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xen_shm_machdep.c revision 1.1.4.1 
      1  1.1.4.1  mjf /*      $NetBSD: xen_shm_machdep.c,v 1.1.4.1 2007/12/08 18:18:24 mjf Exp $      */
      2  1.1.4.1  mjf 
      3  1.1.4.1  mjf /*
      4  1.1.4.1  mjf  * Copyright (c) 2006 Manuel Bouyer.
      5  1.1.4.1  mjf  *
      6  1.1.4.1  mjf  * Redistribution and use in source and binary forms, with or without
      7  1.1.4.1  mjf  * modification, are permitted provided that the following conditions
      8  1.1.4.1  mjf  * are met:
      9  1.1.4.1  mjf  * 1. Redistributions of source code must retain the above copyright
     10  1.1.4.1  mjf  *    notice, this list of conditions and the following disclaimer.
     11  1.1.4.1  mjf  * 2. Redistributions in binary form must reproduce the above copyright
     12  1.1.4.1  mjf  *    notice, this list of conditions and the following disclaimer in the
     13  1.1.4.1  mjf  *    documentation and/or other materials provided with the distribution.
     14  1.1.4.1  mjf  * 3. All advertising materials mentioning features or use of this software
     15  1.1.4.1  mjf  *    must display the following acknowledgement:
     16  1.1.4.1  mjf  *      This product includes software developed by Manuel Bouyer.
     17  1.1.4.1  mjf  * 4. The name of the author may not be used to endorse or promote products
     18  1.1.4.1  mjf  *    derived from this software without specific prior written permission.
     19  1.1.4.1  mjf  *
     20  1.1.4.1  mjf  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
     21  1.1.4.1  mjf  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
     22  1.1.4.1  mjf  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
     23  1.1.4.1  mjf  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
     24  1.1.4.1  mjf  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
     25  1.1.4.1  mjf  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
     26  1.1.4.1  mjf  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
     27  1.1.4.1  mjf  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
     28  1.1.4.1  mjf  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
     29  1.1.4.1  mjf  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
     30  1.1.4.1  mjf  *
     31  1.1.4.1  mjf  */
     32  1.1.4.1  mjf 
     33  1.1.4.1  mjf #include <sys/types.h>
     34  1.1.4.1  mjf #include <sys/param.h>
     35  1.1.4.1  mjf #include <sys/systm.h>
     36  1.1.4.1  mjf #include <sys/malloc.h>
     37  1.1.4.1  mjf #include <sys/queue.h>
     38  1.1.4.1  mjf #include <sys/vmem.h>
     39  1.1.4.1  mjf #include <sys/kernel.h>
     40  1.1.4.1  mjf #include <uvm/uvm.h>
     41  1.1.4.1  mjf 
     42  1.1.4.1  mjf #include <machine/pmap.h>
     43  1.1.4.1  mjf #include <xen/hypervisor.h>
     44  1.1.4.1  mjf #include <xen/xen.h>
     45  1.1.4.1  mjf #include <xen/evtchn.h>
     46  1.1.4.1  mjf #include <xen/xen_shm.h>
     47  1.1.4.1  mjf 
     48  1.1.4.1  mjf /*
     49  1.1.4.1  mjf  * Helper routines for the backend drivers. This implement the necessary
     50  1.1.4.1  mjf  * functions to map a bunch of pages from foreign domains in our kernel VM
     51  1.1.4.1  mjf  * space, do I/O to it, and unmap it.
     52  1.1.4.1  mjf  *
     53  1.1.4.1  mjf  * At boot time, we grap some kernel VM space that we'll use to map the foreign
     54  1.1.4.1  mjf  * pages. We also maintain a virtual to machine mapping table to give back
     55  1.1.4.1  mjf  * the appropriate address to bus_dma if requested.
     56  1.1.4.1  mjf  * If no more VM space is available, we return an error. The caller can then
     57  1.1.4.1  mjf  * register a callback which will be called when the required VM space is
     58  1.1.4.1  mjf  * available.
