source: gpfs_3.1_ker2.6.20/lpp/mmfs/src/ibm-linux/cxiIOBuffer-plat.h @ 108

Last change on this file since 108 was 16, checked in by rock, 17 years ago
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1/***************************************************************************
2 *
3 * Copyright (C) 2001 International Business Machines
4 * All rights reserved.
5 *
6 * This file is part of the GPFS mmfslinux kernel module.
7 *
8 * Redistribution and use in source and binary forms, with or without
9 * modification, are permitted provided that the following conditions
10 * are met:
11 *
12 *  1. Redistributions of source code must retain the above copyright notice,
13 *     this list of conditions and the following disclaimer.
14 *  2. Redistributions in binary form must reproduce the above copyright
15 *     notice, this list of conditions and the following disclaimer in the
16 *     documentation and/or other materials provided with the distribution.
17 *  3. The name of the author may not be used to endorse or promote products
18 *     derived from this software without specific prior written
19 *     permission.
20 *
21 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
22 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
23 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
24 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
25 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
26 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
27 * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
28 * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
29 * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
30 * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
31 *
32 *************************************************************************** */
33/* @(#)13       1.45.1.2  src/avs/fs/mmfs/ts/kernext/ibm-linux/cxiIOBuffer-plat.h, mmfs, avs_rgpfs24, rgpfs24s007a 10/25/06 17:16:36 */
34/*
35 * Abstraction of an I/O buffer, Linux implementation
36 *
37 * Contents:
38 *   struct cxiKernelIOBufferDesc_t
39 *   struct cxiIOBufferAttachment_t
40 *   InitBufferAttachment
41 *   struct cxiContiguousBuffer_t
42 *   InitContiguousBuffer
43 *   EXTERNC int kxPinKernelIOBuffer
44 *   Methods for manipulating cxiIOBuffer_t's
45 *   #define __CXI_BUFFERS_ARE_CONTIGUOUS
46 *   GetDiskInfoX
47 */
48
49#ifndef _h_cxiIOBuffer_plat
50#define _h_cxiIOBuffer_plat
51
52#ifndef _h_cxiIOBuffer
53#error Platform header (XXX-plat.h) should not be included directly
54#endif
55
56/* Address of the first byte past the end of memory addressible by
57   processes (PAGE_OFFSET), and routine to get this value from the kernel.
58   Stacks are below this address. */
59EXTERNC UIntPtr KernelBoundary;
60EXTERNC int kxGetKernelBoundary(UIntPtr* kBoundP);
61
62/* forward declarations */
63struct page;
64
65/* User address space range used for page pool. */
66#ifdef GPFS_ARCH_I386
67#define LINUX_PAGE_POOL_BASE  0x44000000
68#endif
69#ifdef GPFS_ARCH_POWER
70#define LINUX_PAGE_POOL_BASE  0x54000000
71#endif
72#ifdef GPFS_ARCH_IA64
73/* Use shared memory region after TM pool */
74/* TM pool address + 4GB */
75#define LINUX_PAGE_POOL_BASE  0x6000010100000000
76#endif
77#ifdef GPFS_ARCH_PPC64
78  /* TM pool address + 2GB */
79  #define LINUX_PAGE_POOL_BASE  0x0000002080000000UL
80#endif
81#ifdef GPFS_ARCH_X86_64
82  /* TM pool address + 4GB */
83  #define LINUX_PAGE_POOL_BASE  0x0000005100000000UL
84#endif
85
86
87#define POOL_MMAP_CHUNK_SIZE  0x04000000
88
89/* Address where token manager malloc pool begins */
90#ifdef GPFS_ARCH_I386
91# define TM_POOL_START 0x30000000
92#endif
93#ifdef GPFS_ARCH_POWER
94# define TM_POOL_START 0x40000000
95#endif
96#ifdef GPFS_ARCH_IA64
97# define TM_POOL_START 0x6000010000000000
98#endif
99#ifdef GPFS_ARCH_PPC64
100    /* this is the top portion of the brk area.  We count on the
101       daemon never growing big enough to get here.  There's only
102       2TB of address space available in userspace on ppc64, so a
103       completely safe spot is hard to find */
104#   define TM_POOL_START 0x0000002000000000UL
105#endif
106#ifdef GPFS_ARCH_X86_64
107#   define TM_POOL_START 0x0000005000000000UL
108#endif
109
110/* Buffers in user address space must be aligned to a boundary of this size
111   in order to perform an I/O request. */
112#define IOBUF_ALIGN_SIZE 512
113
114/* Kernel data structure associated with an I/O buffer.  I/O buffers that
115   are pinned (or attached) point to one of these structures from their
116   kernelIOBufferDescP field.  It describes the physical pages occupied by
117   the I/O buffer using Linux kiobufs.  These are linked together in a
118   global list anchored in the kernel so that pinned storage can be released
119   when the GPFS daemon terminates abnormally.  Each I/O buffer has one
120   cxiKernelIOBufferDesc_t on this global list.  However, since one
121   cxiKernelIOBufferDesc_t can map at most PAGES_PER_KIBD pages, large I/O
122   buffers require multiple cxiKernelIOBufferDesc_t's.  */
123struct cxiKernelIOBufferDesc_t
124{
125  /* Daemon address for beginning of I/O buffer.  This address must be
126     aligned on a page boundary. */
127  char* kibdVaddr;
128
129  /* Number of pages described by this cxiKernelIOBufferDesc_t. */
130  int kibdPages;
131
132  /* Number of pages described by this chain of cxiKernelIOBufferDesc_t
133   * Only valid for the first cxiKernelIOBufferDesc_t in the chain.
