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tcmur_cmd_handler.c
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tcmur_cmd_handler.c
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/*
* Copyright (c) 2017 Red Hat, Inc.
*
* This file is licensed to you under your choice of the GNU Lesser
* General Public License, version 2.1 or any later version (LGPLv2.1 or
* later), or the Apache License 2.0.
*/
#define _GNU_SOURCE
#include <scsi/scsi.h>
#include <errno.h>
#include <inttypes.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include "ccan/list/list.h"
#include "darray.h"
#include "libtcmu.h"
#include "libtcmu_log.h"
#include "libtcmu_priv.h"
#include "libtcmu_common.h"
#include "tcmur_aio.h"
#include "tcmur_device.h"
#include "tcmu-runner.h"
#include "tcmu_runner_priv.h"
#include "tcmur_cmd_handler.h"
#include "alua.h"
static void _cleanup_spin_lock(void *arg)
{
pthread_spin_unlock(arg);
}
void tcmur_tcmulib_cmd_complete(struct tcmu_device *dev,
struct tcmulib_cmd *cmd, int rc)
{
struct tcmur_device *rdev = tcmu_dev_get_private(dev);
struct tcmur_cmd *tcmur_cmd = cmd->hm_private;
struct timespec curr_time;
pthread_cleanup_push(_cleanup_spin_lock, (void *)&rdev->lock);
pthread_spin_lock(&rdev->lock);
if (tcmur_cmd->timed_out) {
if (tcmur_get_time(dev, &curr_time)) {
tcmu_dev_info(dev, "Timed out command id %hu completed with status %d.\n",
cmd->cmd_id, rc);
} else {
tcmu_dev_info(dev, "Timed out command id %hu completed after %f seconds with status %d.\n",
cmd->cmd_id,
difftime(curr_time.tv_sec,
tcmur_cmd->start_time.tv_sec),
rc);
}
}
list_del(&tcmur_cmd->cmds_list_entry);
tcmulib_command_complete(dev, cmd, rc);
pthread_spin_unlock(&rdev->lock);
pthread_cleanup_pop(0);
}
static void aio_command_finish(struct tcmu_device *dev, struct tcmulib_cmd *cmd,
int rc)
{
struct tcmur_device *rdev = tcmu_dev_get_private(dev);
int wake_up;
tcmur_tcmulib_cmd_complete(dev, cmd, rc);
track_aio_request_finish(rdev, &wake_up);
while (wake_up) {
tcmulib_processing_complete(dev);
track_aio_wakeup_finish(rdev, &wake_up);
}
}
void tcmur_cmd_complete(struct tcmu_device *dev, void *data, int rc)
{
struct tcmur_cmd *tcmur_cmd = data;
tcmur_cmd->done(dev, tcmur_cmd, rc);
}
static void tcmur_cmd_iovec_reset(struct tcmur_cmd *tcmur_cmd,
size_t data_length)
{
tcmur_cmd->iovec->iov_base = tcmur_cmd->iov_base_copy;
tcmur_cmd->iovec->iov_len = data_length;
}
static void tcmur_cmd_state_free(struct tcmur_cmd *tcmur_cmd)
{
free(tcmur_cmd->cmd_state);
}
static int tcmur_cmd_state_init(struct tcmur_cmd *tcmur_cmd, int state_length,
size_t data_length)
{
void *state;
int iov_length = 0;
if (data_length)
iov_length = data_length + sizeof(struct iovec);
state = calloc(1, state_length + iov_length);
if (!state)
return -ENOMEM;
tcmur_cmd->cmd_state = state;
tcmur_cmd->requested = data_length;
if (data_length) {
struct iovec *iov = state + state_length;
iov->iov_base = iov + 1;
iov->iov_len = data_length;
tcmur_cmd->iov_base_copy = iov->iov_base;
tcmur_cmd->iov_cnt = 1;
tcmur_cmd->iovec = iov;
}
return 0;
}
static inline int check_iovec_length(struct tcmu_device *dev,
struct tcmulib_cmd *cmd, uint32_t sectors)
{
size_t iov_length = tcmu_iovec_length(cmd->iovec, cmd->iov_cnt);
if (iov_length != tcmu_lba_to_byte(dev, sectors)) {
tcmu_dev_err(dev, "iov len mismatch: iov len %zu, xfer len %u, block size %u\n",
iov_length, sectors, tcmu_dev_get_block_size(dev));
return TCMU_STS_HW_ERR;
}
return TCMU_STS_OK;
}
static inline int check_lbas(struct tcmu_device *dev,
uint64_t start_lba, uint64_t lba_cnt)
{
uint64_t dev_last_lba = tcmu_dev_get_num_lbas(dev);
if (start_lba + lba_cnt > dev_last_lba || start_lba + lba_cnt < start_lba) {
