void
consserve(void)
{
con_session();
cmd_exec("cfs");
cmd_exec("user");
}
void run_cmd(const struct cmd *cmd, int argc, char *argv[], FILE *out) {
/* This function is for launching program that is beging tested with monitoring
* of all function calls and exits.
* Args: *cmd - pointer to the command that will be launched
* argc - the number of arguments passed to pragram
* argv - array of arguments
* out - output file to write profiling info
*/
int res = 0, run = 0;
clock_t begin, end;
set_profiling_mode(DISABLED);
initialize_hashtable();
printf("Initialization...\n");
/*trace_block_hashtable_init();*/
printf("Executing command\n");
begin = clock();
for (run = 0; run < run_count; run++) {
printf ("TBPROF RUN #%d\n", run);
set_profiling_mode(CYG_PROFILING);
res = cmd_exec(cmd, argc, argv);
set_profiling_mode(DISABLED);
}
end = clock();
printf("Program exited with code %d. Time: %0.3lfs. Profiling finished.\n",
res, 1. * (end - begin) / CLOCKS_PER_SEC);
argc++;
cmd = NULL;
print_data_to_file(out);
}
static int netns_exec(int argc, char **argv)
{
/* Setup the proper environment for apps that are not netns
* aware, and execute a program in that environment.
*/
const char *cmd;
if (argc < 1 && !do_all) {
fprintf(stderr, "No netns name specified\n");
return -1;
}
if ((argc < 2 && !do_all) || (argc < 1 && do_all)) {
fprintf(stderr, "No command specified\n");
return -1;
}
if (do_all)
return do_each_netns(on_netns_exec, --argv, 1);
if (netns_switch(argv[0]))
return -1;
/* ip must return the status of the child,
* but do_cmd() will add a minus to this,
* so let's add another one here to cancel it.
*/
cmd = argv[1];
return -cmd_exec(cmd, argv + 1, !!batch_mode);
}
void cmd_remote_handler( int rc, int sock ) {
char* argv[32];
int argc;
IP clientaddr;
socklen_t addrlen_ret;
socklen_t addrlen;
char request[1500];
REPLY reply;
addrlen_ret = sizeof(IP);
rc = recvfrom( sock, request, sizeof(request) - 1, 0, (struct sockaddr*)&clientaddr, &addrlen_ret );
if( rc <= 0 ) {
return;
} else {
request[rc] = '\0';
}
/* Initialize reply and reserve room for return status */
r_init( &reply, false );
r_printf( &reply, "_" );
/* Split up the command line into an argument array */
cmd_to_args( request, &argc, &argv[0], N_ELEMS(argv) );
/* Execute command line */
rc = cmd_exec( &reply, argc, argv );
/* Insert return code */
reply.data[0] = (rc == 0) ? '0' : '1';
addrlen = addr_len( &clientaddr );
rc = sendto( sock, reply.data, reply.size, 0, (struct sockaddr *)&clientaddr, addrlen );
}
int exec_call(void) {
int ecode;
struct task *task = task_self();
const char *path = task_resource_argv_path(task);
const char *cmd_name = exec_cmd_name(path);
const struct shell *sh = shell_lookup(cmd_name);
int c;
char **v;
if (strcmp(cmd_name, path))
task_resource_argv_insert(task, cmd_name, 0);
c = task_resource_argv_argc(task);
v = task_resource_argv_argv(task);
/* FIXME pass argv to shell_exec */
if (sh) {
ecode = shell_run(sh);
} else {
const struct cmd *cmd;
cmd = cmd_lookup(cmd_name);
if (cmd) {
task_self_module_ptr_set(cmd2mod(cmd));
ecode = cmd_exec(cmd, c, v);
} else {
ecode = ENOENT;
}
}
return ecode;
}
int shell (int argc, char *argv[]) {
char *s = malloc(INPUT_STRING_SIZE+1); /* user input string */
char cwd[MAX_FILE_SIZE+1];
tok_t *t; /* tokens parsed from input */
int lineNum = 0;
int fundex = -1;
pid_t pid = getpid(); /* get current processes PID */
pid_t ppid = getppid(); /* get parents PID */
pid_t cpid, tcpid, cpgid;
init_shell();
printf("%s running as PID %d under %d\n",argv[0],pid,ppid);
//getcwd(cwd, MAX_FILE_SIZE);
lineNum=0;
//fprintf(stdout, "%d - %s: ", cwd, lineNum);
while ((s = freadln(stdin))){
t = getToks(s); /* break the line into tokens */
fundex = lookup(t[0]); /* Is first token a shell literal */
if(fundex >= 0) {
cmd_table[fundex].fun(&t[1]);
}
else{
cmd_exec(t);
}
fprintf(stdout, "%d %s: ", ++lineNum, get_current_dir_name());
}
return 0;
}
/*
* Forward forever, or until a highlighted line appears.
