AMiRo-OS

/*

AMiRo-OS is an operating system designed for the Autonomous Mini Robot (AMiRo) platform.

Copyright (C) 2016..2020  Thomas Schöpping et al.

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 3 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, see <http://www.gnu.org/licenses/>.

*/

/**

 * @file    aos_shell.c

 * @brief   Shell code.

 * @details Shell code as well as shell related channels and streams.

 *

 * @addtogroup aos_shell

 * @{

 */

#include <amiroos.h>

#include <string.h>

#if (AMIROOS_CFG_SHELL_ENABLE == true) || defined(__DOXYGEN__)

/******************************************************************************/

/* LOCAL DEFINITIONS                                                          */

/******************************************************************************/

/**

 * @brief   Size of the escape sequence buffer.

 */

#if !defined(AOS_SHELL_ESCSEQUENCE_LENGTH) || defined(__DOXYGEN__)

#define AOS_SHELL_ESCSEQUENCE_LENGTH            8

#endif

/**

 * @brief   The character the input buffer is initialized with.

 */

#define INBUF_INIT_CHAR                         '\x07'

/**

 * @brief   Event mask to be set on OS related events.

 */

#define EVENTMASK_OS                            EVENT_MASK(0)

/**

 * @brief   Event mask to be set on a input event.

 */

#define EVENTMASK_INPUT                         EVENT_MASK(1)

/**

 * @brief   String that defines the INSERT key as specified by VT100.

 */

#define KEYSTRING_INSERT                        "\x1B\x5B\x32\x7E"

/**

 * @brief   String that defines the DEL key as specified by VT100.

 */

#define KEYSTRING_DELETE                        "\x1B\x5B\x33\x7E"

/**

 * @brief   String that defines the HOME key as specified by VT100.

 */

#define KEYSTRING_HOME                          "\x1B\x5B\x48"

/**

 * @brief   String that defines the END key as specified by VT100.

 */

#define KEYSTRING_END                           "\x1B\x5B\x46"

/**

 * @brief   String that defines the PGUP key as specified by VT100.

 */

#define KEYSTRING_PAGEUP                        "\x1B\x5B\x35\x7E"

/**

 * @brief   String that defines the PGUP key as specified by VT100.

 */

#define KEYSTRING_PAGEDOWN                      "\x1B\x5B\x36\x7E"

/**

 * @brief   String that defines the 'arrow down' key as specified by VT100.

 */

#define KEYSTRING_ARROWUP                       "\x1B\x5B\x41"

/**

 * @brief   String that defines the 'arrow up' key as specified by VT100.

 */

#define KEYSTRING_ARROWDOWN                     "\x1B\x5B\x42"

/**

 * @brief   String that defines the 'arrow left' key as specified by VT100.

 */

#define KEYSTRING_ARROWLEFT                     "\x1B\x5B\x44"

/**

 * @brief   String that defines the 'arrow right' key as specified by VT100.

 */

#define KEYSTRING_ARROWRIGHT                    "\x1B\x5B\x43"

/**

 * @brief   String that defines the CRTL + 'arrow up' key combination as specified by VT100.

 */

#define KEYSTRING_CTRL_ARROWUP                  "\x1B\x5B\x31\x3B\x35\x41"

/**

 * @brief   String that defines the CRTL + 'arrow down' key combination as specified by VT100.

 */

#define KEYSTRING_CTRL_ARROWDOWN                "\x1B\x5B\x31\x3B\x35\x42"

/**

 * @brief   String that defines the CRTL + 'arrow left' key combination as specified by VT100.

 */

#define KEYSTRING_CTRL_ARROWLEFT                "\x1B\x5B\x31\x3B\x35\x44"

/**

 * @brief   String that defines the CRTL + 'arrow right' key combination as specified by VT100.

 */

#define KEYSTRING_CTRL_ARROWRIGHT               "\x1B\x5B\x31\x3B\x35\x43"

/******************************************************************************/

/* EXPORTED VARIABLES                                                         */

/******************************************************************************/

/******************************************************************************/

/* LOCAL TYPES                                                                */

/******************************************************************************/

/*

 * forward declarations

 */

static size_t _channelwrite(void *instance, const uint8_t *bp, size_t n);

static size_t _channelread(void *instance, uint8_t *bp, size_t n);

static msg_t _channelput(void *instance, uint8_t b);

static msg_t _channelget(void *instance);

static msg_t _channelputt(void *instance, uint8_t b, sysinterval_t time);

static msg_t _channelgett(void *instance, sysinterval_t time);

static size_t _channelwritet(void *instance, const uint8_t *bp, size_t n, sysinterval_t time);

static size_t _channelreadt(void *instance, uint8_t *bp, size_t n, sysinterval_t time);

static msg_t _channelctl(void *instance, unsigned int operation, void *arg);

static size_t _streamwrite(void *instance, const uint8_t *bp, size_t n);

static size_t _stremread(void *instance, uint8_t *bp, size_t n);

static msg_t _streamput(void *instance, uint8_t b);

static msg_t _streamget(void *instance);

static const struct AosShellChannelVMT _channelvmt = {

  (size_t) 0,

  _channelwrite,

  _channelread,

  _channelput,

  _channelget,

  _channelputt,

  _channelgett,

  _channelwritet,

  _channelreadt,

  _channelctl,

};

static const struct AosShellStreamVMT _streamvmt = {

  (size_t) 0,

  _streamwrite,

  _stremread,

  _streamput,

  _streamget,

};

/**

 * @brief   Enumerator of special keyboard keys.