tcmu_dev_err(dev, "cmd exceeds last lba %"PRIu64" (lba %"PRIu64", xfer len %"PRIu64")\n",
dev_last_lba, start_lba, lba_cnt);
return TCMU_STS_RANGE;
}
return TCMU_STS_OK;
}
static int check_lba_and_length(struct tcmu_device *dev,
struct tcmulib_cmd *cmd, uint32_t sectors)
{
uint8_t *cdb = cmd->cdb;
uint64_t start_lba = tcmu_cdb_get_lba(cdb);
int ret;
ret = check_iovec_length(dev, cmd, sectors);
if (ret)
return ret;
ret = check_lbas(dev, start_lba, sectors);
if (ret)
return ret;
return TCMU_STS_OK;
}
static void handle_generic_cbk(struct tcmu_device *dev,
struct tcmur_cmd *tcmur_cmd, int ret)
{
aio_command_finish(dev, tcmur_cmd->lib_cmd, ret);
}
static int read_work_fn(struct tcmu_device *dev, void *data)
{
struct tcmur_handler *rhandler = tcmu_get_runner_handler(dev);
struct tcmur_cmd *tcmur_cmd = data;
struct tcmulib_cmd *cmd = tcmur_cmd->lib_cmd;
return rhandler->read(dev, tcmur_cmd, cmd->iovec, cmd->iov_cnt,
tcmu_iovec_length(cmd->iovec, cmd->iov_cnt),
tcmu_cdb_to_byte(dev, cmd->cdb));
}
static int write_work_fn(struct tcmu_device *dev, void *data)
{
struct tcmur_handler *rhandler = tcmu_get_runner_handler(dev);
struct tcmur_cmd *tcmur_cmd = data;
struct tcmulib_cmd *cmd = tcmur_cmd->lib_cmd;
return rhandler->write(dev, tcmur_cmd, cmd->iovec, cmd->iov_cnt,
tcmu_iovec_length(cmd->iovec, cmd->iov_cnt),
tcmu_cdb_to_byte(dev, cmd->cdb));
}
struct unmap_state {
pthread_mutex_t lock;
unsigned int refcount;
int status;
};
struct unmap_descriptor {
uint64_t offset;
uint64_t length;
};
static int unmap_init(struct tcmu_device *dev, struct tcmulib_cmd *cmd)
{
struct tcmur_cmd *tcmur_cmd = cmd->hm_private;
struct unmap_state *state;
int ret;
if (tcmur_cmd_state_init(tcmur_cmd, sizeof(*state), 0))
return TCMU_STS_NO_RESOURCE;
state = tcmur_cmd->cmd_state;
ret = pthread_mutex_init(&state->lock, NULL);
if (ret == -1) {
tcmu_dev_err(dev, "Failed to init spin lock in state!\n");
ret = TCMU_STS_HW_ERR;
goto out_free_state;
}
/* released by allocator when done submitting unmaps */
state->refcount = 1;
state->status = TCMU_STS_OK;
return TCMU_STS_OK;
out_free_state:
tcmur_cmd_state_free(tcmur_cmd);
return ret;
}
static void unmap_put(struct tcmu_device *dev, struct tcmulib_cmd *cmd,
int ret)
{
struct tcmur_cmd *tcmur_cmd = cmd->hm_private;
struct unmap_state *state = tcmur_cmd->cmd_state;
int status;
pthread_mutex_lock(&state->lock);
if (state->status != TCMU_STS_OK && ret)
state->status = ret;
if (--state->refcount > 0) {
pthread_mutex_unlock(&state->lock);
return;
}
status = state->status;
pthread_mutex_unlock(&state->lock);
pthread_mutex_destroy(&state->lock);
tcmur_cmd_state_free(tcmur_cmd);
aio_command_finish(dev, cmd, status);
}
static void handle_unmap_cbk(struct tcmu_device *dev,
struct tcmur_cmd *tcmur_ucmd, int ret)
{
struct unmap_descriptor *desc = tcmur_ucmd->cmd_state;
struct tcmulib_cmd *cmd = tcmur_ucmd->lib_cmd;
free(desc);
free(tcmur_ucmd);
unmap_put(dev, cmd, ret);
}
static int unmap_work_fn(struct tcmu_device *dev, void *data)
{
struct tcmur_handler *rhandler = tcmu_get_runner_handler(dev);
struct tcmur_cmd *tcmur_ucmd = data;
struct unmap_descriptor *desc = tcmur_ucmd->cmd_state;
uint64_t offset = desc->offset, length = desc->length;
return rhandler->unmap(dev, tcmur_ucmd, offset, length);
}
static int align_and_split_unmap(struct tcmu_device *dev,
struct tcmur_cmd *tcmur_cmd,
uint64_t lba, uint64_t nlbas)
{
struct unmap_state *state = tcmur_cmd->cmd_state;
uint64_t opt_unmap_gran;
uint64_t unmap_gran_align, mask;
int ret = TCMU_STS_NOT_HANDLED;
int j = 0;
struct unmap_descriptor *desc;
struct tcmur_cmd *tcmur_ucmd;
uint64_t lbas;
if (!dev->split_unmaps) {
/*
* Handler does not support vectored unmaps, but prefers to
* break up unmaps itself, so pass the entire segment to it.