     59  1.1.4.1  mjf  */
     60  1.1.4.1  mjf 
     61  1.1.4.1  mjf /* pointers to our VM space */
     62  1.1.4.1  mjf static vaddr_t xen_shm_base_address;
     63  1.1.4.1  mjf static u_long xen_shm_base_address_pg;
     64  1.1.4.1  mjf static vaddr_t xen_shm_end_address;
     65  1.1.4.1  mjf 
     66  1.1.4.1  mjf /* Grab enouth VM space to map an entire vbd ring. */
     67  1.1.4.1  mjf #ifdef XEN3
     68  1.1.4.1  mjf /* Xen3 linux guests seems to eat more pages, gives enough for 10 vbd rings */
     69  1.1.4.1  mjf #define BLKIF_RING_SIZE __RING_SIZE((blkif_sring_t *)0, PAGE_SIZE)
     70  1.1.4.1  mjf #define XENSHM_NPAGES (BLKIF_RING_SIZE * (BLKIF_MAX_SEGMENTS_PER_REQUEST + 1) * 10)
     71  1.1.4.1  mjf #else
     72  1.1.4.1  mjf #define XENSHM_NPAGES (BLKIF_RING_SIZE * (BLKIF_MAX_SEGMENTS_PER_REQUEST + 1))
     73  1.1.4.1  mjf #endif
     74  1.1.4.1  mjf 
     75  1.1.4.1  mjf static vsize_t xen_shm_size = (XENSHM_NPAGES * PAGE_SIZE);
     76  1.1.4.1  mjf 
     77  1.1.4.1  mjf /* vm space management */
     78  1.1.4.1  mjf static vmem_t *xen_shm_arena;
     79  1.1.4.1  mjf 
     80  1.1.4.1  mjf /* callbacks are registered in a FIFO list. */
     81  1.1.4.1  mjf 
     82  1.1.4.1  mjf static SIMPLEQ_HEAD(xen_shm_callback_head, xen_shm_callback_entry)
     83  1.1.4.1  mjf     xen_shm_callbacks;
     84  1.1.4.1  mjf struct xen_shm_callback_entry {
     85  1.1.4.1  mjf 	SIMPLEQ_ENTRY(xen_shm_callback_entry) xshmc_entries;
     86  1.1.4.1  mjf 	int (*xshmc_callback)(void *); /* our callback */
     87  1.1.4.1  mjf 	void *xshmc_arg; /* cookie passed to the callback */
     88  1.1.4.1  mjf };
     89  1.1.4.1  mjf /* a pool of struct xen_shm_callback_entry */
     90  1.1.4.1  mjf static struct pool xen_shm_callback_pool;
     91  1.1.4.1  mjf 
     92  1.1.4.1  mjf #ifdef DEBUG
     93  1.1.4.1  mjf /* for ratecheck(9) */
     94  1.1.4.1  mjf static struct timeval xen_shm_errintvl = { 60, 0 };  /* a minute, each */
     95  1.1.4.1  mjf #endif
     96  1.1.4.1  mjf 
     97  1.1.4.1  mjf void
     98  1.1.4.1  mjf xen_shm_init()
     99  1.1.4.1  mjf {
    100  1.1.4.1  mjf 	SIMPLEQ_INIT(&xen_shm_callbacks);
    101  1.1.4.1  mjf 	pool_init(&xen_shm_callback_pool, sizeof(struct xen_shm_callback_entry),
    102  1.1.4.1  mjf 	    0, 0, 0, "xshmc", NULL, IPL_VM);
    103  1.1.4.1  mjf 	/* ensure we'll always get items */
    104  1.1.4.1  mjf 	if (pool_prime(&xen_shm_callback_pool,
    105  1.1.4.1  mjf 	    PAGE_SIZE / sizeof(struct xen_shm_callback_entry)) != 0) {