 */

typedef enum special_key {

  KEY_UNKNOWN,          /**< any/unknow key */

  KEY_AMBIGUOUS,        /**< key is ambiguous */

  KEY_TAB,              /**< tabulator key */

  KEY_BACKSPACE,        /**< backspace key */

  KEY_INSERT,           /**< insert key */

  KEY_DELETE,           /**< delete key */

  KEY_ESCAPE,           /**< escape key */

  KEY_HOME,             /**< home key */

  KEY_END,              /**< end key */

  KEY_PAGEUP,           /**< page up key */

  KEY_PAGEDOWN,         /**< page down key */

  KEY_ARROWUP,          /**< arrow up key */

  KEY_ARROWDOWN,        /**< arrow down key */

  KEY_ARROWLEFT,        /**< arrow left key */

  KEY_ARROWRIGHT,       /**< arrow right key */

  KEY_CTRL_ARROWUP,     /**< CTRL + arrow up key */

  KEY_CTRL_ARROWDOWN,   /**< CTRL + arrow down key */

  KEY_CTRL_ARROWLEFT,   /**< CTRL + arrow left key */

  KEY_CTRL_ARROWRIGHT,  /**< CTRL + arrow right key */

  KEY_CTRL_C,           /**< CTRL + C key */

} special_key_t;

/**

 * @brief   Enumerator for case (in)sensitive character matching.

 */

typedef enum charmatch {

  CHAR_MATCH_NOT    = 0,  /**< Characters do not match at all. */

  CHAR_MATCH_NCASE  = 1,  /**< Characters would match case insensitive. */

  CHAR_MATCH_CASE   = 2,  /**< Characters do match with case. */

} charmatch_t;

/**

 * @brief   Enumerator to encode shell actions.

 */

typedef enum aos_shellaction {

  ACTION_NONE,                  /**< No action at all. */

  ACTION_READCHAR,              /**< Read a printable character. */

  ACTION_AUTOCOMPLETE,          /**< Automatically comlete input by using available command. */

  ACTION_SUGGEST,               /**< Suggest matching available commands. */

  ACTION_EXECUTE,               /**< Execute input. */

  ACTION_DELETEBACKWARD,        /**< Delete a single character backwards. */

  ACTION_DELETEFORWARD,         /**< Delete a single character forwards. */

  ACTION_CLEAR,                 /**< Clear the input. */

  ACTION_RECALLPREVIOUS,        /**< Recall the previous (older) entry in the history. */

  ACTION_RECALLNEXT,            /**< Recall the next (more recent) entry in the history. */

  ACTION_RECALLOLDEST,          /**< Recall the oldest entry in the history. */

  ACTION_RECALLCURRENT,         /**< Recall the current input. */

  ACTION_CURSORLEFT,            /**< Move cursor one character to the left. */

  ACTION_CURSORRIGHT,           /**< Move cursor one character to the right. */

  ACTION_CURSORWORDLEFT,        /**< Move cursor one word to the left. */

  ACTION_CURSORWORDRIGHT,       /**< Move cursor one word to the right. */

  ACTION_CURSOR2END,            /**< Move cursor to the very right. */

  ACTION_CURSOR2START,          /**< Move cursor to the very left. */

  ACTION_RESET,                 /**< Reset the current input. */

  ACTION_INSERTTOGGLE,          /**< Toggle insertion mode. */

  ACTION_ESCSTART,              /**< Start an escape sequence (special keys). */

  ACTION_PRINTUNKNOWNSEQUENCE,  /**< Print an unknown escape sequence. */

} action_t;

/**

 * @brief   Struct that holds most important runtime data for the shell.

 * @details The structure is to be used by the shell thread main function as some kind of structured stack, which can be easily passed to other functions.

 */

typedef struct runtimedata {

  /**

   * @brief   Data related to the current input.

   */

  struct {

    /**

     * @brief   Length of the input.

     */

    size_t length;

    /**

     * @brief   Current position of the cursor in the input line.

     */

    size_t cursorpos;

    /**

     * @brief   Buffer to store escape sequences, which describe special characters.

     */

    char escseq[AOS_SHELL_ESCSEQUENCE_LENGTH];

  } input;

  /**

   * @brief   Data related to the entry or history buffer.

   */

  struct {

    /**

     * @brief   Current entry to be filled and executed.

     */

    size_t current;

    /**

     * @brief   Selected entry in the 'history' as preview.

     * @details A value of 0 indicates, that the line is cleared as a preview.

     *          A value of 1 indicates, that the current entry is selected.

     *          A value of t>1 indicates, that the entry t-1 in the past is selected.

     *          The value must never be greater than the number of entries available, of course.

     */

    size_t selected;

    /**

     * @brief   Selected entry in the 'history' that has been edited by the user.

     *          A value of 0 indicates, that there was no modification by the user yet (i.e. charcters, deletions or autofill).

     *          A value of 1 indicates, that the current entry was edited.

     *          A value of t>1 indicated, that a history entry was recalled and then edited.

     */

    size_t edited;

  } buffer;

  /**

   * @brief   The last action executed by the shell.

   */

  action_t lastaction;

} runtimedata_t;

/******************************************************************************/

/* LOCAL VARIABLES                                                            */

/******************************************************************************/

/******************************************************************************/

/* LOCAL FUNCTIONS                                                            */

/******************************************************************************/

/**

 * @brief   Implementation of the BaseAsynchronous write() method (inherited from BaseSequentialStream).

 */

static size_t _channelwrite(void *instance, const uint8_t *bp, size_t n)

{

  if (((AosShellChannel*)instance)->flags & AOS_SHELLCHANNEL_OUTPUT_ENABLED) {

    return streamWrite(((AosShellChannel*)instance)->asyncchannel, bp, n);

  } else {

    return 0;

  }

}

/**

 * @brief   Implementation of the BaseAsynchronous read() method (inherited from BaseSequentialStream).

