mmc.c - chromiumos/third_party/mmc-utils - Git at Google

 /*
  * This program is free software; you can redistribute it and/or
  * modify it under the terms of the GNU General Public
  * License v2 as published by the Free Software Foundation.
  *
  * 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, write to the
  * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
  * Boston, MA 021110-1307, USA.
  *
  * (This code is based on btrfs-progs/btrfs.c.)
  */

 #define _GNU_SOURCE
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>

 #include "mmc_cmds.h"

 #define MMC_VERSION	"0.1"

 #define BASIC_HELP 0
 #define ADVANCED_HELP 1

 typedef int (*CommandFunction)(int argc, char **argv);

 struct Command {
 	CommandFunction	func;	/* function which implements the command */
 	int	nargs;		/* if == 999, any number of arguments
 				   if >= 0, number of arguments,
 				   if < 0, _minimum_ number of arguments */
 	char	*verb;		/* verb */
 	char	*help;		/* help lines; from the 2nd line onward they
 				   are automatically indented */
 	char    *adv_help;      /* advanced help message; from the 2nd line
 				   onward they are automatically indented */

 	/* the following fields are run-time filled by the program */
 	char	**cmds;		/* array of subcommands */
 	int	ncmds;		/* number of subcommand */
 };

 static struct Command commands[] = {
 	/*
 	 *	avoid short commands different for the case only
 	 */
 	{ do_read_extcsd, -1,
 	  "extcsd read", "<device>\n"
 		"Print extcsd data from <device>.",
 	  NULL
 	},
 	{ do_dump_extcsd, -1,
 	  "extcsd dump", "<device>\n"
 		"Print raw extcsd data from <device>.",
 	  NULL
 	},
 	{ do_writeprotect_get, -1,
 	  "writeprotect get", "<device>\n"
 		"Determine the eMMC writeprotect status of <device>.",
 	  NULL
 	},
 	{ do_writeprotect_set, -1,
 	  "writeprotect set", "<device>\n"
 		"Set the eMMC writeprotect status of <device>.\nThis sets the eMMC to be write-protected until next boot.",
 	  NULL
 	},
 	{ do_disable_512B_emulation, -1,
 	  "disable 512B emulation", "<device>\n"
 		"Set the eMMC data sector size to 4KB by disabling emulation on\n<device>.",
 	  NULL
 	},
 	{ do_enh_area_set, -4,
 	  "enh_area set", "<-y|-n> " "<start KiB> " "<length KiB> " "<device>\n"
 		"Enable the enhanced user area for the <device>.\nDry-run only unless -y is passed.\nNOTE!  This is a one-time programmable (unreversible) change.",
 	  NULL
 	},
 	{ do_write_reliability_set, -2,
 	  "write_reliability set", "<-y|-n> " "<partition> " "<device>\n"
 		"Enable write reliability per partition for the <device>.\nDry-run only unless -y is passed.\nNOTE!  This is a one-time programmable (unreversible) change.",
 	  NULL
 	},
 	{ do_status_get, -1,
 	  "status get", "<device>\n"
 	  "Print the response to STATUS_SEND (CMD13).",
 	  NULL
 	},
 	{ do_write_boot_en, -3,
 	  "bootpart enable", "<boot_partition> " "<send_ack> " "<device>\n"
 		"Enable the boot partition for the <device>.\nTo receive acknowledgment of boot from the card set <send_ack>\nto 1, else set it to 0.",
 	  NULL
 	},
 	{ do_write_bkops_en, -1,
 	  "bkops enable", "<device>\n"
 		"Enable the eMMC BKOPS feature on <device>.\nNOTE!  This is a one-time programmable (unreversible) change.",
 	  NULL
 	},
 	{ do_hwreset_en, -1,
 	  "hwreset enable", "<device>\n"
 		"Permanently enable the eMMC H/W Reset feature on <device>.\nNOTE!  This is a one-time programmable (unreversible) change.",
 	  NULL
 	},
 	{ do_hwreset_dis, -1,
 	  "hwreset disable", "<device>\n"
 		"Permanently disable the eMMC H/W Reset feature on <device>.\nNOTE!  This is a one-time programmable (unreversible) change.",
 	  NULL
 	},
 	{ do_sanitize, -1,
 	  "sanitize", "<device>\n"
 		"Send Sanitize command to the <device>.\nThis will delete the unmapped memory region of the device.",
 	  NULL
 	},
 	{ do_emmc50_ffu, -2,
 	  "ffu", "[-k hack_type[:hack_value]] <image name> <device>\n"
 		"run eMMC 5.0 Field firmware update.\n"
 		"Device specific hacks can be specificied.",
 	  NULL
 	},
 	{ 0, 0, 0, 0 }
 };

