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|
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2009 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#include <sys/errno.h>
#include <sys/types.h>
#include <sys/conf.h>
#include <sys/kmem.h>
#include <sys/ddi.h>
#include <sys/stat.h>
#include <sys/sunddi.h>
#include <sys/file.h>
#include <sys/open.h>
#include <sys/modctl.h>
#include <sys/ddi_impldefs.h>
#include <vm/seg_kmem.h>
#include <sys/vmsystm.h>
#include <sys/sysmacros.h>
#include <sys/ddidevmap.h>
#include <sys/avl.h>
#ifdef __xpv
#include <sys/hypervisor.h>
#endif
#include <sys/xsvc.h>
/* total max memory which can be alloced with ioctl interface */
uint64_t xsvc_max_memory = 10 * 1024 * 1024;
extern void i86_va_map(caddr_t vaddr, struct as *asp, caddr_t kaddr);
static int xsvc_open(dev_t *devp, int flag, int otyp, cred_t *cred);
static int xsvc_close(dev_t devp, int flag, int otyp, cred_t *cred);
static int xsvc_ioctl(dev_t dev, int cmd, intptr_t arg, int mode, cred_t *cred,
int *rval);
static int xsvc_devmap(dev_t dev, devmap_cookie_t dhp, offset_t off, size_t len,
size_t *maplen, uint_t model);
static int xsvc_attach(dev_info_t *devi, ddi_attach_cmd_t cmd);
static int xsvc_detach(dev_info_t *devi, ddi_detach_cmd_t cmd);
static int xsvc_getinfo(dev_info_t *dip, ddi_info_cmd_t cmd, void *arg,
void **result);
static struct cb_ops xsvc_cb_ops = {
xsvc_open, /* cb_open */
xsvc_close, /* cb_close */
nodev, /* cb_strategy */
nodev, /* cb_print */
nodev, /* cb_dump */
nodev, /* cb_read */
nodev, /* cb_write */
xsvc_ioctl, /* cb_ioctl */
xsvc_devmap, /* cb_devmap */
NULL, /* cb_mmap */
NULL, /* cb_segmap */
nochpoll, /* cb_chpoll */
ddi_prop_op, /* cb_prop_op */
NULL, /* cb_stream */
D_NEW | D_MP | D_64BIT | D_DEVMAP, /* cb_flag */
CB_REV
};
static struct dev_ops xsvc_dev_ops = {
DEVO_REV, /* devo_rev */
0, /* devo_refcnt */
xsvc_getinfo, /* devo_getinfo */
nulldev, /* devo_identify */
nulldev, /* devo_probe */
xsvc_attach, /* devo_attach */
xsvc_detach, /* devo_detach */
nodev, /* devo_reset */
&xsvc_cb_ops, /* devo_cb_ops */
NULL, /* devo_bus_ops */
NULL, /* power */
ddi_quiesce_not_needed, /* quiesce */
};
static struct modldrv xsvc_modldrv = {
&mod_driverops, /* Type of module. This one is a driver */
"xsvc driver", /* Name of the module. */
&xsvc_dev_ops, /* driver ops */
};
static struct modlinkage xsvc_modlinkage = {
MODREV_1,
(void *) &xsvc_modldrv,
NULL
};
static int xsvc_ioctl_alloc_memory(xsvc_state_t *state, void *arg, int mode);
static int xsvc_ioctl_flush_memory(xsvc_state_t *state, void *arg, int mode);
static int xsvc_ioctl_free_memory(xsvc_state_t *state, void *arg, int mode);
