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view rvinterf/etmsync/fileio.c @ 992:a7b0b426f9ca

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target-utils: boot ROM UART autodetection revamped The new implementation should work with both the familiar Calypso C035 boot ROM version found in our regular targets as well as the older Calypso F741979B version found on the vintage D-Sample board.
author Mychaela Falconia <falcon@ivan.Harhan.ORG>
date Wed, 30 Dec 2015 21:28:41 +0000
parents d1333db6385f
children
line wrap: on
line source

/*
 * FFS2 file descriptor I/O operations
 */

#include <sys/types.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <strings.h>
#include "etm.h"
#include "ffs.h"
#include "ffserr.h"
#include "tmffs2.h"
#include "limits.h"
#include "localtypes.h"
#include "localstruct.h"
#include "exitcodes.h"

extern u_char rvi_msg[];
extern int rvi_msg_len;

fd_open(pathname, flags, fdrtn)
	char *pathname;
	int flags, *fdrtn;
{
	u_char cmdpkt[MAX_PKT_TO_TARGET], *dp;
	int rc, slen;

	slen = strlen(pathname);
	if (slen >= TMFFS_STRING_SIZE) {
		printf("error: pathname arg exceeds string length limit\n");
		return(ERROR_USAGE);
	}
	dp = cmdpkt + 1;
	*dp++ = ETM_FFS2;
	*dp++ = TMFFS_OPEN;
	*dp++ = slen + 1;
	strcpy(dp, pathname);
	dp += slen + 1;
	*dp++ = flags;
	rc = etm_pkt_exch(cmdpkt, dp - cmdpkt - 1);
	if (rc)
		return(rc);
	if (rvi_msg[3]) {
		report_ffs_err("open fd", rvi_msg[3]);
		return(ERROR_TARGET);
	}
	if (rvi_msg_len != 6) {
		printf("error: open fd response has wrong length\n");
		return(ERROR_TARGET);
	}
	*fdrtn = rvi_msg[4];
	return(0);
}

fd_read(fd, databuf, rdsize, rdret)
	u_char *databuf;
	int fd, rdsize, *rdret;
{
	u_char cmdpkt[6];
	int rc, sz;

	if (rdsize > MAX_READ_DATA) {
		printf("error: # of bytes to read may not exceed %d\n",
			MAX_READ_DATA);
		return(ERROR_USAGE);
	}
	cmdpkt[1] = ETM_FFS2;
	cmdpkt[2] = TMFFS_READ;
	cmdpkt[3] = fd;
	cmdpkt[4] = rdsize;
	rc = etm_pkt_exch(cmdpkt, 4);
	if (rc)
		return(rc);
	if (rvi_msg[3]) {
		report_ffs_err("read fd", rvi_msg[3]);
		return(ERROR_TARGET);
	}
	if (rvi_msg_len < 6) {
		*rdret = 0;
		return(0);
	}
	sz = rvi_msg[4];
	if (rvi_msg_len != sz + 6 || sz > rdsize) {
		printf("error: read fd response has wrong length\n");
		return(ERROR_TARGET);
	}
	bcopy(rvi_msg + 5, databuf, sz);
	*rdret = sz;
	return(0);
}

fd_write(fd, data, wrsize)
	u_char *data;
{
	u_char cmdpkt[MAX_PKT_TO_TARGET], *dp;
	int rc;

	if (wrsize > MAX_PKT_TO_TARGET - 6) {
		printf("error: fd write data fails to fit in the packet\n");
		return(ERROR_USAGE);
	}
	dp = cmdpkt + 1;
	*dp++ = ETM_FFS2;
	*dp++ = TMFFS_WRITE;
	*dp++ = fd;
	*dp++ = wrsize;
	bcopy(data, dp, wrsize);
	dp += wrsize;
	rc = etm_pkt_exch(cmdpkt, dp - cmdpkt - 1);
	if (rc)
		return(rc);
	if (rvi_msg[3]) {
		report_ffs_err("fd write", rvi_msg[3]);
		return(ERROR_TARGET);
	}
	if (rvi_msg_len != 6) {
		printf("error: TMFFS_WRITE response has wrong length\n");
		return(ERROR_TARGET);
	}
	if (rvi_msg[4] != wrsize) {
		printf("fd write error: # of bytes written != requested\n");
		return(ERROR_TARGET);
	}
	return(0);
}

fd_close(fd)
{
	u_char cmdpkt[5];
	int rc;