 */

static size_t _channelread(void *instance, uint8_t *bp, size_t n)

{

  if (((AosShellChannel*)instance)->flags & AOS_SHELLCHANNEL_INPUT_ENABLED) {

    return streamRead(((AosShellChannel*)instance)->asyncchannel, bp, n);

  } else {

    return 0;

  }

}

/**

 * @brief   Implementation of the BaseAsynchronous put() method (inherited from BaseSequentialStream).

 */

static msg_t _channelput(void *instance, uint8_t b)

{

  if (((AosShellChannel*)instance)->flags & AOS_SHELLCHANNEL_OUTPUT_ENABLED) {

    return streamPut(((AosShellChannel*)instance)->asyncchannel, b);

  } else {

    return MSG_RESET;

  }

}

/**

 * @brief   Implementation of the BaseAsynchronous get() method (inherited from BaseSequentialStream).

 */

static msg_t _channelget(void *instance)

{

  if (((AosShellChannel*)instance)->flags & AOS_SHELLCHANNEL_INPUT_ENABLED) {

    return streamGet(((AosShellChannel*)instance)->asyncchannel);

  } else {

    return MSG_RESET;

  }

}

/**

 * @brief   Implementation of the BaseAsynchronous putt() method.

 */

static msg_t _channelputt(void *instance, uint8_t b, sysinterval_t time)

{

  if (((AosShellChannel*)instance)->flags & AOS_SHELLCHANNEL_OUTPUT_ENABLED) {

    return chnPutTimeout(((AosShellChannel*)instance)->asyncchannel, b, time);

  } else {

    return MSG_RESET;

  }

}

/**

 * @brief   Implementation of the BaseAsynchronous gett() method.

 */

static msg_t _channelgett(void *instance, sysinterval_t time)

{

  if (((AosShellChannel*)instance)->flags & AOS_SHELLCHANNEL_INPUT_ENABLED) {

    return chnGetTimeout(((AosShellChannel*)instance)->asyncchannel, time);

  } else {

    return MSG_RESET;

  }

}

/**

 * @brief   Implementation of the BaseAsynchronous writet() method.

 */

static size_t _channelwritet(void *instance, const uint8_t *bp, size_t n, sysinterval_t time)

{

  if (((AosShellChannel*)instance)->flags & AOS_SHELLCHANNEL_OUTPUT_ENABLED) {

    return chnWriteTimeout(((AosShellChannel*)instance)->asyncchannel, bp, n, time);

  } else {

    return 0;

  }

}

/**

 * @brief   Implementation of the BaseAsynchronous readt() method.

 */

static size_t _channelreadt(void *instance, uint8_t *bp, size_t n, sysinterval_t time)

{

  if (((AosShellChannel*)instance)->flags & AOS_SHELLCHANNEL_INPUT_ENABLED) {

    return chnReadTimeout(((AosShellChannel*)instance)->asyncchannel, bp, n, time);

  } else {

    return 0;

  }

}

/**

 * @brief   Implementation of the BaseAsynchronousChannel ctl() method.

 */

static msg_t _channelctl(void *instance, unsigned int operation, void *arg)

{

  (void) instance;

  switch (operation) {

  case CHN_CTL_NOP:

    osalDbgCheck(arg == NULL);

    break;

  case CHN_CTL_INVALID:

    osalDbgAssert(false, "invalid CTL operation");

    break;

  default:

    break;

  }

  return MSG_OK;

}

/**

 * @brief   Implementation of the BaseSequentialStream write() method.

 */

static size_t _streamwrite(void *instance, const uint8_t *bp, size_t n)

{

  aosDbgCheck(instance != NULL);

  // local variables

  AosShellChannel* channel = ((AosShellStream*)instance)->channel;

  size_t bytes;

  size_t maxbytes = 0;

  // iterate through the list of channels

  while (channel != NULL) {

    bytes = streamWrite(channel, bp, n);

    maxbytes = (bytes > maxbytes) ? bytes : maxbytes;

    channel = channel->next;

  }

  return maxbytes;

}

/**

 * @brief   Implementation of the BaseSequentialStream read() method.

 */

static size_t _stremread(void *instance, uint8_t *bp, size_t n)

{

  (void)instance;

  (void)bp;

  (void)n;

  return 0;

}

/**

 * @brief   Implementation of the BaseSequentialStream put() method.

 */

static msg_t _streamput(void *instance, uint8_t b)

{

  aosDbgCheck(instance != NULL);

  // local variables

  AosShellChannel* channel = ((AosShellStream*)instance)->channel;

  msg_t ret = MSG_OK;

  // iterate through the list of channels

  while (channel != NULL) {

    msg_t ret_ = streamPut(channel, b);

    ret = (ret_ < ret) ? ret_ : ret;

    channel = channel->next;

  }

  return ret;

}

/**

 * @brief   Implementation of the BaseSequentialStream get() method.

 */

static msg_t _streamget(void *instance)

{

  (void)instance;

  return 0;

}

/**

 * @brief   Retreive a pointer to the string buffer of a specified entry in the input buffer.

 *

 * @param[in] shell   Pointer to a shell object.

 * @param[in] entry   Entry to be retrieved.

 *

 * @return  Pointer to the entry in the input buffer.

 */

static inline char* _getAbsoluteEntry(const aos_shell_t* shell, size_t entry)

{

  aosDbgCheck(shell != NULL);

  aosDbgCheck(entry < shell->input.nentries);

  return &(shell->input.buffer[entry * shell->input.linewidth * sizeof(char)]);

}

/**

 * @brief   Calculate absolute entry from history offset.

 *

 * @param[in] shell   Pointer to a shell object.

 * @param[in] rdata   Pointer to a runtime data object.

 * @param[in] offset  Relative offset of the entry to be retreived.

 *

 * @return  Absolute index of the historic entry.