*/
opt_unmap_gran = tcmu_dev_get_max_unmap_len(dev);
mask = 0;
} else {
/*
* Align the start lba of a unmap request and split the
* large num blocks into OPTIMAL UNMAP GRANULARITY size.
*
* NOTE: here we always asumme the OPTIMAL UNMAP GRANULARITY
* equals to UNMAP GRANULARITY ALIGNMENT to simplify the
* algorithm. In the future, for new devices that have different
* values the following align and split algorithm should be
* changed.
*/
/* OPTIMAL UNMAP GRANULARITY */
opt_unmap_gran = tcmu_dev_get_opt_unmap_gran(dev);
/* UNMAP GRANULARITY ALIGNMENT */
unmap_gran_align = tcmu_dev_get_unmap_gran_align(dev);
mask = unmap_gran_align - 1;
}
lbas = opt_unmap_gran - (lba & mask);
lbas = min(lbas, nlbas);
tcmu_dev_dbg(dev, "OPTIMAL UNMAP GRANULARITY: %"PRIu64", UNMAP GRANULARITY ALIGNMENT mask: %"PRIu64", lbas: %"PRIu64"\n",
opt_unmap_gran, mask, lbas);
while (nlbas) {
desc = calloc(1, sizeof(*desc));
if (!desc) {
tcmu_dev_err(dev, "Failed to calloc desc!\n");
return TCMU_STS_NO_RESOURCE;
}
desc->offset = tcmu_lba_to_byte(dev, lba);
desc->length = tcmu_lba_to_byte(dev, lbas);
tcmur_ucmd = calloc(1, sizeof(*tcmur_ucmd));
if (!tcmur_ucmd) {
tcmu_dev_err(dev, "Failed to calloc unmap cmd!\n");
ret = TCMU_STS_NO_RESOURCE;
goto free_desc;
}
tcmur_ucmd->cmd_state = desc;
tcmur_ucmd->lib_cmd = tcmur_cmd->lib_cmd;
tcmur_ucmd->done = handle_unmap_cbk;
/* The first one */
if (j++ == 0)
tcmu_dev_dbg(dev, "The first split: start lba: %"PRIu64", end lba: %"PRIu64", lbas: %"PRIu64"\n",
lba, lba + lbas - 1, lbas);
/* The last one */
if (nlbas == lbas) {
tcmu_dev_dbg(dev, "The last split: start lba: %"PRIu64", end lba: %"PRIu64", lbas: %"PRIu64"\n",
lba, lba + lbas - 1, lbas);
tcmu_dev_dbg(dev, "There are totally %d splits\n", j);
}
pthread_mutex_lock(&state->lock);
state->refcount++;
pthread_mutex_unlock(&state->lock);
ret = aio_request_schedule(dev, tcmur_ucmd, unmap_work_fn,
tcmur_cmd_complete);
if (ret != TCMU_STS_ASYNC_HANDLED)
goto free_ucmd;
nlbas -= lbas;
lba += lbas;
lbas = min(opt_unmap_gran, nlbas);
}
return ret;
free_ucmd:
pthread_mutex_lock(&state->lock);
state->refcount--;
pthread_mutex_unlock(&state->lock);
free(tcmur_ucmd);
free_desc:
free(desc);
return ret;
}
static int handle_unmap_internal(struct tcmu_device *dev, struct tcmulib_cmd *cmd,
uint16_t bddl, uint8_t *par)
{
struct tcmur_cmd *tcmur_cmd = cmd->hm_private;
struct unmap_state *state;
uint16_t offset = 0;
int ret = TCMU_STS_OK, i = 0;
ret = unmap_init(dev, cmd);
if (ret)
return ret;
state = tcmur_cmd->cmd_state;
/* The first descriptor list offset is 8 in Data-Out buffer */
par += 8;
while (bddl) {
uint64_t lba;
uint64_t nlbas;
lba = be64toh(*((uint64_t *)&par[offset]));
nlbas = be32toh(*((uint32_t *)&par[offset + 8]));
tcmu_dev_dbg(dev, "Parameter list %d, start lba: %"PRIu64", end lba: %"PRIu64", nlbas: %"PRIu64"\n",
i++, lba, lba + nlbas - 1, nlbas);
if (nlbas > tcmu_dev_get_max_unmap_len(dev)) {