    106  1.1.4.1  mjf 		panic("xen_shm_init can't prime pool");
    107  1.1.4.1  mjf 	}
    108  1.1.4.1  mjf 
    109  1.1.4.1  mjf 	xen_shm_base_address = uvm_km_alloc(kernel_map, xen_shm_size, 0,
    110  1.1.4.1  mjf 	    UVM_KMF_VAONLY);
    111  1.1.4.1  mjf 	xen_shm_end_address = xen_shm_base_address + xen_shm_size;
    112  1.1.4.1  mjf 	xen_shm_base_address_pg = xen_shm_base_address >> PAGE_SHIFT;
    113  1.1.4.1  mjf 	if (xen_shm_base_address == 0) {
    114  1.1.4.1  mjf 		panic("xen_shm_init no VM space");
    115  1.1.4.1  mjf 	}
    116  1.1.4.1  mjf 	xen_shm_arena = vmem_create("xen_shm",
    117  1.1.4.1  mjf 	    xen_shm_base_address_pg,
    118  1.1.4.1  mjf 	    (xen_shm_end_address >> PAGE_SHIFT) - 1 - xen_shm_base_address_pg,
    119  1.1.4.1  mjf 	    1, NULL, NULL, NULL, 1, VM_NOSLEEP, IPL_VM);
    120  1.1.4.1  mjf 	if (xen_shm_arena == NULL) {
    121  1.1.4.1  mjf 		panic("xen_shm_init no arena");
    122  1.1.4.1  mjf 	}
    123  1.1.4.1  mjf }
    124  1.1.4.1  mjf 
    125  1.1.4.1  mjf int
    126  1.1.4.1  mjf #ifdef XEN3
    127  1.1.4.1  mjf xen_shm_map(int nentries, int domid, grant_ref_t *grefp, vaddr_t *vap,
    128  1.1.4.1  mjf     grant_handle_t *handlep, int flags)
    129  1.1.4.1  mjf #else
    130  1.1.4.1  mjf xen_shm_map(paddr_t *ma, int nentries, int domid, vaddr_t *vap, int flags)
    131  1.1.4.1  mjf #endif
    132  1.1.4.1  mjf {
    133  1.1.4.1  mjf 	int s, i;
    134  1.1.4.1  mjf 	vaddr_t new_va;
    135  1.1.4.1  mjf 	u_long new_va_pg;
    136  1.1.4.1  mjf #ifdef XEN3
    137  1.1.4.1  mjf 	int err;
    138  1.1.4.1  mjf 	gnttab_map_grant_ref_t op[XENSHM_MAX_PAGES_PER_REQUEST];
    139  1.1.4.1  mjf #else
    140  1.1.4.1  mjf 	multicall_entry_t mcl[XENSHM_MAX_PAGES_PER_REQUEST];
    141  1.1.4.1  mjf 	int remap_prot = PG_V | PG_RW | PG_U | PG_M;
    142  1.1.4.1  mjf #endif
    143  1.1.4.1  mjf 
    144  1.1.4.1  mjf #ifdef DIAGNOSTIC
    145  1.1.4.1  mjf 	if (nentries > XENSHM_MAX_PAGES_PER_REQUEST) {
    146  1.1.4.1  mjf 		printf("xen_shm_map: %d entries\n", nentries);
    147  1.1.4.1  mjf 		panic("xen_shm_map");
    148  1.1.4.1  mjf 	}
    149  1.1.4.1  mjf #endif
    150  1.1.4.1  mjf 	s = splvm(); /* splvm is the lowest level blocking disk and net IRQ */
    151  1.1.4.1  mjf 	/*
    152  1.1.4.1  mjf 	 * if a driver is waiting for ressources, don't try to allocate
    153  1.1.4.1  mjf 	 * yet. This is to avoid a flood of small requests stalling large
    154  1.1.4.1  mjf 	 * ones.