 */

static inline size_t _historyOffset2EntryIndex(const aos_shell_t* shell, const runtimedata_t* rdata, size_t offset)

{

  aosDbgCheck(shell != NULL);

  aosDbgCheck(rdata != NULL);

  aosDbgCheck(offset < shell->input.nentries);

  return ((shell->input.nentries + rdata->buffer.current - offset) % shell->input.nentries);

}

/**

 * @brief   Retreive a pointer to the string buffer of a historic entry in the input buffer.

 *

 * @param[in] shell   Pointer to a shell object.

 * @param[in] rdata   Pointer to a runtime data object.

 * @param[in] offset  Relative offset of the entry to be retreived.

 *

 * @return  Pointer to the entry in the input buffer.

 */

static inline char* _getRelativeEntry(const aos_shell_t* shell, const runtimedata_t* rdata, size_t offset)

{

  aosDbgCheck(shell != NULL);

  aosDbgCheck(rdata != NULL);

  aosDbgCheck(offset < shell->input.nentries);

  return _getAbsoluteEntry(shell, _historyOffset2EntryIndex(shell, rdata, offset));

}

/**

 * @brief   Retreive a pointer to the current entry string in the input buffer.

 *

 * @param[in] shell   Pointer to a shell object.

 * @param[in] rdata   Pointer to a runtime data object.

 *

 * @return  Pointer to the string of the current entry in the input buffer.

 */

static inline char* _getCurrentEntry(const aos_shell_t* shell, const runtimedata_t* rdata)

{

  aosDbgCheck(shell != NULL);

  aosDbgCheck(rdata != NULL);

  return _getAbsoluteEntry(shell, rdata->buffer.current);

}

/**

 * @brief   Retreive a pointer to the currently selected entry.

 *

 * @param[in] shell   Pointer to a shell object.

 * @param[in] rdata   Pointer to a runtime data object.

 *

 * @return  Pointer to the currently selected entry or NULL if no entry is selected (cleared preview).

 */

static inline char* _getSelectedEntry(const aos_shell_t* shell, const runtimedata_t* rdata)

{

  aosDbgCheck(shell != NULL);

  aosDbgCheck(rdata != NULL);

  if (rdata->buffer.selected > 0) {

    return _getRelativeEntry(shell, rdata, rdata->buffer.selected - 1);

  } else {

    return NULL;

  }

}

/**

 * @brief   Retreive the currently visualized entry.

 *

 * @param[in] shell   Pointer to a shell object.

 * @param[in] rdata   Pointer to a runtime data object.

 *

 * @return  Pointer to the currently visualized entry or NULL if the input has been cleared (cleared preview).

 */

static inline char* _getVisualisedEntry(const aos_shell_t* shell, const runtimedata_t* rdata)

{

  aosDbgCheck(shell != NULL);

  aosDbgCheck(rdata != NULL);

  if (rdata->buffer.selected == 0) {

    // cleared preview, nothing visualized

    return NULL;

  } else {

    if (rdata->buffer.selected == 1 || rdata->buffer.selected == rdata->buffer.edited) {

      // the current or a modified entry is selected

      return _getCurrentEntry(shell, rdata);

    } else {

      // a historic, unmodified entry is selected

      return _getRelativeEntry(shell, rdata, rdata->buffer.selected - 1);

    }

  }

}

/**

 * @brief   Print the shell prompt

 * @details Depending on the configuration flags, the system uptime is printed before the prompt string.

 *

 * @param[in] shell   Pointer to the shell object.

 */

static void _printPrompt(aos_shell_t* shell)

{

  aosDbgCheck(shell != NULL);

  // print some time informattion before prompt if configured

  if (shell->config & (AOS_SHELL_CONFIG_PROMPT_UPTIME | AOS_SHELL_CONFIG_PROMPT_DATETIME)) {

    // printf the system uptime

    if ((shell->config & (AOS_SHELL_CONFIG_PROMPT_UPTIME | AOS_SHELL_CONFIG_PROMPT_DATETIME)) == AOS_SHELL_CONFIG_PROMPT_UPTIME) {

      // get current system uptime

      aos_timestamp_t uptime;

      aosSysGetUptime(&uptime);

      chprintf((BaseSequentialStream*)&shell->stream, "[%01u:%02u:%02u:%02u:%03u:%03u] ",

               (uint32_t)(uptime / MICROSECONDS_PER_DAY),

               (uint8_t)(uptime % MICROSECONDS_PER_DAY / MICROSECONDS_PER_HOUR),

               (uint8_t)(uptime % MICROSECONDS_PER_HOUR / MICROSECONDS_PER_MINUTE),

               (uint8_t)(uptime % MICROSECONDS_PER_MINUTE / MICROSECONDS_PER_SECOND),

               (uint16_t)(uptime % MICROSECONDS_PER_SECOND / MICROSECONDS_PER_MILLISECOND),

               (uint16_t)(uptime % MICROSECONDS_PER_MILLISECOND / MICROSECONDS_PER_MICROSECOND));

    }

#if (HAL_USE_RTC == TRUE)

    else if ((shell->config & (AOS_SHELL_CONFIG_PROMPT_UPTIME | AOS_SHELL_CONFIG_PROMPT_DATETIME)) == AOS_SHELL_CONFIG_PROMPT_DATETIME) {

      // get current RTC time

      struct tm dt;

      aosSysGetDateTime(&dt);

      chprintf((BaseSequentialStream*)&shell->stream, "[%02u-%02u-%04u|%02u:%02u:%02u] ",

               dt.tm_mday,

               dt.tm_mon + 1,

               dt.tm_year + 1900,

               dt.tm_hour,

               dt.tm_min,

               dt.tm_sec);

    }

#endif /* (HAL_USE_RTC == TRUE) */

    else {

      aosDbgAssert(false);

    }

  }

  // print the actual prompt string

  if (shell->prompt && !(shell->config & AOS_SHELL_CONFIG_PROMPT_MINIMAL)) {

    chprintf((BaseSequentialStream*)&shell->stream, "%s$ ", shell->prompt);

  } else {

    chprintf((BaseSequentialStream*)&shell->stream, "%>$ ");

  }

  return;

}

/**

 * @brief   Interprete a escape sequence

 * @details This function interpretes escape sequences (starting with ASCII

 *          "Escape" character 0x1B) according to the VT100 / VT52 ANSI escape

 *          sequence definitions.