static int xsvc_mem_alloc(xsvc_state_t *state, uint64_t key,
xsvc_mem_t **mp);
static void xsvc_mem_free(xsvc_state_t *state, xsvc_mem_t *mp);
static xsvc_mem_t *xsvc_mem_lookup(xsvc_state_t *state,
uint64_t key);
static int xsvc_mnode_key_compare(const void *q, const void *e);
static int xsvc_umem_cookie_alloc(caddr_t kva, size_t size, int flags,
ddi_umem_cookie_t *cookiep);
static void xsvc_umem_cookie_free(ddi_umem_cookie_t *cookiep);
void *xsvc_statep;
static ddi_device_acc_attr_t xsvc_device_attr = {
DDI_DEVICE_ATTR_V0,
DDI_NEVERSWAP_ACC,
DDI_STRICTORDER_ACC
};
static int xsvc_devmap_map(devmap_cookie_t dhp, dev_t dev, uint_t flags,
offset_t off, size_t len, void **pvtp);
static int xsvc_devmap_dup(devmap_cookie_t dhp, void *pvtp,
devmap_cookie_t new_dhp, void **new_pvtp);
static void xsvc_devmap_unmap(devmap_cookie_t dhp, void *pvtp, offset_t off,
size_t len, devmap_cookie_t new_dhp1, void **new_pvtp1,
devmap_cookie_t new_dhp2, void **new_pvtp2);
static struct devmap_callback_ctl xsvc_callbk = {
DEVMAP_OPS_REV,
xsvc_devmap_map,
NULL,
xsvc_devmap_dup,
xsvc_devmap_unmap
};
/*
* _init()
*
*/
int
_init(void)
{
int err;
err = ddi_soft_state_init(&xsvc_statep, sizeof (xsvc_state_t), 1);
if (err != 0) {
return (err);
}
err = mod_install(&xsvc_modlinkage);
if (err != 0) {
ddi_soft_state_fini(&xsvc_statep);
return (err);
}
return (0);
}
/*
* _info()
*
*/
int
_info(struct modinfo *modinfop)
{
return (mod_info(&xsvc_modlinkage, modinfop));
}
/*
* _fini()
*
*/
int
_fini(void)
{
int err;
err = mod_remove(&xsvc_modlinkage);
if (err != 0) {
return (err);
}
ddi_soft_state_fini(&xsvc_statep);
return (0);
}
/*
* xsvc_attach()
*
*/
static int
xsvc_attach(dev_info_t *dip, ddi_attach_cmd_t cmd)
{
xsvc_state_t *state;
int maxallocmem;
int instance;
int err;
switch (cmd) {
case DDI_ATTACH:
break;
case DDI_RESUME:
return (DDI_SUCCESS);
default:
return (DDI_FAILURE);
}
instance = ddi_get_instance(dip);
err = ddi_soft_state_zalloc(xsvc_statep, instance);
if (err != DDI_SUCCESS) {
return (DDI_FAILURE);
}
state = ddi_get_soft_state(xsvc_statep, instance);
if (state == NULL) {
goto attachfail_get_soft_state;
}
state->xs_dip = dip;
state->xs_instance = instance;
/* Initialize allocation count */
mutex_init(&state->xs_mutex, NULL, MUTEX_DRIVER, NULL);
state->xs_currently_alloced = 0;
mutex_init(&state->xs_cookie_mutex, NULL, MUTEX_DRIVER, NULL);
/* create the minor node (for the ioctl) */
err = ddi_create_minor_node(dip, "xsvc", S_IFCHR, instance, DDI_PSEUDO,
0);
if (err != DDI_SUCCESS) {
goto attachfail_minor_node;
}
/*
* the maxallocmem property will override the default (xsvc_max_memory).
* This is the maximum total memory the ioctl will allow to be alloced.
