/*
* Copyright (C) 2006 Michael Brown <mbrown@fensystems.co.uk>.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of the
* License, or any later version.
*
* 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., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include <stddef.h>
#include <string.h>
#include <vsprintf.h>
#include <errno.h>
#include <assert.h>
#include <byteswap.h>
#include <gpxe/scsi.h>
#include <gpxe/process.h>
#include <gpxe/iscsi.h>
/** @file
*
* iSCSI protocol
*
*/
static void iscsi_start_tx ( struct iscsi_session *iscsi );
static void iscsi_start_data_out ( struct iscsi_session *iscsi,
unsigned int datasn );
/****************************************************************************
*
* iSCSI SCSI command issuing
*
*/
/**
* Build iSCSI SCSI command BHS
*
* @v iscsi iSCSI session
*
* We don't currently support bidirectional commands (i.e. with both
* Data-In and Data-Out segments); these would require providing code
* to generate an AHS, and there doesn't seem to be any need for it at
* the moment.
*/
static void iscsi_start_command ( struct iscsi_session *iscsi ) {
struct iscsi_bhs_scsi_command *command = &iscsi->tx_bhs.scsi_command;
assert ( ! ( iscsi->command->data_in && iscsi->command->data_out ) );
/* Construct BHS and initiate transmission */
iscsi_start_tx ( iscsi );
command->opcode = ISCSI_OPCODE_SCSI_COMMAND;
command->flags = ( ISCSI_FLAG_FINAL |
ISCSI_COMMAND_ATTR_SIMPLE );
if ( iscsi->command->data_in )
command->flags |= ISCSI_COMMAND_FLAG_READ;
if ( iscsi->command->data_out )
command->flags |= ISCSI_COMMAND_FLAG_WRITE;
/* lengths left as zero */
command->lun = iscsi->lun;
command->itt = htonl ( ++iscsi->itt );
command->exp_len = htonl ( iscsi->command->data_in_len |
iscsi->command->data_out_len );
command->cmdsn = htonl ( iscsi->cmdsn );
command->expstatsn = htonl ( iscsi->statsn + 1 );
memcpy ( &command->cdb, &iscsi->command->cdb, sizeof ( command->cdb ));
}
/**
* Receive data segment of an iSCSI SCSI response PDU
*
* @v iscsi iSCSI session
* @v data Received data
* @v len Length of received data
* @v remaining Data remaining after this data
*
*/
static void iscsi_rx_scsi_response ( struct iscsi_session *iscsi, void *data,
size_t len, size_t remaining ) {
struct iscsi_bhs_scsi_response *response
= &iscsi->rx_bhs.scsi_response;
int sense_offset;
/* Capture the sense response code as it floats past, if present */
sense_offset = ISCSI_SENSE_RESPONSE_CODE_OFFSET - iscsi->rx_offset;
if ( ( sense_offset >= 0 ) && len ) {
iscsi->command->sense_response =
* ( ( char * ) data + sense_offset );
}
/* Wait for whole SCSI response to arrive */
if ( remaining )
return;
/* Record SCSI status code */
iscsi->command->status = response->status;
/* Mark as completed, with error if applicable */
iscsi->status |= ISCSI_STATUS_DONE;
if ( response->response != ISCSI_RESPONSE_COMMAND_COMPLETE )
iscsi->status |= ISCSI_STATUS_ERR;
}
/**
* Receive data segment of an iSCSI data-in PDU
*
* @v iscsi iSCSI session
* @v data Received data
* @v len Length of received data
* @v remaining Data remaining after this data
*
*/
static void iscsi_rx_data_in ( struct iscsi_session *iscsi, void *data,
size_t len, size_t remaining __unused ) {
struct iscsi_bhs_data_in *data_in = &iscsi->rx_bhs.data_in;
unsigned long offset;
/* Copy data to data-in buffer */
offset = ntohl ( data_in->offset ) + iscsi->rx_offset;
assert ( iscsi->command != NULL );
assert ( iscsi->command->data_in != NULL );
assert ( ( offset + len ) <= iscsi->command->data_in_len );
memcpy ( ( iscsi->command->data_in + offset ), data, len );
/* Record SCSI status, if present */
if ( data_in->flags & ISCSI_DATA_FLAG_STATUS )
iscsi->command->status = data_in->status;
/* If this is the end, flag as complete */
