1c0da6274SZhi-Jun Robin Fu /*
2c0da6274SZhi-Jun Robin Fu * CDDL HEADER START
3c0da6274SZhi-Jun Robin Fu *
4c0da6274SZhi-Jun Robin Fu * The contents of this file are subject to the terms of the
5c0da6274SZhi-Jun Robin Fu * Common Development and Distribution License (the "License").
6c0da6274SZhi-Jun Robin Fu * You may not use this file except in compliance with the License.
7c0da6274SZhi-Jun Robin Fu *
8c0da6274SZhi-Jun Robin Fu * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9c0da6274SZhi-Jun Robin Fu * or http://www.opensolaris.org/os/licensing.
10c0da6274SZhi-Jun Robin Fu * See the License for the specific language governing permissions
11c0da6274SZhi-Jun Robin Fu * and limitations under the License.
12c0da6274SZhi-Jun Robin Fu *
13c0da6274SZhi-Jun Robin Fu * When distributing Covered Code, include this CDDL HEADER in each
14c0da6274SZhi-Jun Robin Fu * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15c0da6274SZhi-Jun Robin Fu * If applicable, add the following below this CDDL HEADER, with the
16c0da6274SZhi-Jun Robin Fu * fields enclosed by brackets "[]" replaced with your own identifying
17c0da6274SZhi-Jun Robin Fu * information: Portions Copyright [yyyy] [name of copyright owner]
18c0da6274SZhi-Jun Robin Fu *
19c0da6274SZhi-Jun Robin Fu * CDDL HEADER END
20c0da6274SZhi-Jun Robin Fu */
21c0da6274SZhi-Jun Robin Fu
22c0da6274SZhi-Jun Robin Fu /*
238d7fafffSZhi-Jun Robin Fu * Copyright (c) 2009, 2010, Oracle and/or its affiliates. All rights reserved.
24c0da6274SZhi-Jun Robin Fu */
25c0da6274SZhi-Jun Robin Fu
26c0da6274SZhi-Jun Robin Fu #include <sys/systm.h>
27c0da6274SZhi-Jun Robin Fu #include <sys/pci_cfgacc.h>
28c0da6274SZhi-Jun Robin Fu #include <sys/pci_cfgspace.h>
29c0da6274SZhi-Jun Robin Fu #include <sys/pci_cfgspace_impl.h>
30c0da6274SZhi-Jun Robin Fu #include <sys/sunddi.h>
31c0da6274SZhi-Jun Robin Fu #include <sys/sysmacros.h>
32c0da6274SZhi-Jun Robin Fu #include <sys/x86_archext.h>
33c0da6274SZhi-Jun Robin Fu #include <sys/pci.h>
348d7fafffSZhi-Jun Robin Fu #include <sys/cmn_err.h>
35c0da6274SZhi-Jun Robin Fu #include <vm/hat_i86.h>
36c0da6274SZhi-Jun Robin Fu #include <vm/seg_kmem.h>
37c0da6274SZhi-Jun Robin Fu #include <vm/kboot_mmu.h>
38c0da6274SZhi-Jun Robin Fu
39c0da6274SZhi-Jun Robin Fu #define PCIE_CFG_SPACE_SIZE (PCI_CONF_HDR_SIZE << 4)
40c0da6274SZhi-Jun Robin Fu #define PCI_BDF_BUS(bdf) ((((uint16_t)bdf) & 0xff00) >> 8)
41c0da6274SZhi-Jun Robin Fu #define PCI_BDF_DEV(bdf) ((((uint16_t)bdf) & 0xf8) >> 3)
42c0da6274SZhi-Jun Robin Fu #define PCI_BDF_FUNC(bdf) (((uint16_t)bdf) & 0x7)
43c0da6274SZhi-Jun Robin Fu
44c0da6274SZhi-Jun Robin Fu /* patchable variables */
45c0da6274SZhi-Jun Robin Fu volatile boolean_t pci_cfgacc_force_io = B_FALSE;
46c0da6274SZhi-Jun Robin Fu
47c0da6274SZhi-Jun Robin Fu extern uintptr_t alloc_vaddr(size_t, paddr_t);
48c0da6274SZhi-Jun Robin Fu
49c0da6274SZhi-Jun Robin Fu void pci_cfgacc_acc(pci_cfgacc_req_t *);
50c0da6274SZhi-Jun Robin Fu
51c0da6274SZhi-Jun Robin Fu boolean_t pci_cfgacc_find_workaround(uint16_t);
52c0da6274SZhi-Jun Robin Fu /*
53c0da6274SZhi-Jun Robin Fu * IS_P2ALIGNED() is used to make sure offset is 'size'-aligned, so
54c0da6274SZhi-Jun Robin Fu * it's guaranteed that the access will not cross 4k page boundary.