 static char *get_prgname(char *programname)
 {
 	char	*np;
 	np = strrchr(programname,'/');
 	if (!np)
 		np = programname;
 	else
 		np++;

 	return np;
 }

 static void print_help(char *programname, struct Command *cmd, int helptype)
 {
 	char	*pc;

 	printf("\t%s %s ", programname, cmd->verb);

 	if (helptype == ADVANCED_HELP && cmd->adv_help)
 		for (pc = cmd->adv_help; *pc; pc++) {
 			putchar(*pc);
 			if (*pc == '\n')
 				printf("\t\t");
 		}
 	else
 		for (pc = cmd->help; *pc; pc++) {
 			putchar(*pc);
 			if (*pc == '\n')
 				printf("\t\t");
 		}

 	putchar('\n');
 }

 static void help(char *np)
 {
 	struct Command *cp;

 	printf("Usage:\n");
 	for (cp = commands; cp->verb; cp++)
 		print_help(np, cp, BASIC_HELP);

 	printf("\n\t%s help|--help|-h\n\t\tShow the help.\n",np);
 	printf("\n\t%s <cmd> --help\n\t\tShow detailed help for a command or subset of commands.\n",np);
 	printf("\n%s\n", MMC_VERSION);
 }

 static int split_command(char *cmd, char ***commands)
 {
 	int	c, l;
 	char	*p, *s;

 	for (*commands = 0, l = c = 0, p = s = cmd ; ; p++, l++) {
 		if (*p && *p != ' ')
 			continue;

 		/* c + 2 so that we have room for the null */
 		(*commands) = realloc((*commands), sizeof(char *)*(c + 2));
 		(*commands)[c] = strndup(s, l);
 		c++;
 		l = 0;
 		s = p+1;
 		if (!*p) break;
 	}

 	(*commands)[c] = 0;
 	return c;
 }

 /*
 	This function checks if the passed command is ambiguous
 */
 static int check_ambiguity(struct Command *cmd, char **argv) {
 	int		i;
 	struct Command	*cp;
 	/* check for ambiguity */
 	for (i = 0 ; i < cmd->ncmds ; i++) {
 		int match;
 		for (match = 0, cp = commands; cp->verb; cp++) {
 			int	j, skip;
 			char	*s1, *s2;

 			if (cp->ncmds < i)
 				continue;

 			for (skip = 0, j = 0 ; j < i ; j++)
 				if (strcmp(cmd->cmds[j], cp->cmds[j])) {
 					skip=1;
 					break;
 				}
 			if (skip)
 				continue;

 			if (!strcmp(cmd->cmds[i], cp->cmds[i]))
 				continue;
 			for (s2 = cp->cmds[i], s1 = argv[i+1];
 				*s1 == *s2 && *s1; s1++, s2++) ;
 			if (!*s1)
 				match++;
 		}
 		if (match) {
 			int j;
 			fprintf(stderr, "ERROR: in command '");
 			for (j = 0 ; j <= i ; j++)
 				fprintf(stderr, "%s%s",j?" ":"", argv[j+1]);
 			fprintf(stderr, "', '%s' is ambiguous\n",argv[j]);
 			return -2;
 		}
 	}
 	return 0;
 }