if ( ( offset + len ) == iscsi->command->data_in_len ) {
assert ( data_in->flags & ISCSI_FLAG_FINAL );
assert ( remaining == 0 );
iscsi->status |= ISCSI_STATUS_DONE;
}
}
/**
* Receive data segment of an iSCSI R2T PDU
*
* @v iscsi iSCSI session
* @v data Received data
* @v len Length of received data
* @v remaining Data remaining after this data
*
*/
static void iscsi_rx_r2t ( struct iscsi_session *iscsi, void *data __unused,
size_t len __unused, size_t remaining __unused ) {
struct iscsi_bhs_r2t *r2t = &iscsi->rx_bhs.r2t;
/* Record transfer parameters and trigger first data-out */
iscsi->ttt = ntohl ( r2t->ttt );
iscsi->transfer_offset = ntohl ( r2t->offset );
iscsi->transfer_len = ntohl ( r2t->len );
iscsi_start_data_out ( iscsi, 0 );
}
/**
* Build iSCSI data-out BHS
*
* @v iscsi iSCSI session
* @v datasn Data sequence number within the transfer
*
*/
static void iscsi_start_data_out ( struct iscsi_session *iscsi,
unsigned int datasn ) {
struct iscsi_bhs_data_out *data_out = &iscsi->tx_bhs.data_out;
unsigned long offset;
unsigned long remaining;
unsigned long len;
/* We always send 512-byte Data-Out PDUs; this removes the
* need to worry about the target's MaxRecvDataSegmentLength.
*/
offset = datasn * 512;
remaining = iscsi->transfer_len - offset;
len = remaining;
if ( len > 512 )
len = 512;
/* Construct BHS and initiate transmission */
iscsi_start_tx ( iscsi );
data_out->opcode = ISCSI_OPCODE_DATA_OUT;
if ( len == remaining )
data_out->flags = ( ISCSI_FLAG_FINAL );
ISCSI_SET_LENGTHS ( data_out->lengths, 0, len );
data_out->lun = iscsi->lun;
data_out->itt = htonl ( iscsi->itt );
data_out->ttt = htonl ( iscsi->ttt );
data_out->expstatsn = htonl ( iscsi->statsn + 1 );
data_out->datasn = htonl ( datasn );
data_out->offset = htonl ( iscsi->transfer_offset + offset );
}
/**
* Complete iSCSI data-out PDU transmission
*
* @v iscsi iSCSI session
*
*/
static void iscsi_data_out_done ( struct iscsi_session *iscsi ) {
struct iscsi_bhs_data_out *data_out = &iscsi->tx_bhs.data_out;
/* If we haven't reached the end of the sequence, start
* sending the next data-out PDU.
*/
if ( ! ( data_out->flags & ISCSI_FLAG_FINAL ) )
iscsi_start_data_out ( iscsi, ntohl ( data_out->datasn ) + 1 );
}
/**
* Send iSCSI data-out data segment
*
* @v iscsi iSCSI session
*/
static void iscsi_tx_data_out ( struct iscsi_session *iscsi ) {
struct iscsi_bhs_data_out *data_out = &iscsi->tx_bhs.data_out;
unsigned long offset;
unsigned long len;
offset = ( iscsi->transfer_offset + ntohl ( data_out->offset ) +
iscsi->tx_offset );
len = ( ISCSI_DATA_LEN ( data_out->lengths ) - iscsi->tx_offset );
assert ( iscsi->command != NULL );
assert ( iscsi->command->data_out != NULL );
assert ( ( offset + len ) <= iscsi->command->data_out_len );
tcp_send ( &iscsi->tcp, iscsi->command->data_out + offset, len );
}
/****************************************************************************
*
* iSCSI login
*
*/
/**
* Build iSCSI login request strings
*
* @v iscsi iSCSI session
*
* These are the initial set of strings sent in the first login
* request PDU. We want the following settings:
*
* HeaderDigest=None
* DataDigest=None
* MaxConnections is irrelevant; we make only one connection anyway
* InitialR2T=Yes (default) [1]
* ImmediateData is irrelevant; we never send immediate data
* MaxRecvDataSegmentLength=8192 (default)
* MaxBurstLength=262144 (default)
* FirstBurstLength=262144 (default)
* DefaultTime2Wait=0 [2]
* DefaultTime2Retain=0 [2]
* MaxOutstandingR2T=1 (default)
* DataPDUInOrder=Yes (default)
* DataSequenceInOrder=Yes (default)
* ErrorRecoveryLevel=0 (default)
*
* [1] InitialR2T has an OR resolution function, so the target may
* force us to use it. We therefore simplify our logic by always
* using it.
