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android / platform / external / mmc-utils / refs/heads/nougat-iot-release / . / mmc.c
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/*
* 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_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_create_gp_partition, -6,
"gp create", "<-y|-n> " "<length KiB> " "<partition> " "<enh_attr> " "<ext_attr> " "<device>\n"
"create general purpose partition for the <device>.\nDry-run only unless -y is passed.\nNOTE! This is a one-time programmable (unreversible) change.\nTo set enhanced attribute to general partition being created set\n <enh_attr> to 1 else set it to 0.\nTo set extended attribute to general partition\n set <ext_attr> to 1,2 else set it to 0",
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_boot_bus_conditions_set, -4,
"bootbus set", "<boot_mode> " "<reset_boot_bus_conditions> " "<boot_bus_width> " "<device>\n"
"Set Boot Bus Conditions.\n"
"<boot_mode> must be \"single_backward|single_hs|dual\"\n"
"<reset_boot_bus_conditions> must be \"x1|retain\"\n"
"<boot_bus_width> must be \"x1|x4|x8\"",
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_rpmb_write_key, -1,
"rpmb write-key", "<rpmb device> <key file>\n"
"Program authentication key which is 32 bytes length and stored\n"
"in the specified file. Also you can specify '-' instead of\n"
"key file path to read the key from stdin.\n"
"NOTE! This is a one-time programmable (unreversible) change.\n"
"Example:\n"
" $ echo -n AAAABBBBCCCCDDDDEEEEFFFFGGGGHHHH | \\\n"
" mmc rpmb write-key /dev/mmcblk0rpmb -",
NULL
},
{ do_rpmb_read_counter, -1,
"rpmb read-counter", "<rpmb device>\n"
"Counter value for the <rpmb device> will be read to stdout.",
NULL
},
{ do_rpmb_read_block, -1,
"rpmb read-block", "<rpmb device> <address> <blocks count> <output file> [key file]\n"
"Blocks of 256 bytes will be read from <rpmb device> to output\n"
"file or stdout if '-' is specified. If key is specified - read\n"
"data will be verified. Instead of regular path you can specify\n"
"'-' to read key from stdin.\n"
"Example:\n"
" $ echo -n AAAABBBBCCCCDDDDEEEEFFFFGGGGHHHH | \\\n"
" mmc rpmb read-block /dev/mmcblk0rpmb 0x02 2 /tmp/block -\n"
"or read two blocks without verification\n"
" $ mmc rpmb read-block /dev/mmcblk0rpmb 0x02 2 /tmp/block",
NULL
},
{ do_rpmb_write_block, -1,
"rpmb write-block", "<rpmb device> <address> <256 byte data file> <key file>\n"
"Block of 256 bytes will be written from data file to\n"
"<rpmb device>. Also you can specify '-' instead of key\n"
"file path or data file to read the data from stdin.\n"
"Example:\n"
" $ (awk 'BEGIN {while (c++<256) printf \"a\"}' | \\\n"
" echo -n AAAABBBBCCCCDDDDEEEEFFFFGGGGHHHH) | \\\n"
" mmc rpmb write-block /dev/mmcblk0rpmb 0x02 - -",
NULL
},
{ do_cache_en, -1,
"cache enable", "<device>\n"
"Enable the eMMC cache feature on <device>.\n"
"NOTE! The cache is an optional feature on devices >= eMMC4.5.",
NULL
},
{ do_cache_dis, -1,
"cache disable", "<device>\n"
"Disable the eMMC cache feature on <device>.\n"
"NOTE! The cache is an optional feature on devices >= eMMC4.5.",
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));
}