*/
static int
forw_loop(int until_hilite)
{
off_t curr_len;
if (ch_getflags() & CH_HELPFILE)
return (A_NOACTION);
cmd_exec();
jump_forw();
curr_len = ch_length();
highest_hilite = until_hilite ? curr_len : -1;
ignore_eoi = 1;
while (!sigs) {
if (until_hilite && highest_hilite > curr_len) {
ring_bell();
break;
}
make_display();
forward(1, 0, 0);
}
ignore_eoi = 0;
ch_set_eof();
/*
* This gets us back in "F mode" after processing
* a non-abort signal (e.g. window-change).
*/
if (sigs && !ABORT_SIGS())
return (until_hilite ? A_F_UNTIL_HILITE : A_F_FOREVER);
return (A_NOACTION);
}
void cmd_console_handler( int rc, int fd ) {
char request[512];
char *req;
REPLY reply;
char *argv[32];
int argc;
if( rc == 0 ) {
return;
}
/* Read line */
req = fgets( request, sizeof(request), stdin );
if( req == NULL ) {
return;
}
/* Split up the command line into an argument array */
cmd_to_args( request, &argc, &argv[0], N_ELEMS(argv) );
/* Initialize reply */
r_init( &reply, true );
/* Execute command line */
rc = cmd_exec( &reply, argc, argv );
if( rc == 0 ) {
fprintf( stdout, "%.*s\n", (int) reply.size, reply.data );
} else {
fprintf( stderr, "%.*s\n", (int) reply.size, reply.data );
}
}
// ****************************************************************
// * The main function puts everything together so that the shell *
// * can work. *
// ****************************************************************
int main(int argc, char **argv, char **envp)
{
int fd, i;
char c;
char *input_str = calloc(BUFFERSIZE, sizeof(char*));
char *cmd = calloc(BUFFERSIZE, sizeof(char*));
// ignore the standard interrupt signal (ctrl+c)
signal(SIGINT, SIG_IGN);
// assign interrupt signal (ctrl+c) to the signal handler function
signal(SIGINT, sig_hdlr);
// prepare screen and fetch necessary data
initilize(envp);
// main loop might be stopped by typing 'quit', 'exit' or by pressing 'ctrl+d'
while(strcmp(input_str, QUIT_CMD) != 0 && strcmp(input_str, EXIT_CMD) != 0 && c != EOF) {
// get input
c = getchar();
// this switch-case statement read and prepare the input string
switch(c) {
case NEWLINE_SYMBOL:
// if no command is inserted, just print the prompt again
if(input_str[0] != NULL_SYMBOL) {
// erase cmd variable
memset(cmd, 0, BUFFERSIZE);
// parse the command line
cmd = prepare_inputs(input_str);
// special case: change directory call
if(strncmp(cmd, CD, 2) == 0) {
cd(inputs[1]);
// all other command calls
} else {
get_cmd_pth(cmd);
cmd_exec(cmd, envp);
}
free_arr(inputs);
}
// print the prompt again after hitting enter
print_prompt();
memset(input_str, 0, BUFFERSIZE);
break;
default:
// prepare the input string
strncat(input_str, &c, 1);
break;
}
}
// free allocated memories
free(cmd);
free(input_str);
free_arr(paths);
// print new line if 'ctrl+d' is pressed
if(c == EOF) printf(NEWLINE_STR);
// end of main
return 0;
}
int main(void)
{
int i;
char outbuf[28];
srand(time(NULL));
for (i = 0; i < sizeof(testvectors) / sizeof(testvectors[0]); i++) {
struct test *t = &testvectors[i];
char *inbuf = malloc(strlen(t->input) + 1);
int k;
/* Reset output buffer with some fuzzy garbage.. */
for (k = 0; k < sizeof(outbuf); k++)
outbuf[k] = rand() % 256;
/* Duplicate string in writable memory for strtok */
strcpy(inbuf, t->input);
