1 /* 2 * Copyright 2001-2008 Texas Instruments - http://www.ti.com/ 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17 /* 18 * ======== memry.h ======== 19 * DSP-BIOS Bridge driver support functions for TI OMAP processors. 20 * Purpose: 21 * Functional interface for the memory manager, exported by the DSP 22 * system API DLL. This interface is not publicly documented. 23 * 24 * Public Functions: 25 * MEMRY_Alloc 26 * MEMRY_BindMem 27 * MEMRY_Calloc 28 * MEMRY_Free 29 * MEMRY_FreeVM 30 * MEMRY_LinearAddress 31 * MEMRY_ReserveVM 32 * MEMRY_PageLock 33 * MEMRY_PageUnlock 34 * MEMRY_UnMapLinearAddress 35 * 36 *! Revision History: 37 *! ================ 38 *! 01-Sep-2001 ag: Added MEMRY_[UnMap]LinearAddress. 39 *! 11-Oct-2000 ag: Added MEMRY_Reserve[Free]VM() & MEMRY_BindMem(). 40 *! 12-Nov-1999 kc: Updated for WinCE. 41 *! 42 */ 43 44 #ifndef MEMRY_ 45 #define MEMRY_ 46 47 #ifdef __cplusplus 48 extern "C" { 49 #endif 50 51 #include <dspapi.h> 52 53 #include <memdefs.h> 54 55 /* 56 * MEMRY_[GET]SET]VIRTUALSEGID is used by Node & Strm to access virtual 57 * address space in the correct client process context. The virtual to 58 * physical mapping is done in the client process context. 59 */ 60 #define MEMRY_SETVIRTUALSEGID MEM_SETVIRTUALSEGID 61 #define MEMRY_GETVIRTUALSEGID MEM_GETVIRTUALSEGID 62 #define MEMRY_MASKVIRTUALSEGID MEM_MASKVIRTUALSEGID 63 64 #ifndef LINUX 65 66 /* 67 * ======== MEMRY_Alloc ======== 68 * Purpose: 69 * Allocate memory from the paged or non-paged pools. 70 * Parameters: 71 * cBytes: Number of bytes to allocate. 72 * type: Type of memory to allocate; one of: 73 * - MEM_PAGED: Allocate from the pageable memory. 74 * - MEM_NONPAGED:Allocate from page locked memory. 75 * Returns: 76 * Pointer to a block of memory; or NULL if memory couldn't be 77 * allocated. 78 * Requires: 79 * Ensures: 80 * PVOID pointer returned is a valid memory location. 81 */ 82 extern PVOID MEMRY_Alloc(ULONG cBytes, MEM_POOLATTRS type); 83 84 /* 85 * ======== MEMRY_BindBuf ======== 86 * Purpose: 87 * Bind a Physical address to a Virtual Address. 88 * In WinCE performs a VirtualCopy(). 89 * Parameters: 90 * pVA: Ptr to reserved memory allocated by MEMRY_ReserveVM(). 91 * pPA: Ptr to a physical memory location. 92 * ulBytes: Size of physical memory in bytes. 93 * Returns: 94 * TRUE if successful, else FALSE. 95 * Requires: 96 * pPA != NULL. 97 * Ensures: 98 */ 99 extern bool MEMRY_BindMem(PVOID pVA, PVOID pPA, ULONG ulBytes); 100 101 /* 102 * ======== MEMRY_Calloc ======== 103 * Purpose: 104 * Allocate zero-initialized memory from the paged or non-paged pools. 105 * Parameters: 106 * cBytes: Number of bytes to allocate. 107 * type: Type of memory to allocate; one of: 108 * - MEM_PAGED: Allocate from the pageable memory. 109 * - MEM_NONPAGED: Allocate from page locked memory. 110 * Returns: 111 * Pointer to a contiguous block of zeroed memory; or NULL if memory 112 * couldn't be allocated. 113 * Requires: 114 * Ensures: 115 * PVOID pointer returned is a valid memory location. 116 */ 117 extern PVOID WINAPI MEMRY_Calloc(ULONG cBytes, MEM_POOLATTRS type); 118 119 /* 120 * ======== MEMRY_Free ======== 121 * Purpose: 122 * Free the given block of system memory. 123 * Parameters: 124 * pMemBuf: Pointer to memory allocated by MEMRY_Alloc(). 125 * Returns: 126 * Requires: 127 * Ensures: 128 * pMemBuf is no longer a valid pointer to memory. 129 */ 130 extern VOID MEMRY_Free(IN PVOID pMemBuf); 131 132 /* 133 * ======== MEMRY_FreeVM ======== 134 * Purpose: 135 * Free VM reserved by MEMRY_ReserveVM. 