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Release 4.11 drivers/scsi/ibmvscsi_tgt/libsrp.c

/*******************************************************************************
 * SCSI RDMA Protocol lib functions
 *
 * Copyright (C) 2006 FUJITA Tomonori <tomof@acm.org>
 * Copyright (C) 2016 Bryant G. Ly <bryantly@linux.vnet.ibm.com> IBM Corp.
 *
 * 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
 * (at your option) 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.
 *
 ***********************************************************************/


#define pr_fmt(fmt)	"libsrp: " fmt

#include <linux/printk.h>
#include <linux/err.h>
#include <linux/slab.h>
#include <linux/kfifo.h>
#include <linux/scatterlist.h>
#include <linux/dma-mapping.h>
#include <linux/module.h>
#include <scsi/srp.h>
#include <target/target_core_base.h>
#include "libsrp.h"
#include "ibmvscsi_tgt.h"


static int srp_iu_pool_alloc(struct srp_queue *q, size_t max, struct srp_buf **ring) { struct iu_entry *iue; int i; q->pool = kcalloc(max, sizeof(struct iu_entry *), GFP_KERNEL); if (!q->pool) return -ENOMEM; q->items = kcalloc(max, sizeof(struct iu_entry), GFP_KERNEL); if (!q->items) goto free_pool; spin_lock_init(&q->lock); kfifo_init(&q->queue, (void *)q->pool, max * sizeof(void *)); for (i = 0, iue = q->items; i < max; i++) { kfifo_in(&q->queue, (void *)&iue, sizeof(void *)); iue->sbuf = ring[i]; iue++; } return 0; free_pool: kfree(q->pool); return -ENOMEM; }

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static void srp_iu_pool_free(struct srp_queue *q) { kfree(q->items); kfree(q->pool); }

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static struct srp_buf **srp_ring_alloc(struct device *dev, size_t max, size_t size) { struct srp_buf **ring; int i; ring = kcalloc(max, sizeof(struct srp_buf *), GFP_KERNEL); if (!ring) return NULL; for (i = 0; i < max; i++) { ring[i] = kzalloc(sizeof(*ring[i]), GFP_KERNEL); if (!ring[i]) goto out; ring[i]->buf = dma_alloc_coherent(dev, size, &ring[i]->dma, GFP_KERNEL); if (!ring[i]->buf) goto out; } return ring; out: for (i = 0; i < max && ring[i]; i++) { if (ring[i]->buf) { dma_free_coherent(dev, size, ring[i]->buf, ring[i]->dma); } kfree(ring[i]); } kfree(ring); return NULL; }

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static void srp_ring_free(struct device *dev, struct srp_buf **ring, size_t max, size_t size) { int i; for (i = 0; i < max; i++) { dma_free_coherent(dev, size, ring[i]->buf, ring[i]->dma); kfree(ring[i]); } kfree(ring); }

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int srp_target_alloc(struct srp_target *target, struct device *dev, size_t nr, size_t iu_size) { int err; spin_lock_init(&target->lock); target->dev = dev; target->srp_iu_size = iu_size; target->rx_ring_size = nr; target->rx_ring = srp_ring_alloc(target->dev, nr, iu_size); if (!target->rx_ring) return -ENOMEM; err = srp_iu_pool_alloc(&target->iu_queue, nr, target->rx_ring); if (err) goto free_ring; dev_set_drvdata(target->dev, target); return 0; free_ring: srp_ring_free(target->dev, target->rx_ring, nr, iu_size); return -ENOMEM; }

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void srp_target_free(struct srp_target *target) { dev_set_drvdata(target->dev, NULL); srp_ring_free(target->dev, target->rx_ring, target->rx_ring_size, target->srp_iu_size); srp_iu_pool_free(&target->iu_queue); }

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struct iu_entry *srp_iu_get(struct srp_target *target) { struct iu_entry *iue = NULL; if (kfifo_out_locked(&target->iu_queue.queue, (void *)&iue, sizeof(void *), &target->iu_queue.lock) != sizeof(void *)) { WARN_ONCE(1, "unexpected fifo state"); return NULL; } if (!iue) return iue; iue->target = target; iue->flags = 0; return iue; }