	cmdpkt[1] = ETM_FFS2;
	cmdpkt[2] = TMFFS_CLOSE;
	cmdpkt[3] = fd;
	rc = etm_pkt_exch(cmdpkt, 3);
	if (rc)
		return(rc);
	if (rvi_msg[3]) {
		report_ffs_err("close fd", rvi_msg[3]);
		return(ERROR_TARGET);
	}
	if (rvi_msg_len != 5) {
		printf("error: close fd response has wrong length\n");
		return(ERROR_TARGET);
	}
	return(0);
}

do_file_read(pathname, databuf, rdsize, rdret)
	char *pathname;
	u_char *databuf;
	int rdsize, *rdret;
{
	u_char cmdpkt[MAX_PKT_TO_TARGET], *dp;
	int rc, slen, sz;

	slen = strlen(pathname);
	if (slen >= TMFFS_STRING_SIZE) {
		printf("error: pathname arg exceeds string length limit\n");
		return(ERROR_USAGE);
	}
	if (rdsize > MAX_READ_DATA) {
		printf("error: # of bytes to read may not exceed %d\n",
			MAX_READ_DATA);
		return(ERROR_USAGE);
	}
	dp = cmdpkt + 1;
	*dp++ = ETM_FFS2;
	*dp++ = TMFFS_FILE_READ;
	*dp++ = slen + 1;
	strcpy(dp, pathname);
	dp += slen + 1;
	*dp++ = rdsize;
	rc = etm_pkt_exch(cmdpkt, dp - cmdpkt - 1);
	if (rc)
		return(rc);
	if (rvi_msg[3]) {
		report_ffs_err("read file", rvi_msg[3]);
		return(ERROR_TARGET);
	}
	if (rvi_msg_len < 6) {
		*rdret = 0;
		return(0);
	}
	sz = rvi_msg[4];
	if (rvi_msg_len != sz + 6 || sz > rdsize) {
		printf("error: read file response has wrong length\n");
		return(ERROR_TARGET);
	}
	bcopy(rvi_msg + 5, databuf, sz);
	*rdret = sz;
	return(0);
}

max_short_file_write(pathname)
	char *pathname;
{
	return MAX_PKT_TO_TARGET - 3 - (strlen(pathname) + 2) - 3;
}

do_short_fwrite(pathname, data, datalen)
	char *pathname;
	u_char *data;
{
	u_char cmdpkt[MAX_PKT_TO_TARGET], *dp;
	int rc, slen;

	slen = strlen(pathname);
	if (slen >= TMFFS_STRING_SIZE) {
		printf("error: pathname arg exceeds string length limit\n");
		return(ERROR_USAGE);
	}
	if (datalen > max_short_file_write(pathname)) {
		printf("error: short write data fails to fit in the packet\n");
		return(ERROR_USAGE);
	}
	dp = cmdpkt + 1;
	*dp++ = ETM_FFS2;
	*dp++ = TMFFS_FILE_WRITE;
	*dp++ = slen + 1;
	strcpy(dp, pathname);
	dp += slen + 1;
	*dp++ = datalen;
	bcopy(data, dp, datalen);
	dp += datalen;
	*dp++ = FFS_O_CREATE | FFS_O_TRUNC;
	rc = etm_pkt_exch(cmdpkt, dp - cmdpkt - 1);
	if (rc)
		return(rc);
	if (rvi_msg_len != 5) {
		printf("error: TMFFS_FILE_WRITE response has wrong length\n");
		return(ERROR_TARGET);
	}
	if (rvi_msg[3]) {
		report_ffs_err("short file write", rvi_msg[3]);
		return(ERROR_TARGET);
	}
	return(0);
}

do_opendir(pathname, statertn, countrtn)
	char *pathname;
	u_char *statertn;
	int *countrtn;
{
	u_char cmdpkt[MAX_PKT_TO_TARGET], *dp;
	int rc, slen;

	slen = strlen(pathname);
	if (slen >= TMFFS_STRING_SIZE) {
		printf("error: pathname arg exceeds string length limit\n");
		return(ERROR_USAGE);
	}
	dp = cmdpkt + 1;
	*dp++ = ETM_FFS2;
	*dp++ = TMFFS_OPENDIR;
	*dp++ = slen + 1;
	strcpy(dp, pathname);
	dp += slen + 1;
	rc = etm_pkt_exch(cmdpkt, dp - cmdpkt - 1);
	if (rc)
		return(rc);
	if (rvi_msg[3]) {
		report_ffs_err("opendir", rvi_msg[3]);
		return(ERROR_TARGET);
	}
	if (rvi_msg_len != 11 || rvi_msg[5] != 4) {
		printf("error: opendir response has wrong length\n");
		return(ERROR_TARGET);
	}
	*countrtn = rvi_msg[4];
	bcopy(rvi_msg + 6, statertn, 4);
	return(0);
}

