int cmd_sh(FAR struct nsh_vtbl_s *vtbl, int argc, char **argv)
{
return nsh_script(vtbl, argv[0], argv[1]);
}
int nsh_consolemain(int argc, char *argv[])
{
FAR struct console_stdio_s *pstate = nsh_newconsole();
int ret;
DEBUGASSERT(pstate);
/* If we are using a USB serial console, then we will have to wait for the
* USB to be connected to the host.
*/
#ifdef HAVE_USB_CONSOLE
ret = nsh_usbconsole();
DEBUGASSERT(ret == OK);
#endif
/* Present a greeting */
fputs(g_nshgreeting, pstate->cn_outstream);
fflush(pstate->cn_outstream);
/* Execute the startup script */
#ifdef CONFIG_NSH_ROMFSETC
(void)nsh_script(&pstate->cn_vtbl, "init", NSH_INITPATH);
#endif
/* Then enter the command line parsing loop */
for (;;)
{
/* For the case of debugging the USB console... dump collected USB trace data */
nsh_usbtrace();
/* Display the prompt string */
fputs(g_nshprompt, pstate->cn_outstream);
fflush(pstate->cn_outstream);
/* Get the next line of input */
ret = readline(pstate->cn_line, CONFIG_NSH_LINELEN,
INSTREAM(pstate), OUTSTREAM(pstate));
if (ret > 0)
{
/* Parse process the command */
(void)nsh_parse(&pstate->cn_vtbl, pstate->cn_line);
fflush(pstate->cn_outstream);
}
/* Readline normally returns the number of characters read,
* but will return 0 on end of file or a negative value
* if an error occurs. Either will cause the session to
* terminate.
*/
else
{
fprintf(pstate->cn_outstream, g_fmtcmdfailed, "nsh_consolemain",
"readline", NSH_ERRNO_OF(-ret));
nsh_exit(&pstate->cn_vtbl, 1);
}
}
/* Clean up. We do not get here, but this is necessary to keep some
* compilers happy. But others will complain that this code is not
* reachable.
*/
nsh_exit(&pstate->cn_vtbl, 0);
return OK;
}