 * @note    Only the most important escape sequences are implemented yet.

 *

 * @param[in] seq   Character sequence to interprete.

 *                  Must be terminated by NUL byte.

 *

 * @return          A @p special_key value.

 */

static special_key_t _interpreteEscapeSequence(const char seq[])

{

  // local variables

  unsigned long strl = 0;

  const unsigned long seql = strlen(seq);

  bool ambiguous = false;

  // TAB

  /* not supported yet; use '\x09' instead */

  // BACKSPACE

  /* not supported yet; use '\x08' instead */

  // ESCAPE

  /* not supported yes; use '\x1B' instead */

  // CTRL + C

  /* not defined yet; use '\x03' instead */

  // INSERT

  if (strncmp(seq, KEYSTRING_INSERT, seql) == 0) {

    strl = strlen(KEYSTRING_INSERT);

    if (seql == strl) {

      return KEY_INSERT;

    } else if (seql < strl) {

      ambiguous = true;

    }

  }

  // DELETE

  if (strncmp(seq, KEYSTRING_DELETE, seql) == 0) {

    strl = strlen(KEYSTRING_DELETE);

    if (seql == strl) {

      return KEY_DELETE;

    } else if (seql < strl) {

      ambiguous = true;

    }

  }

  // HOME

  if (strncmp(seq, KEYSTRING_HOME, seql) == 0) {

    strl = strlen(KEYSTRING_HOME);

    if (seql == strl) {

      return KEY_HOME;

    } else if (seql < strl) {

      ambiguous = true;

    }

  }

  // END

  if (strncmp(seq, KEYSTRING_END, seql) == 0) {

    strl = strlen(KEYSTRING_END);

    if (seql == strl) {

      return KEY_END;

    } else if (seql < strl) {

      ambiguous = true;

    }

  }

  // PAGE UP

  if (strncmp(seq, KEYSTRING_PAGEUP, seql) == 0) {

    strl = strlen(KEYSTRING_PAGEUP);

    if (seql == strl) {

      return KEY_PAGEUP;

    } else if (seql < strl) {

      ambiguous = true;

    }

  }

  // PAGE DOWN

  if (strncmp(seq, KEYSTRING_PAGEDOWN, seql) == 0) {

    strl = strlen(KEYSTRING_PAGEDOWN);

    if (seql == strl) {

      return KEY_PAGEDOWN;

    } else if (seql < strl) {

      ambiguous = true;

    }

  }

  // ARROW UP

  if (strncmp(seq, KEYSTRING_ARROWUP, seql) == 0) {

    strl = strlen(KEYSTRING_ARROWUP);

    if (seql == strl) {

      return KEY_ARROWUP;

    } else if (seql < strl) {

      ambiguous = true;

    }

  }

  // ARROW DOWN

  if (strncmp(seq, KEYSTRING_ARROWDOWN, seql) == 0) {

    strl = strlen(KEYSTRING_ARROWDOWN);

    if (seql == strl) {

      return KEY_ARROWDOWN;

    } else if (seql < strl) {

      ambiguous = true;

    }

  }

  // ARROW LEFT

  if (strncmp(seq, KEYSTRING_ARROWLEFT, seql) == 0) {

    strl = strlen(KEYSTRING_ARROWLEFT);

    if (seql == strl) {

      return KEY_ARROWLEFT;

    } else if (seql < strl) {

      ambiguous = true;

    }

  }

  // ARROW RIGHT

  if (strncmp(seq, KEYSTRING_ARROWRIGHT, seql) == 0) {

    strl = strlen(KEYSTRING_ARROWRIGHT);

    if (seql == strl) {

      return KEY_ARROWRIGHT;

    } else if (seql < strl) {

      ambiguous = true;

    }

  }

  // CTRL + ARROW UP

  if (strncmp(seq, KEYSTRING_CTRL_ARROWUP, seql) == 0) {

    strl = strlen(KEYSTRING_CTRL_ARROWUP);

    if (seql == strl) {

      return KEY_CTRL_ARROWUP;

    } else if (seql < strl) {

      ambiguous = true;

    }

  }

  // CTRL + ARROW DOWN

  if (strncmp(seq, KEYSTRING_CTRL_ARROWDOWN, seql) == 0) {

    strl = strlen(KEYSTRING_CTRL_ARROWDOWN);

    if (seql == strl) {

      return KEY_CTRL_ARROWDOWN;

    } else if (seql < strl) {

      ambiguous = true;

    }

  }

  // CTRL + ARROW LEFT

  if (strncmp(seq, KEYSTRING_CTRL_ARROWLEFT, seql) == 0) {

    strl = strlen(KEYSTRING_CTRL_ARROWLEFT);

    if (seql == strl) {

      return KEY_CTRL_ARROWLEFT;

    } else if (seql < strl) {

      ambiguous = true;

    }

  }

  // CTRL + ARROW RIGHT

  if (strncmp(seq, KEYSTRING_CTRL_ARROWRIGHT, seql) == 0) {

    strl = strlen(KEYSTRING_CTRL_ARROWRIGHT);

    if (seql == strl) {

      return KEY_CTRL_ARROWRIGHT;

    } else if (seql < strl) {

      ambiguous = true;

    }

  }

  return ambiguous ? KEY_AMBIGUOUS : KEY_UNKNOWN;

}

/**

 * @brief   Move the cursor in the terminal.

