
break;
}
/* Wildcard character was not found function can process
* argument.
*/
if (status != SHELL_WILDCARD_NOT_FOUND) {
++cmd_lvl;
wildcard_found = true;
continue;
}
}
if (has_last_handler == false) {
entry = z_shell_find_cmd(parent, argvp[0], &dloc);
}
argvp++;
args_left--;
if (entry) {
if (wildcard_check_report(shell, wildcard_found, entry)
== false) {
return -ENOEXEC;
}
active_cmd_prepare(entry, &shell->ctx->active_cmd,
&help_entry, &cmd_lvl,
&cmd_with_handler_lvl, &args_left);
parent = entry;
} else {
if (cmd_lvl == 0 &&
(!z_shell_in_select_mode(shell) ||
shell->ctx->selected_cmd->handler == NULL)) {
z_shell_fprintf(shell, SHELL_ERROR,
"%s%s\n", argv[0],
SHELL_MSG_CMD_NOT_FOUND);
}
/* last handler found - no need to search commands in
* the next iteration.
*/
has_last_handler = true;
}
if (args_left || (argc == 2)) {
cmd_lvl++;
}
}
if ((cmd_lvl >= CONFIG_SHELL_ARGC_MAX) && (argc == 2)) {
/* argc == 2 indicates that when command string was parsed
* there was more characters remaining. It means that number of
* arguments exceeds the limit.
*/
z_shell_fprintf(shell, SHELL_ERROR, "%s\n",
SHELL_MSG_TOO_MANY_ARGS);
return -ENOEXEC;
}
if (IS_ENABLED(CONFIG_SHELL_WILDCARD) && wildcard_found) {
z_shell_wildcard_finalize(shell);
/* cmd_buffer has been overwritten by function finalize function
* with all expanded commands. Hence shell_make_argv needs to
* be called again.
*/
(void)z_shell_make_argv(&cmd_lvl,
&argv[selected_cmd_get(shell) ? 1 : 0],
shell->ctx->cmd_buff,
CONFIG_SHELL_ARGC_MAX);
if (selected_cmd_get(shell)) {
/* Apart from what is in the command buffer, there is
* a selected command.
*/
cmd_lvl++;
}
}
/* If a command was found */
if (parent != NULL) {
/* If the found command uses a raw optional argument and
* we have a remaining unprocessed non-null string,
* then increment command level so handler receives raw string
*/
if (parent->args.optional == SHELL_OPT_ARG_RAW && argv[cmd_lvl] != NULL) {
cmd_lvl++;
}
}
/* Executing the deepest found handler. */
return exec_cmd(shell, cmd_lvl - cmd_with_handler_lvl,
&argv[cmd_with_handler_lvl], &help_entry);
}
static void tab_handle(const struct shell *shell)
{
const char *__argv[CONFIG_SHELL_ARGC_MAX + 1];
/* d_entry - placeholder for dynamic command */
struct shell_static_entry d_entry;
const struct shell_static_entry *cmd;
const char **argv = __argv;
size_t first = 0;
size_t arg_idx;
uint16_t longest;
size_t argc;
size_t cnt;
bool tab_possible = tab_prepare(shell, &cmd, &argv, &argc, &arg_idx,
&d_entry);
if (tab_possible == false) {
return;
}
find_completion_candidates(shell, cmd, argv[arg_idx], &first, &cnt,
&longest);
if (cnt == 1) {
/* Autocompletion.*/
autocomplete(shell, cmd, argv[arg_idx], first);
} else if (cnt > 1) {
tab_options_print(shell, cmd, argv[arg_idx], first, cnt,
longest);
partial_autocomplete(shell, cmd, argv[arg_idx], first, cnt);
}
}
static void alt_metakeys_handle(const struct shell *shell, char data)
{
/* Optional feature */
if (!IS_ENABLED(CONFIG_SHELL_METAKEYS)) {
return;
}
if (data == SHELL_VT100_ASCII_ALT_B) {
z_shell_op_cursor_word_move(shell, -1);
} else if (data == SHELL_VT100_ASCII_ALT_F) {
z_shell_op_cursor_word_move(shell, 1);
} else if (data == SHELL_VT100_ASCII_ALT_R &&
IS_ENABLED(CONFIG_SHELL_CMDS_SELECT)) {
if (selected_cmd_get(shell) != NULL) {