*
* [2] These ensure that we can safely start a new task once we have
* reconnected after a failure, without having to manually tidy up
* after the old one.
*/
static int iscsi_build_login_request_strings ( struct iscsi_session *iscsi,
void *data, size_t len ) {
return snprintf ( data, len,
"InitiatorName=%s%c"
"TargetName=%s%c"
"SessionType=Normal%c"
"DataDigest=None%c"
"HeaderDigest=None%c"
"DefaultTime2Wait=0%c"
"DefaultTime2Retain=0%c",
iscsi->initiator, 0, iscsi->target, 0,
0, 0, 0, 0, 0 );
}
/**
* Build iSCSI login request BHS
*
* @v iscsi iSCSI session
* @v first Login request is the first in a sequence
*/
static void iscsi_start_login ( struct iscsi_session *iscsi, int first ) {
struct iscsi_bhs_login_request *request = &iscsi->tx_bhs.login_request;
int len;
/* Construct BHS and initiate transmission */
iscsi_start_tx ( iscsi );
request->opcode = ( ISCSI_OPCODE_LOGIN_REQUEST |
ISCSI_FLAG_IMMEDIATE );
request->flags = ( ISCSI_LOGIN_FLAG_TRANSITION |
ISCSI_LOGIN_CSG_OPERATIONAL_NEGOTIATION |
ISCSI_LOGIN_NSG_FULL_FEATURE_PHASE );
/* version_max and version_min left as zero */
if ( first ) {
len = iscsi_build_login_request_strings ( iscsi, NULL, 0 );
ISCSI_SET_LENGTHS ( request->lengths, 0, len );
}
request->isid_iana_en = htonl ( ISCSI_ISID_IANA |
IANA_EN_FEN_SYSTEMS );
/* isid_iana_qual left as zero */
request->tsih = htons ( iscsi->tsih );
if ( first )
iscsi->itt++;
request->itt = htonl ( iscsi->itt );
/* cid left as zero */
request->cmdsn = htonl ( iscsi->cmdsn );
request->expstatsn = htonl ( iscsi->statsn + 1 );
}
/**
* Transmit data segment of an iSCSI login request PDU
*
* @v iscsi iSCSI session
*
* For login requests, the data segment consists of the login strings.
*/
static void iscsi_tx_login_request ( struct iscsi_session *iscsi ) {
int len;
len = iscsi_build_login_request_strings ( iscsi, tcp_buffer,
tcp_buflen );
tcp_send ( &iscsi->tcp, tcp_buffer + iscsi->tx_offset,
len - iscsi->tx_offset );
}
/**
* Receive data segment of an iSCSI login response PDU
*
* @v iscsi iSCSI session
* @v data Received data
* @v len Length of received data
* @v remaining Data remaining after this data
*
*/
static void iscsi_rx_login_response ( struct iscsi_session *iscsi,
void *data __unused,
size_t len __unused,
size_t remaining __unused ) {
struct iscsi_bhs_login_response *response
= &iscsi->rx_bhs.login_response;
/* Check for fatal errors */
if ( response->status_class != 0 ) {
printf ( "iSCSI login failure: class %02x detail %02x\n",
response->status_class, response->status_detail );
iscsi->status |= ( ISCSI_STATUS_DONE | ISCSI_STATUS_ERR );
tcp_close ( &iscsi->tcp );
return;
}
/* If server did not transition, send back another login
* request without any login strings.
