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-rw-r--r--drivers/sbus/char/Kconfig8
-rw-r--r--drivers/sbus/char/Makefile1
-rw-r--r--drivers/sbus/char/oradax.c1005
3 files changed, 1014 insertions, 0 deletions
diff --git a/drivers/sbus/char/Kconfig b/drivers/sbus/char/Kconfig
index 5ba684f73ab8..a785aa7660c3 100644
--- a/drivers/sbus/char/Kconfig
+++ b/drivers/sbus/char/Kconfig
@@ -70,5 +70,13 @@ config DISPLAY7SEG
another UltraSPARC-IIi-cEngine boardset with a 7-segment display,
you should say N to this option.
+config ORACLE_DAX
+ tristate "Oracle Data Analytics Accelerator"
+ default m if SPARC64
+ help
+ Driver for Oracle Data Analytics Accelerator, which is
+ a coprocessor that performs database operations in hardware.
+ It is available on M7 and M8 based systems only.
+
endmenu
diff --git a/drivers/sbus/char/Makefile b/drivers/sbus/char/Makefile
index ae478144c551..8c48ed96683f 100644
--- a/drivers/sbus/char/Makefile
+++ b/drivers/sbus/char/Makefile
@@ -17,3 +17,4 @@ obj-$(CONFIG_SUN_OPENPROMIO) += openprom.o
obj-$(CONFIG_TADPOLE_TS102_UCTRL) += uctrl.o
obj-$(CONFIG_SUN_JSFLASH) += jsflash.o
obj-$(CONFIG_BBC_I2C) += bbc.o
+obj-$(CONFIG_ORACLE_DAX) += oradax.o
diff --git a/drivers/sbus/char/oradax.c b/drivers/sbus/char/oradax.c
new file mode 100644
index 000000000000..03dc04739225
--- /dev/null
+++ b/drivers/sbus/char/oradax.c
@@ -0,0 +1,1005 @@
+/*
+ * Copyright (c) 2017, Oracle and/or its affiliates. All rights reserved.
+ *
+ * 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 3 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.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program. If not, see <http://www.gnu.org/licenses/>.
+ */
+
+/*
+ * Oracle Data Analytics Accelerator (DAX)
+ *
+ * DAX is a coprocessor which resides on the SPARC M7 (DAX1) and M8
+ * (DAX2) processor chips, and has direct access to the CPU's L3
+ * caches as well as physical memory. It can perform several
+ * operations on data streams with various input and output formats.
+ * The driver provides a transport mechanism only and has limited
+ * knowledge of the various opcodes and data formats. A user space
+ * library provides high level services and translates these into low
+ * level commands which are then passed into the driver and
+ * subsequently the hypervisor and the coprocessor. The library is
+ * the recommended way for applications to use the coprocessor, and
+ * the driver interface is not intended for general use.
+ *
+ * See Documentation/sparc/oradax/oracle_dax.txt for more details.
+ */
+
+#include <linux/uaccess.h>
+#include <linux/module.h>
+#include <linux/delay.h>
+#include <linux/cdev.h>
+#include <linux/slab.h>
+#include <linux/mm.h>
+
+#include <asm/hypervisor.h>
+#include <asm/mdesc.h>
+#include <asm/oradax.h>
+
+MODULE_LICENSE("GPL");
+MODULE_DESCRIPTION("Driver for Oracle Data Analytics Accelerator");
+
+#define DAX_DBG_FLG_BASIC 0x01
+#define DAX_DBG_FLG_STAT 0x02
+#define DAX_DBG_FLG_INFO 0x04
+#define DAX_DBG_FLG_ALL 0xff
+
+#define dax_err(fmt, ...) pr_err("%s: " fmt "\n", __func__, ##__VA_ARGS__)
+#define dax_info(fmt, ...) pr_info("%s: " fmt "\n", __func__, ##__VA_ARGS__)
+
+#define dax_dbg(fmt, ...) do { \
+ if (dax_debug & DAX_DBG_FLG_BASIC)\
+ dax_info(fmt, ##__VA_ARGS__); \
+ } while (0)
+#define dax_stat_dbg(fmt, ...) do { \
+ if (dax_debug & DAX_DBG_FLG_STAT) \
+ dax_info(fmt, ##__VA_ARGS__); \
+ } while (0)
+#define dax_info_dbg(fmt, ...) do { \
+ if (dax_debug & DAX_DBG_FLG_INFO) \
+ dax_info(fmt, ##__VA_ARGS__); \
+ } while (0)
+
+#define DAX1_MINOR 1
+#define DAX1_MAJOR 1
+#define DAX2_MINOR 0
+#define DAX2_MAJOR 2
+