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void srp_iu_put(struct iu_entry *iue) { kfifo_in_locked(&iue->target->iu_queue.queue, (void *)&iue, sizeof(void *), &iue->target->iu_queue.lock); }

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static int srp_direct_data(struct ibmvscsis_cmd *cmd, struct srp_direct_buf *md, enum dma_data_direction dir, srp_rdma_t rdma_io, int dma_map, int ext_desc) { struct iu_entry *iue = NULL; struct scatterlist *sg = NULL; int err, nsg = 0, len; if (dma_map) { iue = cmd->iue; sg = cmd->se_cmd.t_data_sg; nsg = dma_map_sg(iue->target->dev, sg, cmd->se_cmd.t_data_nents, DMA_BIDIRECTIONAL); if (!nsg) { pr_err("fail to map %p %d\n", iue, cmd->se_cmd.t_data_nents); return 0; } len = min(cmd->se_cmd.data_length, be32_to_cpu(md->len)); } else { len = be32_to_cpu(md->len); } err = rdma_io(cmd, sg, nsg, md, 1, dir, len); if (dma_map) dma_unmap_sg(iue->target->dev, sg, nsg, DMA_BIDIRECTIONAL); return err; }

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static int srp_indirect_data(struct ibmvscsis_cmd *cmd, struct srp_cmd *srp_cmd, struct srp_indirect_buf *id, enum dma_data_direction dir, srp_rdma_t rdma_io, int dma_map, int ext_desc) { struct iu_entry *iue = NULL; struct srp_direct_buf *md = NULL; struct scatterlist dummy, *sg = NULL; dma_addr_t token = 0; int err = 0; int nmd, nsg = 0, len; if (dma_map || ext_desc) { iue = cmd->iue; sg = cmd->se_cmd.t_data_sg; } nmd = be32_to_cpu(id->table_desc.len) / sizeof(struct srp_direct_buf); if ((dir == DMA_FROM_DEVICE && nmd == srp_cmd->data_in_desc_cnt) || (dir == DMA_TO_DEVICE && nmd == srp_cmd->data_out_desc_cnt)) { md = &id->desc_list[0]; goto rdma; } if (ext_desc && dma_map) { md = dma_alloc_coherent(iue->target->dev, be32_to_cpu(id->table_desc.len), &token, GFP_KERNEL); if (!md) { pr_err("Can't get dma memory %u\n", be32_to_cpu(id->table_desc.len)); return -ENOMEM; } sg_init_one(&dummy, md, be32_to_cpu(id->table_desc.len)); sg_dma_address(&dummy) = token; sg_dma_len(&dummy) = be32_to_cpu(id->table_desc.len); err = rdma_io(cmd, &dummy, 1, &id->table_desc, 1, DMA_TO_DEVICE, be32_to_cpu(id->table_desc.len)); if (err) { pr_err("Error copying indirect table %d\n", err); goto free_mem; } } else { pr_err("This command uses external indirect buffer\n"); return -EINVAL; } rdma: if (dma_map) { nsg = dma_map_sg(iue->target->dev, sg, cmd->se_cmd.t_data_nents, DMA_BIDIRECTIONAL); if (!nsg) { pr_err("fail to map %p %d\n", iue, cmd->se_cmd.t_data_nents); err = -EIO; goto free_mem; } len = min(cmd->se_cmd.data_length, be32_to_cpu(id->len)); } else { len = be32_to_cpu(id->len); } err = rdma_io(cmd, sg, nsg, md, nmd, dir, len); if (dma_map) dma_unmap_sg(iue->target->dev, sg, nsg, DMA_BIDIRECTIONAL); free_mem: if (token && dma_map) { dma_free_coherent(iue->target->dev, be32_to_cpu(id->table_desc.len), md, token); } return err; }

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static int data_out_desc_size(struct srp_cmd *cmd) { int size = 0; u8 fmt = cmd->buf_fmt >> 4; switch (fmt) { case SRP_NO_DATA_DESC: break; case SRP_DATA_DESC_DIRECT: size = sizeof(struct srp_direct_buf); break; case SRP_DATA_DESC_INDIRECT: size = sizeof(struct srp_indirect_buf) + sizeof(struct srp_direct_buf) * cmd->data_out_desc_cnt; break; default: pr_err("client error. Invalid data_out_format %x\n", fmt); break; } return size; }