z_shell_cmd_line_erase(shell);
z_shell_fprintf(shell, SHELL_WARNING,
"Restored default root commands\n");
if (CONFIG_SHELL_CMD_ROOT[0]) {
shell->ctx->selected_cmd = root_cmd_find(CONFIG_SHELL_CMD_ROOT);
} else {
shell->ctx->selected_cmd = NULL;
}
z_shell_print_prompt_and_cmd(shell);
}
}
}
static void ctrl_metakeys_handle(const struct shell *shell, char data)
{
/* Optional feature */
if (!IS_ENABLED(CONFIG_SHELL_METAKEYS)) {
return;
}
switch (data) {
case SHELL_VT100_ASCII_CTRL_A: /* CTRL + A */
z_shell_op_cursor_home_move(shell);
break;
case SHELL_VT100_ASCII_CTRL_B: /* CTRL + B */
z_shell_op_left_arrow(shell);
break;
case SHELL_VT100_ASCII_CTRL_C: /* CTRL + C */
z_shell_op_cursor_end_move(shell);
if (!z_shell_cursor_in_empty_line(shell)) {
z_cursor_next_line_move(shell);
}
z_flag_history_exit_set(shell, true);
state_set(shell, SHELL_STATE_ACTIVE);
break;
case SHELL_VT100_ASCII_CTRL_D: /* CTRL + D */
z_shell_op_char_delete(shell);
break;
case SHELL_VT100_ASCII_CTRL_E: /* CTRL + E */
z_shell_op_cursor_end_move(shell);
break;
case SHELL_VT100_ASCII_CTRL_F: /* CTRL + F */
z_shell_op_right_arrow(shell);
break;
case SHELL_VT100_ASCII_CTRL_K: /* CTRL + K */
z_shell_op_delete_from_cursor(shell);
break;
case SHELL_VT100_ASCII_CTRL_L: /* CTRL + L */
Z_SHELL_VT100_CMD(shell, SHELL_VT100_CURSORHOME);
Z_SHELL_VT100_CMD(shell, SHELL_VT100_CLEARSCREEN);
z_shell_print_prompt_and_cmd(shell);
break;
case SHELL_VT100_ASCII_CTRL_N: /* CTRL + N */
history_handle(shell, false);
break;
case SHELL_VT100_ASCII_CTRL_P: /* CTRL + P */
history_handle(shell, true);
break;
case SHELL_VT100_ASCII_CTRL_U: /* CTRL + U */
z_shell_op_cursor_home_move(shell);
cmd_buffer_clear(shell);
z_flag_history_exit_set(shell, true);
z_clear_eos(shell);
break;
case SHELL_VT100_ASCII_CTRL_W: /* CTRL + W */
z_shell_op_word_remove(shell);
z_flag_history_exit_set(shell, true);
break;
default:
break;
}
}
/* Functions returns true if new line character shall be processed */
static bool process_nl(const struct shell *shell, uint8_t data)
{
if ((data != '\r') && (data != '\n')) {
z_flag_last_nl_set(shell, 0);
return false;
}
if ((z_flag_last_nl_get(shell) == 0U) ||
(data == z_flag_last_nl_get(shell))) {
z_flag_last_nl_set(shell, data);
return true;
}
return false;
}
#define SHELL_ASCII_MAX_CHAR (127u)
static inline int ascii_filter(const char data)
{
return (uint8_t) data > SHELL_ASCII_MAX_CHAR ? -EINVAL : 0;
}
static void state_collect(const struct shell *shell)
{
size_t count = 0;
char data;
while (true) {
shell_bypass_cb_t bypass = shell->ctx->bypass;
if (bypass) {
uint8_t buf[16];
(void)shell->iface->api->read(shell->iface, buf,
sizeof(buf), &count);
if (count) {
bypass(shell, buf, count);
/* Check if bypass mode ended. */
if (!(volatile shell_bypass_cb_t *)shell->ctx->bypass) {
state_set(shell, SHELL_STATE_ACTIVE);
} else {
continue;
}
}
return;
}
(void)shell->iface->api->read(shell->iface, &data,
sizeof(data), &count);
if (count == 0) {
return;
}
if (ascii_filter(data) != 0) {
continue;
}
switch (shell->ctx->receive_state) {
case SHELL_RECEIVE_DEFAULT:
if (process_nl(shell, data)) {
if (!shell->ctx->cmd_buff_len) {
history_mode_exit(shell);
z_cursor_next_line_move(shell);
} else {
/* Command execution */
(void)execute(shell);
}
/* Function responsible for printing prompt
* on received NL.