cmd_exec(commandlist, inbuf, outbuf, sizeof(outbuf));
if (!strcmp(outbuf, t->expected))
printf("'%s' -> '%s' OK!\n", t->input, outbuf);
else {
printf("'%s' -> '%s' (expected '%s') FAILED!\n", t->input,
outbuf, t->expected);
free(inbuf);
return EXIT_FAILURE;
}
free(inbuf);
}
return EXIT_SUCCESS;
}
/*
* Parses the input into commands and arguments using whitespace
* Then calls the associated function or error
* Maximum number of arguments is 5
*/
void parse(char *in)
{
int argNum = 1;
char *arg, *argArr[6] = {NULL, NULL, NULL, NULL, NULL, NULL};
arg = (char *) malloc(sizeof(char) * (strlen(in) + 1));
/* Parse command */
arg = strtok(in, " \r\n\t");
argArr[0] = arg;
if (argArr[0] == NULL) {
fprintf(stderr, "ERROR: unknown command\n");
return;
}
/* Parse arguments */
arg = strtok(NULL, " \r\n\t");
while (arg != NULL && argNum < 6) {
if (strcmp(arg, " ") && strcmp(arg, "\r")
&& strcmp(arg, "\n")) {
argArr[argNum] = arg;
argNum++;
}
arg = strtok(NULL, " \r\n\t");
}
/* Execute according to command */
if (strcmp(argArr[0], "exit") == 0) {
printf("EXITING SHELL...\n");
exit(EXIT_SUCCESS);
} else if (strcmp(argArr[0], "cd") == 0) {
cmd_cd(argArr[1]);
} else if (strcmp(argArr[0], "pushd") == 0) {
char *oldwd = (char *) malloc(sizeof(char) * strlen(cwd));
strcpy(oldwd, cwd);
if (cmd_cd(argArr[1]) == 0)
dirStack = stackPush(dirStack, oldwd);
} else if (strcmp(argArr[0], "popd") == 0) {
if (dirStack != NULL) {
cmd_cd(dirStack->str);
dirStack = stackPop(dirStack);
} else {
fprintf(stderr, "ERROR: stack is empty\n");
}
} else if (strcmp(argArr[0], "dirs") == 0) {
stackPrint(dirStack);
} else if (strcmp(argArr[0], "path") == 0) {
if (argArr[1] == NULL && argArr[1] == NULL)
listPrint(pathStack);
else if (strcmp(argArr[1], "+") == 0)
pathFind(1, argArr[2]);
else if (strcmp(argArr[1], "-") == 0)
pathFind(-1, argArr[2]);
else
fprintf(stderr, "ERROR: bad flag: %s\n", argArr[1]);
} else {
cmd_exec(argArr, argNum);
}
};
static void serve(int client){
int n;
struct cmd_t cmd;
n = read(client, (void *) &cmd, sizeof(cmd));
if (n != sizeof(cmd)) return;
cmd_exec(client, cmd);
}
int main(){
char line[100], token[10][20] = {"","","","","","","","","",""};
char* temp;
int i = 0, newlineChecker = 0;
while(scanf("%[^\n]\n", line) != EOF){
struct command_t command;
for(i = 0; i < 10; i++){
strcpy(token[i], "");
}
for(i = 0; i < 10; i++){
strcpy(command.token[i], "");
}
temp = strtok(line, " ");
i = 0;
while(temp != 0 && i < 10){
strcpy(token[i], temp);
i++;
temp = strtok(NULL, " ");
}
i = 0;
while(strcmp(token[i], "") != 0){
strcpy(command.token[i], token[i]);
i++;
}
if(newlineChecker != 0)
printf("\n");
int errCode = 0;
if((errCode = cmd_exec(&command)) == 0){
if(command.result != 42)
printf("%d", command.result);
else
printf("the answer to life, the universe and everything else");
}
else{
if(errCode == -1)
printf("operation not supported");
if(errCode == -2)
printf("invalid command argument count");
if(errCode == -3)
printf("invalid command arguments");
if(errCode == -4)
printf("invalid input");
if(errCode == -5)
printf("invalid arithmetic operation");
}
newlineChecker = 1;
}
return 0;
}
/*
* process to synch blocks
* it puts out a block/line every second
* it waits 10 seconds if catches up.