*/
maxallocmem = ddi_prop_get_int(DDI_DEV_T_ANY, state->xs_dip,
DDI_PROP_DONTPASS, "maxallocmem", -1);
if (maxallocmem >= 0) {
xsvc_max_memory = maxallocmem * 1024;
}
/* Initialize list of memory allocs */
mutex_init(&state->xs_mlist.ml_mutex, NULL, MUTEX_DRIVER, NULL);
avl_create(&state->xs_mlist.ml_avl, xsvc_mnode_key_compare,
sizeof (xsvc_mnode_t), offsetof(xsvc_mnode_t, mn_link));
/* Report that driver was loaded */
ddi_report_dev(dip);
return (DDI_SUCCESS);
attachfail_minor_node:
mutex_destroy(&state->xs_cookie_mutex);
mutex_destroy(&state->xs_mutex);
attachfail_get_soft_state:
(void) ddi_soft_state_free(xsvc_statep, instance);
return (err);
}
/*
* xsvc_detach()
*
*/
static int
xsvc_detach(dev_info_t *dip, ddi_detach_cmd_t cmd)
{
xsvc_state_t *state;
xsvc_mnode_t *mnode;
xsvc_mem_t *mp;
int instance;
instance = ddi_get_instance(dip);
state = ddi_get_soft_state(xsvc_statep, instance);
if (state == NULL) {
return (DDI_FAILURE);
}
switch (cmd) {
case DDI_DETACH:
break;
case DDI_SUSPEND:
return (DDI_SUCCESS);
default:
return (DDI_FAILURE);
}
ddi_remove_minor_node(dip, NULL);
/* Free any memory on list */
while ((mnode = avl_first(&state->xs_mlist.ml_avl)) != NULL) {
mp = mnode->mn_home;
xsvc_mem_free(state, mp);
}
/* remove list */
avl_destroy(&state->xs_mlist.ml_avl);
mutex_destroy(&state->xs_mlist.ml_mutex);
mutex_destroy(&state->xs_cookie_mutex);
mutex_destroy(&state->xs_mutex);
(void) ddi_soft_state_free(xsvc_statep, state->xs_instance);
return (DDI_SUCCESS);
}
/*
* xsvc_getinfo()
*
*/
/*ARGSUSED*/
static int
xsvc_getinfo(dev_info_t *dip, ddi_info_cmd_t cmd, void *arg, void **result)
{
xsvc_state_t *state;
int instance;
dev_t dev;
int err;
dev = (dev_t)arg;
instance = getminor(dev);
switch (cmd) {
case DDI_INFO_DEVT2DEVINFO:
state = ddi_get_soft_state(xsvc_statep, instance);
if (state == NULL) {
return (DDI_FAILURE);
}
*result = (void *)state->xs_dip;
err = DDI_SUCCESS;
break;
case DDI_INFO_DEVT2INSTANCE:
*result = (void *)(uintptr_t)instance;
err = DDI_SUCCESS;
break;
default:
err = DDI_FAILURE;
break;
}
return (err);
}
/*
* xsvc_open()
*
*/
/*ARGSUSED*/
static int
xsvc_open(dev_t *devp, int flag, int otyp, cred_t *cred)
{
xsvc_state_t *state;
int instance;
instance = getminor(*devp);
state = ddi_get_soft_state(xsvc_statep, instance);
if (state == NULL) {
return (ENXIO);
}
return (0);
}
/*
* xsvc_close()
*
*/
/*ARGSUSED*/
static int
xsvc_close(dev_t devp, int flag, int otyp, cred_t *cred)
{
return (0);
}
/*
* xsvc_ioctl()
*
*/
/*ARGSUSED*/
static int
xsvc_ioctl(dev_t dev, int cmd, intptr_t arg, int mode, cred_t *cred, int *rval)
{
xsvc_state_t *state;
int instance;
int err;
err = drv_priv(cred);
if (err != 0) {
return (EPERM);
}
instance = getminor(dev);
if (instance == -1) {
return (EBADF);
}
state = ddi_get_soft_state(xsvc_statep, instance);
if (state == NULL) {
return (EBADF);
}
switch (cmd) {
case XSVC_ALLOC_MEM:
err = xsvc_ioctl_alloc_memory(state, (void *)arg, mode);
break;
case XSVC_FREE_MEM:
err = xsvc_ioctl_free_memory(state, (void *)arg, mode);
break;
case XSVC_FLUSH_MEM:
err = xsvc_ioctl_flush_memory(state, (void *)arg, mode);
break;
default:
err = ENXIO;
}
return (err);
}
/*
* xsvc_ioctl_alloc_memory()
*
*/
static int
xsvc_ioctl_alloc_memory(xsvc_state_t *state, void *arg, int mode)
{
xsvc_mem_req_32 params32;
xsvc_mloc_32 *usgl32;
xsvc_mem_req params;
xsvc_mloc_32 sgl32;
xsvc_mloc *usgl;
xsvc_mem_t *mp;
xsvc_mloc sgl;
uint64_t key;
size_t size;
int err;
int i;
/* Copy in the params, then get the size and key */
if (ddi_model_convert_from(mode & FMODELS) == DDI_MODEL_ILP32) {
err = ddi_copyin(arg, ¶ms32, sizeof (xsvc_mem_req_32),
mode);
if (err != 0) {
return (EFAULT);
}
key = (uint64_t)params32.xsvc_mem_reqid;
size = P2ROUNDUP((size_t)params32.xsvc_mem_size, PAGESIZE);
} else {
err = ddi_copyin(arg, ¶ms, sizeof (xsvc_mem_req), mode);
if (err != 0) {
return (EFAULT);
}
key = (uint64_t)params.xsvc_mem_reqid;
size = P2ROUNDUP(params.xsvc_mem_size, PAGESIZE);
}
/*
* make sure this doesn't put us over the maximum allowed to be
* allocated
*/
mutex_enter(&state->xs_mutex);
if ((state->xs_currently_alloced + size) > xsvc_max_memory) {
mutex_exit(&state->xs_mutex);
return (EAGAIN);
}
state->xs_currently_alloced += size;
mutex_exit(&state->xs_mutex);
/* get state to track this memory */
err = xsvc_mem_alloc(state, key, &mp);
if (err != 0) {
return (err);
}
mp->xm_size = size;
/* allocate and bind the memory */
mp->xm_dma_attr.dma_attr_version = DMA_ATTR_V0;
mp->xm_dma_attr.dma_attr_count_max = (uint64_t)0xFFFFFFFF;
mp->xm_dma_attr.dma_attr_burstsizes = 1;
mp->xm_dma_attr.dma_attr_minxfer = 1;
mp->xm_dma_attr.dma_attr_maxxfer = (uint64_t)0xFFFFFFFF;
mp->xm_dma_attr.dma_attr_seg = (uint64_t)0xFFFFFFFF;
mp->xm_dma_attr.dma_attr_granular = 1;
mp->xm_dma_attr.dma_attr_flags = 0;
/* Finish converting params */
if (ddi_model_convert_from(mode & FMODELS) == DDI_MODEL_ILP32) {
mp->xm_dma_attr.dma_attr_addr_lo = params32.xsvc_mem_addr_lo;
mp->xm_dma_attr.dma_attr_addr_hi = params32.xsvc_mem_addr_hi;
mp->xm_dma_attr.dma_attr_sgllen = params32.xsvc_mem_sgllen;
usgl32 = (xsvc_mloc_32 *)(uintptr_t)params32.xsvc_sg_list;
mp->xm_dma_attr.dma_attr_align = P2ROUNDUP(
params32.xsvc_mem_align, PAGESIZE);
} else {
mp->xm_dma_attr.dma_attr_addr_lo = params.xsvc_mem_addr_lo;
mp->xm_dma_attr.dma_attr_addr_hi = params.xsvc_mem_addr_hi;
mp->xm_dma_attr.dma_attr_sgllen = params.xsvc_mem_sgllen;
usgl = (xsvc_mloc *)(uintptr_t)params.xsvc_sg_list;
mp->xm_dma_attr.dma_attr_align = P2ROUNDUP(
params.xsvc_mem_align, PAGESIZE);
}
mp->xm_device_attr = xsvc_device_attr;
err = ddi_dma_alloc_handle(state->xs_dip, &mp->xm_dma_attr,
DDI_DMA_SLEEP, NULL, &mp->xm_dma_handle);
if (err != DDI_SUCCESS) {
err = EINVAL;
goto allocfail_alloc_handle;
}