 *

 * @param[in] shell   Pointer to the shell object.

 * @param[in] line    Pointer to the current content of the line.

 * @param[in] from    Starting position of the cursor.

 * @param[in] to      Target position to move the cursor to.

 *

 * @return            The number of positions moved.

 */

static int _moveCursor(aos_shell_t* shell, const char* line, size_t from, size_t to)

{

  aosDbgCheck(shell != NULL);

  aosDbgCheck(line !=  NULL || from >= to);

  aosDbgCheck(from <= shell->input.linewidth);

  aosDbgCheck(to <= shell->input.linewidth);

  // local variables

  size_t pos = from;

  // move cursor left by printing backspaces

  while (pos > to) {

    streamPut(&shell->stream, '\b');

    --pos;

  }

  // move cursor right by printing line content

  while (pos < to) {

    streamPut(&shell->stream, (uint8_t)line[pos]);

    ++pos;

  }

  return (int)pos - (int)from;

}

/**

 * @brief   Print content of a given string to the shell output stream.

 *

 * @param[in] shell   Pointer to the shell object.

 * @param[in] line    Pointer to the line to be printed.

 * @param[in] from    First position to start printing from.

 * @param[in] to      Position after the last character to print.

 *

 * @return            Number of characters printed.

 */

static size_t _printString(aos_shell_t* shell, const char* line, size_t from, size_t to)

{

  aosDbgCheck(shell != NULL);

  aosDbgCheck(line != NULL || from >= to);

  aosDbgCheck(from < shell->input.linewidth);

  aosDbgCheck(to <= shell->input.linewidth);

  // local variables

  size_t cnt;

  for (cnt = 0; from + cnt < to; ++cnt) {

    streamPut(&shell->stream, (uint8_t)line[from + cnt]);

  }

  return cnt;

}

/**

 * @brief   Print a single character to the input buffer and to the output stream.

 *

 * @param[in] shell   Pointer to the shell object.

 * @param[in] rdata   Pointer to the runtim data object.

 * @param[in] c       Character to print.

 *

 * @return  Number of successfully handled characters.

 *          The return value can be interpreted as boolean (1 = sucess; 0 = error).

 */

static int _printChar(aos_shell_t* shell, runtimedata_t* rdata, char c)

{

  aosDbgCheck(shell != NULL);

  aosDbgCheck(rdata != NULL);

  // check whether input line is already full

  if (rdata->input.length + 1 >= shell->input.linewidth) {

    return 0;

  }

  // retreive entry in the input buffer

  char* line = _getCurrentEntry(shell, rdata);

  // overwrite content

  if (shell->config & AOS_SHELL_CONFIG_INPUT_OVERWRITE) {

    line[rdata->input.cursorpos] = c;

    ++rdata->input.cursorpos;

    rdata->input.length = (rdata->input.cursorpos > rdata->input.length) ? rdata->input.cursorpos : rdata->input.length;

    streamPut(&shell->stream, (uint8_t)c);

    return 1;

  }

  // insert character

  else {

    memmove(&line[rdata->input.cursorpos + 1], &line[rdata->input.cursorpos], rdata->input.length - rdata->input.cursorpos);

    line[rdata->input.cursorpos] = c;

    ++rdata->input.length;

    _printString(shell, line, rdata->input.cursorpos, rdata->input.length);

    ++rdata->input.cursorpos;

    _moveCursor(shell, line, rdata->input.length, rdata->input.cursorpos);

    return 1;

  }

}

/**

 * @brief   Overwrite the current output with a given line.

 * @details If the current output is longer than the string, the additional characters are cleared.

 *

 * @param[in] shell   Pointer to a shell object.

 * @param[in] rdata   Pointer to a runtime data object.

 * @param[in] line    The line to be printed.

 */

static void _overwriteOutput(aos_shell_t* shell, runtimedata_t* rdata, const char* line)

{

  aosDbgCheck(shell != NULL);

  aosDbgCheck(rdata != NULL);

  aosDbgCheck(line != NULL);

  // local variables

  const size_t oldlength = rdata->input.length;

  // print line (overwrite current output)

  _moveCursor(shell, line, rdata->input.cursorpos, 0);

  rdata->input.length = strlen(line);

  _printString(shell, line, 0, rdata->input.length);

  // clear any remaining symbols

  if (oldlength > rdata->input.length) {

    for (rdata->input.cursorpos = rdata->input.length; rdata->input.cursorpos < oldlength; ++rdata->input.cursorpos) {

      streamPut(&shell->stream, ' ');

    }

    _moveCursor(shell, line, oldlength, rdata->input.length);

  }

  rdata->input.cursorpos = rdata->input.length;

  return;

}

/**

 * @brief   Compare two characters.

 *

 * @param[in] lhs       First character to compare.

 * @param[in] rhs       Second character to compare.

 *

 * @return              How well the characters match.

 */

static inline charmatch_t _charcmp(char lhs, char rhs)

{

  // if lhs is a upper case letter and rhs is a lower case letter

  if (lhs >= 'A' && lhs <= 'Z' && rhs >= 'a' && rhs <= 'z') {

    return (lhs == (rhs - 'a' + 'A')) ? CHAR_MATCH_NCASE : CHAR_MATCH_NOT;

  }

  // if lhs is a lower case letter and rhs is a upper case letter

  else if (lhs >= 'a' && lhs <= 'z' && rhs >= 'A' && rhs <= 'Z') {

    return ((lhs - 'a' + 'A') == rhs) ? CHAR_MATCH_NCASE : CHAR_MATCH_NOT;

  }

  // default

  else {

    return (lhs == rhs) ? CHAR_MATCH_CASE : CHAR_MATCH_NOT;

  }

}

/**

 * @brief   Maps an character from ASCII to a modified custom encoding.