* in both cases, it takes about 10 seconds
* to get up-to-date.
*
* it also updates the filter stats
* and executes commands
*/
void
syncproc(void)
{
char buf[4*1024];
Filter *ft;
uint32_t c0, c1;
int32_t t, n, d;
int i, p[2];
/*
* make a pipe for commands
*/
if(pipe(p) < 0)
panic("command pipe");
sprint(buf, "#s/%s.cmd", service);
srvfd(buf, cmdmode, p[0]);
close(p[0]);
cmdfd = p[1];
notify(catchalarm);
t = time(nil);
for(;;){
i = syncblock();
alarmed = 0;
alarm(i ? 1000: 10000);
n = read(cmdfd, buf, sizeof buf - 1);
if(n <= 0 && !alarmed)
sleep(i ? 1000: 10000);
alarm(0);
if(n > 0){
buf[n] = '\0';
if(cmd_exec(buf))
fprint(cmdfd, "done");
else
fprint(cmdfd, "unknown command");
}
n = time(nil);
d = n - t;
if(d < 0 || d > 5*60)
d = 0;
while(d >= 1) {
d -= 1;
for(i=0; i<f.nfilter; i++) {
ft = f.filters[i];
c0 = ft->count;
c1 = c0 - ft->oldcount;
ft->oldcount = c0;
ft->filter[0] = famd(ft->filter[0], c1, 59, 60);
ft->filter[1] = famd(ft->filter[1], c1, 599, 600);
ft->filter[2] = famd(ft->filter[2], c1, 5999, 6000);
}
}
t = n;
}
}
// ****************************************************************
// * This function clears the screen, for our new shell to open *
// * and prints the prompt for the first time. *
// * Also, it gets all the paths where the system commands may be *
// * stored, by calling get_paths(). *
// ****************************************************************
void initilize(char **envp)
{
char *cmd = calloc(BUFFERSIZE, sizeof(char*));
get_paths(envp);
cmd = prepare_inputs(CLEAR);
get_cmd_pth(cmd);
cmd_exec(cmd, envp);
sig_hdlr(0);
free_arr(inputs);
}
int
cmd_list_exec(struct cmd_list *cmdlist, struct cmd_ctx *ctx)
{
struct cmd *cmd;
int n;
TAILQ_FOREACH(cmd, cmdlist, qentry) {
if ((n = cmd_exec(cmd, ctx)) != 0)
return (n);
}
return (0);
}
int shell(FILE * f, const char * (* prompt)(void),
void (* greeting)(FILE *),
const struct shell_cmd * cmd_tab)
{
char hist_buf[SIZEOF_CMD_HISTORY + SHELL_HISTORY_MAX * SHELL_LINE_MAX];
char line[SHELL_LINE_MAX];
struct cmd_history * history;
int ret = 0;
DCC_LOG(LOG_TRACE, "history_init()");
history = history_init(hist_buf, sizeof(hist_buf), SHELL_LINE_MAX);
if (greeting)
greeting(f);
do {
char * stat;
char * cp;
fprintf(f, "%s", prompt());
if (history_readline(history, f, line, SHELL_LINE_MAX) == NULL)
return -1;
if ((cp = shell_stripline(line)) == NULL)
continue;
history_add(history, cp);
cp = line;
ret = 0;
while ((stat = cmd_get_next(&cp)) != NULL) {
struct shell_cmd * cmd;
if ((cmd = cmd_lookup(cmd_tab, stat)) == NULL) {
fprintf(f, "Command not found!\n");
break;
}
ret = cmd_exec(f, cmd, stat);
if ((ret < 0) && (ret != SHELL_ABORT)) {
fprintf(f, "Error: %d\n", -ret);
break;
}
}
} while (ret != SHELL_ABORT);
return 0;
}
/********************************************************************
* モニタコマンド受信と実行.
