1 //<MStar Software>
2 //******************************************************************************
3 // MStar Software
4 // Copyright (c) 2010 - 2012 MStar Semiconductor, Inc. All rights reserved.
5 // All software, firmware and related documentation herein ("MStar Software") are
6 // intellectual property of MStar Semiconductor, Inc. ("MStar") and protected by
7 // law, including, but not limited to, copyright law and international treaties.
8 // Any use, modification, reproduction, retransmission, or republication of all
9 // or part of MStar Software is expressly prohibited, unless prior written
10 // permission has been granted by MStar.
11 //
12 // By accessing, browsing and/or using MStar Software, you acknowledge that you
13 // have read, understood, and agree, to be bound by below terms ("Terms") and to
14 // comply with all applicable laws and regulations:
15 //
16 // 1. MStar shall retain any and all right, ownership and interest to MStar
17 // Software and any modification/derivatives thereof.
18 // No right, ownership, or interest to MStar Software and any
19 // modification/derivatives thereof is transferred to you under Terms.
20 //
21 // 2. You understand that MStar Software might include, incorporate or be
22 // supplied together with third party`s software and the use of MStar
23 // Software may require additional licenses from third parties.
24 // Therefore, you hereby agree it is your sole responsibility to separately
25 // obtain any and all third party right and license necessary for your use of
26 // such third party`s software.
27 //
28 // 3. MStar Software and any modification/derivatives thereof shall be deemed as
29 // MStar`s confidential information and you agree to keep MStar`s
30 // confidential information in strictest confidence and not disclose to any
31 // third party.
32 //
33 // 4. MStar Software is provided on an "AS IS" basis without warranties of any
34 // kind. Any warranties are hereby expressly disclaimed by MStar, including
35 // without limitation, any warranties of merchantability, non-infringement of
36 // intellectual property rights, fitness for a particular purpose, error free
37 // and in conformity with any international standard. You agree to waive any
38 // claim against MStar for any loss, damage, cost or expense that you may
39 // incur related to your use of MStar Software.
40 // In no event shall MStar be liable for any direct, indirect, incidental or
41 // consequential damages, including without limitation, lost of profit or
42 // revenues, lost or damage of data, and unauthorized system use.
43 // You agree that this Section 4 shall still apply without being affected
44 // even if MStar Software has been modified by MStar in accordance with your
45 // request or instruction for your use, except otherwise agreed by both
46 // parties in writing.
47 //
48 // 5. If requested, MStar may from time to time provide technical supports or
49 // services in relation with MStar Software to you for your use of
50 // MStar Software in conjunction with your or your customer`s product
51 // ("Services").
52 // You understand and agree that, except otherwise agreed by both parties in
53 // writing, Services are provided on an "AS IS" basis and the warranty
54 // disclaimer set forth in Section 4 above shall apply.
55 //
56 // 6. Nothing contained herein shall be construed as by implication, estoppels
57 // or otherwise:
58 // (a) conferring any license or right to use MStar name, trademark, service
59 // mark, symbol or any other identification;
60 // (b) obligating MStar or any of its affiliates to furnish any person,
61 // including without limitation, you and your customers, any assistance
62 // of any kind whatsoever, or any information; or
63 // (c) conferring any license or right under any intellectual property right.
64 //
65 // 7. These terms shall be governed by and construed in accordance with the laws
66 // of Taiwan, R.O.C., excluding its conflict of law rules.
67 // Any and all dispute arising out hereof or related hereto shall be finally
68 // settled by arbitration referred to the Chinese Arbitration Association,
69 // Taipei in accordance with the ROC Arbitration Law and the Arbitration
70 // Rules of the Association by three (3) arbitrators appointed in accordance
71 // with the said Rules.
72 // The place of arbitration shall be in Taipei, Taiwan and the language shall
73 // be English.
74 // The arbitration award shall be final and binding to both parties.
75 //
76 //******************************************************************************
77 //<MStar Software>
78 ////////////////////////////////////////////////////////////////////////////////
79 //
80 // Copyright (c) 2008-2009 MStar Semiconductor, Inc.
81 // All rights reserved.
82 //
83 // Unless otherwise stipulated in writing, any and all information contained
84 // herein regardless in any format shall remain the sole proprietary of
85 // MStar Semiconductor Inc. and be kept in strict confidence
86 // ("MStar Confidential Information") by the recipient.