tcmu_dev_err(dev, "Illegal parameter list LBA count %"PRIu64" exceeds:%u\n",
nlbas, tcmu_dev_get_max_unmap_len(dev));
ret = TCMU_STS_INVALID_PARAM_LIST;
goto done;
}
ret = check_lbas(dev, lba, nlbas);
if (ret)
goto done;
if (nlbas) {
ret = align_and_split_unmap(dev, tcmur_cmd, lba, nlbas);
if (ret != TCMU_STS_ASYNC_HANDLED)
goto done;
}
/* The unmap block descriptor data length is 16 */
offset += 16;
bddl -= 16;
}
done:
/*
* unmap_put will do the right thing, so always return
* TCMU_STS_ASYNC_HANDLED
*/
pthread_mutex_lock(&state->lock);
if (ret == TCMU_STS_ASYNC_HANDLED) {
ret = TCMU_STS_OK;
} else {
state->status = ret;
}
pthread_mutex_unlock(&state->lock);
unmap_put(dev, cmd, ret);
return TCMU_STS_ASYNC_HANDLED;
}
static int handle_unmap(struct tcmu_device *dev, struct tcmulib_cmd *origcmd)
{
struct tcmur_handler *rhandler = tcmu_get_runner_handler(dev);
uint8_t *cdb = origcmd->cdb;
size_t copied, data_length = tcmu_cdb_get_xfer_length(cdb);
uint8_t *par;
uint16_t dl, bddl;
int ret;
if (!rhandler->unmap)
return TCMU_STS_INVALID_CMD;
/*
* ANCHOR bit check
*
* The ANCHOR in the Logical Block Provisioning VPD page is not
* supported, so the ANCHOR bit shouldn't be set here.
*/
if (cdb[1] & 0x01) {
tcmu_dev_err(dev, "Illegal request: anchor is not supported for now!\n");
return TCMU_STS_INVALID_CDB;
}
/*
* PARAMETER LIST LENGTH field.
*
* The PARAMETER LIST LENGTH field specifies the length in bytes of
* the UNMAP parameter data that shall be sent from the application
* client to the device server.
*
* A PARAMETER LIST LENGTH set to zero specifies that no data shall
* be sent.
*/
if (!data_length) {
tcmu_dev_dbg(dev, "Data-Out Buffer length is zero, just return okay\n");
return TCMU_STS_OK;
}
/*
* From sbc4r13, section 5.32.1 UNMAP command overview.
*
* The PARAMETER LIST LENGTH should be greater than eight,
*/
if (data_length < 8) {
tcmu_dev_err(dev, "Illegal parameter list length %zu and it should be >= 8\n",
data_length);
return TCMU_STS_INVALID_PARAM_LIST_LEN;
}
par = calloc(1, data_length);
if (!par) {
tcmu_dev_err(dev, "The state parameter is NULL!\n");
return TCMU_STS_NO_RESOURCE;
}
copied = tcmu_memcpy_from_iovec(par, data_length, origcmd->iovec,
origcmd->iov_cnt);
if (copied != data_length) {
tcmu_dev_err(dev, "Failed to copy the Data-Out Buffer !\n");
ret = TCMU_STS_INVALID_PARAM_LIST_LEN;
goto out_free_par;
}
/*
* If any UNMAP block descriptors in the UNMAP block descriptor
* list are truncated due to the parameter list length in the CDB,
* then that UNMAP block descriptor shall be ignored.
*
* So it will allow dl + 2 != data_length and bddl + 8 != data_length.
*/
dl = be16toh(*((uint16_t *)&par[0]));
bddl = be16toh(*((uint16_t *)&par[2]));
tcmu_dev_dbg(dev, "Data-Out Buffer Length: %zu, dl: %hu, bddl: %hu\n",
data_length, dl, bddl);
/*
* If the unmap block descriptor data length is not a multiple
* of 16, then the last unmap block descriptor is incomplete
* and shall be ignored.