+#define DAX1_STR "ORCL,sun4v-dax"
+#define DAX2_STR "ORCL,sun4v-dax2"
+
+#define DAX_CA_ELEMS (DAX_MMAP_LEN / sizeof(struct dax_cca))
+
+#define DAX_CCB_USEC 100
+#define DAX_CCB_RETRIES 10000
+
+/* stream types */
+enum {
+ OUT,
+ PRI,
+ SEC,
+ TBL,
+ NUM_STREAM_TYPES
+};
+
+/* completion status */
+#define CCA_STAT_NOT_COMPLETED 0
+#define CCA_STAT_COMPLETED 1
+#define CCA_STAT_FAILED 2
+#define CCA_STAT_KILLED 3
+#define CCA_STAT_NOT_RUN 4
+#define CCA_STAT_PIPE_OUT 5
+#define CCA_STAT_PIPE_SRC 6
+#define CCA_STAT_PIPE_DST 7
+
+/* completion err */
+#define CCA_ERR_SUCCESS 0x0 /* no error */
+#define CCA_ERR_OVERFLOW 0x1 /* buffer overflow */
+#define CCA_ERR_DECODE 0x2 /* CCB decode error */
+#define CCA_ERR_PAGE_OVERFLOW 0x3 /* page overflow */
+#define CCA_ERR_KILLED 0x7 /* command was killed */
+#define CCA_ERR_TIMEOUT 0x8 /* Timeout */
+#define CCA_ERR_ADI 0x9 /* ADI error */
+#define CCA_ERR_DATA_FMT 0xA /* data format error */
+#define CCA_ERR_OTHER_NO_RETRY 0xE /* Other error, do not retry */
+#define CCA_ERR_OTHER_RETRY 0xF /* Other error, retry */
+#define CCA_ERR_PARTIAL_SYMBOL 0x80 /* QP partial symbol warning */
+
+/* CCB address types */
+#define DAX_ADDR_TYPE_NONE 0
+#define DAX_ADDR_TYPE_VA_ALT 1 /* secondary context */
+#define DAX_ADDR_TYPE_RA 2 /* real address */
+#define DAX_ADDR_TYPE_VA 3 /* virtual address */
+
+/* dax_header_t opcode */
+#define DAX_OP_SYNC_NOP 0x0
+#define DAX_OP_EXTRACT 0x1
+#define DAX_OP_SCAN_VALUE 0x2
+#define DAX_OP_SCAN_RANGE 0x3
+#define DAX_OP_TRANSLATE 0x4
+#define DAX_OP_SELECT 0x5
+#define DAX_OP_INVERT 0x10 /* OR with translate, scan opcodes */
+
+struct dax_header {
+ u32 ccb_version:4; /* 31:28 CCB Version */
+ /* 27:24 Sync Flags */
+ u32 pipe:1; /* Pipeline */
+ u32 longccb:1; /* Longccb. Set for scan with lu2, lu3, lu4. */
+ u32 cond:1; /* Conditional */
+ u32 serial:1; /* Serial */
+ u32 opcode:8; /* 23:16 Opcode */
+ /* 15:0 Address Type. */
+ u32 reserved:3; /* 15:13 reserved */
+ u32 table_addr_type:2; /* 12:11 Huffman Table Address Type */
+ u32 out_addr_type:3; /* 10:8 Destination Address Type */
+ u32 sec_addr_type:3; /* 7:5 Secondary Source Address Type */
+ u32 pri_addr_type:3; /* 4:2 Primary Source Address Type */
+ u32 cca_addr_type:2; /* 1:0 Completion Address Type */
+};
+
+struct dax_control {
+ u32 pri_fmt:4; /* 31:28 Primary Input Format */
+ u32 pri_elem_size:5; /* 27:23 Primary Input Element Size(less1) */
+ u32 pri_offset:3; /* 22:20 Primary Input Starting Offset */
+ u32 sec_encoding:1; /* 19 Secondary Input Encoding */
+ /* (must be 0 for Select) */
+ u32 sec_offset:3; /* 18:16 Secondary Input Starting Offset */
+ u32 sec_elem_size:2; /* 15:14 Secondary Input Element Size */
+ /* (must be 0 for Select) */
+ u32 out_fmt:2; /* 13:12 Output Format */
+ u32 out_elem_size:2; /* 11:10 Output Element Size */
+ u32 misc:10; /* 9:0 Opcode specific info */
+};
+
+struct dax_data_access {
+ u64 flow_ctrl:2; /* 63:62 Flow Control Type */
+ u64 pipe_target:2; /* 61:60 Pipeline Target */
+ u64 out_buf_size:20; /* 59:40 Output Buffer Size */
+ /* (cachelines less 1) */
+ u64 unused1:8; /* 39:32 Reserved, Set to 0 */
+ u64 out_alloc:5; /* 31:27 Output Allocation */
+ u64 unused2:1; /* 26 Reserved */
+ u64 pri_len_fmt:2; /* 25:24 Input Length Format */
+ u64 pri_len:24; /* 23:0 Input Element/Byte/Bit Count */
+ /* (less 1) */
+};
+
+struct dax_ccb {
+ struct dax_header hdr; /* CCB Header */
+ struct dax_control ctrl;/* Control Word */
+ void *ca; /* Completion Address */
+ void *pri; /* Primary Input Address */
+ struct dax_data_access dac; /* Data Access Control */
+ void *sec; /* Secondary Input Address */