/* don't sleep here so we don't get stuck in contig alloc */
err = ddi_dma_mem_alloc(mp->xm_dma_handle, mp->xm_size,
&mp->xm_device_attr, DDI_DMA_CONSISTENT, DDI_DMA_DONTWAIT, NULL,
&mp->xm_addr, &mp->xm_real_length, &mp->xm_mem_handle);
if (err != DDI_SUCCESS) {
err = EINVAL;
goto allocfail_alloc_mem;
}
err = ddi_dma_addr_bind_handle(mp->xm_dma_handle, NULL, mp->xm_addr,
mp->xm_size, DDI_DMA_RDWR | DDI_DMA_CONSISTENT, DDI_DMA_SLEEP,
NULL, &mp->xm_cookie, &mp->xm_cookie_count);
if (err != DDI_DMA_MAPPED) {
err = EFAULT;
goto allocfail_bind;
}
/* return sgl */
for (i = 0; i < mp->xm_cookie_count; i++) {
if (ddi_model_convert_from(mode & FMODELS) == DDI_MODEL_ILP32) {
sgl32.mloc_addr = mp->xm_cookie.dmac_laddress;
sgl32.mloc_size = mp->xm_cookie.dmac_size;
err = ddi_copyout(&sgl32, &usgl32[i],
sizeof (xsvc_mloc_32), mode);
if (err != 0) {
err = EFAULT;
goto allocfail_copyout;
}
} else {
sgl.mloc_addr = mp->xm_cookie.dmac_laddress;
sgl.mloc_size = mp->xm_cookie.dmac_size;
err = ddi_copyout(&sgl, &usgl[i], sizeof (xsvc_mloc),
mode);
if (err != 0) {
err = EFAULT;
goto allocfail_copyout;
}
}
ddi_dma_nextcookie(mp->xm_dma_handle, &mp->xm_cookie);
}
/* set the last sgl entry to 0 to indicate cookie count */
if (ddi_model_convert_from(mode & FMODELS) == DDI_MODEL_ILP32) {
sgl32.mloc_addr = 0;
sgl32.mloc_size = 0;
err = ddi_copyout(&sgl32, &usgl32[i], sizeof (xsvc_mloc_32),
mode);
if (err != 0) {
err = EFAULT;
goto allocfail_copyout;
}
} else {
sgl.mloc_addr = 0;
sgl.mloc_size = 0;
err = ddi_copyout(&sgl, &usgl[i], sizeof (xsvc_mloc), mode);
if (err != 0) {
err = EFAULT;
goto allocfail_copyout;
}
}
return (0);
allocfail_copyout:
(void) ddi_dma_unbind_handle(mp->xm_dma_handle);
allocfail_bind:
ddi_dma_mem_free(&mp->xm_mem_handle);
allocfail_alloc_mem:
ddi_dma_free_handle(&mp->xm_dma_handle);
allocfail_alloc_handle:
mp->xm_dma_handle = NULL;
xsvc_mem_free(state, mp);
mutex_enter(&state->xs_mutex);
state->xs_currently_alloced = state->xs_currently_alloced - size;
mutex_exit(&state->xs_mutex);
return (err);
}
/*
* xsvc_ioctl_flush_memory()
*
*/
static int
xsvc_ioctl_flush_memory(xsvc_state_t *state, void *arg, int mode)
{
xsvc_mem_req_32 params32;
xsvc_mem_req params;
xsvc_mem_t *mp;
uint64_t key;
int err;
if (ddi_model_convert_from(mode & FMODELS) == DDI_MODEL_ILP32) {
err = ddi_copyin(arg, ¶ms32, sizeof (xsvc_mem_req_32),
mode);
if (err != 0) {
return (EFAULT);
}
key = (uint64_t)params32.xsvc_mem_reqid;
} else {
err = ddi_copyin(arg, ¶ms, sizeof (xsvc_mem_req), mode);
if (err != 0) {
return (EFAULT);
}
key = (uint64_t)params.xsvc_mem_reqid;
}
/* find the memory */
mp = xsvc_mem_lookup(state, key);
if (mp == NULL) {
return (EINVAL);
}
(void) ddi_dma_sync(mp->xm_dma_handle, 0, 0, DDI_DMA_SYNC_FORCPU);
return (0);
}
/*
* xsvc_ioctl_free_memory()
*
*/
static int
xsvc_ioctl_free_memory(xsvc_state_t *state, void *arg, int mode)
{
xsvc_mem_req_32 params32;