 * @details The custom character encoding is very similar to ASCII and has the following structure:

 *          0x00=NULL ... 0x40='@' (identically to ASCII)

 *          0x4A='a'; 0x4B='A'; 0x4C='b'; 0x4D='B' ... 0x73='z'; 0x74='Z' (custom letter order)

 *          0x75='[' ... 0x7A='`' (0x5B..0x60 is ASCII)

 *          0x7B='{' ... 0x7F=DEL (identically to ASCII)

 *

 * @param[in] c   Character to map to the custom encoding.

 *

 * @return    The customly encoded character.

 */

static inline char _mapAscii2Custom(char c)

{

  if (c >= 'A' && c <= 'Z') {

    return ((c - 'A') * 2) + 'A' + 1;

  } else if (c > 'Z' && c < 'a') {

    return c + ('z' - 'a') + 1;

  } else if (c >= 'a' && c <= 'z') {

    return ((c - 'a') * 2) + 'A';

  } else {

    return c;

  }

}

/**

 * @brief   Compares two strings wrt letter case.

 * @details Comparisson uses a custom character encoding or mapping.

 *          See @p _mapAscii2Custom for details.

 *

 * @param[in] str1    First string to compare.

 * @param[in] str2    Second string to compare.

 * @param[in] cs      Flag indicating whether comparison shall be case sensitive.

 * @param[in,out] n   Maximum number of character to compare (in) and number of matching characters (out).

 *                    If a null pointer is specified, this parameter is ignored.

 *                    If the value pointed to is zero, comarison will not be limited.

 * @param[out] m      Optional indicator whether there was at least one case mismatch.

 *

 * @return      Integer value indicating the relationship between the strings.

 * @retval <0   The first character that does not match has a lower value in str1 than in str2.

 * @retval  0   The contents of both strings are equal.

 * @retval >0   The first character that does not match has a greater value in str1 than in str2.

 */

static int _strccmp(const char *str1, const char *str2, bool cs, size_t* n, charmatch_t* m)

{

  aosDbgCheck(str1 != NULL);

  aosDbgCheck(str2 != NULL);

  // initialize variables

  if (m) {

    *m = CHAR_MATCH_NOT;

  }

  size_t i = 0;

  // iterate through the strings

  while ((n == NULL) || (*n == 0) || (*n > 0 && i < *n)) {

    // break on NUL

    if (str1[i] == '\0' || str2[i] == '\0') {

      if (n) {

        *n = i;

      }

      break;

    }

    // compare character

    const charmatch_t match = _charcmp(str1[i], str2[i]);

    if ((match == CHAR_MATCH_CASE) || (!cs && match == CHAR_MATCH_NCASE)) {

      if (m != NULL && *m != CHAR_MATCH_NCASE) {

        *m = match;

      }

      ++i;

    } else {

      if (n) {

        *n = i;

      }

      break;

    }

  }

  return _mapAscii2Custom(str1[i]) - _mapAscii2Custom(str2[i]);

}

/**

 * @brief   Alters all intermediate NUL bytes in a string to spaces.

 *

 * @param[in] string  The string to be handled.

 * @param[in] length  Length of the string.

 *

 * @return  Detected Length of the actual content of the string.

 */

static size_t _restoreWhitespace(char* string, size_t length)

{

  aosDbgCheck(string != NULL || length == 0);

  // local variables

  size_t c = length;

  // seach for first non-NUL byte from the back

  while (c > 0) {

    --c;

    if (string[c] != '\0') {

      // store the detected length of the content

      length = ++c;

      break;

    }

  }

  // iterate further and replace all encountered NUL bytes by spaces

  while (c > 0) {

    --c;

    if (string[c] == '\0') {

      string[c] = ' ';

    }

  }

  return length;

}

/**

 * @brief   Performs required actions before an imminent modiifcation (character input, deletion or autofill).

 * @details This functions checks the current status and clears or copies entries in the input buffer as required.

 *          Status information (runtime data) is altered accordingly as well.

 *

 * @param[in] shell   Pointer to a shell object.

 * @param[in] rdata   Pointer to a runtime data object.

 *

 * @return    Pointer to the current entry in the input buffer.

 */

static char* _prepare4Modification(aos_shell_t* shell, runtimedata_t* rdata)

{

  aosDbgCheck(shell != NULL);

  aosDbgCheck(rdata != NULL);

  char* line = _getCurrentEntry(shell, rdata);

  // cleared preview

  if (rdata->buffer.selected == 0) {

    // reset the current entry if required

    if (rdata->buffer.edited != 0) {

      memset(line, '\0', shell->input.linewidth * sizeof(char));

    }

    // set the current entry as the selected one and mark it as edited

    rdata->buffer.selected = 1;

    rdata->buffer.edited = 1;

  }

  // current entry

  else if (rdata->buffer.selected == 1) {

    // mark current entry as edited

    rdata->buffer.edited = 1;

  }

  // preview of historic entry

  else if (rdata->buffer.selected > 1) {

    // copy the selected entry before modification if required

    if (rdata->buffer.selected!= rdata->buffer.edited) {

      memcpy(line, _getSelectedEntry(shell, rdata), shell->input.linewidth * sizeof(char));

    }

    // mark the selected entry as edited

    rdata->buffer.edited = rdata->buffer.selected;

  }

  return line;

}

/**

 * @brief   Read input from a channel as long as there is data available.

 *

 * @param[in]     shell     Pointer to the shell object.

 * @param[in,out] rdata     Pointer to a runtime data object.

 * @param[in]     channel   The channel to read from.

 *

 * @return  Number of characters read.