*/
bddl &= ~0xF;
/*
* If the UNMAP BLOCK DESCRIPTOR DATA LENGTH is set to zero, then
* no unmap block descriptors are included in the UNMAP parameter
* list.
*/
if (!bddl) {
ret = TCMU_STS_OK;
goto out_free_par;
}
if (bddl / 16 > VPD_MAX_UNMAP_BLOCK_DESC_COUNT) {
tcmu_dev_err(dev, "Illegal parameter list count %hu exceeds :%u\n",
bddl / 16, VPD_MAX_UNMAP_BLOCK_DESC_COUNT);
ret = TCMU_STS_INVALID_PARAM_LIST;
goto out_free_par;
}
ret = handle_unmap_internal(dev, origcmd, bddl, par);
out_free_par:
free(par);
return ret;
}
struct write_same {
uint64_t cur_lba;
uint64_t lba_cnt;
};
static int writesame_work_fn(struct tcmu_device *dev, void *data)
{
struct tcmur_handler *rhandler = tcmu_get_runner_handler(dev);
struct tcmur_cmd *tcmur_cmd = data;
struct write_same *write_same = tcmur_cmd->cmd_state;
tcmur_cmd_iovec_reset(tcmur_cmd, tcmur_cmd->requested);
/*
* Write contents of the logical block data(from the Data-Out Buffer)
* to each LBA in the specified LBA range.
*/
return rhandler->write(dev, tcmur_cmd, tcmur_cmd->iovec,
tcmur_cmd->iov_cnt, tcmur_cmd->requested,
tcmu_lba_to_byte(dev, write_same->cur_lba));
}
static void handle_writesame_cbk(struct tcmu_device *dev,
struct tcmur_cmd *tcmur_cmd, int ret)
{
struct tcmulib_cmd *cmd = tcmur_cmd->lib_cmd;
struct write_same *write_same = tcmur_cmd->cmd_state;
uint64_t write_lbas = tcmu_byte_to_lba(dev, tcmur_cmd->requested);
uint64_t left_lbas;
int rc;
/* write failed - bail out */
if (ret != TCMU_STS_OK)
goto finish_err;
write_same->cur_lba += write_lbas;
write_same->lba_cnt -= write_lbas;
left_lbas = write_same->lba_cnt;
if (!left_lbas)
goto finish_err;
if (left_lbas <= write_lbas) {
tcmu_dev_dbg(dev, "Last lba: %"PRIu64", write lbas: %"PRIu64"\n",
write_same->cur_lba, left_lbas);
tcmur_cmd->requested = tcmu_lba_to_byte(dev, left_lbas);
} else {
tcmu_dev_dbg(dev, "Next lba: %"PRIu64", write lbas: %"PRIu64"\n",
write_same->cur_lba, write_lbas);
}
rc = aio_request_schedule(dev, tcmur_cmd, writesame_work_fn,
tcmur_cmd_complete);
if (rc != TCMU_STS_ASYNC_HANDLED) {
tcmu_dev_err(dev, "Write same async handle cmd failure\n");
ret = TCMU_STS_WR_ERR;
goto finish_err;
}
return;
finish_err:
tcmur_cmd_state_free(tcmur_cmd);
aio_command_finish(dev, cmd, ret);
}
static int handle_writesame_check(struct tcmu_device *dev, struct tcmulib_cmd *cmd)
{
uint8_t *cdb = cmd->cdb;
uint32_t lba_cnt = tcmu_cdb_get_xfer_length(cdb);
uint32_t block_size = tcmu_dev_get_block_size(dev);
uint64_t start_lba = tcmu_cdb_get_lba(cdb);
int ret;
if (cmd->iov_cnt != 1 || cmd->iovec->iov_len != block_size) {
tcmu_dev_err(dev, "Illegal Data-Out: iov_cnt %zu length: %zu\n",
cmd->iov_cnt, cmd->iovec->iov_len);
return TCMU_STS_INVALID_CDB;
}
/*
* From sbc4r13, section 5.50 WRITE SAME (16) command
*
* A write same (WSNZ) bit has beed set to one, so the device server
* won't support a value of zero here.
*/
if (!lba_cnt) {
tcmu_dev_err(dev, "The WSNZ = 1 & WRITE_SAME blocks = 0 is not supported!\n");
return TCMU_STS_INVALID_CDB;
}
/*
* The MAXIMUM WRITE SAME LENGTH field in Block Limits VPD page (B0h)
* limit the maximum block number for the WRITE SAME.