*/
state_set(shell, SHELL_STATE_ACTIVE);
continue;
}
switch (data) {
case SHELL_VT100_ASCII_ESC: /* ESCAPE */
receive_state_change(shell, SHELL_RECEIVE_ESC);
break;
case '\0':
break;
case '\t': /* TAB */
if (z_flag_echo_get(shell) &&
IS_ENABLED(CONFIG_SHELL_TAB)) {
/* If the Tab key is pressed, "history
* mode" must be terminated because
* tab and history handlers are sharing
* the same array: temp_buff.
*/
z_flag_history_exit_set(shell, true);
tab_handle(shell);
}
break;
case SHELL_VT100_ASCII_BSPACE: /* BACKSPACE */
if (z_flag_echo_get(shell)) {
z_flag_history_exit_set(shell, true);
z_shell_op_char_backspace(shell);
}
break;
case SHELL_VT100_ASCII_DEL: /* DELETE */
if (z_flag_echo_get(shell)) {
z_flag_history_exit_set(shell, true);
if (z_flag_mode_delete_get(shell)) {
z_shell_op_char_backspace(shell);
} else {
z_shell_op_char_delete(shell);
}
}
break;
default:
if (isprint((int) data)) {
z_flag_history_exit_set(shell, true);
z_shell_op_char_insert(shell, data);
} else if (z_flag_echo_get(shell)) {
ctrl_metakeys_handle(shell, data);
}
break;
}
break;
case SHELL_RECEIVE_ESC:
if (data == '[') {
receive_state_change(shell,
SHELL_RECEIVE_ESC_SEQ);
break;
} else if (z_flag_echo_get(shell)) {
alt_metakeys_handle(shell, data);
}
receive_state_change(shell, SHELL_RECEIVE_DEFAULT);
break;
case SHELL_RECEIVE_ESC_SEQ:
receive_state_change(shell, SHELL_RECEIVE_DEFAULT);
if (!z_flag_echo_get(shell)) {
continue;
}
switch (data) {
case 'A': /* UP arrow */
history_handle(shell, true);
break;
case 'B': /* DOWN arrow */
history_handle(shell, false);
break;
case 'C': /* RIGHT arrow */
z_shell_op_right_arrow(shell);
break;
case 'D': /* LEFT arrow */
z_shell_op_left_arrow(shell);
break;
case '4': /* END Button in ESC[n~ mode */
receive_state_change(shell,
SHELL_RECEIVE_TILDE_EXP);
__fallthrough;
case 'F': /* END Button in VT100 mode */
z_shell_op_cursor_end_move(shell);
break;
case '1': /* HOME Button in ESC[n~ mode */
receive_state_change(shell,
SHELL_RECEIVE_TILDE_EXP);
__fallthrough;
case 'H': /* HOME Button in VT100 mode */
z_shell_op_cursor_home_move(shell);
break;
case '2': /* INSERT Button in ESC[n~ mode */
receive_state_change(shell,
SHELL_RECEIVE_TILDE_EXP);
__fallthrough;
case 'L': {/* INSERT Button in VT100 mode */
bool status = z_flag_insert_mode_get(shell);
z_flag_insert_mode_set(shell, !status);
break;
}
case '3':/* DELETE Button in ESC[n~ mode */
receive_state_change(shell,
SHELL_RECEIVE_TILDE_EXP);
if (z_flag_echo_get(shell)) {
z_shell_op_char_delete(shell);
}
break;
default:
break;
}
break;
case SHELL_RECEIVE_TILDE_EXP:
receive_state_change(shell, SHELL_RECEIVE_DEFAULT);
break;
default:
receive_state_change(shell, SHELL_RECEIVE_DEFAULT);
break;
}
}
z_transport_buffer_flush(shell);
}
static void transport_evt_handler(enum shell_transport_evt evt_type, void *ctx)
{
struct shell *shell = (struct shell *)ctx;
struct k_poll_signal *signal;
signal = (evt_type == SHELL_TRANSPORT_EVT_RX_RDY) ?