 */

static size_t _readChannel(aos_shell_t* shell, runtimedata_t* rdata, AosShellChannel* channel)

{

  aosDbgCheck(shell != NULL);

  aosDbgCheck(rdata != NULL);

  aosDbgCheck(channel != NULL);

  // local variables

  size_t bytes = 0;

  char c;

  special_key_t key;

  action_t action;

  // read character by character from the channel

  while (chnReadTimeout(channel, (uint8_t*)&c, 1, TIME_IMMEDIATE)) {

    // increment byte counter

    ++bytes;

    // drop any further input after an execution request was detected

    if (rdata->lastaction == ACTION_EXECUTE && bytes > 1) {

      continue;

    }

    // try to interprete escape sequence

    {

      // set default

      key = KEY_UNKNOWN;

      // only interprete, if there is an escape sequence at all

      const size_t escl = strlen(rdata->input.escseq);

      if (escl > 0) {

        // append and 'consume' character

        rdata->input.escseq[escl] = c;

        c = '\0';

        // try to interprete sequence

        key = _interpreteEscapeSequence(rdata->input.escseq);

        switch (key) {

          // ambiguous key due to incomplete sequence

          case KEY_AMBIGUOUS:

            // read next byte to resolve ambiguity

            continue;

          // an unknown sequence has been encountered

          case KEY_UNKNOWN:

            // increment number of inputs but handle this unknown sequence below

            break;

          // a key was identified successfully

          default:

            // reset the sequence buffer

            memset(rdata->input.escseq, '\0', AOS_SHELL_ESCSEQUENCE_LENGTH * sizeof(char));

            break;

        }

      }

    }

    /*

     * Derive action to be executed from keypress.

     * This step handles all sanity checks, so any required prerequisites for the selected action are fulfilled.

     */

    // set default

    action = ACTION_NONE;

    // if there is no escape sequence pending

    if (rdata->input.escseq[0] == '\0') {

      // printable character

      if (c >= '\x20' && c <= '\x7E') {

        action = ACTION_READCHAR;

      }

      // tab key or character

      else if (c == '\x09' || key == KEY_TAB) {

        /*

         * pressing tab once applies auto fill

         * pressing tab a second time (or more) prints suggestions

         */

        if (rdata->lastaction == ACTION_AUTOCOMPLETE || rdata->lastaction == ACTION_SUGGEST) {

          action = ACTION_SUGGEST;

        } else {

          action = ACTION_AUTOCOMPLETE;

        }

      }

      // carriage return ('\r') or line feed ('\n') character

      else if (c == '\x0D' || c == '\x0A') {

        action = ACTION_EXECUTE;

      }

      // backspace key or character

      else if (c == '\x08' || key == KEY_BACKSPACE) {

        // ignore if cursor is at very left

        if (rdata->input.cursorpos > 0) {

          action = ACTION_DELETEBACKWARD;

        }

      }

      // DEL key or character

      else if (c == '\x7F' || key == KEY_DELETE) {

        // ignore if cursor is at very right

        if (rdata->input.cursorpos < rdata->input.length) {

          action = ACTION_DELETEFORWARD;

        }

      }

      // 'arrow up' key

      else if (key == KEY_ARROWUP) {

        // recall previous input from history only if

        // not the oldest entry is already selected and

        // the previous entry has been set.

        if (rdata->buffer.selected < shell->input.nentries &&

            (_getRelativeEntry(shell, rdata, rdata->buffer.selected))[0] != INBUF_INIT_CHAR) {

          action = ACTION_RECALLPREVIOUS;

        }

      }

      // 'arrow down' key

      else if (key == KEY_ARROWDOWN) {

        // clear the line if

        // no historic entry is selected or

        // the most recent entry is selected, but the current one is occupied by a moodfied version of a historic entry

        if ((rdata->buffer.selected == 1) ||

            (rdata->buffer.selected == 2 && rdata->buffer.edited > 1)) {

          action = ACTION_CLEAR;

        }

        // if a historic entry is selected, recall the next input from history

        else if (rdata->buffer.selected > 1) {

          action = ACTION_RECALLNEXT;

        }

      }

      // 'arrow left' key

      else if (key == KEY_ARROWLEFT) {

        // ignore if cursor is very left

        if (rdata->input.cursorpos > 0) {

          action = ACTION_CURSORLEFT;

        }

      }

      // 'arrow right' key

      else if (key == KEY_ARROWRIGHT) {

        // ignore if cursor is very right

        if (rdata->input.cursorpos < rdata->input.length) {

          action = ACTION_CURSORRIGHT;

        }

      }

      // CTRL + 'arrow up' key combination or 'page up' key

      else if (key == KEY_CTRL_ARROWUP || key == KEY_PAGEUP) {

        // recall oldest input from history only if

        // not the oldest entry is already selected and

        // there is at least one history entry set

        if (rdata->buffer.selected < shell->input.nentries &&

            (_getRelativeEntry(shell, rdata, (rdata->buffer.selected > 0) ? 1 : 0))[0] != INBUF_INIT_CHAR) {

          action = ACTION_RECALLOLDEST;

        }

      }

      // CTRL + 'arrow down' key combination or 'page down' key

      else if (key == KEY_CTRL_ARROWDOWN || key == KEY_PAGEDOWN) {

        // clear the line if

        // no historic entry is selected or

        // the most recent entry is selected, but the current one is occupied by a moodfied version of a historic entry

        if ((rdata->buffer.selected == 1) ||

            (rdata->buffer.selected > 1 && rdata->buffer.edited > 1)) {

          action = ACTION_CLEAR;

        }

        // if a historic entry is selected, reset to the current input

        else if (rdata->buffer.selected > 1) {

          action = ACTION_RECALLCURRENT;

        }

      }