*/
if (lba_cnt > VPD_MAX_WRITE_SAME_LENGTH) {
tcmu_dev_err(dev, "blocks: %u exceeds MAXIMUM WRITE SAME LENGTH: %u\n",
lba_cnt, VPD_MAX_WRITE_SAME_LENGTH);
return TCMU_STS_INVALID_CDB;
}
/*
* The logical block address plus the number of blocks shouldn't
* exceeds the capacity of the medium
*/
ret = check_lbas(dev, start_lba, lba_cnt);
if (ret)
return ret;
tcmu_dev_dbg(dev, "Start lba: %"PRIu64", number of lba: %u, last lba: %"PRIu64"\n",
start_lba, lba_cnt, start_lba + lba_cnt - 1);
return TCMU_STS_OK;
}
static int handle_unmap_in_writesame(struct tcmu_device *dev,
struct tcmulib_cmd *cmd)
{
struct tcmur_cmd *tcmur_cmd = cmd->hm_private;
uint8_t *cdb = cmd->cdb;
uint64_t lba = tcmu_cdb_get_lba(cdb);
uint64_t nlbas = tcmu_cdb_get_xfer_length(cdb);
struct unmap_state *state;
int ret;
tcmu_dev_dbg(dev, "Do UNMAP in WRITE_SAME cmd!\n");
ret = unmap_init(dev, cmd);
if (ret)
return ret;
state = tcmur_cmd->cmd_state;
ret = align_and_split_unmap(dev, tcmur_cmd, lba, nlbas);
if (ret == TCMU_STS_ASYNC_HANDLED) {
ret = TCMU_STS_OK;
} else {
state->status = ret;
}
unmap_put(dev, cmd, ret);
return TCMU_STS_ASYNC_HANDLED;
}
static int handle_writesame(struct tcmu_device *dev, struct tcmulib_cmd *cmd)
{
struct tcmur_handler *rhandler = tcmu_get_runner_handler(dev);
struct tcmur_cmd *tcmur_cmd = cmd->hm_private;
uint8_t *cdb = cmd->cdb;
uint32_t lba_cnt = tcmu_cdb_get_xfer_length(cdb);
uint32_t block_size = tcmu_dev_get_block_size(dev);
uint64_t start_lba = tcmu_cdb_get_lba(cdb);
uint64_t write_lbas;
size_t max_xfer_length, length = 1024 * 1024;
struct write_same *write_same;
int i, ret;
ret = handle_writesame_check(dev, cmd);
if (ret)
return ret;
if (rhandler->unmap && (cmd->cdb[1] & 0x08))
return handle_unmap_in_writesame(dev, cmd);
max_xfer_length = tcmu_dev_get_max_xfer_len(dev) * block_size;
length = round_up(length, max_xfer_length);
length = min(length, tcmu_lba_to_byte(dev, lba_cnt));
if (tcmur_cmd_state_init(tcmur_cmd, sizeof(*write_same), length)) {
tcmu_dev_err(dev, "Failed to calloc write_same data!\n");
return TCMU_STS_NO_RESOURCE;
}
tcmur_cmd->done = handle_writesame_cbk;
write_lbas = tcmu_byte_to_lba(dev, length);
for (i = 0; i < write_lbas; i++)
memcpy(tcmur_cmd->iovec->iov_base + i * block_size,
cmd->iovec->iov_base, block_size);
write_same = tcmur_cmd->cmd_state;
write_same->cur_lba = start_lba;
write_same->lba_cnt = lba_cnt;
tcmu_dev_dbg(dev, "First lba: %"PRIu64", write lbas: %"PRIu64"\n",
start_lba, write_lbas);
return aio_request_schedule(dev, tcmur_cmd, writesame_work_fn,
tcmur_cmd_complete);
}
static int tcmur_writesame_work_fn(struct tcmu_device *dev, void *data)
{
struct tcmur_cmd *tcmur_cmd = data;
struct tcmulib_cmd *cmd = tcmur_cmd->lib_cmd;
tcmur_writesame_fn_t write_same_fn = tcmur_cmd->cmd_state;
uint8_t *cdb = cmd->cdb;
uint64_t off = tcmu_cdb_to_byte(dev, cdb);
uint64_t len = tcmu_lba_to_byte(dev, tcmu_cdb_get_xfer_length(cdb));
/*
* Write contents of the logical block data(from the Data-Out Buffer)
* to each LBA in the specified LBA range.