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/* * TODO: this can be called multiple times for a single command if it * has very long data. */
int srp_transfer_data(struct ibmvscsis_cmd *cmd, struct srp_cmd *srp_cmd, srp_rdma_t rdma_io, int dma_map, int ext_desc) { struct srp_direct_buf *md; struct srp_indirect_buf *id; enum dma_data_direction dir; int offset, err = 0; u8 format; if (!cmd->se_cmd.t_data_nents) return 0; offset = srp_cmd->add_cdb_len & ~3; dir = srp_cmd_direction(srp_cmd); if (dir == DMA_FROM_DEVICE) offset += data_out_desc_size(srp_cmd); if (dir == DMA_TO_DEVICE) format = srp_cmd->buf_fmt >> 4; else format = srp_cmd->buf_fmt & ((1U << 4) - 1); switch (format) { case SRP_NO_DATA_DESC: break; case SRP_DATA_DESC_DIRECT: md = (struct srp_direct_buf *)(srp_cmd->add_data + offset); err = srp_direct_data(cmd, md, dir, rdma_io, dma_map, ext_desc); break; case SRP_DATA_DESC_INDIRECT: id = (struct srp_indirect_buf *)(srp_cmd->add_data + offset); err = srp_indirect_data(cmd, srp_cmd, id, dir, rdma_io, dma_map, ext_desc); break; default: pr_err("Unknown format %d %x\n", dir, format); err = -EINVAL; } return err; }

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u64 srp_data_length(struct srp_cmd *cmd, enum dma_data_direction dir) { struct srp_direct_buf *md; struct srp_indirect_buf *id; u64 len = 0; uint offset = cmd->add_cdb_len & ~3; u8 fmt; if (dir == DMA_TO_DEVICE) { fmt = cmd->buf_fmt >> 4; } else { fmt = cmd->buf_fmt & ((1U << 4) - 1); offset += data_out_desc_size(cmd); } switch (fmt) { case SRP_NO_DATA_DESC: break; case SRP_DATA_DESC_DIRECT: md = (struct srp_direct_buf *)(cmd->add_data + offset); len = be32_to_cpu(md->len); break; case SRP_DATA_DESC_INDIRECT: id = (struct srp_indirect_buf *)(cmd->add_data + offset); len = be32_to_cpu(id->len); break; default: pr_err("invalid data format %x\n", fmt); break; } return len; }

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int srp_get_desc_table(struct srp_cmd *srp_cmd, enum dma_data_direction *dir, u64 *data_len) { struct srp_indirect_buf *idb; struct srp_direct_buf *db; uint add_cdb_offset; int rc; /* * The pointer computations below will only be compiled correctly * if srp_cmd::add_data is declared as s8*, u8*, s8[] or u8[], so check * whether srp_cmd::add_data has been declared as a byte pointer. */ BUILD_BUG_ON(!__same_type(srp_cmd->add_data[0], (s8)0) && !__same_type(srp_cmd->add_data[0], (u8)0)); BUG_ON(!dir); BUG_ON(!data_len); rc = 0; *data_len = 0; *dir = DMA_NONE; if (srp_cmd->buf_fmt & 0xf) *dir = DMA_FROM_DEVICE; else if (srp_cmd->buf_fmt >> 4) *dir = DMA_TO_DEVICE; add_cdb_offset = srp_cmd->add_cdb_len & ~3; if (((srp_cmd->buf_fmt & 0xf) == SRP_DATA_DESC_DIRECT) || ((srp_cmd->buf_fmt >> 4) == SRP_DATA_DESC_DIRECT)) { db = (struct srp_direct_buf *)(srp_cmd->add_data + add_cdb_offset); *data_len = be32_to_cpu(db->len); } else if (((srp_cmd->buf_fmt & 0xf) == SRP_DATA_DESC_INDIRECT) || ((srp_cmd->buf_fmt >> 4) == SRP_DATA_DESC_INDIRECT)) { idb = (struct srp_indirect_buf *)(srp_cmd->add_data + add_cdb_offset); *data_len = be32_to_cpu(idb->len); } return rc; }

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MODULE_DESCRIPTION("SCSI RDMA Protocol lib functions"); MODULE_AUTHOR("FUJITA Tomonori"); MODULE_LICENSE("GPL");

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