+ u64 dword5; /* depends on opcode */
+ void *out; /* Output Address */
+ void *tbl; /* Table Address or bitmap */
+};
+
+struct dax_cca {
+ u8 status; /* user may mwait on this address */
+ u8 err; /* user visible error notification */
+ u8 rsvd[2]; /* reserved */
+ u32 n_remaining; /* for QP partial symbol warning */
+ u32 output_sz; /* output in bytes */
+ u32 rsvd2; /* reserved */
+ u64 run_cycles; /* run time in OCND2 cycles */
+ u64 run_stats; /* nothing reported in version 1.0 */
+ u32 n_processed; /* number input elements */
+ u32 rsvd3[5]; /* reserved */
+ u64 retval; /* command return value */
+ u64 rsvd4[8]; /* reserved */
+};
+
+/* per thread CCB context */
+struct dax_ctx {
+ struct dax_ccb *ccb_buf;
+ u64 ccb_buf_ra; /* cached RA of ccb_buf */
+ struct dax_cca *ca_buf;
+ u64 ca_buf_ra; /* cached RA of ca_buf */
+ struct page *pages[DAX_CA_ELEMS][NUM_STREAM_TYPES];
+ /* array of locked pages */
+ struct task_struct *owner; /* thread that owns ctx */
+ struct task_struct *client; /* requesting thread */
+ union ccb_result result;
+ u32 ccb_count;
+ u32 fail_count;
+};
+
+/* driver public entry points */
+static int dax_open(struct inode *inode, struct file *file);
+static ssize_t dax_read(struct file *filp, char __user *buf,
+ size_t count, loff_t *ppos);
+static ssize_t dax_write(struct file *filp, const char __user *buf,
+ size_t count, loff_t *ppos);
+static int dax_devmap(struct file *f, struct vm_area_struct *vma);
+static int dax_close(struct inode *i, struct file *f);
+
+static const struct file_operations dax_fops = {
+ .owner = THIS_MODULE,
+ .open = dax_open,
+ .read = dax_read,
+ .write = dax_write,
+ .mmap = dax_devmap,
+ .release = dax_close,
+};
+
+static int dax_ccb_exec(struct dax_ctx *ctx, const char __user *buf,
+ size_t count, loff_t *ppos);
+static int dax_ccb_info(u64 ca, struct ccb_info_result *info);
+static int dax_ccb_kill(u64 ca, u16 *kill_res);
+
+static struct cdev c_dev;
+static struct class *cl;
+static dev_t first;
+
+static int max_ccb_version;
+static int dax_debug;
+module_param(dax_debug, int, 0644);
+MODULE_PARM_DESC(dax_debug, "Debug flags");
+
+static int __init dax_attach(void)
+{
+ unsigned long dummy, hv_rv, major, minor, minor_requested, max_ccbs;
+ struct mdesc_handle *hp = mdesc_grab();
+ char *prop, *dax_name;
+ bool found = false;
+ int len, ret = 0;
+ u64 pn;
+
+ if (hp == NULL) {
+ dax_err("Unable to grab mdesc");
+ return -ENODEV;
+ }
+
+ mdesc_for_each_node_by_name(hp, pn, "virtual-device") {
+ prop = (char *)mdesc_get_property(hp, pn, "name", &len);
+ if (prop == NULL)
+ continue;
+ if (strncmp(prop, "dax", strlen("dax")))
+ continue;
+ dax_dbg("Found node 0x%llx = %s", pn, prop);
+
+ prop = (char *)mdesc_get_property(hp, pn, "compatible", &len);
+ if (prop == NULL)
+ continue;
+ dax_dbg("Found node 0x%llx = %s", pn, prop);
+ found = true;
+ break;
+ }
+
+ if (!found) {
+ dax_err("No DAX device found");
+ ret = -ENODEV;
+ goto done;
+ }
+
+ if (strncmp(prop, DAX2_STR, strlen(DAX2_STR)) == 0) {
+ dax_name = DAX_NAME "2";
+ major = DAX2_MAJOR;
+ minor_requested = DAX2_MINOR;
+ max_ccb_version = 1;
+ dax_dbg("MD indicates DAX2 coprocessor");
+ } else if (strncmp(prop, DAX1_STR, strlen(DAX1_STR)) == 0) {
+ dax_name = DAX_NAME "1";
+ major = DAX1_MAJOR;
+ minor_requested = DAX1_MINOR;
+ max_ccb_version = 0;
+ dax_dbg("MD indicates DAX1 coprocessor");
+ } else {
+ dax_err("Unknown dax type: %s", prop);
+ ret = -ENODEV;
+ goto done;
+ }
+
+ minor = minor_requested;
+ dax_dbg("Registering DAX HV api with major %ld minor %ld", major,
+ minor);
+ if (sun4v_hvapi_register(HV_GRP_DAX, major, &minor)) {