87 // Any unauthorized act including without limitation unauthorized disclosure,
88 // copying, use, reproduction, sale, distribution, modification, disassembling,
89 // reverse engineering and compiling of the contents of MStar Confidential
90 // Information is unlawful and strictly prohibited. MStar hereby reserves the
91 // rights to any and all damages, losses, costs and expenses resulting therefrom.
92 //
93 ////////////////////////////////////////////////////////////////////////////////
94
95 ///////////////////////////////////////////////////////////////////////////////////////////////////
96 ///
97 /// file drvAVD.c
98 /// @brief AVD Driver Interface
99 /// @author MStar Semiconductor Inc.
100 ///////////////////////////////////////////////////////////////////////////////////////////////////
101
102
103 //-------------------------------------------------------------------------------------------------
104 // Include Files
105 //-------------------------------------------------------------------------------------------------
106 // Common Definition
107 #ifdef MSOS_TYPE_LINUX_KERNEL
108 #include <linux/string.h>
109 #else
110 #include <string.h>
111 #endif
112 #include "MsCommon.h"
113 /*#include "MsVersion.h"
114 #include "drvAVD.h"
115 #include "MsIRQ.h"
116 #include "drvXC_IOPort.h"
117 #include "apiXC.h"
118 //#if !defined (MSOS_TYPE_NOS)
119 #include "MsOS.h"
120 //#endif
121
122 // Internal Definition
123 #include "regCHIP.h"
124 #include "regAVD.h"
125 #include "halAVD.h"
126 #include "drvBDMA.h"
127 #include "drvSERFLASH.h"*/
128
129 #include "drvAVD_v2.h"
130 #include "drvAVD.h"
131 #include "../../utopia_core/utopia.h"
132
133 #include "UFO.h"
134 #ifndef DONT_USE_CMA
135 #include "drvCMAPool.h"
136 #include "halCHIP.h"
137 #endif
138 #include "ULog.h"
139
140 //-------------------------------------------------------------------------------------------------
141 // definition
142 //-------------------------------------------------------------------------------------------------
143 //#define MODULE_AVD 10
144
145
146 //-------------------------------------------------------------------------------------------------
147 // Global variables
148 //-------------------------------------------------------------------------------------------------
149
150 void* ppAVDInstant=NULL;
151 static MS_U32 u32AVDopen=0;
152 static MS_U8 u8AVDUtopiaOpen = 0; //for SetStillImagePara is earlier called than Init
153 static AVD_Result bAVD_Open_result=E_AVD_FAIL;
154 #ifndef DONT_USE_CMA
155 #ifdef UFO_AVD_CMA
156 MS_BOOL bAVDGetMA = 0; //0: not GetMA yet 1: already Get MA
157 MS_BOOL bAVDCMAInit = 0;
158 MS_PHY u32COMB_3D_CMA_addr;
159 MS_U32 u32COMB_3D_CMA_LEN;
160 #endif
161 #endif
162 //-------------------------------------------------------------------------------------------------
163 // Global VD functions
164 //-------------------------------------------------------------------------------------------------
165 #ifndef DONT_USE_CMA
166 #ifdef UFO_AVD_CMA
167 struct CMA_Pool_Init_Param AVD_CMA_Pool_Init_PARAM; // for MApi_CMA_Pool_Init
168 struct CMA_Pool_Alloc_Param AVD_CMA_Alloc_PARAM; // for MApi_CMA_Pool_GetMem