*/
if ( ! ( response->flags & ISCSI_LOGIN_FLAG_TRANSITION ) ) {
iscsi_start_login ( iscsi, 0 );
return;
}
/* Record TSIH for future reference */
iscsi->tsih = ntohl ( response->tsih );
/* Send the SCSI command */
iscsi_start_command ( iscsi );
}
/****************************************************************************
*
* iSCSI to TCP interface
*
*/
static inline struct iscsi_session *
tcp_to_iscsi ( struct tcp_connection *conn ) {
return container_of ( conn, struct iscsi_session, tcp );
}
/**
* Start up a new TX PDU
*
* @v iscsi iSCSI session
*
* This initiates the process of sending a new PDU. Only one PDU may
* be in transit at any one time.
*/
static void iscsi_start_tx ( struct iscsi_session *iscsi ) {
assert ( iscsi->tx_state == ISCSI_TX_IDLE );
/* Initialise TX BHS */
memset ( &iscsi->tx_bhs, 0, sizeof ( iscsi->tx_bhs ) );
/* Flag TX engine to start transmitting */
iscsi->tx_state = ISCSI_TX_BHS;
iscsi->tx_offset = 0;
}
/**
* Transmit data segment of an iSCSI PDU
*
* @v iscsi iSCSI session
*
* Handle transmission of part of a PDU data segment. iscsi::tx_bhs
* will be valid when this is called.
*/
static void iscsi_tx_data ( struct iscsi_session *iscsi ) {
struct iscsi_bhs_common *common = &iscsi->tx_bhs.common;
switch ( common->opcode & ISCSI_OPCODE_MASK ) {
case ISCSI_OPCODE_DATA_OUT:
iscsi_tx_data_out ( iscsi );
break;
case ISCSI_OPCODE_LOGIN_REQUEST:
iscsi_tx_login_request ( iscsi );
break;
default:
assert ( 0 );
break;
}
}
/**
* Complete iSCSI PDU transmission
*
* @v iscsi iSCSI session
*
* Called when a PDU has been completely transmitted and the TX state
* machine is about to enter the idle state. iscsi::tx_bhs will be
* valid for the just-completed PDU when this is called.
*/
static void iscsi_tx_done ( struct iscsi_session *iscsi ) {
struct iscsi_bhs_common *common = &iscsi->tx_bhs.common;
switch ( common->opcode & ISCSI_OPCODE_MASK ) {
case ISCSI_OPCODE_DATA_OUT:
iscsi_data_out_done ( iscsi );
default:
/* No action */
break;
}
}
/**
* Handle TCP ACKs
*
* @v iscsi iSCSI session
*
* Updates iscsi->tx_offset and, if applicable, transitions to the
* next TX state.
*/
static void iscsi_acked ( struct tcp_connection *conn, size_t len ) {
struct iscsi_session *iscsi = tcp_to_iscsi ( conn );
struct iscsi_bhs_common *common = &iscsi->tx_bhs.common;
size_t max_tx_offset;
enum iscsi_tx_state next_state;
iscsi->tx_offset += len;
while ( 1 ) {
switch ( iscsi->tx_state ) {
case ISCSI_TX_BHS:
max_tx_offset = sizeof ( iscsi->tx_bhs );
next_state = ISCSI_TX_AHS;
break;
case ISCSI_TX_AHS:
max_tx_offset = 4 * ISCSI_AHS_LEN ( common->lengths );
next_state = ISCSI_TX_DATA;
break;
case ISCSI_TX_DATA:
max_tx_offset = ISCSI_DATA_LEN ( common->lengths );
next_state = ISCSI_TX_DATA_PADDING;
break;
case ISCSI_TX_DATA_PADDING:
max_tx_offset = ISCSI_DATA_PAD_LEN ( common->lengths );
next_state = ISCSI_TX_IDLE;
break;
case ISCSI_TX_IDLE:
return;
default:
assert ( 0 );
return;
}
assert ( iscsi->tx_offset <= max_tx_offset );
/* If the whole of the current portion has not yet
* been acked, stay in this state for now.
*/
if ( iscsi->tx_offset != max_tx_offset )
return;
/* Move to next state. Call iscsi_tx_done() when PDU
* transmission is complete.