&shell->ctx->signals[SHELL_SIGNAL_RXRDY] :
&shell->ctx->signals[SHELL_SIGNAL_TXDONE];
k_poll_signal_raise(signal, 0);
}
static void shell_log_process(const struct shell *shell)
{
bool processed = false;
int signaled = 0;
int result;
do {
if (!IS_ENABLED(CONFIG_LOG_MODE_IMMEDIATE)) {
z_shell_cmd_line_erase(shell);
processed = z_shell_log_backend_process(
shell->log_backend);
}
struct k_poll_signal *signal =
&shell->ctx->signals[SHELL_SIGNAL_RXRDY];
z_shell_print_prompt_and_cmd(shell);
/* Arbitrary delay added to ensure that prompt is
* readable and can be used to enter further commands.
*/
if (shell->ctx->cmd_buff_len) {
k_sleep(K_MSEC(15));
}
k_poll_signal_check(signal, &signaled, &result);
} while (processed && !signaled);
}
static int instance_init(const struct shell *sh,
const void *transport_config,
struct shell_backend_config_flags cfg_flags)
{
__ASSERT_NO_MSG((sh->shell_flag == SHELL_FLAG_CRLF_DEFAULT) ||
(sh->shell_flag == SHELL_FLAG_OLF_CRLF));
memset(sh->ctx, 0, sizeof(*sh->ctx));
sh->ctx->prompt = sh->default_prompt;
if (CONFIG_SHELL_CMD_ROOT[0]) {
sh->ctx->selected_cmd = root_cmd_find(CONFIG_SHELL_CMD_ROOT);
}
history_init(sh);
k_mutex_init(&sh->ctx->wr_mtx);
for (int i = 0; i < SHELL_SIGNALS; i++) {
k_poll_signal_init(&sh->ctx->signals[i]);
k_poll_event_init(&sh->ctx->events[i],
K_POLL_TYPE_SIGNAL,
K_POLL_MODE_NOTIFY_ONLY,
&sh->ctx->signals[i]);
}
if (IS_ENABLED(CONFIG_SHELL_STATS)) {
sh->stats->log_lost_cnt = 0;
}
z_flag_tx_rdy_set(sh, true);
sh->ctx->vt100_ctx.cons.terminal_wid =
CONFIG_SHELL_DEFAULT_TERMINAL_WIDTH;
sh->ctx->vt100_ctx.cons.terminal_hei =
CONFIG_SHELL_DEFAULT_TERMINAL_HEIGHT;
sh->ctx->vt100_ctx.cons.name_len = z_shell_strlen(sh->ctx->prompt);
/* Configure backend according to enabled shell features and backend
* specific settings.
*/
cfg_flags.obscure &= IS_ENABLED(CONFIG_SHELL_START_OBSCURED);
cfg_flags.use_colors &= IS_ENABLED(CONFIG_SHELL_VT100_COLORS);
cfg_flags.use_vt100 &= IS_ENABLED(CONFIG_SHELL_VT100_COMMANDS);
cfg_flags.echo &= IS_ENABLED(CONFIG_SHELL_ECHO_STATUS);
cfg_flags.mode_delete &= IS_ENABLED(CONFIG_SHELL_BACKSPACE_MODE_DELETE);
sh->ctx->cfg.flags = cfg_flags;
int ret = sh->iface->api->init(sh->iface, transport_config,
transport_evt_handler,
(void *)sh);
if (ret == 0) {
state_set(sh, SHELL_STATE_INITIALIZED);
}
return ret;
}
static int instance_uninit(const struct shell *shell)
{
__ASSERT_NO_MSG(shell);
__ASSERT_NO_MSG(shell->ctx && shell->iface);
int err;
if (z_flag_processing_get(shell)) {
return -EBUSY;
}
if (IS_ENABLED(CONFIG_SHELL_LOG_BACKEND)) {
/* todo purge log queue */
z_shell_log_backend_disable(shell->log_backend);
}
err = shell->iface->api->uninit(shell->iface);
if (err != 0) {
return err;
}
history_purge(shell);
state_set(shell, SHELL_STATE_UNINITIALIZED);
return 0;
}
typedef void (*shell_signal_handler_t)(const struct shell *shell);
static void shell_signal_handle(const struct shell *shell,
enum shell_signal sig_idx,
shell_signal_handler_t handler)
{
struct k_poll_signal *signal = &shell->ctx->signals[sig_idx];
int set;
int res;
k_poll_signal_check(signal, &set, &res);
if (set) {
k_poll_signal_reset(signal);
handler(shell);
}
}
static void kill_handler(const struct shell *shell)
{
int err = instance_uninit(shell);
if (shell->ctx->uninit_cb) {
shell->ctx->uninit_cb(shell, err);
}
shell->ctx->tid = NULL;
k_thread_abort(k_current_get());
}
void shell_thread(void *shell_handle, void *arg_log_backend,
void *arg_log_level)
{
struct shell *shell = shell_handle;
bool log_backend = (bool)arg_log_backend;
uint32_t log_level = POINTER_TO_UINT(arg_log_level);