    155  1.1.4.1  mjf 	 */
    156  1.1.4.1  mjf 	if (__predict_false(SIMPLEQ_FIRST(&xen_shm_callbacks) != NULL) &&
    157  1.1.4.1  mjf 	    (flags & XSHM_CALLBACK) == 0) {
    158  1.1.4.1  mjf #ifdef DEBUG
    159  1.1.4.1  mjf 		static struct timeval lasttime;
    160  1.1.4.1  mjf #endif
    161  1.1.4.1  mjf 		splx(s);
    162  1.1.4.1  mjf #ifdef DEBUG
    163  1.1.4.1  mjf 		if (ratecheck(&lasttime, &xen_shm_errintvl))
    164  1.1.4.1  mjf 			printf("xen_shm_map: ENOMEM1\n");
    165  1.1.4.1  mjf #endif
    166  1.1.4.1  mjf 		return ENOMEM;
    167  1.1.4.1  mjf 	}
    168  1.1.4.1  mjf 	/* allocate the needed virtual space */
    169  1.1.4.1  mjf 	new_va_pg = vmem_alloc(xen_shm_arena, nentries,
    170  1.1.4.1  mjf 	    VM_INSTANTFIT | VM_NOSLEEP);
    171  1.1.4.1  mjf 	if (new_va_pg == 0) {
    172  1.1.4.1  mjf #ifdef DEBUG
    173  1.1.4.1  mjf 		static struct timeval lasttime;
    174  1.1.4.1  mjf #endif
    175  1.1.4.1  mjf 		splx(s);
    176  1.1.4.1  mjf #ifdef DEBUG
    177  1.1.4.1  mjf 		if (ratecheck(&lasttime, &xen_shm_errintvl))
    178  1.1.4.1  mjf 			printf("xen_shm_map: ENOMEM\n");
    179  1.1.4.1  mjf #endif
    180  1.1.4.1  mjf 		return ENOMEM;
    181  1.1.4.1  mjf 	}
    182  1.1.4.1  mjf 	splx(s);
    183  1.1.4.1  mjf 
    184  1.1.4.1  mjf 	new_va = new_va_pg << PAGE_SHIFT;
    185  1.1.4.1  mjf #ifdef XEN3
    186  1.1.4.1  mjf 	for (i = 0; i < nentries; i++) {
    187  1.1.4.1  mjf 		op[i].host_addr = new_va + i * PAGE_SIZE;
    188  1.1.4.1  mjf 		op[i].dom = domid;
    189  1.1.4.1  mjf 		op[i].ref = grefp[i];
    190  1.1.4.1  mjf 		op[i].flags = GNTMAP_host_map |
    191  1.1.4.1  mjf 		    ((flags & XSHM_RO) ? GNTMAP_readonly : 0);
    192  1.1.4.1  mjf 	}
    193  1.1.4.1  mjf 	err = HYPERVISOR_grant_table_op(GNTTABOP_map_grant_ref, op, nentries);
    194  1.1.4.1  mjf 	if (__predict_false(err))
    195  1.1.4.1  mjf 		panic("xen_shm_map: HYPERVISOR_grant_table_op failed");
    196  1.1.4.1  mjf 	for (i = 0; i < nentries; i++) {
    197  1.1.4.1  mjf 		if (__predict_false(op[i].status))
    198  1.1.4.1  mjf 			return op[i].status;
    199  1.1.4.1  mjf 		handlep[i] = op[i].handle;
    200  1.1.4.1  mjf 	}
    201  1.1.4.1  mjf #else /* !XEN3 */
    202  1.1.4.1  mjf 	for (i = 0; i < nentries; i++, new_va_pg++) {
    203  1.1.4.1  mjf 		mcl[i].op = __HYPERVISOR_update_va_mapping_otherdomain;
    204  1.1.4.1  mjf 		mcl[i].args[0] = new_va_pg;