+ dax_err("hvapi_register failed");
+ ret = -ENODEV;
+ goto done;
+ } else {
+ dax_dbg("Max minor supported by HV = %ld (major %ld)", minor,
+ major);
+ minor = min(minor, minor_requested);
+ dax_dbg("registered DAX major %ld minor %ld", major, minor);
+ }
+
+ /* submit a zero length ccb array to query coprocessor queue size */
+ hv_rv = sun4v_ccb_submit(0, 0, HV_CCB_QUERY_CMD, 0, &max_ccbs, &dummy);
+ if (hv_rv != 0) {
+ dax_err("get_hwqueue_size failed with status=%ld and max_ccbs=%ld",
+ hv_rv, max_ccbs);
+ ret = -ENODEV;
+ goto done;
+ }
+
+ if (max_ccbs != DAX_MAX_CCBS) {
+ dax_err("HV reports unsupported max_ccbs=%ld", max_ccbs);
+ ret = -ENODEV;
+ goto done;
+ }
+
+ if (alloc_chrdev_region(&first, 0, 1, DAX_NAME) < 0) {
+ dax_err("alloc_chrdev_region failed");
+ ret = -ENXIO;
+ goto done;
+ }
+
+ cl = class_create(THIS_MODULE, DAX_NAME);
+ if (IS_ERR(cl)) {
+ dax_err("class_create failed");
+ ret = PTR_ERR(cl);
+ goto class_error;
+ }
+
+ if (device_create(cl, NULL, first, NULL, dax_name) == NULL) {
+ dax_err("device_create failed");
+ ret = -ENXIO;
+ goto device_error;
+ }
+
+ cdev_init(&c_dev, &dax_fops);
+ if (cdev_add(&c_dev, first, 1) == -1) {
+ dax_err("cdev_add failed");
+ ret = -ENXIO;
+ goto cdev_error;
+ }
+
+ pr_info("Attached DAX module\n");
+ goto done;
+
+cdev_error:
+ device_destroy(cl, first);
+device_error:
+ class_destroy(cl);
+class_error:
+ unregister_chrdev_region(first, 1);
+done:
+ mdesc_release(hp);
+ return ret;
+}
+module_init(dax_attach);
+
+static void __exit dax_detach(void)
+{
+ pr_info("Cleaning up DAX module\n");
+ cdev_del(&c_dev);
+ device_destroy(cl, first);
+ class_destroy(cl);
+ unregister_chrdev_region(first, 1);
+}
+module_exit(dax_detach);
+
+/* map completion area */
+static int dax_devmap(struct file *f, struct vm_area_struct *vma)
+{
+ struct dax_ctx *ctx = (struct dax_ctx *)f->private_data;
+ size_t len = vma->vm_end - vma->vm_start;
+
+ dax_dbg("len=0x%lx, flags=0x%lx", len, vma->vm_flags);
+
+ if (ctx->owner != current) {
+ dax_dbg("devmap called from wrong thread");
+ return -EINVAL;
+ }
+
+ if (len != DAX_MMAP_LEN) {
+ dax_dbg("len(%lu) != DAX_MMAP_LEN(%d)", len, DAX_MMAP_LEN);
+ return -EINVAL;
+ }
+
+ /* completion area is mapped read-only for user */
+ if (vma->vm_flags & VM_WRITE)
+ return -EPERM;
+ vma->vm_flags &= ~VM_MAYWRITE;
+
+ if (remap_pfn_range(vma, vma->vm_start, ctx->ca_buf_ra >> PAGE_SHIFT,
+ len, vma->vm_page_prot))
+ return -EAGAIN;
+
+ dax_dbg("mmapped completion area at uva 0x%lx", vma->vm_start);
+ return 0;
+}
+
+/* Unlock user pages. Called during dequeue or device close */
+static void dax_unlock_pages(struct dax_ctx *ctx, int ccb_index, int nelem)
+{
+ int i, j;
+
+ for (i = ccb_index; i < ccb_index + nelem; i++) {
+ for (j = 0; j < NUM_STREAM_TYPES; j++) {
+ struct page *p = ctx->pages[i][j];
+
+ if (p) {
+ dax_dbg("freeing page %p", p);
+ if (j == OUT)
+ set_page_dirty(p);
+ put_page(p);
+ ctx->pages[i][j] = NULL;
+ }
+ }
+ }
+}
+
+static int dax_lock_page(void *va, struct page **p)
+{
+ int ret;
+
+ dax_dbg("uva %p", va);
+
+ ret = get_user_pages_fast((unsigned long)va, 1, 1, p);
+ if (ret == 1) {
+ dax_dbg("locked page %p, for VA %p", *p, va);
+ return 0;
+ }
+
+ dax_dbg("get_user_pages failed, va=%p, ret=%d", va, ret);
+ return -1;
+}
+
+static int dax_lock_pages(struct dax_ctx *ctx, int idx,
+ int nelem, u64 *err_va)
+{
+ int i;
+
+ for (i = 0; i < nelem; i++) {
+ struct dax_ccb *ccbp = &ctx->ccb_buf[i];
+
+ /*
+ * For each address in the CCB whose type is virtual,
+ * lock the page and change the type to virtual alternate
+ * context. On error, return the offending address in
+ * err_va.