55c0da6274SZhi-Jun Robin Fu * Thus only 1 page is allocated for all config space access, and the
56c0da6274SZhi-Jun Robin Fu * virtual address of that page is cached in pci_cfgacc_virt_base.
57c0da6274SZhi-Jun Robin Fu */
58c0da6274SZhi-Jun Robin Fu static caddr_t pci_cfgacc_virt_base = NULL;
59c0da6274SZhi-Jun Robin Fu
60c0da6274SZhi-Jun Robin Fu static caddr_t
pci_cfgacc_map(paddr_t phys_addr)61c0da6274SZhi-Jun Robin Fu pci_cfgacc_map(paddr_t phys_addr)
62c0da6274SZhi-Jun Robin Fu {
63c0da6274SZhi-Jun Robin Fu #ifdef __xpv
64c0da6274SZhi-Jun Robin Fu phys_addr = pfn_to_pa(xen_assign_pfn(mmu_btop(phys_addr))) |
65c0da6274SZhi-Jun Robin Fu (phys_addr & MMU_PAGEOFFSET);
66c0da6274SZhi-Jun Robin Fu #endif
67c0da6274SZhi-Jun Robin Fu if (khat_running) {
68c0da6274SZhi-Jun Robin Fu pfn_t pfn = mmu_btop(phys_addr);
69c0da6274SZhi-Jun Robin Fu /*
70c0da6274SZhi-Jun Robin Fu * pci_cfgacc_virt_base may hold address left from early
71c0da6274SZhi-Jun Robin Fu * boot, which points to low mem. Realloc virtual address
72c0da6274SZhi-Jun Robin Fu * in kernel space since it's already late in boot now.
73c0da6274SZhi-Jun Robin Fu * Note: no need to unmap first, clear_boot_mappings() will
74c0da6274SZhi-Jun Robin Fu * do that for us.
75c0da6274SZhi-Jun Robin Fu */
768d7fafffSZhi-Jun Robin Fu if (pci_cfgacc_virt_base < (caddr_t)kernelbase)
778d7fafffSZhi-Jun Robin Fu pci_cfgacc_virt_base = vmem_alloc(heap_arena,
788d7fafffSZhi-Jun Robin Fu MMU_PAGESIZE, VM_SLEEP);
798d7fafffSZhi-Jun Robin Fu
80c0da6274SZhi-Jun Robin Fu hat_devload(kas.a_hat, pci_cfgacc_virt_base,
81c0da6274SZhi-Jun Robin Fu MMU_PAGESIZE, pfn, PROT_READ | PROT_WRITE |
82c0da6274SZhi-Jun Robin Fu HAT_STRICTORDER, HAT_LOAD_LOCK);
83c0da6274SZhi-Jun Robin Fu } else {
84c0da6274SZhi-Jun Robin Fu paddr_t pa_base = P2ALIGN(phys_addr, MMU_PAGESIZE);
85c0da6274SZhi-Jun Robin Fu
868d7fafffSZhi-Jun Robin Fu if (pci_cfgacc_virt_base == NULL)
878d7fafffSZhi-Jun Robin Fu pci_cfgacc_virt_base =
888d7fafffSZhi-Jun Robin Fu (caddr_t)alloc_vaddr(MMU_PAGESIZE, MMU_PAGESIZE);
898d7fafffSZhi-Jun Robin Fu
90c0da6274SZhi-Jun Robin Fu kbm_map((uintptr_t)pci_cfgacc_virt_base, pa_base, 0, 0);
91c0da6274SZhi-Jun Robin Fu }
92c0da6274SZhi-Jun Robin Fu
93c0da6274SZhi-Jun Robin Fu return (pci_cfgacc_virt_base + (phys_addr & MMU_PAGEOFFSET));
94c0da6274SZhi-Jun Robin Fu }
95c0da6274SZhi-Jun Robin Fu
96c0da6274SZhi-Jun Robin Fu static void
pci_cfgacc_unmap()97c0da6274SZhi-Jun Robin Fu pci_cfgacc_unmap()
98c0da6274SZhi-Jun Robin Fu {
99c0da6274SZhi-Jun Robin Fu if (khat_running)
100c0da6274SZhi-Jun Robin Fu hat_unload(kas.a_hat, pci_cfgacc_virt_base, MMU_PAGESIZE,
101c0da6274SZhi-Jun Robin Fu HAT_UNLOAD_UNLOCK);