 /*
  * This function, compacts the program name and the command in the first
  * element of the '*av' array
  */
 static int prepare_args(int *ac, char ***av, char *prgname,
 		struct Command *cmd) {

 	char	**ret;
 	int	i;
 	char	*newname;

 	ret = (char **)malloc(sizeof(char*)*(*ac+1));
 	newname = (char*)malloc(strlen(prgname)+strlen(cmd->verb)+2);
 	if (!ret || !newname) {
 		free(ret);
 		free(newname);
 		return -1;
 	}

 	ret[0] = newname;
 	for (i=0; i < *ac ; i++)
 		ret[i+1] = (*av)[i];

 	strcpy(newname, prgname);
 	strcat(newname, " ");
 	strcat(newname, cmd->verb);

 	(*ac)++;
 	*av = ret;

 	return 0;

 }

 /*
 	This function performs the following jobs:
 	- show the help if '--help' or 'help' or '-h' are passed
 	- verify that a command is not ambiguous, otherwise show which
 	  part of the command is ambiguous
 	- if after a (even partial) command there is '--help' show detailed help
 	  for all the matching commands
 	- if the command doesn't match show an error
 	- finally, if a command matches, they return which command matched and
 	  the arguments

 	The function return 0 in case of help is requested; <0 in case
 	of uncorrect command; >0 in case of matching commands
 	argc, argv are the arg-counter and arg-vector (input)
 	*nargs_ is the number of the arguments after the command (output)
 	**cmd_  is the invoked command (output)
 	***args_ are the arguments after the command

 */
 static int parse_args(int argc, char **argv,
 		      CommandFunction *func_,
 		      int *nargs_, char **cmd_, char ***args_)
 {
 	struct Command	*cp;
 	struct Command	*matchcmd=0;
 	char		*prgname = get_prgname(argv[0]);
 	int		i=0, helprequested=0;

 	if (argc < 2 || !strcmp(argv[1], "help") ||
 		!strcmp(argv[1], "-h") || !strcmp(argv[1], "--help")) {
 		help(prgname);
 		return 0;
 	}

 	for (cp = commands; cp->verb; cp++)
 		if (!cp->ncmds)
 			cp->ncmds = split_command(cp->verb, &(cp->cmds));

 	for (cp = commands; cp->verb; cp++) {
 		int     match;

 		if (argc-1 < cp->ncmds)
 			continue;
 		for (match = 1, i = 0 ; i < cp->ncmds ; i++) {
 			char	*s1, *s2;
 			s1 = cp->cmds[i];
 			s2 = argv[i+1];

 			for (s2 = cp->cmds[i], s1 = argv[i+1];
 				*s1 == *s2 && *s1;
 				s1++, s2++) ;
 			if (*s1) {
 				match=0;
 				break;
 			}
 		}

 		/* If you understand why this code works ...
 			you are a genious !! */
 		if (argc>i+1 && !strcmp(argv[i+1],"--help")) {
 			if (!helprequested)
 				printf("Usage:\n");
 			print_help(prgname, cp, ADVANCED_HELP);
 			helprequested=1;
 			continue;
 		}

 		if (!match)
 			continue;

 		matchcmd = cp;
 		*nargs_  = argc-matchcmd->ncmds-1;
 		*cmd_ = matchcmd->verb;
 		*args_ = argv+matchcmd->ncmds+1;
 		*func_ = cp->func;

 		break;
 	}

 	if (helprequested) {
 		printf("\n%s\n", MMC_VERSION);
 		return 0;
 	}

 	if (!matchcmd) {
 		fprintf(stderr, "ERROR: unknown command '%s'\n",argv[1]);
 		help(prgname);
 		return -1;
 	}

 	if (check_ambiguity(matchcmd, argv))
 		return -2;

 	/* check the number of argument */
 	if (matchcmd->nargs < 0 && matchcmd->nargs < -*nargs_) {
 		fprintf(stderr, "ERROR: '%s' requires minimum %d arg(s)\n",
 			matchcmd->verb, -matchcmd->nargs);
 			return -2;
 	}
 	if (matchcmd->nargs >= 0 && matchcmd->nargs != *nargs_ && matchcmd->nargs != 999) {
 		fprintf(stderr, "ERROR: '%s' requires %d arg(s)\n",
 			matchcmd->verb, matchcmd->nargs);
 			return -2;
 	}
 	if (prepare_args(nargs_, args_, prgname, matchcmd)) {
 		fprintf(stderr, "ERROR: not enough memory\\n");
 		return -20;
 	}