134   */
135  int kibdTotalPages;
136
137  /* List pointer.  Used for a chain of cxiKernelIOBufferDesc_t's. */
138  struct cxiKernelIOBufferDesc_t* kibdNextP;
139
140  /* An I/O buffer is described by a chain of cxiKernelIOBufferDesc_t,
141   * of which the head descriptor is placed on a global list.   Thus these
142   * fields are only valid for the first cxiKernelIOBufferDesc_t in the
143   * chain of descriptors.
144   */
145  struct cxiKernelIOBufferDesc_t* gblNextP;
146  struct cxiKernelIOBufferDesc_t* gblPrevP;
147
148#define PAGES_PER_KIBD (64*1024/PAGE_SIZE)  /* 64K */
149  char* maplist[PAGES_PER_KIBD];
150};
151
152/* Struct that records the mapping within
153 * the daemon address space.  A group of these are allocated
154 * as an array in the shared seg and the memory descriptor
155 * vindex points to the appropriate element.
156 */
157struct cxiMemoryMapping_t
158{
159  char *vaddr;        /* daemon address mapping */
160#ifdef SSEG_SWIZZLE_PTRS
161  char *kvaddr;
162#endif
163  int kBytes;         /* size of the area in kilobytes */
164  short vindex;       /* index in shared segment mapping array */
165};
166
167static inline void
168InitMemoryMapping(struct cxiMemoryMapping_t *mmP)
169{
170  mmP->vaddr = NULL;
171  mmP->kBytes = 0;
172  mmP->vindex = -1;
173#ifdef SSEG_SWIZZLE_PTRS
174  mmP->kvaddr = NULL;
175#endif
176}
177
178static inline Boolean
179IsMemoryMappingFree(struct cxiMemoryMapping_t *mmP)
180{
181  if (mmP->kBytes == 0)
182    return true;
183
184  return false;
185}
186
187typedef struct cxiMemoryMapping_t cxiMemoryMapping_t;
188
189/* Initialization and termination routines.  Called at module load
190   and unload, respectively. */
191EXTERNC void KibdModuleInit();
192EXTERNC void KibdModuleTerm();
193
194/* Create a cxiKernelIOBufferDesc_t object (or list of cxiKernelIOBufferDesc_t
195   objects) describing an I/O buffer in the user address space of the
196   calling process and link it onto the list of all such objects.  Pins
197   the user-level buffer.  The buffer virtual address must be on a page
198   boundary.  The length can be arbitrarily large, but must be a multiple
199   of the page size.  Returns 0 if successful, non-zero if unsuccessful.
200   */
201EXTERNC int cxiKibdPin(char* vaddr, int len,
202                       struct cxiKernelIOBufferDesc_t** kibdPP);
203
204/* Remove a cxiKernelIOBufferDesc_t object from the list of all
205   such objects, destroy it and all chained cxiKernelIOBufferDesc_t objects
206   associated with it, and unpin the associated user-level buffer. */
207EXTERNC void cxiKibdUnpin(struct cxiKernelIOBufferDesc_t* kibdP);
208
209/* Free all cxiKernelIOBufferDesc_t's, and unpin their underlying storage. */
210EXTERNC void cxiKibdUnpinAll();
211
212#ifdef MMAP_DIO
213
214/* Create a cxiKernelIOBufferDesc_t object for a page in user address space
215   that is already pinned.  The page will be mapped into kernel address
216   space.  This is used by mmap routines that want to do direct I/O from
217   user page to disk.  The cxiKernelIOBufferDesc_t that this routine
218   creates can be passed to cxiKDoIO just like one that was created by
219   cxiKibdPin. */
220EXTERNC int cxiKibdPinmm(struct page *pageP,
221                         struct cxiKernelIOBufferDesc_t** kibdPP);
222
223/* Free a cxiKernelIOBufferDesc_t that was created by cxiKibdPinmm. */
224EXTERNC void cxiKibdUnpinmm(struct page *pageP,
225                            struct cxiKernelIOBufferDesc_t* kibdP);
226#endif /* MMAP_DIO */
227
228
229/* Handle that describes a particular cxiIOBuffer_t that has been attached.