********************************************************************
*/
void ProcessIO(void)
{
// 返答パケットが空であること、かつ、
// 処理対象の受信データがある.
{ //if((ToPcRdy == 0)) {
//受信データがあれば、受信データを受け取る.
PacketToPC.raw[0]=Cmd0; // CMD ECHOBACK
#if APPLICATION_MODE
#if PICAVR_WRITER
//コマンドに対応する処理を呼び出す.
if(Cmd0 >= HIDASP_PAGE_TX) {cmd_avrspx();} // AVRライターコマンド.
else
#endif
if(Cmd0 >= PICSPX_SETADRS24){cmd_picspx();} // PICライターコマンド.
else
#endif
switch(Cmd0) {
case HIDASP_PEEK: {cmd_peek();break;} // メモリー読み出し.
case HIDASP_POKE: {cmd_poke();break;} // メモリー書き込み.
case HIDASP_JMP: {cmd_exec(
BSWAP32(PacketFromPC.adrs),BSWAP16(PacketFromPC.size)
);
break;} // 実行.
case HIDASP_PAGE_ERASE:{cmd_page_erase();break;} //Flash消去.
case HIDASP_PAGE_WRITE:{cmd_page_write();break;} //Flash書込.
case HIDASP_FLASH_LOCK:{cmd_flash_lock();break;} //FlashLock.
case HIDASP_SET_MODE: {cmd_set_mode();break;}
case HIDASP_SAMPLING: {cmd_sampling();break;}
case HIDASP_TEST: {cmd_echo();break;} // 接続テスト.
#if APPLICATION_MODE
case HIDASP_GET_STRING:{cmd_get_string();break;}
case HIDASP_USER_CMD: {cmd_user_cmd();break;}
#endif
default: break;
}
}
// 必要なら、返答パケットをインタラプト転送(EP1)でホストPCに返却する.
if( ToPcRdy ) {
USBputpacket(PacketToPC.raw,PACKET_SIZE);
ToPcRdy = 0;
if(poll_mode!=0) {
if(mHIDRxIsBusy()) { //コマンドが来ない限り送り続ける.
make_report();
}
}
}
}
void cmd_server(t_cmd *c, t_req *r)
{
int pid;
int signal;
if (!(pid = fork()))
{
write(1, PROMPT_RES, strlen(PROMPT_RES));
cmd_exec(c, r);
exit(0);
}
wait(&signal);
}
static sw_error_t
cmd_run_one(char *cmd_str)
{
a_uint32_t *arg_list;
int cmd_index = 0, cmd_index_sub = 0;
if ((arg_list = cmd_parse(cmd_str, &cmd_index, &cmd_index_sub)) != NULL)
{
cmd_exec(arg_list, cmd_index, cmd_index_sub);
}
return SW_OK;
}
int main(int argc, char *argv[]) {
struct ihf_msg *msg = NULL;
uint8_t *req = NULL;
int ret = 0;
int len;
req = malloc(sizeof(char) * BUFMAX);
if (!req) {
fprintf(stderr, "cannot allocate receiving request buffer !\n");
ret = -1;
goto exit;
}
len = read(STDIN_FILENO, req, BUFMAX);
msg = msg_unpack(req, len);
if (!msg) {
fprintf(stderr, "error unpacking message\n");
ret = -1;
goto exit;
}
switch (msg->type) {
case MSG_TYPE_INIT:
cmd_init();
break;
case MSG_TYPE_KILL:
cmd_kill();
break;
case MSG_TYPE_EXEC:
cmd_exec(msg->arg, msg->arglen);
break;
case MSG_TYPE_READ:
cmd_read();
break;
case MSG_TYPE_WRITE:
cmd_write(msg->arg, msg->arglen);
break;
default:
fprintf(stderr, "unknown request type %d\n", msg->type);
ret = -1;
goto exit;
}
exit:
if (req)
free(req);
if (msg)
free(msg);
return ret;
}
static void loop()
{
char *line;
char *argv[SHELL_ARGS_MAX_NUM];
int argc;
while (!is_exit) {
line = readline(CONFIG_PROMPT);
argc = cmd_parse(line, argv, SHELL_ARGS_MAX_NUM);
if (argc <= 0)
continue;
cmd_exec(argc, argv);
}
}
void cmd_system(int argc, char * argv[])
{
pid_t fork_pid;