 	return 1;
 }
 int main(int ac, char **av)
 {
 	char		*cmd=0, **args=0;
 	int		nargs=0, r;
 	CommandFunction func=0;

 	r = parse_args(ac, av, &func, &nargs, &cmd, &args);
 	if (r <= 0) {
 		/* error or no command to parse*/
 		exit(-r);
 	}

 	exit(func(nargs, args));
 }
	/*
	* This program is free software; you can redistribute it and/or
	* modify it under the terms of the GNU General Public
	* License v2 as published by the Free Software Foundation.
	*
	* 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, write to the
	* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
	* Boston, MA 021110-1307, USA.
	*
	* (This code is based on btrfs-progs/btrfs.c.)
	*/

	#define _GNU_SOURCE
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>

	#include "mmc_cmds.h"

	#define MMC_VERSION "0.1"

	#define BASIC_HELP 0
	#define ADVANCED_HELP 1

	typedef int (CommandFunction)(int argc, char *argv);

	struct Command {
	CommandFunction func; /* function which implements the command */
	int nargs; /* if == 999, any number of arguments
	if >= 0, number of arguments,
	if < 0, _minimum_ number of arguments */
	char verb; / verb */
	char help; / help lines; from the 2nd line onward they
	are automatically indented */
	char adv_help; / advanced help message; from the 2nd line
	onward they are automatically indented */

	/* the following fields are run-time filled by the program */
	char *cmds; / array of subcommands */
	int ncmds; /* number of subcommand */
	};

	static struct Command commands[] = {
	/*
	* avoid short commands different for the case only
	*/
	{ do_read_extcsd, -1,
	"extcsd read", "<device>\n"
	"Print extcsd data from <device>.",
	NULL
	},
	{ do_dump_extcsd, -1,
	"extcsd dump", "<device>\n"
	"Print raw extcsd data from <device>.",
	NULL
	},
	{ do_writeprotect_get, -1,
	"writeprotect get", "<device>\n"
	"Determine the eMMC writeprotect status of <device>.",
	NULL
	},
	{ do_writeprotect_set, -1,
	"writeprotect set", "<device>\n"
	"Set the eMMC writeprotect status of <device>.\nThis sets the eMMC to be write-protected until next boot.",
	NULL
	},
	{ do_disable_512B_emulation, -1,
	"disable 512B emulation", "<device>\n"
	"Set the eMMC data sector size to 4KB by disabling emulation on\n<device>.",
	NULL
	},
	{ do_enh_area_set, -4,
	"enh_area set", "<-y\|-n> " "<start KiB> " "<length KiB> " "<device>\n"
	"Enable the enhanced user area for the <device>.\nDry-run only unless -y is passed.\nNOTE! This is a one-time programmable (unreversible) change.",
	NULL
	},
	{ do_write_reliability_set, -2,
	"write_reliability set", "<-y\|-n> " "<partition> " "<device>\n"
	"Enable write reliability per partition for the <device>.\nDry-run only unless -y is passed.\nNOTE! This is a one-time programmable (unreversible) change.",
	NULL
	},
	{ do_status_get, -1,
	"status get", "<device>\n"
	"Print the response to STATUS_SEND (CMD13).",
	NULL
	},
	{ do_write_boot_en, -3,
	"bootpart enable", "<boot_partition> " "<send_ack> " "<device>\n"
	"Enable the boot partition for the <device>.\nTo receive acknowledgment of boot from the card set <send_ack>\nto 1, else set it to 0.",
	NULL
	},
	{ do_write_bkops_en, -1,
	"bkops enable", "<device>\n"
	"Enable the eMMC BKOPS feature on <device>.\nNOTE! This is a one-time programmable (unreversible) change.",
	NULL
	},
	{ do_hwreset_en, -1,
	"hwreset enable", "<device>\n"
	"Permanently enable the eMMC H/W Reset feature on <device>.\nNOTE! This is a one-time programmable (unreversible) change.",
	NULL
	},
	{ do_hwreset_dis, -1,
	"hwreset disable", "<device>\n"
	"Permanently disable the eMMC H/W Reset feature on <device>.\nNOTE! This is a one-time programmable (unreversible) change.",
	NULL
	},
	{ do_sanitize, -1,
	"sanitize", "<device>\n"
	"Send Sanitize command to the <device>.\nThis will delete the unmapped memory region of the device.",
	NULL
	},
	{ do_emmc50_ffu, -2,
	"ffu", "[-k hack_type[:hack_value]] <image name> <device>\n"
	"run eMMC 5.0 Field firmware update.\n"
	"Device specific hacks can be specificied.",
	NULL
	},
	{ 0, 0, 0, 0 }
	};