*/
iscsi->tx_state = next_state;
iscsi->tx_offset = 0;
if ( next_state == ISCSI_TX_IDLE )
iscsi_tx_done ( iscsi );
}
}
/**
* Transmit iSCSI PDU
*
* @v iscsi iSCSI session
*
* Constructs data to be sent for the current TX state
*/
static void iscsi_senddata ( struct tcp_connection *conn ) {
struct iscsi_session *iscsi = tcp_to_iscsi ( conn );
struct iscsi_bhs_common *common = &iscsi->tx_bhs.common;
static const char pad[] = { '\0', '\0', '\0' };
switch ( iscsi->tx_state ) {
case ISCSI_TX_IDLE:
/* Nothing to send */
break;
case ISCSI_TX_BHS:
tcp_send ( conn, &iscsi->tx_bhs.bytes[iscsi->tx_offset],
( sizeof ( iscsi->tx_bhs ) - iscsi->tx_offset ) );
break;
case ISCSI_TX_AHS:
/* We don't yet have an AHS transmission mechanism */
assert ( 0 );
break;
case ISCSI_TX_DATA:
iscsi_tx_data ( iscsi );
break;
case ISCSI_TX_DATA_PADDING:
tcp_send ( conn, pad, ( ISCSI_DATA_PAD_LEN ( common->lengths )
- iscsi->tx_offset ) );
break;
default:
assert ( 0 );
break;
}
}
/**
* Receive data segment of an iSCSI PDU
*
* @v iscsi iSCSI session
* @v data Received data
* @v len Length of received data
* @v remaining Data remaining after this data
*
* Handle processing of part of a PDU data segment. iscsi::rx_bhs
* will be valid when this is called.
*/
static void iscsi_rx_data ( struct iscsi_session *iscsi, void *data,
size_t len, size_t remaining ) {
struct iscsi_bhs_common_response *response
= &iscsi->rx_bhs.common_response;
/* Update cmdsn and statsn */
iscsi->cmdsn = ntohl ( response->expcmdsn );
iscsi->statsn = ntohl ( response->statsn );
switch ( response->opcode & ISCSI_OPCODE_MASK ) {
case ISCSI_OPCODE_LOGIN_RESPONSE:
iscsi_rx_login_response ( iscsi, data, len, remaining );
break;
case ISCSI_OPCODE_SCSI_RESPONSE:
iscsi_rx_scsi_response ( iscsi, data, len, remaining );
break;
case ISCSI_OPCODE_DATA_IN:
iscsi_rx_data_in ( iscsi, data, len, remaining );
break;
case ISCSI_OPCODE_R2T:
iscsi_rx_r2t ( iscsi, data, len, remaining );
break;
default:
printf ( "Unknown iSCSI opcode %02x\n", response->opcode );
iscsi->status |= ( ISCSI_STATUS_DONE | ISCSI_STATUS_ERR );
break;
}
}
/**
* Discard portion of an iSCSI PDU.
*
* @v iscsi iSCSI session
* @v data Received data
* @v len Length of received data
* @v remaining Data remaining after this data
*
* This discards data from a portion of a received PDU.
*/
static void iscsi_rx_discard ( struct iscsi_session *iscsi __unused,
void *data __unused, size_t len __unused,
size_t remaining __unused ) {
/* Do nothing */
}
/**
* Receive basic header segment of an iSCSI PDU
*
* @v iscsi iSCSI session
* @v data Received data
* @v len Length of received data
* @v remaining Data remaining after this data
*
* This fills in iscsi::rx_bhs with the data from the BHS portion of
* the received PDU.
*/
static void iscsi_rx_bhs ( struct iscsi_session *iscsi, void *data,
size_t len, size_t remaining __unused ) {
memcpy ( &iscsi->rx_bhs.bytes[iscsi->rx_offset], data, len );
}
/**
* Receive new data
*
* @v tcp TCP connection
* @v data Received data
* @v len Length of received data
*
* This handles received PDUs. The receive strategy is to fill in
* iscsi::rx_bhs with the contents of the BHS portion of the PDU,
* throw away any AHS portion, and then process each part of the data
* portion as it arrives. The data processing routine therefore
* always has a full copy of the BHS available, even for portions of
* the data in different packets to the BHS.