signal(SIGCHLD, &sig_chld_ignore);
if((fork_pid = fork()) != 0)
{
while(waitpid(fork_pid, NULL, WNOHANG) <= 0)
usleep(300);
} else {
cmd_exec(argc, argv);
exit(0);
}
signal(SIGCHLD, &sig_chld_waitpid);
}
int system_start(void) {
const char *command;
char *argv[10];
int argc;
const struct cmd *cmd;
setup_tty(OPTION_STRING_GET(tty_dev));
array_foreach(command, script_commands, ARRAY_SIZE(script_commands)) {
argc = cmdline_tokenize((char *)command, argv);
if (0 == strncmp(argv[0], "pthread", 7)) {
cmd = cmd_lookup(argv[1]);
continue;
}
cmd = cmd_lookup(argv[0]);
cmd_exec(cmd, argc, argv);
}
/**
* Execute a command line and display its output.
*
* @param conn The connection to lldpd.
* @param fmt Output format.
* @param line Line to execute.
* @return -1 if an error occurred, 0 if nothing was executed. 1 otherwise.
*/
static int
parse_and_exec(lldpctl_conn_t *conn, const char *fmt, const char *line)
{
int cargc = 0; char **cargv = NULL;
int n;
log_debug("lldpctl", "tokenize command line");
n = tokenize_line(line, &cargc, &cargv);
switch (n) {
case -1:
log_warnx("lldpctl", "internal error while tokenizing");
return -1;
case 1:
log_warnx("lldpctl", "unmatched quotes");
return -1;
}
if (cargc == 0) return 0;
n = cmd_exec(conn, fmt, cargc, (const char **)cargv);
tokenize_free(cargc, cargv);
return (n == 0)?-1:1;
}
int untar(char* path,char* untarPath){
if(checkWritingFolder(untarPath)){
char* str = (char*)leash_malloc(strlen("tar -zxf ")+strlen(path)+strlen(" -C ")+strlen(untarPath)+10);
sprintf(str,"tar -zxf %s -C %s",path, untarPath);
Cmd* cmdUntar = cmd_init(str);
free(str);
cmd_exec(cmdUntar);
if(cmdUntar->result){
printf("Erreur untar\n");
exit(1);
}
cmd_dest(cmdUntar);
}else{
printf("folder read_only/not exists\n");
return 3;
}
return 0;
}
int start(int ac, char *av[])
{
if(ac < 3) {
usage();
return 0;
}
char *cmd = av[1];
ac-=2;
av+=2;
if(strncmp(cmd,"type",5)==0)
return cmd_type(ac, av);
if(strncmp(cmd,"dir",4)==0)
return cmd_dir(ac, av);
if(strncmp(cmd,"stat",5)==0)
return cmd_stat(ac, av);
if(strncmp(cmd,"exec",5)==0)
return cmd_exec(ac, av);
usage();
return 0;
}
/*************************************
* eif_away
*
* The main routine.
*/
void
eif_away()
{
/* Stuff for the readline. */
(void) rl_unbind_key(17); /* Ctrl-Q */
(void) rl_unbind_key(19); /* Ctrl-S */
/* initialize signal handling */
(void) signal(SIGQUIT, eif_sigdebug); /* Debugging */
(void) signal(SIGALRM, SIG_IGN);
(void) signal(SIGPIPE, eif_pipe);
(void) signal(SIGINT, eif_interrupt);
/* We want ^C to abort system calls. */
/* siginterrupt(SIGINT, 1); */
prt("\nWelcome to EIF\n");
prt("Empire Interface Version " VERSION "\n\n");
/*
* The problem with this is that the file is not actually executed
* here. It is executed in the commandloop(). This just sets it up
* for input as an exec file.