	static char get_prgname(char programname)
	{
	char *np;
	np = strrchr(programname,'/');
	if (!np)
	np = programname;
	else
	np++;

	return np;
	}

	static void print_help(char programname, struct Command cmd, int helptype)
	{
	char *pc;

	printf("\t%s %s ", programname, cmd->verb);

	if (helptype == ADVANCED_HELP && cmd->adv_help)
	for (pc = cmd->adv_help; *pc; pc++) {
	putchar(*pc);
	if (*pc == '\n')
	printf("\t\t");
	}
	else
	for (pc = cmd->help; *pc; pc++) {
	putchar(*pc);
	if (*pc == '\n')
	printf("\t\t");
	}

	putchar('\n');
	}

	static void help(char *np)
	{
	struct Command *cp;

	printf("Usage:\n");
	for (cp = commands; cp->verb; cp++)
	print_help(np, cp, BASIC_HELP);

	printf("\n\t%s help\|--help\|-h\n\t\tShow the help.\n",np);
	printf("\n\t%s <cmd> --help\n\t\tShow detailed help for a command or subset of commands.\n",np);
	printf("\n%s\n", MMC_VERSION);
	}

	static int split_command(char cmd, char **commands)
	{
	int c, l;
	char p, s;

	for (*commands = 0, l = c = 0, p = s = cmd ; ; p++, l++) {
	if (p && p != ' ')
	continue;

	/* c + 2 so that we have room for the null */
	(commands) = realloc((commands), sizeof(char )(c + 2));
	(*commands)[c] = strndup(s, l);
	c++;
	l = 0;
	s = p+1;
	if (!*p) break;
	}

	(*commands)[c] = 0;
	return c;
	}

	/*
	This function checks if the passed command is ambiguous
	*/
	static int check_ambiguity(struct Command cmd, char *argv) {
	int i;
	struct Command *cp;
	/* check for ambiguity */
	for (i = 0 ; i < cmd->ncmds ; i++) {
	int match;
	for (match = 0, cp = commands; cp->verb; cp++) {
	int j, skip;
	char s1, s2;

	if (cp->ncmds < i)
	continue;

	for (skip = 0, j = 0 ; j < i ; j++)
	if (strcmp(cmd->cmds[j], cp->cmds[j])) {
	skip=1;
	break;
	}
	if (skip)
	continue;

	if (!strcmp(cmd->cmds[i], cp->cmds[i]))
	continue;
	for (s2 = cp->cmds[i], s1 = argv[i+1];
	s1 == s2 && *s1; s1++, s2++) ;
	if (!*s1)
	match++;
	}
	if (match) {
	int j;
	fprintf(stderr, "ERROR: in command '");
	for (j = 0 ; j <= i ; j++)
	fprintf(stderr, "%s%s",j?" ":"", argv[j+1]);
	fprintf(stderr, "', '%s' is ambiguous\n",argv[j]);
	return -2;
	}
	}
	return 0;
	}

	/*
	* This function, compacts the program name and the command in the first
	* element of the '*av' array
	*/
	static int prepare_args(int ac, char *av, char prgname,
	struct Command *cmd) {

	char **ret;
	int i;
	char *newname;

	ret = (char *)malloc(sizeof(char)(ac+1));
	newname = (char*)malloc(strlen(prgname)+strlen(cmd->verb)+2);
	if (!ret \|\| !newname) {
	free(ret);
	free(newname);
	return -1;
	}

	ret[0] = newname;
	for (i=0; i < *ac ; i++)
	ret[i+1] = (*av)[i];

	strcpy(newname, prgname);
	strcat(newname, " ");
	strcat(newname, cmd->verb);