+ */
+ if (ccbp->hdr.out_addr_type == DAX_ADDR_TYPE_VA) {
+ dax_dbg("output");
+ if (dax_lock_page(ccbp->out,
+ &ctx->pages[i + idx][OUT]) != 0) {
+ *err_va = (u64)ccbp->out;
+ goto error;
+ }
+ ccbp->hdr.out_addr_type = DAX_ADDR_TYPE_VA_ALT;
+ }
+
+ if (ccbp->hdr.pri_addr_type == DAX_ADDR_TYPE_VA) {
+ dax_dbg("input");
+ if (dax_lock_page(ccbp->pri,
+ &ctx->pages[i + idx][PRI]) != 0) {
+ *err_va = (u64)ccbp->pri;
+ goto error;
+ }
+ ccbp->hdr.pri_addr_type = DAX_ADDR_TYPE_VA_ALT;
+ }
+
+ if (ccbp->hdr.sec_addr_type == DAX_ADDR_TYPE_VA) {
+ dax_dbg("sec input");
+ if (dax_lock_page(ccbp->sec,
+ &ctx->pages[i + idx][SEC]) != 0) {
+ *err_va = (u64)ccbp->sec;
+ goto error;
+ }
+ ccbp->hdr.sec_addr_type = DAX_ADDR_TYPE_VA_ALT;
+ }
+
+ if (ccbp->hdr.table_addr_type == DAX_ADDR_TYPE_VA) {
+ dax_dbg("tbl");
+ if (dax_lock_page(ccbp->tbl,
+ &ctx->pages[i + idx][TBL]) != 0) {
+ *err_va = (u64)ccbp->tbl;
+ goto error;
+ }
+ ccbp->hdr.table_addr_type = DAX_ADDR_TYPE_VA_ALT;
+ }
+
+ /* skip over 2nd 64 bytes of long CCB */
+ if (ccbp->hdr.longccb)
+ i++;
+ }
+ return DAX_SUBMIT_OK;
+
+error:
+ dax_unlock_pages(ctx, idx, nelem);
+ return DAX_SUBMIT_ERR_NOACCESS;
+}
+
+static void dax_ccb_wait(struct dax_ctx *ctx, int idx)
+{
+ int ret, nretries;
+ u16 kill_res;
+
+ dax_dbg("idx=%d", idx);
+
+ for (nretries = 0; nretries < DAX_CCB_RETRIES; nretries++) {
+ if (ctx->ca_buf[idx].status == CCA_STAT_NOT_COMPLETED)
+ udelay(DAX_CCB_USEC);
+ else
+ return;
+ }
+ dax_dbg("ctx (%p): CCB[%d] timed out, wait usec=%d, retries=%d. Killing ccb",
+ (void *)ctx, idx, DAX_CCB_USEC, DAX_CCB_RETRIES);
+
+ ret = dax_ccb_kill(ctx->ca_buf_ra + idx * sizeof(struct dax_cca),
+ &kill_res);
+ dax_dbg("Kill CCB[%d] %s", idx, ret ? "failed" : "succeeded");
+}
+
+static int dax_close(struct inode *ino, struct file *f)
+{
+ struct dax_ctx *ctx = (struct dax_ctx *)f->private_data;
+ int i;
+
+ f->private_data = NULL;
+
+ for (i = 0; i < DAX_CA_ELEMS; i++) {
+ if (ctx->ca_buf[i].status == CCA_STAT_NOT_COMPLETED) {
+ dax_dbg("CCB[%d] not completed", i);
+ dax_ccb_wait(ctx, i);
+ }
+ dax_unlock_pages(ctx, i, 1);
+ }
+
+ kfree(ctx->ccb_buf);
+ kfree(ctx->ca_buf);
+ dax_stat_dbg("CCBs: %d good, %d bad", ctx->ccb_count, ctx->fail_count);
+ kfree(ctx);
+
+ return 0;
+}
+
+static ssize_t dax_read(struct file *f, char __user *buf,
+ size_t count, loff_t *ppos)
+{
+ struct dax_ctx *ctx = f->private_data;
+
+ if (ctx->client != current)
+ return -EUSERS;
+
+ ctx->client = NULL;
+
+ if (count != sizeof(union ccb_result))
+ return -EINVAL;
+ if (copy_to_user(buf, &ctx->result, sizeof(union ccb_result)))
+ return -EFAULT;
+ return count;
+}
+
+static ssize_t dax_write(struct file *f, const char __user *buf,
+ size_t count, loff_t *ppos)
+{
+ struct dax_ctx *ctx = f->private_data;
+ struct dax_command hdr;
+ unsigned long ca;
+ int i, idx, ret;
+
+ if (ctx->client != NULL)
+ return -EINVAL;
+
+ if (count == 0 || count > DAX_MAX_CCBS * sizeof(struct dax_ccb))
+ return -EINVAL;
+
+ if (count % sizeof(struct dax_ccb) == 0)
+ return dax_ccb_exec(ctx, buf, count, ppos); /* CCB EXEC */
+
+ if (count != sizeof(struct dax_command))
+ return -EINVAL;
+
+ /* immediate command */
+ if (ctx->owner != current)
+ return -EUSERS;
+
+ if (copy_from_user(&hdr, buf, sizeof(hdr)))
+ return -EFAULT;
+
+ ca = ctx->ca_buf_ra + hdr.ca_offset;
+
+ switch (hdr.command) {
+ case CCB_KILL:
+ if (hdr.ca_offset >= DAX_MMAP_LEN) {
+ dax_dbg("invalid ca_offset (%d) >= ca_buflen (%d)",
+ hdr.ca_offset, DAX_MMAP_LEN);
+ return -EINVAL;
+ }
+
+ ret = dax_ccb_kill(ca, &ctx->result.kill.action);
+ if (ret != 0) {
+ dax_dbg("dax_ccb_kill failed (ret=%d)", ret);
+ return ret;
+ }
+
+ dax_info_dbg("killed (ca_offset %d)", hdr.ca_offset);
+ idx = hdr.ca_offset / sizeof(struct dax_cca);
+ ctx->ca_buf[idx].status = CCA_STAT_KILLED;