102c0da6274SZhi-Jun Robin Fu }
103c0da6274SZhi-Jun Robin Fu
104c0da6274SZhi-Jun Robin Fu static void
pci_cfgacc_io(pci_cfgacc_req_t * req)105c0da6274SZhi-Jun Robin Fu pci_cfgacc_io(pci_cfgacc_req_t *req)
106c0da6274SZhi-Jun Robin Fu {
1078d7fafffSZhi-Jun Robin Fu uint8_t bus, dev, func;
1088d7fafffSZhi-Jun Robin Fu uint16_t ioacc_offset; /* 4K config access with IO ECS */
109c0da6274SZhi-Jun Robin Fu
110c0da6274SZhi-Jun Robin Fu bus = PCI_BDF_BUS(req->bdf);
111c0da6274SZhi-Jun Robin Fu dev = PCI_BDF_DEV(req->bdf);
112c0da6274SZhi-Jun Robin Fu func = PCI_BDF_FUNC(req->bdf);
113c0da6274SZhi-Jun Robin Fu ioacc_offset = req->offset;
1148d7fafffSZhi-Jun Robin Fu
115c0da6274SZhi-Jun Robin Fu switch (req->size) {
116c0da6274SZhi-Jun Robin Fu case 1:
117c0da6274SZhi-Jun Robin Fu if (req->write)
118c0da6274SZhi-Jun Robin Fu (*pci_putb_func)(bus, dev, func,
119c0da6274SZhi-Jun Robin Fu ioacc_offset, VAL8(req));
120c0da6274SZhi-Jun Robin Fu else
121c0da6274SZhi-Jun Robin Fu VAL8(req) = (*pci_getb_func)(bus, dev, func,
122c0da6274SZhi-Jun Robin Fu ioacc_offset);
123c0da6274SZhi-Jun Robin Fu break;
124c0da6274SZhi-Jun Robin Fu case 2:
125c0da6274SZhi-Jun Robin Fu if (req->write)
126c0da6274SZhi-Jun Robin Fu (*pci_putw_func)(bus, dev, func,
127c0da6274SZhi-Jun Robin Fu ioacc_offset, VAL16(req));
128c0da6274SZhi-Jun Robin Fu else
129c0da6274SZhi-Jun Robin Fu VAL16(req) = (*pci_getw_func)(bus, dev, func,
130c0da6274SZhi-Jun Robin Fu ioacc_offset);
131c0da6274SZhi-Jun Robin Fu break;
132c0da6274SZhi-Jun Robin Fu case 4:
133c0da6274SZhi-Jun Robin Fu if (req->write)
134c0da6274SZhi-Jun Robin Fu (*pci_putl_func)(bus, dev, func,
135c0da6274SZhi-Jun Robin Fu ioacc_offset, VAL32(req));
136c0da6274SZhi-Jun Robin Fu else
137c0da6274SZhi-Jun Robin Fu VAL32(req) = (*pci_getl_func)(bus, dev, func,
138c0da6274SZhi-Jun Robin Fu ioacc_offset);
139c0da6274SZhi-Jun Robin Fu break;
1408d7fafffSZhi-Jun Robin Fu case 8:
1418d7fafffSZhi-Jun Robin Fu if (req->write) {
1428d7fafffSZhi-Jun Robin Fu (*pci_putl_func)(bus, dev, func,
1438d7fafffSZhi-Jun Robin Fu ioacc_offset, VAL64(req) & 0xffffffff);
1448d7fafffSZhi-Jun Robin Fu (*pci_putl_func)(bus, dev, func,
1458d7fafffSZhi-Jun Robin Fu ioacc_offset + 4, VAL64(req) >> 32);
1468d7fafffSZhi-Jun Robin Fu } else {
1478d7fafffSZhi-Jun Robin Fu VAL64(req) = (*pci_getl_func)(bus, dev, func,
1488d7fafffSZhi-Jun Robin Fu ioacc_offset);
1498d7fafffSZhi-Jun Robin Fu VAL64(req) |= (uint64_t)(*pci_getl_func)(bus, dev, func,
1508d7fafffSZhi-Jun Robin Fu ioacc_offset + 4) << 32;
1518d7fafffSZhi-Jun Robin Fu }
1528d7fafffSZhi-Jun Robin Fu break;
153c0da6274SZhi-Jun Robin Fu }
154c0da6274SZhi-Jun Robin Fu }