    205  1.1.4.1  mjf 		mcl[i].args[1] = ma[i] | remap_prot;
    206  1.1.4.1  mjf 		mcl[i].args[2] = 0;
    207  1.1.4.1  mjf 		mcl[i].args[3] = domid;
    208  1.1.4.1  mjf 	}
    209  1.1.4.1  mjf 	if (HYPERVISOR_multicall(mcl, nentries) != 0)
    210  1.1.4.1  mjf 	    panic("xen_shm_map: HYPERVISOR_multicall");
    211  1.1.4.1  mjf 
    212  1.1.4.1  mjf 	for (i = 0; i < nentries; i++) {
    213  1.1.4.1  mjf 		if ((mcl[i].args[5] != 0)) {
    214  1.1.4.1  mjf 			printf("xen_shm_map: mcl[%d] failed\n", i);
    215  1.1.4.1  mjf 			xen_shm_unmap(new_va, ma, nentries, domid);
    216  1.1.4.1  mjf 			return EINVAL;
    217  1.1.4.1  mjf 		}
    218  1.1.4.1  mjf 	}
    219  1.1.4.1  mjf #endif /* !XEN3 */
    220  1.1.4.1  mjf 	*vap = new_va;
    221  1.1.4.1  mjf 	return 0;
    222  1.1.4.1  mjf }
    223  1.1.4.1  mjf 
    224  1.1.4.1  mjf void
    225  1.1.4.1  mjf #ifdef XEN3
    226  1.1.4.1  mjf xen_shm_unmap(vaddr_t va, int nentries, grant_handle_t *handlep)
    227  1.1.4.1  mjf #else
    228  1.1.4.1  mjf xen_shm_unmap(vaddr_t va, paddr_t *pa, int nentries, int domid)
    229  1.1.4.1  mjf #endif
    230  1.1.4.1  mjf {
    231  1.1.4.1  mjf #ifdef XEN3
    232  1.1.4.1  mjf 	gnttab_unmap_grant_ref_t op[XENSHM_MAX_PAGES_PER_REQUEST];
    233  1.1.4.1  mjf 	int ret;
    234  1.1.4.1  mjf #else
    235  1.1.4.1  mjf 	multicall_entry_t mcl[XENSHM_MAX_PAGES_PER_REQUEST];
    236  1.1.4.1  mjf #endif
    237  1.1.4.1  mjf 	int i;
    238  1.1.4.1  mjf 	int s;
    239  1.1.4.1  mjf 	struct xen_shm_callback_entry *xshmc;
    240  1.1.4.1  mjf 
    241  1.1.4.1  mjf #ifdef DIAGNOSTIC
    242  1.1.4.1  mjf 	if (nentries > XENSHM_MAX_PAGES_PER_REQUEST) {
    243  1.1.4.1  mjf 		printf("xen_shm_unmap: %d entries\n", nentries);
    244  1.1.4.1  mjf 		panic("xen_shm_unmap");
    245  1.1.4.1  mjf 	}
    246  1.1.4.1  mjf #endif
    247  1.1.4.1  mjf 
    248  1.1.4.1  mjf #ifdef XEN3
    249  1.1.4.1  mjf 	for (i = 0; i < nentries; i++) {
    250  1.1.4.1  mjf 		op[i].host_addr = va + i * PAGE_SIZE;
    251  1.1.4.1  mjf 		op[i].dev_bus_addr = 0;
    252  1.1.4.1  mjf 		op[i].handle = handlep[i];
    253  1.1.4.1  mjf 	}
    254  1.1.4.1  mjf 	ret = HYPERVISOR_grant_table_op(GNTTABOP_unmap_grant_ref,
    255  1.1.4.1  mjf 	    op, nentries);
    256  1.1.4.1  mjf 	if (__predict_false(ret))
    257  1.1.4.1  mjf 		panic("xen_shm_unmap: unmap failed");
    258  1.1.4.1  mjf 	va = va >> PAGE_SHIFT;