xsvc_mem_req params;
xsvc_mem_t *mp;
uint64_t key;
int err;
if (ddi_model_convert_from(mode & FMODELS) == DDI_MODEL_ILP32) {
err = ddi_copyin(arg, ¶ms32, sizeof (xsvc_mem_req_32),
mode);
if (err != 0) {
return (EFAULT);
}
key = (uint64_t)params32.xsvc_mem_reqid;
} else {
err = ddi_copyin(arg, ¶ms, sizeof (xsvc_mem_req), mode);
if (err != 0) {
return (EFAULT);
}
key = (uint64_t)params.xsvc_mem_reqid;
}
/* find the memory */
mp = xsvc_mem_lookup(state, key);
if (mp == NULL) {
return (EINVAL);
}
xsvc_mem_free(state, mp);
return (0);
}
/*
* xsvc_mem_alloc()
*
*/
static int
xsvc_mem_alloc(xsvc_state_t *state, uint64_t key, xsvc_mem_t **mp)
{
xsvc_mem_t *mem;
mem = xsvc_mem_lookup(state, key);
if (mem != NULL) {
xsvc_mem_free(state, mem);
}
*mp = kmem_alloc(sizeof (xsvc_mem_t), KM_SLEEP);
(*mp)->xm_mnode.mn_home = *mp;
(*mp)->xm_mnode.mn_key = key;
mutex_enter(&state->xs_mlist.ml_mutex);
avl_add(&state->xs_mlist.ml_avl, &(*mp)->xm_mnode);
mutex_exit(&state->xs_mlist.ml_mutex);
return (0);
}
/*
* xsvc_mem_free()
*
*/
static void
xsvc_mem_free(xsvc_state_t *state, xsvc_mem_t *mp)
{
if (mp->xm_dma_handle != NULL) {
(void) ddi_dma_unbind_handle(mp->xm_dma_handle);
ddi_dma_mem_free(&mp->xm_mem_handle);
ddi_dma_free_handle(&mp->xm_dma_handle);
mutex_enter(&state->xs_mutex);
state->xs_currently_alloced = state->xs_currently_alloced -
mp->xm_size;
mutex_exit(&state->xs_mutex);
}
mutex_enter(&state->xs_mlist.ml_mutex);
avl_remove(&state->xs_mlist.ml_avl, &mp->xm_mnode);
mutex_exit(&state->xs_mlist.ml_mutex);
kmem_free(mp, sizeof (*mp));
}
/*
* xsvc_mem_lookup()
*
*/
static xsvc_mem_t *
xsvc_mem_lookup(xsvc_state_t *state, uint64_t key)
{
xsvc_mnode_t mnode;
xsvc_mnode_t *mnp;
avl_index_t where;
xsvc_mem_t *mp;
mnode.mn_key = key;
mutex_enter(&state->xs_mlist.ml_mutex);
mnp = avl_find(&state->xs_mlist.ml_avl, &mnode, &where);
mutex_exit(&state->xs_mlist.ml_mutex);
if (mnp != NULL) {
mp = mnp->mn_home;
} else {
mp = NULL;
}
return (mp);
}
/*
* xsvc_mnode_key_compare()
*
*/
static int
xsvc_mnode_key_compare(const void *q, const void *e)
{
xsvc_mnode_t *n1;
xsvc_mnode_t *n2;
n1 = (xsvc_mnode_t *)q;
n2 = (xsvc_mnode_t *)e;
if (n1->mn_key < n2->mn_key) {
return (-1);
} else if (n1->mn_key > n2->mn_key) {
return (1);
} else {
return (0);
}
}
/*
* xsvc_devmap()
*
*/
/*ARGSUSED*/
static int
xsvc_devmap(dev_t dev, devmap_cookie_t dhp, offset_t off, size_t len,
size_t *maplen, uint_t model)
{
ddi_umem_cookie_t cookie;
xsvc_state_t *state;
offset_t off_align;
size_t npages;
caddr_t kvai;
size_t psize;
int instance;
caddr_t kva;
pfn_t pfn;
int err;
int i;
instance = getminor(dev);
state = ddi_get_soft_state(xsvc_statep, instance);
if (state == NULL) {
return (ENXIO);
}
/*
* On 64-bit kernels, if we have a 32-bit application doing a mmap(),
* smmap32 will sign extend the offset. We need to undo that since
* we are passed a physical address in off, not a offset.