169 struct CMA_Pool_Free_Param AVD_CMA_Free_PARAM; // for MApi_CMA_Pool_PutMem
170 #endif
171 #endif
MDrv_AVD_Init(VD_INITDATA * pVD_InitData,MS_U32 u32InitDataLen)172 AVD_Result MDrv_AVD_Init(VD_INITDATA *pVD_InitData, MS_U32 u32InitDataLen)
173 {
174 //AVD_Result _eResult;
175 AVD_INIT _eAVD_Init;
176 _eAVD_Init.pVD_InitData = *pVD_InitData;
177 _eAVD_Init.u32InitDataLen = u32InitDataLen;
178 _eAVD_Init.pVD_Result = E_AVD_FAIL;
179 void* pAttribte = NULL;
180 if(u8AVDUtopiaOpen==0)
181 {
182 if(UtopiaOpen(MODULE_AVD, &ppAVDInstant, 0, pAttribte)== UTOPIA_STATUS_SUCCESS)
183 {
184 u32AVDopen = 1;
185 }
186 u8AVDUtopiaOpen = 1;
187 }
188 #ifndef DONT_USE_CMA
189 #ifdef UFO_AVD_CMA
190 /* do CMA Init*/
191 AVD_CMA_Pool_Init_PARAM.heap_id = 26; // need to refine
192 AVD_CMA_Pool_Init_PARAM.flags = CMA_FLAG_MAP_VMA;
193 if(bAVDCMAInit==0)
194 {
195 if(MApi_CMA_Pool_Init(&AVD_CMA_Pool_Init_PARAM) == FALSE)
196 {
197 bAVDCMAInit = 0;
198 ULOGE("AVD","\033[35mFunction = %s, Line = %d, CMA_POOL_INIT ERROR!!\033[m\n", __PRETTY_FUNCTION__, __LINE__);
199 return FALSE;
200 }
201 else
202 {
203 bAVDCMAInit = 1;
204 ULOGE("AVD","\033[35mFunction = %s, Line = %d, get pool_handle_id is %u\033[m\n", __PRETTY_FUNCTION__, __LINE__, AVD_CMA_Pool_Init_PARAM.pool_handle_id);
205 ULOGE("AVD","\033[35mFunction = %s, Line = %d, get miu is %u\033[m\n", __PRETTY_FUNCTION__, __LINE__, AVD_CMA_Pool_Init_PARAM.miu);
206 ULOGE("AVD","\033[35mFunction = %s, Line = %d, get heap_miu_start_offset is 0x%llX\033[m\n", __PRETTY_FUNCTION__, __LINE__, AVD_CMA_Pool_Init_PARAM.heap_miu_start_offset);
207 ULOGE("AVD","\033[35mFunction = %s, Line = %d, get heap_length is 0x%X\033[m\n", __PRETTY_FUNCTION__, __LINE__, AVD_CMA_Pool_Init_PARAM.heap_length);
208 }
209 }
210 /*do Get Mem*/
211 if((bAVDCMAInit==1)&&(bAVDGetMA==0)) //CMA already Init, not get mem yet
212 {
213 AVD_CMA_Alloc_PARAM.pool_handle_id = AVD_CMA_Pool_Init_PARAM.pool_handle_id;
214 AVD_CMA_Alloc_PARAM.offset_in_pool = _eAVD_Init.pVD_InitData->u32COMB_3D_ADR - AVD_CMA_Pool_Init_PARAM.heap_miu_start_offset;
215 AVD_CMA_Alloc_PARAM.length = _eAVD_Init.pVD_InitData->u32COMB_3D_LEN;
216 AVD_CMA_Alloc_PARAM.flags = CMA_FLAG_VIRT_ADDR;
217 }
218 #endif
219 #endif
220
221 //_eResult = (AVD_Result)UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_Init, &_eAVD_Init);
222 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_Init, &_eAVD_Init);
223 bAVD_Open_result=_eAVD_Init.pVD_Result;
224 return _eAVD_Init.pVD_Result;
225 }
226
MDrv_AVD_Exit(void)227 void MDrv_AVD_Exit(void)
228 {
229 if(u32AVDopen==1)
230 {
231 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_Exit, NULL);
232 #ifndef DONT_USE_CMA
233 #ifdef UFO_AVD_CMA
234 /* do CMA Put Mem*/
235 if((bAVDCMAInit==1)&&(bAVDGetMA==1))
236 {
237 if(MApi_CMA_Pool_PutMem(&AVD_CMA_Free_PARAM)==FALSE)
238 {
239 ULOGE("AVD","\033[35mFunction = %s, Line = %d, CMA_Pool_PutMem ERROR!!\033[m\n", __PRETTY_FUNCTION__, __LINE__);
240 bAVDGetMA = 1;
241 }
242 else
243 {
244 bAVDGetMA = 0;
245 }
246 }
247 #endif
248 #endif
249 }
250 }
251
MDrv_AVD_McuReset(void)252 MS_BOOL MDrv_AVD_McuReset(void)
253 {
254 AVD_COPYTOUSER pArgs = {0};