int err;
err = shell->iface->api->enable(shell->iface, false);
if (err != 0) {
return;
}
if (IS_ENABLED(CONFIG_SHELL_LOG_BACKEND) && log_backend
&& !IS_ENABLED(CONFIG_SHELL_START_OBSCURED)) {
z_shell_log_backend_enable(shell->log_backend, (void *)shell,
log_level);
}
/* Enable shell and print prompt. */
err = shell_start(shell);
if (err != 0) {
return;
}
while (true) {
/* waiting for all signals except SHELL_SIGNAL_TXDONE */
err = k_poll(shell->ctx->events, SHELL_SIGNAL_TXDONE,
K_FOREVER);
if (err != 0) {
k_mutex_lock(&shell->ctx->wr_mtx, K_FOREVER);
z_shell_fprintf(shell, SHELL_ERROR,
"Shell thread error: %d", err);
k_mutex_unlock(&shell->ctx->wr_mtx);
return;
}
k_mutex_lock(&shell->ctx->wr_mtx, K_FOREVER);
shell_signal_handle(shell, SHELL_SIGNAL_KILL, kill_handler);
shell_signal_handle(shell, SHELL_SIGNAL_RXRDY, shell_process);
if (IS_ENABLED(CONFIG_SHELL_LOG_BACKEND)) {
shell_signal_handle(shell, SHELL_SIGNAL_LOG_MSG,
shell_log_process);
}
if (shell->iface->api->update) {
shell->iface->api->update(shell->iface);
}
k_mutex_unlock(&shell->ctx->wr_mtx);
}
}
int shell_init(const struct shell *shell, const void *transport_config,
struct shell_backend_config_flags cfg_flags,
bool log_backend, uint32_t init_log_level)
{
__ASSERT_NO_MSG(shell);
__ASSERT_NO_MSG(shell->ctx && shell->iface && shell->default_prompt);
if (shell->ctx->tid) {
return -EALREADY;
}
int err = instance_init(shell, transport_config, cfg_flags);
if (err != 0) {
return err;
}
k_tid_t tid = k_thread_create(shell->thread,
shell->stack, CONFIG_SHELL_STACK_SIZE,
shell_thread, (void *)shell, (void *)log_backend,
UINT_TO_POINTER(init_log_level),
SHELL_THREAD_PRIORITY, 0, K_NO_WAIT);
shell->ctx->tid = tid;
k_thread_name_set(tid, shell->thread_name);
return 0;
}
void shell_uninit(const struct shell *shell, shell_uninit_cb_t cb)
{
__ASSERT_NO_MSG(shell);
if (IS_ENABLED(CONFIG_MULTITHREADING)) {
struct k_poll_signal *signal =
&shell->ctx->signals[SHELL_SIGNAL_KILL];
shell->ctx->uninit_cb = cb;
/* signal kill message */
(void)k_poll_signal_raise(signal, 0);
return;
}
int err = instance_uninit(shell);
if (cb) {
cb(shell, err);
} else {
__ASSERT_NO_MSG(0);
}
}
int shell_start(const struct shell *shell)
{
__ASSERT_NO_MSG(shell);
__ASSERT_NO_MSG(shell->ctx && shell->iface && shell->default_prompt);
if (state_get(shell) != SHELL_STATE_INITIALIZED) {
return -ENOTSUP;
}
k_mutex_lock(&shell->ctx->wr_mtx, K_FOREVER);
if (IS_ENABLED(CONFIG_SHELL_VT100_COLORS)) {
z_shell_vt100_color_set(shell, SHELL_NORMAL);
}
if (z_shell_strlen(shell->default_prompt) > 0) {
z_shell_raw_fprintf(shell->fprintf_ctx, "\n\n");
}
state_set(shell, SHELL_STATE_ACTIVE);
k_mutex_unlock(&shell->ctx->wr_mtx);
return 0;
}
int shell_stop(const struct shell *shell)
{
__ASSERT_NO_MSG(shell);
__ASSERT_NO_MSG(shell->ctx);
enum shell_state state = state_get(shell);
if ((state == SHELL_STATE_INITIALIZED) ||
(state == SHELL_STATE_UNINITIALIZED)) {
return -ENOTSUP;
}
state_set(shell, SHELL_STATE_INITIALIZED);
return 0;
}
void shell_process(const struct shell *shell)
{
__ASSERT_NO_MSG(shell);
__ASSERT_NO_MSG(shell->ctx);
/* atomically set the processing flag */
z_flag_processing_set(shell, true);
switch (shell->ctx->state) {
case SHELL_STATE_UNINITIALIZED:
case SHELL_STATE_INITIALIZED:
/* Console initialized but not started. */
break;
case SHELL_STATE_ACTIVE:
state_collect(shell);
break;
default:
break;
}
/* atomically clear the processing flag */
z_flag_processing_set(shell, false);
}
/* This function mustn't be used from shell context to avoid deadlock.
