/**************************************************************************** * apps/system/readline/readline_common.c * * Copyright (C) 2007-2008, 2011-2013, 2015 Gregory Nutt. All rights reserved. * Author: Gregory Nutt * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * 3. Neither the name NuttX nor the names of its contributors may be * used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include "system/readline.h" #include "readline.h" /**************************************************************************** * Private Data ****************************************************************************/ /* [K is the VT100 command erases to the end of the line. */ static const char g_erasetoeol[] = VT100_CLEAREOL; #ifdef CONFIG_READLINE_TABCOMPLETION /* Prompt string to present at the beginning of the line */ static FAR const char *g_readline_prompt = NULL; #ifdef CONFIG_READLINE_HAVE_EXTMATCH static FAR const struct extmatch_vtable_s *g_extmatch_vtbl = NULL; #endif #endif /* CONFIG_READLINE_TABCOMPLETION */ #ifdef CONFIG_READLINE_CMD_HISTORY /* Nghia Ho: command history * * g_cmd_history[][] Circular buffer * g_cmd_history_head Head of the circular buffer, most recent command * g_cmd_history_steps_from_head Offset from head * g_cmd_history_len Number of elements in the circular buffer */ static char g_cmd_history[CONFIG_READLINE_CMD_HISTORY_LEN][CONFIG_READLINE_CMD_HISTORY_LINELEN]; static int g_cmd_history_head = -1; static int g_cmd_history_steps_from_head = 1; static int g_cmd_history_len = 0; #endif /* CONFIG_READLINE_CMD_HISTORY */ /**************************************************************************** * Private Functions ****************************************************************************/ /**************************************************************************** * Name: count_builtin_matches * * Description: * Count the number of builtin commands * * Input Parameters: * matches - Array to save builtin command index. * len - The length of the matching name to try * * Returned Value: * The number of matching names * ****************************************************************************/ #if defined(CONFIG_READLINE_TABCOMPLETION) && defined(CONFIG_BUILTIN) static int count_builtin_matches(FAR char *buf, FAR int *matches, int namelen) { #if CONFIG_READLINE_MAX_BUILTINS > 0 FAR const char *name; int nr_matches = 0; int i; for (i = 0; (name = builtin_getname(i)) != NULL; i++) { if (strncmp(buf, name, namelen) == 0) { matches[nr_matches] = i; nr_matches++; if (nr_matches >= CONFIG_READLINE_MAX_BUILTINS) { break; } } } return nr_matches; #else return 0; #endif } #endif /**************************************************************************** * Name: tab_completion * * Description: * Nghia - Unix like tab completion, only for builtin apps * * Input Parameters: * vtbl - vtbl used to access implementation specific interface * buf - The user allocated buffer to be filled. * buflen - the size of the buffer. * nch - the number of characters. * * Returned Value: * None. * ****************************************************************************/ #ifdef CONFIG_READLINE_TABCOMPLETION static void tab_completion(FAR struct rl_common_s *vtbl, char *buf, int buflen, int *nch) { FAR const char *name = NULL; char tmp_name[CONFIG_TASK_NAME_SIZE + 1]; #ifdef CONFIG_BUILTIN int nr_builtin_matches = 0; int builtin_matches[CONFIG_READLINE_MAX_BUILTINS]; #endif #ifdef CONFIG_READLINE_HAVE_EXTMATCH int nr_ext_matches = 0; int ext_matches[CONFIG_READLINE_MAX_EXTCMDS]; #endif int nr_matches; int len = *nch; int name_len; int i; int j; if (len >= 1) { #ifdef CONFIG_BUILTIN /* Count the matching builtin commands */ nr_builtin_matches = count_builtin_matches(buf, builtin_matches, len); nr_matches = nr_builtin_matches; #else nr_matches = 0; #endif #ifdef CONFIG_READLINE_HAVE_EXTMATCH /* Is there registered external handling logic? */ nr_ext_matches = 0; if (g_extmatch_vtbl != NULL) { /* Count the number of external commands */ nr_ext_matches = g_extmatch_vtbl->count_matches(buf, ext_matches, len); nr_matches += nr_ext_matches; } #endif /* Is there only one matching name? */ if (nr_matches == 1) { /* Yes... that that is the one we want. Was it a match with a * builtin command? Or with an external command. */ #ifdef CONFIG_BUILTIN #ifdef CONFIG_READLINE_HAVE_EXTMATCH if (nr_builtin_matches == 1) #endif { /* It is a match with a builtin command */ name = builtin_getname(builtin_matches[0]); } #endif #ifdef CONFIG_READLINE_HAVE_EXTMATCH #ifdef CONFIG_BUILTIN else #endif { /* It is a match with an external command */ name = g_extmatch_vtbl->getname(ext_matches[0]); } #endif /* Copy the name to the command buffer and to the display. */ name_len = strlen(name); for (j = len; j < name_len; j++) { buf[j] = name[j]; RL_PUTC(vtbl, name[j]); } /* Don't remove extra characters after the completed word, if any. */ if (len < name_len) { *nch = name_len; } } /* Are there multiple matching names? */ else if (nr_matches > 1) { RL_PUTC(vtbl, '\n'); /* See how many characters we can auto complete for the user * For example, if we have the following commands: * - prog1 * - prog2 * - prog3 * then it should automatically complete up to prog. * We do this in one pass using a temp. */ memset(tmp_name, 0, sizeof(tmp_name)); #ifdef CONFIG_READLINE_HAVE_EXTMATCH /* Show the possible external completions */ for (i = 0; i < nr_ext_matches; i++) { name = g_extmatch_vtbl->getname(ext_matches[i]); /* Initialize temp */ if (tmp_name[0] == '\0') { strncpy(tmp_name, name, sizeof(tmp_name) - 1); } RL_PUTC(vtbl, ' '); RL_PUTC(vtbl, ' '); for (j = 0; j < strlen(name); j++) { /* Removing characters that aren't common to all the * matches. */ if (name[j] != tmp_name[j]) { tmp_name[j] = '\0'; } RL_PUTC(vtbl, name[j]); } RL_PUTC(vtbl, '\n'); } #endif #ifdef CONFIG_BUILTIN /* Show the possible builtin completions */ for (i = 0; i < nr_builtin_matches; i++) { name = builtin_getname(builtin_matches[i]); /* Initialize temp */ if (tmp_name[0] == '\0') { strncpy(tmp_name, name, sizeof(tmp_name) - 1); } RL_PUTC(vtbl, ' '); RL_PUTC(vtbl, ' '); for (j = 0; j < strlen(name); j++) { /* Removing characters that aren't common to all the * matches. */ if (name[j] != tmp_name[j]) { tmp_name[j] = '\0'; } RL_PUTC(vtbl, name[j]); } RL_PUTC(vtbl, '\n'); } #endif strncpy(buf, tmp_name, buflen - 1); name_len = strlen(tmp_name); /* Output the original prompt */ if (g_readline_prompt != NULL) { for (i = 0; i < strlen(g_readline_prompt); i++) { RL_PUTC(vtbl, g_readline_prompt[i]); } } for (i = 0; i < name_len; i++) { RL_PUTC(vtbl, buf[i]); } /* Don't remove extra characters after the completed word, if any. */ if (len < name_len) { *nch = name_len; } } } } #endif /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: readline_prompt * * If a prompt string is used by the application, then the application * must provide the prompt string to readline() by calling this function. * This is needed only for tab completion in cases where is it necessary * to reprint the prompt string. * * Input Parameters: * prompt - The prompt string. This function may then be * called with that value in order to restore the previous vtable. * * Returned values: * Returns the previous value of the prompt string. This function may * then be called with that value in order to restore the previous prompt. * * Assumptions: * The prompt string is statically allocated a global. readline() will * simply remember the pointer to the string. The string must stay * allocated and available. Only one prompt string is supported. If * there are multiple clients of readline(), they must all share the same * prompt string (with exceptions in the case of the kernel build). * ****************************************************************************/ #ifdef CONFIG_READLINE_TABCOMPLETION FAR const char *readline_prompt(FAR const char *prompt) { FAR const char *ret = g_readline_prompt; g_readline_prompt = prompt; return ret; } #endif /**************************************************************************** * Name: readline_extmatch * * If the applications supports a command set, then it may call this * function in order to provide support for tab complete on these * "external" commands * * Input Parameters: * vtbl - Callbacks to access the external names. * * Returned values: * Returns the previous vtable pointer. This function may then be * called with that value in order to restore the previous vtable. * * Assumptions: * The vtbl string is statically allocated a global. readline() will * simply remember the pointer to the structure. The structure must stay * allocated and available. Only one instance of such a structure is * supported. If there are multiple clients of readline(), they must all * share the same tab-completion logic (with exceptions in the case of * the kernel build). * ****************************************************************************/ #if defined(CONFIG_READLINE_TABCOMPLETION) && defined(CONFIG_READLINE_HAVE_EXTMATCH) FAR const struct extmatch_vtable_s * readline_extmatch(FAR const struct extmatch_vtable_s *vtbl) { #if (CONFIG_READLINE_MAX_EXTCMDS > 0) FAR const struct extmatch_vtable_s *ret = g_extmatch_vtbl; g_extmatch_vtbl = vtbl; return ret; #else return NULL; #endif } #endif /**************************************************************************** * Name: readline_common * * Description: * readline() reads in at most one less than 'buflen' characters from * 'instream' and stores them into the buffer pointed to by 'buf'. * Characters are echoed on 'outstream'. Reading stops after an EOF or a * newline. If a newline is read, it is stored into the buffer. A null * terminator is stored after the last character in the buffer. * * This version of realine assumes that we are reading and writing to * a VT100 console. This will not work well if 'instream' or 'outstream' * corresponds to a raw byte steam. * * This function is inspired by the GNU readline but is an entirely * different creature. * * Input Parameters: * vtbl - vtbl used to access implementation specific interface * buf - The user allocated buffer to be filled. * buflen - the size of the buffer. * * Returned Value: * On success, the (positive) number of bytes transferred is returned. * EOF is returned to indicate either an end of file condition or a * failure. * ****************************************************************************/ ssize_t readline_common(FAR struct rl_common_s *vtbl, FAR char *buf, int buflen) { int escape; int nch; #ifdef CONFIG_READLINE_CMD_HISTORY int i; #endif /* Sanity checks */ DEBUGASSERT(buf && buflen > 0); if (buflen < 2) { *buf = '\0'; return 0; } /* [K is the VT100 command that erases to the end of the line. */ #ifdef CONFIG_READLINE_ECHO RL_WRITE(vtbl, g_erasetoeol, sizeof(g_erasetoeol)); #endif /* Read characters until we have a full line. On each the loop we must * be assured that there are two free bytes in the line buffer: One for * the next character and one for the null terminator. */ escape = 0; nch = 0; for (;;) { /* Get the next character. readline_rawgetc() returns EOF on any * errors or at the end of file. */ int ch = RL_GETC(vtbl); /* Check for end-of-file or read error */ if (ch == EOF) { /* Did we already received some data? */ if (nch > 0) { /* Yes.. Terminate the line (which might be zero length) * and return the data that was received. The end-of-file * or error condition will be reported next time. */ buf[nch] = '\0'; return nch; } return EOF; } /* Are we processing a VT100 escape sequence */ else if (escape) { /* Yes, is it an [, 3 byte sequence */ if (ch != ASCII_LBRACKET || escape == 2) { /* We are finished with the escape sequence */ #ifdef CONFIG_READLINE_CMD_HISTORY /* Nghia Ho: intercept up and down arrow keys */ if (g_cmd_history_len > 0) { if (ch == 'A') /* up arrow */ { /* Go to the past command in history */ g_cmd_history_steps_from_head--; if (-g_cmd_history_steps_from_head >= g_cmd_history_len) { g_cmd_history_steps_from_head = -(g_cmd_history_len - 1); } } else if (ch == 'B') /* down arrow */ { /* Go to the recent command in history */ g_cmd_history_steps_from_head++; if (g_cmd_history_steps_from_head > 1) { g_cmd_history_steps_from_head = 1; } } /* Clear out current command from the prompt */ while (nch > 0) { nch--; #ifdef CONFIG_READLINE_ECHO RL_PUTC(vtbl, ASCII_BS); RL_WRITE(vtbl, g_erasetoeol, sizeof(g_erasetoeol)); #endif } if (g_cmd_history_steps_from_head != 1) { int idx = g_cmd_history_head + g_cmd_history_steps_from_head; /* Circular buffer wrap around */ if (idx < 0) { idx = idx + CONFIG_READLINE_CMD_HISTORY_LEN; } else if (idx >= CONFIG_READLINE_CMD_HISTORY_LEN) { idx = idx - CONFIG_READLINE_CMD_HISTORY_LEN; } for (i = 0; g_cmd_history[idx][i] != '\0'; i++) { buf[nch++] = g_cmd_history[idx][i]; RL_PUTC(vtbl, g_cmd_history[idx][i]); } } } #endif /* CONFIG_READLINE_CMD_HISTORY */ escape = 0; ch = 'a'; } else { /* The next character is the end of a 3-byte sequence. * NOTE: Some of the [ sequences are longer than * 3-bytes, but I have not encountered any in normal use * yet and, so, have not provided the decoding logic. */ escape = 2; } } /* Check for backspace * * There are several notions of backspace, for an elaborate summary see * http://www.ibb.net/~anne/keyboard.html. There is no clean solution. * Here both DEL and backspace are treated like backspace here. The * Unix/Linux screen terminal by default outputs DEL (0x7f) when the * backspace key is pressed. */ else if (ch == ASCII_BS || ch == ASCII_DEL) { /* Eliminate that last character in the buffer. */ if (nch > 0) { nch--; #ifdef CONFIG_READLINE_ECHO /* Echo the backspace character on the console. Always output * the backspace character because the VT100 terminal doesn't * understand DEL properly. */ RL_PUTC(vtbl, ASCII_BS); RL_WRITE(vtbl, g_erasetoeol, sizeof(g_erasetoeol)); #endif } } /* Check for the beginning of a VT100 escape sequence */ else if (ch == ASCII_ESC) { /* The next character is escaped */ escape = 1; } /* Check for end-of-line. This is tricky only in that some * environments may return CR as end-of-line, others LF, and * others both. */ #if defined(CONFIG_EOL_IS_LF) || defined(CONFIG_EOL_IS_BOTH_CRLF) else if (ch == '\n') #elif defined(CONFIG_EOL_IS_CR) else if (ch == '\r') #elif defined(CONFIG_EOL_IS_EITHER_CRLF) else if (ch == '\n' || ch == '\r') #endif { #ifdef CONFIG_READLINE_CMD_HISTORY /* Nghia Ho: save history of command, only if there was something * typed besides return character. */ if (nch >= 1) { g_cmd_history_head = (g_cmd_history_head + 1) % CONFIG_READLINE_CMD_HISTORY_LEN; for (i = 0; (i < nch) && i < (CONFIG_READLINE_CMD_HISTORY_LINELEN - 1); i++) { g_cmd_history[g_cmd_history_head][i] = buf[i]; } g_cmd_history[g_cmd_history_head][i] = '\0'; g_cmd_history_steps_from_head = 1; if (g_cmd_history_len < CONFIG_READLINE_CMD_HISTORY_LEN) { g_cmd_history_len++; } } #endif /* CONFIG_READLINE_CMD_HISTORY */ /* The newline is stored in the buffer along with the null * terminator. */ buf[nch++] = '\n'; buf[nch] = '\0'; #ifdef CONFIG_READLINE_ECHO /* Echo the newline to the console */ RL_PUTC(vtbl, '\n'); #endif return nch; } /* Otherwise, check if the character is printable and, if so, put the * character in the line buffer */ else if (isprint(ch)) { buf[nch++] = ch; #ifdef CONFIG_READLINE_ECHO /* Echo the character to the console */ RL_PUTC(vtbl, ch); #endif /* Check if there is room for another character and the line's * null terminator. If not then we have to end the line now. */ if (nch + 1 >= buflen) { buf[nch] = '\0'; return nch; } } #ifdef CONFIG_READLINE_TABCOMPLETION else if (ch == '\t') /* Nghia - TAB character */ { tab_completion(vtbl, buf, buflen, &nch); } #endif } }