230   On Linux, this is a pointer to a cxiLinuxKernelIOBufferDesc_t. */
231struct cxiIOBufferAttachment_t
232{
233  struct cxiKernelIOBufferDesc_t* kDescP;
234};
235
236
237/* Initialize a cxiIOBufferAttachment_t */
238static inline void InitBufferAttachment(struct cxiIOBufferAttachment_t* baP)
239{
240  baP->kDescP = NULL;
241};
242
243
244
245/* Result of making a read-only copy of a portion of an I/O buffer.  On
246   Linux, this must record the base address of the copy buffer, if one was
247   required.  If data was mapped in place, the cxiContiguousBuffer_t records
248   which page was kmapped. */
249struct cxiContiguousBuffer_t
250{
251  /* Base of storage allocated with vmalloc / kmalloc, or NULL if data is
252     referenced in place. */
253  char* mallocedBaseP;
254
255  /* True if storage pointed to be mallocedBaseP was allocated using
256     kmalloc.  If false, then vmalloc was used. */
257  Boolean usedKmalloc;
258
259  /* Pointer used to remember which page to unmap, or NULL if data was copied
260     to mallocedBaseP by mapContiguousRO. */
261  void* pageP;
262};
263
264
265/* Initialize a cxiContiguousBuffer_t */
266static inline void InitContiguousBuffer(struct cxiContiguousBuffer_t* cbP)
267{
268  cbP->mallocedBaseP = NULL;
269  cbP->usedKmalloc = false;
270  cbP->pageP = NULL;
271}
272
273
274/* Kernel calls used by cxiK... routines to call the Kibd... routines */
275EXTERNC int kxPinKernelIOBuffer(char* vaddr, int len,
276                                struct cxiKernelIOBufferDesc_t** pinnedPP);
277EXTERNC int kxUnpinKernelIOBuffer(struct cxiKernelIOBufferDesc_t* pinnedP);
278EXTERNC int kxUnpinAllKernelIOBuffers();
279
280/* Methods for manipulating cxiIOBuffer_t's */
281
282/* Return true if the fields describing the IOBuffer are self-consistent */
283#define IOBUFFER_IS_CONSISTENT(IOBP) (true)
284
285/* Pin the pages belonging to this I/O buffer */
286EXTERNC void KPinIOBuffer(struct cxiIOBuffer_t* iobP);
287
288/* Unpin the pages belonging to this I/O buffer */
289EXTERNC void KUnpinIOBuffer(struct cxiIOBuffer_t* iobP);
290
291/* Split the kernel buffer descriptor into two adjacent I/O buffers */
292EXTERNC void KSplitIOBuffer(struct cxiIOBuffer_t* iobP, int frontPages,
293                            struct cxiIOBuffer_t* rearBufP);
294
295/* Merge the kernel buffer descriptors of two adjacent I/O buffers.  The
296   I/O buffer p should be destroyed after this call, since its pages will
297   be merged into the buffer *iobP. */
298EXTERNC void KMergeIOBuffer(struct cxiIOBuffer_t* iobP, struct cxiIOBuffer_t* p);
299
300/* Read or write the given sectors from dev.  Data should be placed into
301   the I/O buffer beginning at byte offset bufOffset.  Returns EOK
302   on success, negative values on error.  All of the data to be
303   transferred will be in the first cxiKernelIOBufferDesc_t. */
304EXTERNC int cxiKDoIO(struct cxiKernelIOBufferDesc_t* kibdP,
305                     Boolean isWrite, cxiDev_t dev, UInt64 startSector,
306                     int nSectors, int sectorSize, int bufOffset);
307
308
309/* On Linux, I/O buffers can be accessed at contiguous virtual addresses
310   from the daemon process, but not from kernel code */
311#ifndef _KERNEL
312#define __CXI_BUFFERS_ARE_CONTIGUOUS
313#endif
314
315/* Routine to set up the disk block size and get disk parameters */
316EXTERNC int GetDiskInfoX(cxiDev_t devId, struct cxiDiskInfo_t* diskInfoP);
317
318#endif  /* _h_cxiIOBuffer_plat */
319
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