* However it can be used in shell command handlers.
*/
void shell_vfprintf(const struct shell *sh, enum shell_vt100_color color,
const char *fmt, va_list args)
{
__ASSERT_NO_MSG(sh);
__ASSERT(!k_is_in_isr(), "Thread context required.");
__ASSERT_NO_MSG(sh->ctx);
__ASSERT_NO_MSG(z_flag_cmd_ctx_get(sh) ||
(k_current_get() != sh->ctx->tid));
__ASSERT_NO_MSG(sh->fprintf_ctx);
__ASSERT_NO_MSG(fmt);
/* Sending a message to a non-active shell leads to a dead lock. */
if (state_get(sh) != SHELL_STATE_ACTIVE) {
z_flag_print_noinit_set(sh, true);
return;
}
k_mutex_lock(&sh->ctx->wr_mtx, K_FOREVER);
if (!z_flag_cmd_ctx_get(sh) && !sh->ctx->bypass) {
z_shell_cmd_line_erase(sh);
}
z_shell_vfprintf(sh, color, fmt, args);
if (!z_flag_cmd_ctx_get(sh) && !sh->ctx->bypass) {
z_shell_print_prompt_and_cmd(sh);
}
z_transport_buffer_flush(sh);
k_mutex_unlock(&sh->ctx->wr_mtx);
}
/* This function mustn't be used from shell context to avoid deadlock.
* However it can be used in shell command handlers.
*/
void shell_fprintf(const struct shell *shell, enum shell_vt100_color color,
const char *fmt, ...)
{
va_list args;
va_start(args, fmt);
shell_vfprintf(shell, color, fmt, args);
va_end(args);
}
void shell_hexdump_line(const struct shell *shell, unsigned int offset,
const uint8_t *data, size_t len)
{
__ASSERT_NO_MSG(shell);
int i;
shell_fprintf(shell, SHELL_NORMAL, "%08X: ", offset);
for (i = 0; i < SHELL_HEXDUMP_BYTES_IN_LINE; i++) {
if (i > 0 && !(i % 8)) {
shell_fprintf(shell, SHELL_NORMAL, " ");
}
if (i < len) {
shell_fprintf(shell, SHELL_NORMAL, "%02x ",
data[i] & 0xFF);
} else {
shell_fprintf(shell, SHELL_NORMAL, " ");
}
}
shell_fprintf(shell, SHELL_NORMAL, "|");
for (i = 0; i < SHELL_HEXDUMP_BYTES_IN_LINE; i++) {
if (i > 0 && !(i % 8)) {
shell_fprintf(shell, SHELL_NORMAL, " ");
}
if (i < len) {
char c = data[i];
shell_fprintf(shell, SHELL_NORMAL, "%c",
isprint((int)c) ? c : '.');
} else {
shell_fprintf(shell, SHELL_NORMAL, " ");
}
}
shell_print(shell, "|");
}
void shell_hexdump(const struct shell *shell, const uint8_t *data, size_t len)
{
__ASSERT_NO_MSG(shell);
const uint8_t *p = data;
size_t line_len;
while (len) {
line_len = MIN(len, SHELL_HEXDUMP_BYTES_IN_LINE);
shell_hexdump_line(shell, p - data, p, line_len);
len -= line_len;
p += line_len;
}
}
int shell_prompt_change(const struct shell *shell, const char *prompt)
{
__ASSERT_NO_MSG(shell);
if (prompt == NULL) {
return -EINVAL;
}
shell->ctx->prompt = prompt;
shell->ctx->vt100_ctx.cons.name_len = z_shell_strlen(prompt);
return 0;
}
void shell_help(const struct shell *shell)
{
k_mutex_lock(&shell->ctx->wr_mtx, K_FOREVER);
shell_internal_help_print(shell);
k_mutex_unlock(&shell->ctx->wr_mtx);
}
int shell_execute_cmd(const struct shell *sh, const char *cmd)
{
uint16_t cmd_len = z_shell_strlen(cmd);
int ret_val;