+ ctx->ca_buf[idx].err = CCA_ERR_KILLED;
+ ctx->client = current;
+ return count;
+
+ case CCB_INFO:
+ if (hdr.ca_offset >= DAX_MMAP_LEN) {
+ dax_dbg("invalid ca_offset (%d) >= ca_buflen (%d)",
+ hdr.ca_offset, DAX_MMAP_LEN);
+ return -EINVAL;
+ }
+
+ ret = dax_ccb_info(ca, &ctx->result.info);
+ if (ret != 0) {
+ dax_dbg("dax_ccb_info failed (ret=%d)", ret);
+ return ret;
+ }
+
+ dax_info_dbg("info succeeded on ca_offset %d", hdr.ca_offset);
+ ctx->client = current;
+ return count;
+
+ case CCB_DEQUEUE:
+ for (i = 0; i < DAX_CA_ELEMS; i++) {
+ if (ctx->ca_buf[i].status !=
+ CCA_STAT_NOT_COMPLETED)
+ dax_unlock_pages(ctx, i, 1);
+ }
+ return count;
+
+ default:
+ return -EINVAL;
+ }
+}
+
+static int dax_open(struct inode *inode, struct file *f)
+{
+ struct dax_ctx *ctx = NULL;
+ int i;
+
+ ctx = kzalloc(sizeof(*ctx), GFP_KERNEL);
+ if (ctx == NULL)
+ goto done;
+
+ ctx->ccb_buf = kcalloc(DAX_MAX_CCBS, sizeof(struct dax_ccb),
+ GFP_KERNEL);
+ if (ctx->ccb_buf == NULL)
+ goto done;
+
+ ctx->ccb_buf_ra = virt_to_phys(ctx->ccb_buf);
+ dax_dbg("ctx->ccb_buf=0x%p, ccb_buf_ra=0x%llx",
+ (void *)ctx->ccb_buf, ctx->ccb_buf_ra);
+
+ /* allocate CCB completion area buffer */
+ ctx->ca_buf = kzalloc(DAX_MMAP_LEN, GFP_KERNEL);
+ if (ctx->ca_buf == NULL)
+ goto alloc_error;
+ for (i = 0; i < DAX_CA_ELEMS; i++)
+ ctx->ca_buf[i].status = CCA_STAT_COMPLETED;
+
+ ctx->ca_buf_ra = virt_to_phys(ctx->ca_buf);
+ dax_dbg("ctx=0x%p, ctx->ca_buf=0x%p, ca_buf_ra=0x%llx",
+ (void *)ctx, (void *)ctx->ca_buf, ctx->ca_buf_ra);
+
+ ctx->owner = current;
+ f->private_data = ctx;
+ return 0;
+
+alloc_error:
+ kfree(ctx->ccb_buf);
+done:
+ if (ctx != NULL)
+ kfree(ctx);
+ return -ENOMEM;
+}
+
+static char *dax_hv_errno(unsigned long hv_ret, int *ret)
+{
+ switch (hv_ret) {
+ case HV_EBADALIGN:
+ *ret = -EFAULT;
+ return "HV_EBADALIGN";
+ case HV_ENORADDR:
+ *ret = -EFAULT;
+ return "HV_ENORADDR";
+ case HV_EINVAL:
+ *ret = -EINVAL;
+ return "HV_EINVAL";
+ case HV_EWOULDBLOCK:
+ *ret = -EAGAIN;
+ return "HV_EWOULDBLOCK";
+ case HV_ENOACCESS:
+ *ret = -EPERM;
+ return "HV_ENOACCESS";
+ default:
+ break;
+ }
+
+ *ret = -EIO;
+ return "UNKNOWN";
+}
+
+static int dax_ccb_kill(u64 ca, u16 *kill_res)
+{
+ unsigned long hv_ret;
+ int count, ret = 0;
+ char *err_str;
+
+ for (count = 0; count < DAX_CCB_RETRIES; count++) {
+ dax_dbg("attempting kill on ca_ra 0x%llx", ca);
+ hv_ret = sun4v_ccb_kill(ca, kill_res);
+
+ if (hv_ret == HV_EOK) {
+ dax_info_dbg("HV_EOK (ca_ra 0x%llx): %d", ca,
+ *kill_res);
+ } else {
+ err_str = dax_hv_errno(hv_ret, &ret);
+ dax_dbg("%s (ca_ra 0x%llx)", err_str, ca);
+ }
+
+ if (ret != -EAGAIN)
+ return ret;
+ dax_info_dbg("ccb_kill count = %d", count);
+ udelay(DAX_CCB_USEC);
+ }
+
+ return -EAGAIN;
+}
+
+static int dax_ccb_info(u64 ca, struct ccb_info_result *info)
+{
+ unsigned long hv_ret;
+ char *err_str;
+ int ret = 0;
+
+ dax_dbg("attempting info on ca_ra 0x%llx", ca);
+ hv_ret = sun4v_ccb_info(ca, info);
+
+ if (hv_ret == HV_EOK) {
+ dax_info_dbg("HV_EOK (ca_ra 0x%llx): %d", ca, info->state);
+ if (info->state == DAX_CCB_ENQUEUED) {
+ dax_info_dbg("dax_unit %d, queue_num %d, queue_pos %d",
+ info->inst_num, info->q_num, info->q_pos);
+ }
+ } else {
+ err_str = dax_hv_errno(hv_ret, &ret);
+ dax_dbg("%s (ca_ra 0x%llx)", err_str, ca);
+ }
+
+ return ret;
+}
+
+static void dax_prt_ccbs(struct dax_ccb *ccb, int nelem)
+{
+ int i, j;
+ u64 *ccbp;
+
+ dax_dbg("ccb buffer:");
+ for (i = 0; i < nelem; i++) {
+ ccbp = (u64 *)&ccb[i];
+ dax_dbg(" %sccb[%d]", ccb[i].hdr.longccb ? "long " : "", i);
+ for (j = 0; j < 8; j++)
+ dax_dbg("\tccb[%d].dwords[%d]=0x%llx",
+ i, j, *(ccbp + j));
+ }
+}
+
+/*
+ * Validates user CCB content. Also sets completion address and address types
+ * for all addresses contained in CCB.