	(*ac)++;
	*av = ret;

	return 0;

	}

	/*
	This function performs the following jobs:
	- show the help if '--help' or 'help' or '-h' are passed
	- verify that a command is not ambiguous, otherwise show which
	part of the command is ambiguous
	- if after a (even partial) command there is '--help' show detailed help
	for all the matching commands
	- if the command doesn't match show an error
	- finally, if a command matches, they return which command matched and
	the arguments

	The function return 0 in case of help is requested; <0 in case
	of uncorrect command; >0 in case of matching commands
	argc, argv are the arg-counter and arg-vector (input)
	*nargs_ is the number of the arguments after the command (output)
	**cmd_ is the invoked command (output)
	***args_ are the arguments after the command

	*/
	static int parse_args(int argc, char **argv,
	CommandFunction *func_,
	int nargs_, char cmd_, char **args_)
	{
	struct Command *cp;
	struct Command *matchcmd=0;
	char *prgname = get_prgname(argv[0]);
	int i=0, helprequested=0;

	if (argc < 2 \|\| !strcmp(argv[1], "help") \|\|
	!strcmp(argv[1], "-h") \|\| !strcmp(argv[1], "--help")) {
	help(prgname);
	return 0;
	}

	for (cp = commands; cp->verb; cp++)
	if (!cp->ncmds)
	cp->ncmds = split_command(cp->verb, &(cp->cmds));

	for (cp = commands; cp->verb; cp++) {
	int match;

	if (argc-1 < cp->ncmds)
	continue;
	for (match = 1, i = 0 ; i < cp->ncmds ; i++) {
	char s1, s2;
	s1 = cp->cmds[i];
	s2 = argv[i+1];

	for (s2 = cp->cmds[i], s1 = argv[i+1];
	s1 == s2 && *s1;
	s1++, s2++) ;
	if (*s1) {
	match=0;
	break;
	}
	}

	/* If you understand why this code works ...
	you are a genious !! */
	if (argc>i+1 && !strcmp(argv[i+1],"--help")) {
	if (!helprequested)
	printf("Usage:\n");
	print_help(prgname, cp, ADVANCED_HELP);
	helprequested=1;
	continue;
	}

	if (!match)
	continue;

	matchcmd = cp;
	*nargs_ = argc-matchcmd->ncmds-1;
	*cmd_ = matchcmd->verb;
	*args_ = argv+matchcmd->ncmds+1;
	*func_ = cp->func;

	break;
	}

	if (helprequested) {
	printf("\n%s\n", MMC_VERSION);
	return 0;
	}

	if (!matchcmd) {
	fprintf(stderr, "ERROR: unknown command '%s'\n",argv[1]);
	help(prgname);
	return -1;
	}

	if (check_ambiguity(matchcmd, argv))
	return -2;

	/* check the number of argument */
	if (matchcmd->nargs < 0 && matchcmd->nargs < -*nargs_) {
	fprintf(stderr, "ERROR: '%s' requires minimum %d arg(s)\n",
	matchcmd->verb, -matchcmd->nargs);
	return -2;
	}
	if (matchcmd->nargs >= 0 && matchcmd->nargs != *nargs_ && matchcmd->nargs != 999) {
	fprintf(stderr, "ERROR: '%s' requires %d arg(s)\n",
	matchcmd->verb, matchcmd->nargs);
	return -2;
	}
	if (prepare_args(nargs_, args_, prgname, matchcmd)) {
	fprintf(stderr, "ERROR: not enough memory\\n");
	return -20;
	}


	return 1;
	}
	int main(int ac, char **av)
	{
	char cmd=0, *args=0;
	int nargs=0, r;
	CommandFunction func=0;

	r = parse_args(ac, av, &func, &nargs, &cmd, &args);
	if (r <= 0) {
	/* error or no command to parse*/
	exit(-r);
	}

	exit(func(nargs, args));
	}