    259  1.1.4.1  mjf #else /* !XEN3 */
    260  1.1.4.1  mjf 	va = va >> PAGE_SHIFT;
    261  1.1.4.1  mjf 	for (i = 0; i < nentries; i++) {
    262  1.1.4.1  mjf 		mcl[i].op = __HYPERVISOR_update_va_mapping;
    263  1.1.4.1  mjf 		mcl[i].args[0] = va + i;
    264  1.1.4.1  mjf 		mcl[i].args[1] = 0;
    265  1.1.4.1  mjf 		mcl[i].args[2] = 0;
    266  1.1.4.1  mjf 	}
    267  1.1.4.1  mjf 	mcl[nentries - 1].args[2] = UVMF_FLUSH_TLB;
    268  1.1.4.1  mjf 	if (HYPERVISOR_multicall(mcl, nentries) != 0)
    269  1.1.4.1  mjf 		panic("xen_shm_unmap");
    270  1.1.4.1  mjf #endif /* !XEN3 */
    271  1.1.4.1  mjf 	s = splvm(); /* splvm is the lowest level blocking disk and net IRQ */
    272  1.1.4.1  mjf 	vmem_free(xen_shm_arena, va, nentries);
    273  1.1.4.1  mjf 	while (__predict_false((xshmc = SIMPLEQ_FIRST(&xen_shm_callbacks))
    274  1.1.4.1  mjf 	    != NULL)) {
    275  1.1.4.1  mjf 		SIMPLEQ_REMOVE_HEAD(&xen_shm_callbacks, xshmc_entries);
    276  1.1.4.1  mjf 		splx(s);
    277  1.1.4.1  mjf 		if (xshmc->xshmc_callback(xshmc->xshmc_arg) == 0) {
    278  1.1.4.1  mjf 			/* callback succeeded */
    279  1.1.4.1  mjf 			s = splvm();
    280  1.1.4.1  mjf 			pool_put(&xen_shm_callback_pool, xshmc);
    281  1.1.4.1  mjf 		} else {
    282  1.1.4.1  mjf 			/* callback failed, probably out of ressources */
    283  1.1.4.1  mjf 			s = splvm();
    284  1.1.4.1  mjf 			SIMPLEQ_INSERT_TAIL(&xen_shm_callbacks, xshmc,
    285  1.1.4.1  mjf 					    xshmc_entries);
    286  1.1.4.1  mjf 
    287  1.1.4.1  mjf 			break;
    288  1.1.4.1  mjf 		}
    289  1.1.4.1  mjf 	}
    290  1.1.4.1  mjf 	splx(s);
    291  1.1.4.1  mjf }
    292  1.1.4.1  mjf 
    293  1.1.4.1  mjf int
    294  1.1.4.1  mjf xen_shm_callback(int (*callback)(void *), void *arg)
    295  1.1.4.1  mjf {
    296  1.1.4.1  mjf 	struct xen_shm_callback_entry *xshmc;
    297  1.1.4.1  mjf 	int s;
    298  1.1.4.1  mjf 
    299  1.1.4.1  mjf 	s = splvm();
    300  1.1.4.1  mjf 	xshmc = pool_get(&xen_shm_callback_pool, PR_NOWAIT);
    301  1.1.4.1  mjf 	if (xshmc == NULL) {
    302  1.1.4.1  mjf 		splx(s);
    303  1.1.4.1  mjf 		return ENOMEM;
    304  1.1.4.1  mjf 	}
    305  1.1.4.1  mjf 	xshmc->xshmc_arg = arg;
    306  1.1.4.1  mjf 	xshmc->xshmc_callback = callback;
    307  1.1.4.1  mjf 	SIMPLEQ_INSERT_TAIL(&xen_shm_callbacks, xshmc, xshmc_entries);
    308  1.1.4.1  mjf 	splx(s);
    309  1.1.4.1  mjf 	return 0;
    310  1.1.4.1  mjf }
    311