+ */
+static int dax_preprocess_usr_ccbs(struct dax_ctx *ctx, int idx, int nelem)
+{
+ int i;
+
+ /*
+ * The user is not allowed to specify real address types in
+ * the CCB header. This must be enforced by the kernel before
+ * submitting the CCBs to HV. The only allowed values for all
+ * address fields are VA or IMM
+ */
+ for (i = 0; i < nelem; i++) {
+ struct dax_ccb *ccbp = &ctx->ccb_buf[i];
+ unsigned long ca_offset;
+
+ if (ccbp->hdr.ccb_version > max_ccb_version)
+ return DAX_SUBMIT_ERR_CCB_INVAL;
+
+ switch (ccbp->hdr.opcode) {
+ case DAX_OP_SYNC_NOP:
+ case DAX_OP_EXTRACT:
+ case DAX_OP_SCAN_VALUE:
+ case DAX_OP_SCAN_RANGE:
+ case DAX_OP_TRANSLATE:
+ case DAX_OP_SCAN_VALUE | DAX_OP_INVERT:
+ case DAX_OP_SCAN_RANGE | DAX_OP_INVERT:
+ case DAX_OP_TRANSLATE | DAX_OP_INVERT:
+ case DAX_OP_SELECT:
+ break;
+ default:
+ return DAX_SUBMIT_ERR_CCB_INVAL;
+ }
+
+ if (ccbp->hdr.out_addr_type != DAX_ADDR_TYPE_VA &&
+ ccbp->hdr.out_addr_type != DAX_ADDR_TYPE_NONE) {
+ dax_dbg("invalid out_addr_type in user CCB[%d]", i);
+ return DAX_SUBMIT_ERR_CCB_INVAL;
+ }
+
+ if (ccbp->hdr.pri_addr_type != DAX_ADDR_TYPE_VA &&
+ ccbp->hdr.pri_addr_type != DAX_ADDR_TYPE_NONE) {
+ dax_dbg("invalid pri_addr_type in user CCB[%d]", i);
+ return DAX_SUBMIT_ERR_CCB_INVAL;
+ }
+
+ if (ccbp->hdr.sec_addr_type != DAX_ADDR_TYPE_VA &&
+ ccbp->hdr.sec_addr_type != DAX_ADDR_TYPE_NONE) {
+ dax_dbg("invalid sec_addr_type in user CCB[%d]", i);
+ return DAX_SUBMIT_ERR_CCB_INVAL;
+ }
+
+ if (ccbp->hdr.table_addr_type != DAX_ADDR_TYPE_VA &&
+ ccbp->hdr.table_addr_type != DAX_ADDR_TYPE_NONE) {
+ dax_dbg("invalid table_addr_type in user CCB[%d]", i);
+ return DAX_SUBMIT_ERR_CCB_INVAL;
+ }
+
+ /* set completion (real) address and address type */
+ ccbp->hdr.cca_addr_type = DAX_ADDR_TYPE_RA;
+ ca_offset = (idx + i) * sizeof(struct dax_cca);
+ ccbp->ca = (void *)ctx->ca_buf_ra + ca_offset;
+ memset(&ctx->ca_buf[idx + i], 0, sizeof(struct dax_cca));
+
+ dax_dbg("ccb[%d]=%p, ca_offset=0x%lx, compl RA=0x%llx",
+ i, ccbp, ca_offset, ctx->ca_buf_ra + ca_offset);
+
+ /* skip over 2nd 64 bytes of long CCB */
+ if (ccbp->hdr.longccb)
+ i++;
+ }
+
+ return DAX_SUBMIT_OK;
+}
+
+static int dax_ccb_exec(struct dax_ctx *ctx, const char __user *buf,
+ size_t count, loff_t *ppos)
+{
+ unsigned long accepted_len, hv_rv;
+ int i, idx, nccbs, naccepted;
+
+ ctx->client = current;
+ idx = *ppos;
+ nccbs = count / sizeof(struct dax_ccb);
+
+ if (ctx->owner != current) {
+ dax_dbg("wrong thread");
+ ctx->result.exec.status = DAX_SUBMIT_ERR_THR_INIT;
+ return 0;
+ }
+ dax_dbg("args: ccb_buf_len=%ld, idx=%d", count, idx);
+
+ /* for given index and length, verify ca_buf range exists */
+ if (idx + nccbs >= DAX_CA_ELEMS) {
+ ctx->result.exec.status = DAX_SUBMIT_ERR_NO_CA_AVAIL;
+ return 0;
+ }
+
+ /*
+ * Copy CCBs into kernel buffer to prevent modification by the
+ * user in between validation and submission.
