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view uptools/atcmd/atinterf.c @ 1014:961efadd530a default tip

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fc-shell TCH DL handler: add support for CSD modes TCH DL capture mechanism in FC Tourmaline firmware has been extended to support CSD modes in addition to speech - add the necessary support on the host tools side. It needs to be noted that this mechanism in its present state does NOT provide the debug utility value that was sought: as we learned only after the code was implemented, TI's DSP has a misfeature in that the buffer we are reading (a_dd_0[]) is zeroed out when the IDS block is enabled, i.e., we are reading all zeros and not the real DL bits we were after. But since the code has already been written, we are keeping it - perhaps we can do some tests with IDS disabled.
author Mychaela Falconia <falcon@freecalypso.org>
date Tue, 26 Nov 2024 06:27:43 +0000
parents f0e9bb28b4d6
children
line wrap: on
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/*
 * This module implements the interface functions to the AT command phone or
 * modem to be used by the rest of the FreeCalypso User Phone tools suite.
 */

#include <sys/types.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <strings.h>
#include <unistd.h>
#include "../../rvinterf/include/exitcodes.h"

static char atinterf_pathname[] = "/opt/freecalypso/bin/fcup-atinterf";
static char rvtat_pathname[] = "/opt/freecalypso/bin/fcup-rvtat";
static char shell_pathname[] = "/bin/sh";

char *target_ttyport, *target_baud, *external_prog;
int rvtat_mode, no_target_mode;
static char *backend_prog, *backend_argv[6];

FILE *cpipeF, *rpipeF;
char at_response[514];

atinterf_cmdline_opt(opt)
{
	extern char *optarg;

	switch (opt) {
	case 'B':
		target_baud = optarg;
		return(1);
	case 'n':
		no_target_mode = 1;
		return(1);
	case 'p':
		target_ttyport = optarg;
		return(1);
	case 'R':
		rvtat_mode = 1;
		return(1);
	case 'X':
		external_prog = optarg;
		return(1);
	}
	return(0);
}

static void
preen_port_baud_config()
{
	if (!target_ttyport && target_baud) {
		fprintf(stderr, "error: -B option invalid without -p\n");
		exit(ERROR_USAGE);
	}
	if (rvtat_mode)
		return;
	if (!target_ttyport) {
		target_ttyport = getenv("FC_GSM_DEVICE");
		if (!target_ttyport) {
			fprintf(stderr,
				"error: no FC GSM device target specified\n");
			exit(ERROR_USAGE);
		}
	}
	if (!target_baud)
		target_baud = "115200";
}

static void
setup_be_native_at()
{
	backend_prog = atinterf_pathname;
	backend_argv[0] = "fcup-atinterf";
	backend_argv[1] = target_ttyport;
	backend_argv[2] = target_baud;
	backend_argv[3] = 0;
}

static void
setup_be_rvtat()
{
	char **ap;

	backend_prog = rvtat_pathname;
	ap = backend_argv;
	*ap++ = "fcup-rvtat";
	if (target_ttyport) {
		*ap++ = "-p";
		*ap++ = target_ttyport;
	}
	if (target_baud) {
		*ap++ = "-B";
		*ap++ = target_baud;
	}
	*ap = 0;
}

static void
setup_be_external()
{
	backend_prog = shell_pathname;
	backend_argv[0] = "sh";
	backend_argv[1] = "-c";
	backend_argv[2] = external_prog;
	backend_argv[3] = 0;
}

atinterf_init()
{
	int cpipe[2], rpipe[2], rc;

	if (no_target_mode)
		return(0);
	if (external_prog)
		setup_be_external();
	else {
		preen_port_baud_config();
		if (rvtat_mode)
			setup_be_rvtat();
		else
			setup_be_native_at();
	}
	if (pipe(cpipe) < 0 || pipe(rpipe) < 0) {
		perror("pipe");
		exit(ERROR_UNIX);
	}
	rc = vfork();
	if (rc < 0) {
		perror("vfork for launching back end");
		exit(ERROR_UNIX);
	}
	if (!rc) {
		/* we are in the child - prepare to exec the BE */
		dup2(cpipe[0], 0);
		dup2(rpipe[1], 1);
		close(cpipe[0]);
		close(cpipe[1]);
		close(rpipe[0]);
		close(rpipe[1]);
		/* do the exec */
		execv(backend_prog, backend_argv);
		perror(backend_prog);
		_exit(1);
	}
	close(cpipe[0]);
	close(rpipe[1]);
	cpipeF = fdopen(cpipe[1], "w");
	if (!cpipeF) {
		perror("fdopen");
		exit(ERROR_UNIX);
	}
	rpipeF = fdopen(rpipe[0], "r");
	if (!rpipeF) {
		perror("fdopen");
		exit(ERROR_UNIX);
	}
	return(0);
}

atinterf_exec_cmd(command, message, callback)
	char *command, *message;
	void (*callback)();
{
	char *nl;

	if (no_target_mode) {
		puts(command);
		if (message)
			puts(message);
		strcpy(at_response, "FOK");
		return(0);
	}
	if (message) {
		fputs("c+m\n", cpipeF);
		fprintf(cpipeF, "%s\n", command);
		fprintf(cpipeF, "%s\n", message);
	} else
		fprintf(cpipeF, "%s\n", command);
	fflush(cpipeF);
	for (;;) {
		if (!fgets(at_response, sizeof at_response, rpipeF)) {
			fprintf(stderr,
				"error reading AT response from back end\n");
			exit(ERROR_RVINTERF);
		}
		nl = index(at_response, '\n');
		if (!nl) {
			fprintf(stderr,
		"error: back end response is too long or unterminated\n");
			exit(ERROR_RVINTERF);
		}
		*nl = '\0';
		switch (at_response[0]) {
		case 'E':
			fprintf(stderr, "error from back end: %s\n",
				at_response + 1);
			exit(ERROR_RVINTERF);
		case 'F':
			return(0);
		case 'I':
			if (callback)
				callback();
			continue;
		}
		fprintf(stderr, "error: invalid response from back end\n");
		exit(ERROR_RVINTERF);
	}
}

atinterf_exec_cmd_needok(command, message, callback)
	char *command, *message;
	void (*callback)();
{
	atinterf_exec_cmd(command, message, callback);
	if (strcmp(at_response+1, "OK")) {
		fprintf(stderr, "AT error: %s\n", at_response+1);
		exit(ERROR_TARGET);
	}
	return(0);
}