do_readdir(state, namebuf, namebuflen)
	u_char *state;
	char *namebuf;
{
	u_char cmdpkt[10];
	int rc, slen;

	cmdpkt[1] = ETM_FFS2;
	cmdpkt[2] = TMFFS_READDIR;
	cmdpkt[3] = 4;
	bcopy(state, cmdpkt+4, 4);
	cmdpkt[8] = TMFFS_STRING_SIZE;
	rc = etm_pkt_exch(cmdpkt, 8);
	if (rc)
		return(rc);
	if (rvi_msg[3]) {
		report_ffs_err("readdir", rvi_msg[3]);
		return(ERROR_TARGET);
	}
	if (rvi_msg_len < 14) {
malformed:	printf("error: readdir response is malformed\n");
		return(ERROR_TARGET);
	}
	if (rvi_msg[5] != 4)
		goto malformed;
	slen = rvi_msg[10];
	if (slen < 2 || rvi_msg_len != slen + 12)
		goto malformed;
	if (slen > namebuflen) {
		printf("error: readdir response exceeds provided buffer\n");
		return(ERROR_TARGET);
	}
	if (rvi_msg[11 + slen - 1])	/* must be terminating NUL */
		goto malformed;
	bcopy(rvi_msg + 6, state, 4);
	strcpy(namebuf, rvi_msg + 11);
	return(0);
}

do_xlstat(pathname, result)
	char *pathname;
	struct stat_info *result;
{
	u_char cmdpkt[MAX_PKT_TO_TARGET], *dp;
	int rc, slen;

	slen = strlen(pathname);
	if (slen >= TMFFS_STRING_SIZE) {
		printf("error: pathname arg exceeds string length limit\n");
		return(ERROR_USAGE);
	}
	dp = cmdpkt + 1;
	*dp++ = ETM_FFS2;
	*dp++ = TMFFS_XLSTAT;
	*dp++ = slen + 1;
	strcpy(dp, pathname);
	dp += slen + 1;
	rc = etm_pkt_exch(cmdpkt, dp - cmdpkt - 1);
	if (rc)
		return(rc);
	if (rvi_msg[3]) {
		report_ffs_err("xlstat", rvi_msg[3]);
		return(ERROR_TARGET);
	}
	if (rvi_msg_len != 30 || rvi_msg[4] != 24) {
		printf("error: xlstat response has wrong length\n");
		return(ERROR_TARGET);
	}
	result->type = rvi_msg[5];
	result->flags = rvi_msg[6];
	result->inode = rvi_msg[7] | rvi_msg[8] << 8;
	result->size = rvi_msg[9] | rvi_msg[10] << 8 | rvi_msg[11] << 16 |
			rvi_msg[12] << 24;
	result->space = rvi_msg[13] | rvi_msg[14] << 8 | rvi_msg[15] << 16 |
			rvi_msg[16] << 24;
	result->location = rvi_msg[17] | rvi_msg[18] << 8 | rvi_msg[19] << 16 |
				rvi_msg[20] << 24;
	result->block = rvi_msg[22];
	result->sequence = rvi_msg[23] | rvi_msg[24] << 8;
	result->updates = rvi_msg[25] | rvi_msg[26] << 8;
	return(0);
}

do_mkdir_existok(pathname)
	char *pathname;
{
	u_char cmdpkt[MAX_PKT_TO_TARGET], *dp;
	int rc, slen;
	struct stat_info stat;

	slen = strlen(pathname);
	if (slen >= TMFFS_STRING_SIZE) {
		printf("error: pathname arg exceeds string length limit\n");
		return(ERROR_USAGE);
	}
	dp = cmdpkt + 1;
	*dp++ = ETM_FFS2;
	*dp++ = TMFFS_MKDIR;
	*dp++ = slen + 1;
	strcpy(dp, pathname);
	dp += slen + 1;
	rc = etm_pkt_exch(cmdpkt, dp - cmdpkt - 1);
	if (rc)
		return(rc);
	if (rvi_msg_len != 5) {
		printf("error: mkdir response has wrong length\n");
		return(ERROR_TARGET);
	}
	if (!rvi_msg[3])	/* success */
		return(0);
	if (rvi_msg[3] != TMFFS_ERR_EXISTS) {
		report_ffs_err("mkdir", rvi_msg[3]);
		return(ERROR_TARGET);
	}
	/* object already exists: OK if it's a directory, error otherwise */
	rc = do_xlstat(pathname, &stat);
	if (rc)
		return(rc);
	if (stat.type == OT_DIR)
		return(0);
	else {
		printf("error: %s exists and is not a directory\n", pathname);
		return(ERROR_TARGET);
	}
}