+ */
+ if (copy_from_user(ctx->ccb_buf, buf, count)) {
+ dax_dbg("copyin of user CCB buffer failed");
+ ctx->result.exec.status = DAX_SUBMIT_ERR_CCB_ARR_MMU_MISS;
+ return 0;
+ }
+
+ /* check to see if ca_buf[idx] .. ca_buf[idx + nccbs] are available */
+ for (i = idx; i < idx + nccbs; i++) {
+ if (ctx->ca_buf[i].status == CCA_STAT_NOT_COMPLETED) {
+ dax_dbg("CA range not available, dequeue needed");
+ ctx->result.exec.status = DAX_SUBMIT_ERR_NO_CA_AVAIL;
+ return 0;
+ }
+ }
+ dax_unlock_pages(ctx, idx, nccbs);
+
+ ctx->result.exec.status = dax_preprocess_usr_ccbs(ctx, idx, nccbs);
+ if (ctx->result.exec.status != DAX_SUBMIT_OK)
+ return 0;
+
+ ctx->result.exec.status = dax_lock_pages(ctx, idx, nccbs,
+ &ctx->result.exec.status_data);
+ if (ctx->result.exec.status != DAX_SUBMIT_OK)
+ return 0;
+
+ if (dax_debug & DAX_DBG_FLG_BASIC)
+ dax_prt_ccbs(ctx->ccb_buf, nccbs);
+
+ hv_rv = sun4v_ccb_submit(ctx->ccb_buf_ra, count,
+ HV_CCB_QUERY_CMD | HV_CCB_VA_SECONDARY, 0,
+ &accepted_len, &ctx->result.exec.status_data);
+
+ switch (hv_rv) {
+ case HV_EOK:
+ /*
+ * Hcall succeeded with no errors but the accepted
+ * length may be less than the requested length. The
+ * only way the driver can resubmit the remainder is
+ * to wait for completion of the submitted CCBs since
+ * there is no way to guarantee the ordering semantics
+ * required by the client applications. Therefore we
+ * let the user library deal with resubmissions.
+ */
+ ctx->result.exec.status = DAX_SUBMIT_OK;
+ break;
+ case HV_EWOULDBLOCK:
+ /*
+ * This is a transient HV API error. The user library
+ * can retry.
+ */
+ dax_dbg("hcall returned HV_EWOULDBLOCK");
+ ctx->result.exec.status = DAX_SUBMIT_ERR_WOULDBLOCK;
+ break;
+ case HV_ENOMAP:
+ /*
+ * HV was unable to translate a VA. The VA it could
+ * not translate is returned in the status_data param.
+ */
+ dax_dbg("hcall returned HV_ENOMAP");
+ ctx->result.exec.status = DAX_SUBMIT_ERR_NOMAP;
+ break;
+ case HV_EINVAL:
+ /*
+ * This is the result of an invalid user CCB as HV is
+ * validating some of the user CCB fields. Pass this
+ * error back to the user. There is no supporting info
+ * to isolate the invalid field.
+ */
+ dax_dbg("hcall returned HV_EINVAL");
+ ctx->result.exec.status = DAX_SUBMIT_ERR_CCB_INVAL;
+ break;
+ case HV_ENOACCESS:
+ /*
+ * HV found a VA that did not have the appropriate
+ * permissions (such as the w bit). The VA in question
+ * is returned in status_data param.
+ */
+ dax_dbg("hcall returned HV_ENOACCESS");
+ ctx->result.exec.status = DAX_SUBMIT_ERR_NOACCESS;
+ break;
+ case HV_EUNAVAILABLE:
+ /*
+ * The requested CCB operation could not be performed
+ * at this time. Return the specific unavailable code
+ * in the status_data field.
+ */
+ dax_dbg("hcall returned HV_EUNAVAILABLE");
+ ctx->result.exec.status = DAX_SUBMIT_ERR_UNAVAIL;
+ break;
+ default:
+ ctx->result.exec.status = DAX_SUBMIT_ERR_INTERNAL;
+ dax_dbg("unknown hcall return value (%ld)", hv_rv);
+ break;
+ }
+
+ /* unlock pages associated with the unaccepted CCBs */
+ naccepted = accepted_len / sizeof(struct dax_ccb);
+ dax_unlock_pages(ctx, idx + naccepted, nccbs - naccepted);
+
+ /* mark unaccepted CCBs as not completed */
+ for (i = idx + naccepted; i < idx + nccbs; i++)
+ ctx->ca_buf[i].status = CCA_STAT_COMPLETED;
+
+ ctx->ccb_count += naccepted;
+ ctx->fail_count += nccbs - naccepted;
+
+ dax_dbg("hcall rv=%ld, accepted_len=%ld, status_data=0x%llx, ret status=%d",
+ hv_rv, accepted_len, ctx->result.exec.status_data,
+ ctx->result.exec.status);
+
+ if (count == accepted_len)
+ ctx->client = NULL; /* no read needed to complete protocol */
+ return accepted_len;
+}