if (cmd == NULL) {
return -ENOEXEC;
}
if (cmd_len > (CONFIG_SHELL_CMD_BUFF_SIZE - 1)) {
return -ENOMEM;
}
if (sh == NULL) {
#if defined(CONFIG_SHELL_BACKEND_DUMMY)
sh = shell_backend_dummy_get_ptr();
#else
return -EINVAL;
#endif
}
__ASSERT(!z_flag_cmd_ctx_get(sh), "Function cannot be called"
" from command context");
strcpy(sh->ctx->cmd_buff, cmd);
sh->ctx->cmd_buff_len = cmd_len;
sh->ctx->cmd_buff_pos = cmd_len;
k_mutex_lock(&sh->ctx->wr_mtx, K_FOREVER);
ret_val = execute(sh);
k_mutex_unlock(&sh->ctx->wr_mtx);
cmd_buffer_clear(sh);
return ret_val;
}
int shell_insert_mode_set(const struct shell *shell, bool val)
{
if (shell == NULL) {
return -EINVAL;
}
return (int)z_flag_insert_mode_set(shell, val);
}
int shell_use_colors_set(const struct shell *shell, bool val)
{
if (shell == NULL) {
return -EINVAL;
}
return (int)z_flag_use_colors_set(shell, val);
}
int shell_echo_set(const struct shell *shell, bool val)
{
if (shell == NULL) {
return -EINVAL;
}
return (int)z_flag_echo_set(shell, val);
}
int shell_obscure_set(const struct shell *shell, bool val)
{
if (shell == NULL) {
return -EINVAL;
}
return (int)z_flag_obscure_set(shell, val);
}
int shell_mode_delete_set(const struct shell *shell, bool val)
{
if (shell == NULL) {
return -EINVAL;
}
return (int)z_flag_mode_delete_set(shell, val);
}
void shell_set_bypass(const struct shell *sh, shell_bypass_cb_t bypass)
{
__ASSERT_NO_MSG(sh);
sh->ctx->bypass = bypass;
}
bool shell_ready(const struct shell *sh)
{
__ASSERT_NO_MSG(sh);
return state_get(sh) == SHELL_STATE_ACTIVE;
}
static int cmd_help(const struct shell *shell, size_t argc, char **argv)
{
ARG_UNUSED(argc);
ARG_UNUSED(argv);
#if defined(CONFIG_SHELL_TAB)
shell_print(shell, "Please press the <Tab> button to see all available "
"commands.");
#endif
#if defined(CONFIG_SHELL_TAB_AUTOCOMPLETION)
shell_print(shell,
"You can also use the <Tab> button to prompt or auto-complete"
" all commands or its subcommands.");
#endif
#if defined(CONFIG_SHELL_HELP)
shell_print(shell,
"You can try to call commands with <-h> or <--help> parameter"
" for more information.");
#endif
#if defined(CONFIG_SHELL_METAKEYS)
shell_print(shell,
"\nShell supports following meta-keys:\n"
" Ctrl + (a key from: abcdefklnpuw)\n"
" Alt + (a key from: bf)\n"
"Please refer to shell documentation for more details.");
#endif
if (IS_ENABLED(CONFIG_SHELL_HELP)) {
/* For NULL argument function will print all root commands */
z_shell_help_subcmd_print(shell, NULL,
"\nAvailable commands:\n");
} else {
const struct shell_static_entry *entry;
size_t idx = 0;
shell_print(shell, "\nAvailable commands:");
while ((entry = z_shell_cmd_get(NULL, idx++, NULL)) != NULL) {
shell_print(shell, " %s", entry->syntax);
}
}
return 0;
}
SHELL_CMD_ARG_REGISTER(help, NULL, "Prints the help message.", cmd_help, 1, 0);