*/
if (cntl.st.readstartup) {
cmd_exec(cntl.st.startupf, 2);
}
/* Only allow up to 100 commands in history */
stifle_history(100);
/* Install readline event hook */
rl_event_hook = (Function *)event_hook;
while (1)
commandloop();
}
/********************************************************************
* モニタコマンド受信と実行.
********************************************************************
*/
void ProcessIO(void)
{
// 返答パケットが空であること、かつ、
// 処理対象の受信データがある.
if((ToPcRdy == 0) && (USBHandleBusy(USBGenericOutHandle)==0) ) {
//受信データがあれば、受信データを受け取る.
memcpy64((char*)&PacketFromPC,(char*)OUTPacket);
//次の読み込みを発行する.
USBGenericOutHandle = USBGenRead(USBGEN_EP_NUM,(BYTE*)&OUTPacket
,USBGEN_EP_SIZE);
PacketToPC.raw[0]=Cmd0; // CMD ECHOBACK
//コマンドに対応する処理を呼び出す.
if(Cmd0==HIDASP_PEEK) {cmd_peek();} // メモリー読み出し.
else if(Cmd0==HIDASP_POKE) {cmd_poke();} // メモリー書き込み.
else if(Cmd0==HIDASP_JMP) {cmd_exec();} // 実行.
else if(Cmd0==HIDASP_TEST) {cmd_echo();} // 接続テスト.
else if(Cmd0==HIDASP_GET_STRING){cmd_get_string();}
else if(Cmd0==HIDASP_USER_CMD) {cmd_user_cmd();}
else if(Cmd0==HIDASP_SET_MODE) {cmd_set_mode();}
}
// 必要なら、返答パケットをバルク転送(EP1)でホストPCに返却する.
if( ToPcRdy ) {
if(!USBHandleBusy(USBGenericInHandle)) {
memcpy64(INPacket,(char*)&PacketToPC);
USBGenericInHandle=USBGenWrite(USBGEN_EP_NUM,(BYTE*)INPacket,USBGEN_EP_SIZE);
ToPcRdy = 0;
if(poll_mode!=0) {
if( USBHandleBusy(USBGenericOutHandle) ) {//コマンドが来ない限り送り続ける.
make_report();
}
}
}
}
}
void
GameEvent(CORE_DATA *cd)
{
switch (cd->event) {
case EVENT_START:
RegisterPlugin(OPENCORE_VERSION, CORE_NAME, "cycad", OPENCORE_VERSION, __DATE__, __TIME__, "core handler", 0, 0);
register_commands();
break;
case EVENT_COMMAND:
switch (cd->cmd_id) {
case CMD_DIE: cmd_die(cd); break;
case CMD_STOPBOT: cmd_stopbot(cd); break;
case CMD_GETFILE: cmd_getfile(cd); break;
case CMD_PUTFILE: cmd_putfile(cd); break;
case CMD_LISTBOTS: cmd_listbots(cd); break;
case CMD_TYPES: cmd_types(cd); break;
case CMD_LOADTYPES: cmd_loadtypes(cd); break;
case CMD_LOG: cmd_log(cd); break;
case CMD_CMDLOG: cmd_cmdlog(cd); break;
case CMD_ABOUT: cmd_about(cd); break;
case CMD_INSLIB: cmd_inslib(cd); break;
case CMD_RMLIB: cmd_rmlib(cd); break;
case CMD_HELP: cmd_help(cd); break;
case CMD_SYSINFO: cmd_sysinfo(cd); break;
case CMD_LOADOPS: cmd_loadops(cd); break;
case CMD_LISTOPS: cmd_listops(cd); break;
case CMD_EXEC: cmd_exec(cd); break;
case CMD_STARTBOT: cmd_startbot(cd); break;
case CMD_GO: cmd_go(cd); break;
default: break;
}
break;
default:
break;
}
}