136 * Parameters: 137 * pVirtualAddr: Pointer to memory VM allocated by MEMRY_ReserveVM(). 138 * Returns: 139 * TRUE on success, else FALSE. 140 * Requires: 141 * pVirtualAddr != 0 142 * Ensures: 143 * 144 */ 145 extern bool MEMRY_FreeVM(PVOID pVirtualAddr); 146 147 /* 148 * ======== MEMRY_PageLock ======== 149 * Purpose: 150 * Calls kernel services to map the set of pages identified by a private 151 * process pointer and a byte count into the calling process's globally 152 * shared address space. 153 * Parameters 154 * lpBuffer: Pointer to a process-private data buffer. 155 * cSize: Size in bytes of the data buffer. 156 * Returns: 157 * A pointer to linear page locked memory, or 158 * NULL if failure locking memory. 159 * Requires: 160 * The size (cSize) must accurately reflect the size of the buffer to 161 * be locked, since the page count is derived from this number. 162 * Ensures: 163 * Memory locked by this service can be accessed at interrupt time, or 164 * from other memory contexts. 165 */ 166 extern DSPAPIDLL PVOID WINAPI MEMRY_PageLock(PVOID pBuffer, 167 ULONG cSize); 168 169 #endif /* ifndef LINUX */ 170 171 /* 172 * ======== MEMRY_LinearAddress ======== 173 * Purpose: 174 * Get the linear address corresponding to the given physical address. 175 * Parameters: 176 * pPhysAddr: Physical address to be mapped. 177 * cBytes: Number of bytes in physical range to map. 178 * Returns: 179 * The corresponding linear address, or NULL if unsuccessful. 180 * Requires: 181 * PhysAddr != 0 182 * Ensures: 183 * Notes: 184 * If valid linear address is returned, be sure to call 185 * MEMRY_UnMapLinearAddress(). 186 */ 187 extern inline PVOID MEMRY_LinearAddress(PVOID pPhyAddr, ULONG cBytes) { 188 return pPhyAddr; 189 } 190 #ifndef LINUX 191 /* 192 * ======== MEMRY_PageUnlock ======== 193 * Purpose: 194 * Unlocks a buffer previously locked using MEMRY_PageLock(). 195 * Parameters: 196 * pBuffer: Pointer to locked memory (as returned by MEMRY_PageLock()). 197 * cSize: Size in bytes of the buffer. 198 * Returns: 199 * Returns DSP_SOK if unlock successful; else, returns DSP_EFAIL; 200 * Requires: 201 * pBuffer must be a pointer to a locked, shared data buffer previously 202 * locked with MEMRY_PageLock(). 203 * Ensures: 204 * Will unlock the pages of memory when the lock count drops to zero. 205 * MEMRY_PageLock() increments the lock count, and MEMRY_PageUnlock 206 * decrements the count. 207 */ extern DSPAPIDLL MEMRY_PageUnlock(PVOID pBuffer, ULONG cSize); 208 209 /* 210 * ======== MEMRY_ReserveVM ======== 211 * Purpose: 212 * Reserve at least ulBytes (page size inc) virtual memory for this process. 213 * Parameters: 214 * ulBytes: Size in bytes of the minimum space to reserve. 215 * Returns: 216 * Returns NULL on failure, else valid VA of at least ulBytes size. 217 * Requires: 218 * Ensures: 219 */ 220 extern PVOID MEMRY_ReserveVM(ULONG cBytes); 221 222 #endif /* ifndef LINUX */ 223 224 /* 225 * ======== MEMRY_UnMapLinearAddress ======== 226 * Purpose: 227 * Unmap the linear address mapped in MEMRY_LinearAddress. 228 * Parameters: 229 * pBaseAddr: Ptr to mapped memory (as returned by MEMRY_LinearAddress()). 230 * Returns: 231 * Requires: 232 * - pBaseAddr is a valid linear address mapped in MEMRY_LinearAddress. 233 * Ensures: 234 * - pBaseAddr no longer points to a valid linear address. 235 */ 236 extern inline VOID MEMRY_UnMapLinearAddress(PVOID pBaseAddr) { 237 } 238 239 #ifdef __cplusplus 240 } 241 #endif 242 243 #endif /* MEMRY_ */ 244