*/
static void iscsi_newdata ( struct tcp_connection *conn, void *data,
size_t len ) {
struct iscsi_session *iscsi = tcp_to_iscsi ( conn );
struct iscsi_bhs_common *common = &iscsi->rx_bhs.common;
void ( *process ) ( struct iscsi_session *iscsi, void *data,
size_t len, size_t remaining );
size_t max_rx_offset;
enum iscsi_rx_state next_state;
size_t frag_len;
size_t remaining;
while ( 1 ) {
switch ( iscsi->rx_state ) {
case ISCSI_RX_BHS:
process = iscsi_rx_bhs;
max_rx_offset = sizeof ( iscsi->rx_bhs );
next_state = ISCSI_RX_AHS;
break;
case ISCSI_RX_AHS:
process = iscsi_rx_discard;
max_rx_offset = 4 * ISCSI_AHS_LEN ( common->lengths );
next_state = ISCSI_RX_DATA;
break;
case ISCSI_RX_DATA:
process = iscsi_rx_data;
max_rx_offset = ISCSI_DATA_LEN ( common->lengths );
next_state = ISCSI_RX_DATA_PADDING;
break;
case ISCSI_RX_DATA_PADDING:
process = iscsi_rx_discard;
max_rx_offset = ISCSI_DATA_PAD_LEN ( common->lengths );
next_state = ISCSI_RX_BHS;
break;
default:
assert ( 0 );
return;
}
frag_len = max_rx_offset - iscsi->rx_offset;
if ( frag_len > len )
frag_len = len;
remaining = max_rx_offset - iscsi->rx_offset - frag_len;
process ( iscsi, data, frag_len, remaining );
iscsi->rx_offset += frag_len;
data += frag_len;
len -= frag_len;
/* If all the data for this state has not yet been
* received, stay in this state for now.
*/
if ( iscsi->rx_offset != max_rx_offset )
return;
iscsi->rx_state = next_state;
iscsi->rx_offset = 0;
}
}
/**
* Handle TCP connection closure
*
* @v conn TCP connection
* @v status Error code, if any
*
*/
static void iscsi_closed ( struct tcp_connection *conn, int status __unused ) {
struct iscsi_session *iscsi = tcp_to_iscsi ( conn );
/* Clear connected flag */
iscsi->status &= ~ISCSI_STATUS_CONNECTED;
/* Retry connection if within the retry limit, otherwise fail */
if ( ++iscsi->retry_count <= ISCSI_MAX_RETRIES ) {
tcp_connect ( conn );
} else {
printf ( "iSCSI retry count exceeded\n" );
iscsi->status |= ( ISCSI_STATUS_DONE | ISCSI_STATUS_ERR );
}
}
/**
* Handle TCP connection opening
*
* @v conn TCP connection
*
*/
static void iscsi_connected ( struct tcp_connection *conn ) {
struct iscsi_session *iscsi = tcp_to_iscsi ( conn );
/* Set connected flag and reset retry count */
iscsi->status |= ISCSI_STATUS_CONNECTED;
iscsi->retry_count = 0;
/* Prepare to receive PDUs. */
iscsi->rx_state = ISCSI_RX_BHS;
iscsi->rx_offset = 0;
/* Start logging in */
iscsi_start_login ( iscsi, 1 );
}
/** iSCSI TCP operations */
static struct tcp_operations iscsi_tcp_operations = {
.closed = iscsi_closed,
.connected = iscsi_connected,
.acked = iscsi_acked,
.newdata = iscsi_newdata,
.senddata = iscsi_senddata,
};
/**
* Issue SCSI command via iSCSI session
*
* @v iscsi iSCSI session
* @v command SCSI command
* @ret rc Return status code
*/
int iscsi_issue ( struct iscsi_session *iscsi,
struct scsi_command *command ) {
iscsi->command = command;
iscsi->status &= ~( ISCSI_STATUS_DONE | ISCSI_STATUS_ERR );
if ( iscsi->status & ISCSI_STATUS_CONNECTED ) {
iscsi_start_command ( iscsi );
} else {
iscsi->tcp.tcp_op = &iscsi_tcp_operations;
tcp_connect ( &iscsi->tcp );
}
while ( ! ( iscsi->status & ISCSI_STATUS_DONE ) ) {
step();
}
iscsi->command = NULL;
return ( ( iscsi->status & ISCSI_STATUS_ERR ) ? -EIO : 0 );
}