155c0da6274SZhi-Jun Robin Fu
1568d7fafffSZhi-Jun Robin Fu static void
pci_cfgacc_mmio(pci_cfgacc_req_t * req)157c0da6274SZhi-Jun Robin Fu pci_cfgacc_mmio(pci_cfgacc_req_t *req)
158c0da6274SZhi-Jun Robin Fu {
159c0da6274SZhi-Jun Robin Fu caddr_t vaddr;
160c0da6274SZhi-Jun Robin Fu paddr_t paddr;
161c0da6274SZhi-Jun Robin Fu
162c0da6274SZhi-Jun Robin Fu paddr = (paddr_t)req->bdf << 12;
163c0da6274SZhi-Jun Robin Fu paddr += mcfg_mem_base + req->offset;
164c0da6274SZhi-Jun Robin Fu
16513763277SGuoli Shu mutex_enter(&pcicfg_mmio_mutex);
1668d7fafffSZhi-Jun Robin Fu vaddr = pci_cfgacc_map(paddr);
167c0da6274SZhi-Jun Robin Fu
168c0da6274SZhi-Jun Robin Fu switch (req->size) {
169c0da6274SZhi-Jun Robin Fu case 1:
170c0da6274SZhi-Jun Robin Fu if (req->write)
171c0da6274SZhi-Jun Robin Fu *((uint8_t *)vaddr) = VAL8(req);
172c0da6274SZhi-Jun Robin Fu else
173c0da6274SZhi-Jun Robin Fu VAL8(req) = *((uint8_t *)vaddr);
174c0da6274SZhi-Jun Robin Fu break;
175c0da6274SZhi-Jun Robin Fu case 2:
176c0da6274SZhi-Jun Robin Fu if (req->write)
177c0da6274SZhi-Jun Robin Fu *((uint16_t *)vaddr) = VAL16(req);
178c0da6274SZhi-Jun Robin Fu else
179c0da6274SZhi-Jun Robin Fu VAL16(req) = *((uint16_t *)vaddr);
180c0da6274SZhi-Jun Robin Fu break;
181c0da6274SZhi-Jun Robin Fu case 4:
182c0da6274SZhi-Jun Robin Fu if (req->write)
183c0da6274SZhi-Jun Robin Fu *((uint32_t *)vaddr) = VAL32(req);
184c0da6274SZhi-Jun Robin Fu else
185c0da6274SZhi-Jun Robin Fu VAL32(req) = *((uint32_t *)vaddr);
186c0da6274SZhi-Jun Robin Fu break;
187c0da6274SZhi-Jun Robin Fu case 8:
188c0da6274SZhi-Jun Robin Fu if (req->write)
189c0da6274SZhi-Jun Robin Fu *((uint64_t *)vaddr) = VAL64(req);
190c0da6274SZhi-Jun Robin Fu else
191c0da6274SZhi-Jun Robin Fu VAL64(req) = *((uint64_t *)vaddr);
192c0da6274SZhi-Jun Robin Fu break;
193c0da6274SZhi-Jun Robin Fu }
194c0da6274SZhi-Jun Robin Fu pci_cfgacc_unmap();
19513763277SGuoli Shu mutex_exit(&pcicfg_mmio_mutex);
196c0da6274SZhi-Jun Robin Fu }
197c0da6274SZhi-Jun Robin Fu
198c0da6274SZhi-Jun Robin Fu static boolean_t
pci_cfgacc_valid(pci_cfgacc_req_t * req,uint16_t cfgspc_size)199*586fe2c2SZhi-Jun Robin Fu pci_cfgacc_valid(pci_cfgacc_req_t *req, uint16_t cfgspc_size)
200c0da6274SZhi-Jun Robin Fu {
2018d7fafffSZhi-Jun Robin Fu int sz = req->size;
2028d7fafffSZhi-Jun Robin Fu
2038d7fafffSZhi-Jun Robin Fu if (IS_P2ALIGNED(req->offset, sz) &&
204*586fe2c2SZhi-Jun Robin Fu (req->offset + sz - 1 < cfgspc_size) &&
2058d7fafffSZhi-Jun Robin Fu ((sz & 0xf) && ISP2(sz)))
2068d7fafffSZhi-Jun Robin Fu return (B_TRUE);
2078d7fafffSZhi-Jun Robin Fu
2088d7fafffSZhi-Jun Robin Fu cmn_err(CE_WARN, "illegal PCI request: offset = %x, size = %d",