*/
return write_same_fn(dev, tcmur_cmd, off, len, cmd->iovec,
cmd->iov_cnt);
}
int tcmur_handle_writesame(struct tcmu_device *dev, struct tcmur_cmd *tcmur_cmd,
tcmur_writesame_fn_t write_same_fn)
{
struct tcmur_handler *rhandler = tcmu_get_runner_handler(dev);
struct tcmulib_cmd *cmd = tcmur_cmd->lib_cmd;
int ret;
if (tcmu_dev_in_recovery(dev))
return TCMU_STS_BUSY;
ret = alua_check_state(dev, cmd, false);
if (ret)
return ret;
ret = handle_writesame_check(dev, cmd);
if (ret)
return ret;
if (rhandler->unmap && (cmd->cdb[1] & 0x08))
return handle_unmap_in_writesame(dev, cmd);
tcmur_cmd->cmd_state = write_same_fn;
tcmur_cmd->done = handle_generic_cbk;
return aio_request_schedule(dev, tcmur_cmd, tcmur_writesame_work_fn,
tcmur_cmd_complete);
}
/* async write verify */
struct write_verify_state {
struct iovec *w_iovec;
size_t w_iov_cnt;
};
static void handle_write_verify_read_cbk(struct tcmu_device *dev,
struct tcmur_cmd *tcmur_cmd, int ret)
{
struct write_verify_state *state = tcmur_cmd->cmd_state;
struct tcmulib_cmd *cmd = tcmur_cmd->lib_cmd;
uint32_t cmp_offset;
/* failed read - bail out */
if (ret != TCMU_STS_OK)
goto done;
ret = TCMU_STS_OK;
cmp_offset = tcmu_iovec_compare(tcmur_cmd->iov_base_copy,
state->w_iovec, tcmur_cmd->requested);
if (cmp_offset != -1) {
tcmu_dev_err(dev, "Verify failed at offset %u\n", cmp_offset);
ret = TCMU_STS_MISCOMPARE;
tcmu_sense_set_info(cmd->sense_buf, cmp_offset);
}
done:
tcmur_cmd_state_free(tcmur_cmd);
aio_command_finish(dev, cmd, ret);
}
static int write_verify_read_work_fn(struct tcmu_device *dev, void *data)
{
struct tcmur_handler *rhandler = tcmu_get_runner_handler(dev);
struct tcmur_cmd *tcmur_cmd = data;
struct tcmulib_cmd *cmd = tcmur_cmd->lib_cmd;
return rhandler->read(dev, tcmur_cmd, tcmur_cmd->iovec,
tcmur_cmd->iov_cnt, tcmur_cmd->requested,
tcmu_cdb_to_byte(dev, cmd->cdb));
}
static void handle_write_verify_write_cbk(struct tcmu_device *dev,
struct tcmur_cmd *tcmur_cmd,
int ret)
{
struct tcmulib_cmd *cmd = tcmur_cmd->lib_cmd;
/* write error - bail out */
if (ret != TCMU_STS_OK)
goto finish_err;
tcmur_cmd->done = handle_write_verify_read_cbk;
ret = aio_request_schedule(dev, tcmur_cmd, write_verify_read_work_fn,
tcmur_cmd_complete);
if (ret != TCMU_STS_ASYNC_HANDLED)
goto finish_err;
return;
finish_err:
tcmur_cmd_state_free(tcmur_cmd);
aio_command_finish(dev, cmd, ret);
}
static int handle_write_verify(struct tcmu_device *dev, struct tcmulib_cmd *cmd)
{
struct tcmur_cmd *tcmur_cmd = cmd->hm_private;
uint8_t *cdb = cmd->cdb;
size_t length = tcmu_lba_to_byte(dev, tcmu_cdb_get_xfer_length(cdb));
struct write_verify_state *state;
int i, ret, state_len;
ret = check_lba_and_length(dev, cmd, tcmu_cdb_get_xfer_length(cdb));
if (ret)
return ret;
state_len = sizeof(*state) + (cmd->iov_cnt * sizeof(struct iovec));
if (tcmur_cmd_state_init(tcmur_cmd, state_len, length))
return TCMU_STS_NO_RESOURCE;
tcmur_cmd->done = handle_write_verify_write_cbk;
state = tcmur_cmd->cmd_state;
/*
* Copy cmd iovec for later comparision in case handler modifies
* pointers/lens.