255 if(u32AVDopen==1)
256 {
257 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_ResetMCU, &pArgs);
258 return pArgs.bEnable;
259 }
260 else
261 return FALSE;
262 }
263
MDrv_AVD_MCUFreeze(MS_BOOL bEnable)264 void MDrv_AVD_MCUFreeze(MS_BOOL bEnable)
265 {
266 MS_BOOL *pArgs = &bEnable;
267
268 if(u32AVDopen==1)
269 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_FreezeMCU, pArgs);
270 }
271
MDrv_AVD_Scan_HsyncCheck(MS_U8 u8HtotalTolerance)272 MS_U16 MDrv_AVD_Scan_HsyncCheck(MS_U8 u8HtotalTolerance)
273 {
274 AVD_SCANHSYNCCHECK pArgs = {0};
275 pArgs.u8HtotalTolerance = u8HtotalTolerance;
276 if(u32AVDopen==1)
277 {
278 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_Scan_HsyncCheck, &pArgs);
279 return pArgs.u16ScanHsyncCheck;
280 }
281 else
282 return 0;
283 }
284
MDrv_AVD_StartAutoStandardDetection(void)285 void MDrv_AVD_StartAutoStandardDetection(void)
286 {
287 if(u32AVDopen==1)
288 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_StartAutoStandardDetection, NULL);
289 }
290
MDrv_AVD_ForceVideoStandard(AVD_VideoStandardType eVideoStandardType)291 MS_BOOL MDrv_AVD_ForceVideoStandard(AVD_VideoStandardType eVideoStandardType)
292 {
293 AVD_FORCEVIDEOSTANDARD pArgs ={0};
294 pArgs.eVideoStandardType = eVideoStandardType;
295 if(u32AVDopen==1)
296 {
297 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_ForceVideoStandard, &pArgs);
298 return pArgs.bEnable;
299 }
300 else
301 return FALSE;
302 }
303
MDrv_AVD_3DCombSpeedup(void)304 void MDrv_AVD_3DCombSpeedup(void)
305 {
306 if(u32AVDopen==1)
307 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_3DCombSpeedup, NULL);
308 }
309
MDrv_AVD_LoadDSP(MS_U8 * pu8VD_DSP,MS_U32 len)310 void MDrv_AVD_LoadDSP(MS_U8 *pu8VD_DSP, MS_U32 len)
311 {
312 AVD_LOADDSP _eAVD_LOADDSP;
313 _eAVD_LOADDSP.pu8VD_DSP = pu8VD_DSP;
314 _eAVD_LOADDSP.len = len;
315 if(u32AVDopen==1)
316 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_LoadDSP, &_eAVD_LOADDSP);
317 }
318
MDrv_AVD_BackPorchWindowPositon(MS_BOOL bEnable,MS_U8 u8Value)319 void MDrv_AVD_BackPorchWindowPositon(MS_BOOL bEnable , MS_U8 u8Value)
320 {
321 AVD_BACKPORCHWINPOS _eAVD_BACKPORCHWINPOS;
322 _eAVD_BACKPORCHWINPOS.bEnable= bEnable;
323 _eAVD_BACKPORCHWINPOS.u8Value = u8Value;
324 if(u32AVDopen==1)
325 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_BackPorchWindowPositon, &_eAVD_BACKPORCHWINPOS);
326 }
327
MDrv_AVD_MBX_ReadByteByVDMbox(MS_U8 u8Addr)328 MS_U8 MDrv_AVD_MBX_ReadByteByVDMbox(MS_U8 u8Addr)
329 {
330 AVD_MBXREADBYTEBYVDMBOX pArgs ={0};
331 pArgs.u8Addr = u8Addr;
332
333 if(u32AVDopen==1)
334 {
335 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_MBX_ReadByteByVDMbox, &pArgs);
336 return pArgs.u8Value;
337 }
338 else
339 return FALSE;
340 }
341
MDrv_AVD_SetFlag(MS_U32 u32VDPatchFlag)342 void MDrv_AVD_SetFlag(MS_U32 u32VDPatchFlag)
343 {
344 MS_U32 *pArgs = &u32VDPatchFlag;
345
346 if(u32AVDopen==1)
347 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetFlag, pArgs);
348 }
349
MDrv_AVD_SetRegValue(MS_U16 u16Addr,MS_U8 u8Value)350 void MDrv_AVD_SetRegValue(MS_U16 u16Addr,MS_U8 u8Value)
351 {
352 AVD_SETREGVALUE _eAVD_SETREGVALUE;
353 _eAVD_SETREGVALUE.u16Addr= u16Addr;