2098d7fafffSZhi-Jun Robin Fu req->offset, sz);
2108d7fafffSZhi-Jun Robin Fu return (B_FALSE);
2118d7fafffSZhi-Jun Robin Fu }
2128d7fafffSZhi-Jun Robin Fu
2138d7fafffSZhi-Jun Robin Fu void
pci_cfgacc_check_io(pci_cfgacc_req_t * req)2148d7fafffSZhi-Jun Robin Fu pci_cfgacc_check_io(pci_cfgacc_req_t *req)
2158d7fafffSZhi-Jun Robin Fu {
2168d7fafffSZhi-Jun Robin Fu uint8_t bus;
2178d7fafffSZhi-Jun Robin Fu
2188d7fafffSZhi-Jun Robin Fu bus = PCI_BDF_BUS(req->bdf);
2198d7fafffSZhi-Jun Robin Fu
2208d7fafffSZhi-Jun Robin Fu if (pci_cfgacc_force_io || (mcfg_mem_base == NULL) ||
2218d7fafffSZhi-Jun Robin Fu (bus < mcfg_bus_start) || (bus > mcfg_bus_end) ||
2228d7fafffSZhi-Jun Robin Fu pci_cfgacc_find_workaround(req->bdf))
2238d7fafffSZhi-Jun Robin Fu req->ioacc = B_TRUE;
224c0da6274SZhi-Jun Robin Fu }
225c0da6274SZhi-Jun Robin Fu
226c0da6274SZhi-Jun Robin Fu void
pci_cfgacc_acc(pci_cfgacc_req_t * req)227c0da6274SZhi-Jun Robin Fu pci_cfgacc_acc(pci_cfgacc_req_t *req)
228c0da6274SZhi-Jun Robin Fu {
2298d7fafffSZhi-Jun Robin Fu extern uint_t pci_iocfg_max_offset;
230c0da6274SZhi-Jun Robin Fu
231c0da6274SZhi-Jun Robin Fu if (!req->write)
232c0da6274SZhi-Jun Robin Fu VAL64(req) = (uint64_t)-1;
233c0da6274SZhi-Jun Robin Fu
2348d7fafffSZhi-Jun Robin Fu pci_cfgacc_check_io(req);
235c0da6274SZhi-Jun Robin Fu
2368d7fafffSZhi-Jun Robin Fu if (req->ioacc) {
237*586fe2c2SZhi-Jun Robin Fu if (pci_cfgacc_valid(req, pci_iocfg_max_offset + 1))
238c0da6274SZhi-Jun Robin Fu pci_cfgacc_io(req);
2398d7fafffSZhi-Jun Robin Fu } else {
2408d7fafffSZhi-Jun Robin Fu if (pci_cfgacc_valid(req, PCIE_CFG_SPACE_SIZE))
2418d7fafffSZhi-Jun Robin Fu pci_cfgacc_mmio(req);
2428d7fafffSZhi-Jun Robin Fu }
243c0da6274SZhi-Jun Robin Fu }
244c0da6274SZhi-Jun Robin Fu
245c0da6274SZhi-Jun Robin Fu typedef struct cfgacc_bus_range {
246c0da6274SZhi-Jun Robin Fu struct cfgacc_bus_range *next;
247c0da6274SZhi-Jun Robin Fu uint16_t bdf;
248c0da6274SZhi-Jun Robin Fu uchar_t secbus;
249c0da6274SZhi-Jun Robin Fu uchar_t subbus;
250c0da6274SZhi-Jun Robin Fu } cfgacc_bus_range_t;
251c0da6274SZhi-Jun Robin Fu
252c0da6274SZhi-Jun Robin Fu cfgacc_bus_range_t *pci_cfgacc_bus_head = NULL;
253c0da6274SZhi-Jun Robin Fu
254c0da6274SZhi-Jun Robin Fu #define BUS_INSERT(prev, el) \
255c0da6274SZhi-Jun Robin Fu el->next = *prev; \
256c0da6274SZhi-Jun Robin Fu *prev = el;
257c0da6274SZhi-Jun Robin Fu
258c0da6274SZhi-Jun Robin Fu #define BUS_REMOVE(prev, el) \
259c0da6274SZhi-Jun Robin Fu *prev = el->next;
260c0da6274SZhi-Jun Robin Fu
261c0da6274SZhi-Jun Robin Fu /*
262c0da6274SZhi-Jun Robin Fu * This function is only supposed to be called in device tree setup time,
263c0da6274SZhi-Jun Robin Fu * thus no lock is needed.