*/
state->w_iovec = (void *)state + sizeof(*state);
state->w_iov_cnt = cmd->iov_cnt;
for (i = 0; i < cmd->iov_cnt; i++) {
state->w_iovec[i].iov_base = cmd->iovec[i].iov_base;
state->w_iovec[i].iov_len = cmd->iovec[i].iov_len;
}
ret = aio_request_schedule(dev, tcmur_cmd, write_work_fn,
tcmur_cmd_complete);
if (ret != TCMU_STS_ASYNC_HANDLED)
goto free_state;
return TCMU_STS_ASYNC_HANDLED;
free_state:
tcmur_cmd_state_free(tcmur_cmd);
return ret;
}
#define XCOPY_HDR_LEN 16
#define XCOPY_TARGET_DESC_LEN 32
#define XCOPY_SEGMENT_DESC_B2B_LEN 28
#define XCOPY_NAA_IEEE_REGEX_LEN 16
struct xcopy {
struct tcmu_device *origdev;
struct tcmu_device *src_dev;
uint8_t src_tid_wwn[XCOPY_NAA_IEEE_REGEX_LEN];
struct tcmu_device *dst_dev;
uint8_t dst_tid_wwn[XCOPY_NAA_IEEE_REGEX_LEN];
uint64_t src_lba;
uint64_t dst_lba;
uint32_t stdi;
uint32_t dtdi;
uint32_t lba_cnt;
uint32_t copy_lbas;
};
/* For now only supports block -> block type */
static int xcopy_parse_segment_descs(uint8_t *seg_descs, struct xcopy *xcopy,
uint8_t sdll)
{
uint8_t *seg_desc = seg_descs;
uint8_t desc_len;
/*
* From spc4r31, section 6.3.7.5 Block device to block device
* operations
*
* The segment descriptor size should be 28 bytes
*/
if (sdll % XCOPY_SEGMENT_DESC_B2B_LEN != 0) {
tcmu_err("Illegal block --> block type segment descriptor length %u\n",
sdll);
return TCMU_STS_INVALID_PARAM_LIST;
}
/* From spc4r36q, section 6.4.3.5 SEGMENT DESCRIPTOR LIST LENGTH field
* If the number of segment descriptors exceeds the allowed number, the copy
* manager shall terminate the command with CHECK CONDITION status, with the
* sense key set to ILLEGAL REQUEST, and the additional sense code set to
* TOO MANY SEGMENT DESCRIPTORS.
*/
if (sdll > RCR_OP_MAX_SEGMENT_DESC_COUNT * XCOPY_SEGMENT_DESC_B2B_LEN) {
tcmu_err("Only %u segment descriptor(s) supported, but there are %u\n",
RCR_OP_MAX_SEGMENT_DESC_COUNT,
sdll / XCOPY_SEGMENT_DESC_B2B_LEN);
return TCMU_STS_TOO_MANY_SEG_DESC;
}
/* EXTENDED COPY segment descriptor type codes block --> block */
if (seg_desc[0] != XCOPY_SEG_DESC_TYPE_CODE_B2B) {
tcmu_err("Unsupport segment descriptor type code 0x%x\n",
seg_desc[0]);
return TCMU_STS_NOTSUPP_SEG_DESC_TYPE;
}
/*
* For block -> block type the length is 4-byte header + 0x18-byte
* data.
*/
desc_len = be16toh(*(uint16_t *)&seg_desc[2]);
if (desc_len != 0x18) {
tcmu_err("Invalid length for block->block type 0x%x\n",
desc_len);
return TCMU_STS_INVALID_PARAM_LIST;
}
/*
* From spc4r31, section 6.3.7.1 Segment descriptors introduction
*
* The SOURCE TARGET DESCRIPTOR INDEX field contains an index into
* the target descriptor list (see 6.3.1) identifying the source
* copy target device. The DESTINATION TARGET DESCRIPTOR INDEX field
* contains an index into the target descriptor list (see 6.3.1)
* identifying the destination copy target device.
*/
xcopy->stdi = be16toh(*(uint16_t *)&seg_desc[4]);
xcopy->dtdi = be16toh(*(uint16_t *)&seg_desc[6]);
tcmu_dbg("Segment descriptor: stdi: %hu dtdi: %hu\n", xcopy->stdi,
xcopy->dtdi);
xcopy->lba_cnt = be16toh(*(uint16_t *)&seg_desc[10]);
xcopy->src_lba = be64toh(*(uint64_t *)&seg_desc[12]);
xcopy->dst_lba = be64toh(*(uint64_t *)&seg_desc[20]);
tcmu_dbg("Segment descriptor: lba_cnt: %u src_lba: %"PRIu64" dst_lba: %"PRIu64"\n",
xcopy->lba_cnt, xcopy->src_lba, xcopy->dst_lba);
return TCMU_STS_OK;
}
static int xcopy_gen_naa_ieee(struct tcmu_device *udev, uint8_t *wwn)
{
char *buf, *p;
bool next = true;