354 _eAVD_SETREGVALUE.u8Value = u8Value;
355 if(u32AVDopen==1)
356 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetRegValue, &_eAVD_SETREGVALUE);
357 }
358
MDrv_AVD_SetRegFromDSP(void)359 void MDrv_AVD_SetRegFromDSP(void)
360 {
361 if(u32AVDopen==1)
362 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetRegFromDSP, NULL);
363 }
364
MDrv_AVD_SetInput(AVD_InputSourceType eSource,MS_U8 u8ScartFB)365 MS_BOOL MDrv_AVD_SetInput(AVD_InputSourceType eSource, MS_U8 u8ScartFB)
366 {
367 AVD_SETINPUT _eAVD_SETINPUT = {0};
368 _eAVD_SETINPUT.eSource= eSource;
369 _eAVD_SETINPUT.u8ScartFB = u8ScartFB;
370 #ifndef DONT_USE_CMA
371 #ifdef UFO_AVD_CMA
372 /*do Get Mem*/
373 if((bAVDCMAInit==1)&&(bAVDGetMA==0)) //CMA already Init, not get mem yet
374 {
375 if(MApi_CMA_Pool_GetMem(&AVD_CMA_Alloc_PARAM) == FALSE)
376 {
377 bAVDGetMA = 0;
378 ULOGE("AVD","\033[35mFunction = %s, Line = %d, CMA_Pool_GetMem ERROR!!\033[m\n", __PRETTY_FUNCTION__, __LINE__);
379 }
380 else
381 {
382 bAVDGetMA = 1;
383 ULOGE("AVD","\033[35mFunction = %s, Line = %d, get from heap_id %d\033[m\n", __PRETTY_FUNCTION__, __LINE__, AVD_CMA_Alloc_PARAM.pool_handle_id);
384 ULOGE("AVD","\033[35mFunction = %s, Line = %d, ask offset 0x%llX\033[m\n", __PRETTY_FUNCTION__, __LINE__, AVD_CMA_Alloc_PARAM.offset_in_pool);
385 ULOGE("AVD","\033[35mFunction = %s, Line = %d, ask length 0x%X\033[m\n", __PRETTY_FUNCTION__, __LINE__, AVD_CMA_Alloc_PARAM.length);
386 ULOGE("AVD","\033[37mFunction = %s, Line = %d, return va is 0x%X\033[m\n", __PRETTY_FUNCTION__, __LINE__, AVD_CMA_Alloc_PARAM.virt_addr);
387
388 AVD_CMA_Free_PARAM.pool_handle_id = AVD_CMA_Pool_Init_PARAM.pool_handle_id;
389 AVD_CMA_Free_PARAM.offset_in_pool = AVD_CMA_Alloc_PARAM.offset_in_pool;
390 AVD_CMA_Free_PARAM.length = AVD_CMA_Alloc_PARAM.length;
391 }
392 }
393 #endif
394 #endif
395 if(u32AVDopen==1)
396 {
397 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetInput, &_eAVD_SETINPUT);
398 return _eAVD_SETINPUT.bEnable;
399 }
400 else
401 return FALSE;
402 }
403
MDrv_AVD_SetVideoStandard(AVD_VideoStandardType eStandard,MS_BOOL bIsInAutoTuning)404 MS_BOOL MDrv_AVD_SetVideoStandard(AVD_VideoStandardType eStandard, MS_BOOL bIsInAutoTuning)
405 {
406 AVD_SETVIDEOSTANDARD _eAVD_SETVIDEOSTANDARD ={0};
407 _eAVD_SETVIDEOSTANDARD.eStandard= eStandard;
408 _eAVD_SETVIDEOSTANDARD.bIsInAutoTuning = bIsInAutoTuning;
409 if(u32AVDopen==1)
410 {
411 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetVideoStandard, &_eAVD_SETVIDEOSTANDARD);
412 return _eAVD_SETVIDEOSTANDARD.bEnable;
413 }
414 else
415 return FALSE;
416 }
417
MDrv_AVD_SetChannelChange(void)418 void MDrv_AVD_SetChannelChange(void)
419 {
420 if(u32AVDopen==1)
421 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetChannelChange, NULL);
422 }
423
MDrv_AVD_SetHsyncDetectionForTuning(MS_BOOL bEnable)424 void MDrv_AVD_SetHsyncDetectionForTuning(MS_BOOL bEnable)
425 {
426 MS_BOOL *pArgs = &bEnable;
427
428 if(u32AVDopen==1)
429 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetHsyncDetectionForTuning, pArgs);
430 }
431
MDrv_AVD_Set3dComb(MS_BOOL bEnable)432 void MDrv_AVD_Set3dComb(MS_BOOL bEnable)
433 {
434 MS_BOOL *pArgs = &bEnable;
435