*/
#if defined(__amd64)
if (((model & DDI_MODEL_MASK) == DDI_MODEL_ILP32) &&
((off & ~0xFFFFFFFFll) == ~0xFFFFFFFFll)) {
off = off & 0xFFFFFFFF;
}
#endif
#ifdef __xpv
/*
* we won't allow guest OSes to devmap mfn/pfns. Maybe we'll relax
* this some later when there is a good reason.
*/
if (!DOMAIN_IS_INITDOMAIN(xen_info)) {
return (-1);
}
/* we will always treat this as a foreign MFN */
pfn = xen_assign_pfn(btop(off));
#else
pfn = btop(off);
#endif
/* always work with whole pages */
off_align = P2ALIGN(off, PAGESIZE);
psize = P2ROUNDUP(off + len, PAGESIZE) - off_align;
/*
* if this is memory we're trying to map into user space, we first
* need to map the PFNs into KVA, then build up a umem cookie, and
* finally do a umem_setup to map it in.
*/
if (pf_is_memory(pfn)) {
npages = btop(psize);
kva = vmem_alloc(heap_arena, psize, VM_SLEEP);
if (kva == NULL) {
return (-1);
}
kvai = kva;
for (i = 0; i < npages; i++) {
hat_devload(kas.a_hat, kvai, PAGESIZE, pfn,
PROT_READ | PROT_WRITE, HAT_LOAD_LOCK);
pfn++;
kvai = (caddr_t)((uintptr_t)kvai + PAGESIZE);
}
err = xsvc_umem_cookie_alloc(kva, psize, KM_SLEEP, &cookie);
if (err != 0) {
goto devmapfail_cookie_alloc;
}
if ((err = devmap_umem_setup(dhp, state->xs_dip, &xsvc_callbk,
cookie, 0, psize, PROT_ALL, 0, &xsvc_device_attr)) < 0) {
goto devmapfail_umem_setup;
}
*maplen = psize;
/*
* If this is not memory (or a foreign MFN in i86xpv), go through
* devmem_setup.
*/
} else {
if ((err = devmap_devmem_setup(dhp, state->xs_dip, NULL, 0,
off_align, psize, PROT_ALL, 0, &xsvc_device_attr)) < 0) {
return (err);
}
*maplen = psize;
}
return (0);
devmapfail_umem_setup:
xsvc_umem_cookie_free(&cookie);
devmapfail_cookie_alloc:
kvai = kva;
for (i = 0; i < npages; i++) {
hat_unload(kas.a_hat, kvai, PAGESIZE,
HAT_UNLOAD_UNLOCK);
kvai = (caddr_t)((uintptr_t)kvai + PAGESIZE);
}
vmem_free(heap_arena, kva, psize);
return (err);
}
/*
* xsvc_umem_cookie_alloc()
*
* allocate a umem cookie to be used in devmap_umem_setup using KVA already
* allocated.
*/
int
xsvc_umem_cookie_alloc(caddr_t kva, size_t size, int flags,
ddi_umem_cookie_t *cookiep)
{
struct ddi_umem_cookie *umem_cookiep;
umem_cookiep = kmem_zalloc(sizeof (struct ddi_umem_cookie), flags);
if (umem_cookiep == NULL) {
*cookiep = NULL;
return (-1);
}
umem_cookiep->cvaddr = kva;
umem_cookiep->type = KMEM_NON_PAGEABLE;
umem_cookiep->size = size;
*cookiep = (ddi_umem_cookie_t *)umem_cookiep;
return (0);
}
/*
* xsvc_umem_cookie_free()
*
*/
static void
xsvc_umem_cookie_free(ddi_umem_cookie_t *cookiep)
{
kmem_free(*cookiep, sizeof (struct ddi_umem_cookie));
*cookiep = NULL;
}
/*
* xsvc_devmap_map()
*
*/
/*ARGSUSED*/
static int
xsvc_devmap_map(devmap_cookie_t dhc, dev_t dev, uint_t flags, offset_t off,
size_t len, void **pvtp)
{
struct ddi_umem_cookie *cp;
devmap_handle_t *dhp;
xsvc_state_t *state;
int instance;
instance = getminor(dev);
state = ddi_get_soft_state(xsvc_statep, instance);
if (state == NULL) {
return (ENXIO);
}
dhp = (devmap_handle_t *)dhc;
/* This driver only supports MAP_SHARED, not MAP_PRIVATE */
if (flags & MAP_PRIVATE) {
cmn_err(CE_WARN, "!xsvc driver doesn't support MAP_PRIVATE");
return (EINVAL);
}
cp = (struct ddi_umem_cookie *)dhp->dh_cookie;
cp->cook_refcnt = 1;
*pvtp = state;
return (0);
}
/*
* xsvc_devmap_dup()
*
* keep a reference count for forks so we don't unmap if we have multiple
* mappings.