264c0da6274SZhi-Jun Robin Fu */
265c0da6274SZhi-Jun Robin Fu void
pci_cfgacc_add_workaround(uint16_t bdf,uchar_t secbus,uchar_t subbus)266c0da6274SZhi-Jun Robin Fu pci_cfgacc_add_workaround(uint16_t bdf, uchar_t secbus, uchar_t subbus)
267c0da6274SZhi-Jun Robin Fu {
268c0da6274SZhi-Jun Robin Fu cfgacc_bus_range_t *entry;
269c0da6274SZhi-Jun Robin Fu
270c0da6274SZhi-Jun Robin Fu entry = kmem_zalloc(sizeof (cfgacc_bus_range_t), KM_SLEEP);
271c0da6274SZhi-Jun Robin Fu entry->bdf = bdf;
272c0da6274SZhi-Jun Robin Fu entry->secbus = secbus;
273c0da6274SZhi-Jun Robin Fu entry->subbus = subbus;
274c0da6274SZhi-Jun Robin Fu BUS_INSERT(&pci_cfgacc_bus_head, entry);
275c0da6274SZhi-Jun Robin Fu }
276c0da6274SZhi-Jun Robin Fu
277c0da6274SZhi-Jun Robin Fu boolean_t
pci_cfgacc_find_workaround(uint16_t bdf)278c0da6274SZhi-Jun Robin Fu pci_cfgacc_find_workaround(uint16_t bdf)
279c0da6274SZhi-Jun Robin Fu {
280c0da6274SZhi-Jun Robin Fu cfgacc_bus_range_t *entry;
281c0da6274SZhi-Jun Robin Fu uchar_t bus;
282c0da6274SZhi-Jun Robin Fu
283c0da6274SZhi-Jun Robin Fu for (entry = pci_cfgacc_bus_head; entry != NULL;
284c0da6274SZhi-Jun Robin Fu entry = entry->next) {
285c0da6274SZhi-Jun Robin Fu if (bdf == entry->bdf) {
286c0da6274SZhi-Jun Robin Fu /* found a device which is known to be broken */
287c0da6274SZhi-Jun Robin Fu return (B_TRUE);
288c0da6274SZhi-Jun Robin Fu }
289c0da6274SZhi-Jun Robin Fu
290c0da6274SZhi-Jun Robin Fu bus = PCI_BDF_BUS(bdf);
291c0da6274SZhi-Jun Robin Fu if ((bus != 0) && (bus >= entry->secbus) &&
292c0da6274SZhi-Jun Robin Fu (bus <= entry->subbus)) {
293c0da6274SZhi-Jun Robin Fu /*
294c0da6274SZhi-Jun Robin Fu * found a device whose parent/grandparent is
295c0da6274SZhi-Jun Robin Fu * known to be broken.
296c0da6274SZhi-Jun Robin Fu */
297c0da6274SZhi-Jun Robin Fu return (B_TRUE);
298c0da6274SZhi-Jun Robin Fu }
299c0da6274SZhi-Jun Robin Fu }
300c0da6274SZhi-Jun Robin Fu
301c0da6274SZhi-Jun Robin Fu return (B_FALSE);
302c0da6274SZhi-Jun Robin Fu }
303