*/
/*ARGSUSED*/
static int
xsvc_devmap_dup(devmap_cookie_t dhc, void *pvtp, devmap_cookie_t new_dhp,
void **new_pvtp)
{
struct ddi_umem_cookie *cp;
devmap_handle_t *dhp;
xsvc_state_t *state;
state = (xsvc_state_t *)pvtp;
dhp = (devmap_handle_t *)dhc;
mutex_enter(&state->xs_cookie_mutex);
cp = (struct ddi_umem_cookie *)dhp->dh_cookie;
if (cp == NULL) {
mutex_exit(&state->xs_cookie_mutex);
return (ENOMEM);
}
cp->cook_refcnt++;
mutex_exit(&state->xs_cookie_mutex);
*new_pvtp = state;
return (0);
}
/*
* xsvc_devmap_unmap()
*
* This routine is only call if we were mapping in memory in xsvc_devmap().
* i.e. we only pass in xsvc_callbk to devmap_umem_setup if pf_is_memory()
* was true. It would have been nice if devmap_callback_ctl had an args param.
* We wouldn't have had to look into the devmap_handle and into the umem
* cookie.
*/
/*ARGSUSED*/
static void
xsvc_devmap_unmap(devmap_cookie_t dhc, void *pvtp, offset_t off, size_t len,
devmap_cookie_t new_dhp1, void **new_pvtp1, devmap_cookie_t new_dhp2,
void **new_pvtp2)
{
struct ddi_umem_cookie *ncp;
struct ddi_umem_cookie *cp;
devmap_handle_t *ndhp;
devmap_handle_t *dhp;
xsvc_state_t *state;
size_t npages;
caddr_t kvai;
caddr_t kva;
size_t size;
int i;
state = (xsvc_state_t *)pvtp;
mutex_enter(&state->xs_cookie_mutex);
/* peek into the umem cookie to figure out what we need to free up */
dhp = (devmap_handle_t *)dhc;
cp = (struct ddi_umem_cookie *)dhp->dh_cookie;
ASSERT(cp != NULL);
if (new_dhp1 != NULL) {
ndhp = (devmap_handle_t *)new_dhp1;
ncp = (struct ddi_umem_cookie *)ndhp->dh_cookie;
ncp->cook_refcnt++;
*new_pvtp1 = state;
}
if (new_dhp2 != NULL) {
ndhp = (devmap_handle_t *)new_dhp2;
ncp = (struct ddi_umem_cookie *)ndhp->dh_cookie;
ncp->cook_refcnt++;
*new_pvtp2 = state;
}
cp->cook_refcnt--;
if (cp->cook_refcnt == 0) {
kva = cp->cvaddr;
size = cp->size;
/*
* free up the umem cookie, then unmap all the pages what we
* mapped in during devmap, then free up the kva space.
*/
npages = btop(size);
xsvc_umem_cookie_free(&dhp->dh_cookie);
kvai = kva;
for (i = 0; i < npages; i++) {
hat_unload(kas.a_hat, kvai, PAGESIZE,
HAT_UNLOAD_UNLOCK);
kvai = (caddr_t)((uintptr_t)kvai + PAGESIZE);
}
vmem_free(heap_arena, kva, size);
}
mutex_exit(&state->xs_cookie_mutex);
}
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