436 if(u32AVDopen==1)
437 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_Set3dComb, pArgs);
438 }
439
MDrv_AVD_SetShiftClk(MS_BOOL bEnable,AVD_ATV_CLK_TYPE eShiftMode)440 void MDrv_AVD_SetShiftClk(MS_BOOL bEnable,AVD_ATV_CLK_TYPE eShiftMode)
441 {
442 AVD_SETSHIFTCLK _eAVD_SETSHIFTCLK;
443 _eAVD_SETSHIFTCLK.bEnable= bEnable;
444 _eAVD_SETSHIFTCLK.eShiftMode = eShiftMode;
445 if(u32AVDopen==1)
446 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetShiftClk, &_eAVD_SETSHIFTCLK);
447 }
448
MDrv_AVD_SetFreerunPLL(AVD_VideoFreq eVideoFreq)449 void MDrv_AVD_SetFreerunPLL(AVD_VideoFreq eVideoFreq)
450 {
451 AVD_VideoFreq *pArgs = &eVideoFreq;
452
453 if(u32AVDopen==1)
454 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetFreerunPLL, pArgs);
455 }
456
MDrv_AVD_SetFreerunFreq(AVD_FreeRunFreq eFreerunfreq)457 void MDrv_AVD_SetFreerunFreq(AVD_FreeRunFreq eFreerunfreq)
458 {
459 AVD_FreeRunFreq *pArgs = &eFreerunfreq;
460
461 if(u32AVDopen==1)
462 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetFreerunFreq, pArgs);
463 }
464
MDrv_AVD_SetFactoryPara(AVD_Factory_Para FactoryPara,MS_U8 u8Value)465 void MDrv_AVD_SetFactoryPara(AVD_Factory_Para FactoryPara,MS_U8 u8Value)
466 {
467 AVD_SETFACTORYPARA _eAVD_SETFACTORYPARA;
468 _eAVD_SETFACTORYPARA.FactoryPara= FactoryPara;
469 _eAVD_SETFACTORYPARA.u8Value = u8Value;
470 if(u32AVDopen==1)
471 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetFactoryPara, &_eAVD_SETFACTORYPARA);
472 }
473
MDrv_AVD_Set_Htt_UserMD(MS_U16 u16Htt)474 void MDrv_AVD_Set_Htt_UserMD(MS_U16 u16Htt)
475 {
476 MS_U16 *pArgs = &u16Htt;
477
478 if(u32AVDopen==1)
479 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_Set_Htt_UserMD, pArgs);
480 }
481
MDrv_AVD_SetDbgLevel(AVD_DbgLv u8DbgLevel)482 MS_BOOL MDrv_AVD_SetDbgLevel(AVD_DbgLv u8DbgLevel)
483 {
484 AVD_SETDBGLEVEL pArgs = {0};
485 pArgs.u8DbgLevel = u8DbgLevel;
486 if(u32AVDopen==1)
487 {
488 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetDbgLevel, &pArgs);
489 return pArgs.bEnable;
490 }
491 else
492 return FALSE;
493 }
494
MDrv_AVD_SetPQFineTune(void)495 void MDrv_AVD_SetPQFineTune(void)
496 {
497 if(u32AVDopen==1)
498 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetPQFineTune, NULL);
499 }
500
MDrv_AVD_Set3dCombSpeed(MS_U8 u8COMB57,MS_U8 u8COMB58)501 void MDrv_AVD_Set3dCombSpeed(MS_U8 u8COMB57, MS_U8 u8COMB58)
502 {
503 AVD_SET3DCOMBSPEED _eAVD_SET3DCOMBSPEED;
504 _eAVD_SET3DCOMBSPEED.u8COMB57= u8COMB57;
505 _eAVD_SET3DCOMBSPEED.u8COMB58 = u8COMB58;
506 if(u32AVDopen==1)
507 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_Set3dCombSpeed, &_eAVD_SET3DCOMBSPEED);
508 }
509
MDrv_AVD_SetStillImageParam(AVD_Still_Image_Param param)510 void MDrv_AVD_SetStillImageParam(AVD_Still_Image_Param param)
511 {
512
513 AVD_Still_Image_Param *pArgs = ¶m;
514
515 void* pAttribte = NULL;
516
517 if(u8AVDUtopiaOpen==0)
518 {
519 if(UtopiaOpen(MODULE_AVD, &ppAVDInstant, 0, pAttribte) == UTOPIA_STATUS_SUCCESS)
520 {
521 u32AVDopen =1;
522 }
523 u8AVDUtopiaOpen = 1;
524 }
525
526 if(u32AVDopen==1)
527 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetStillImageParam, pArgs);
528 }
529
MDrv_AVD_SetAFECD4Factory(MS_U8 u8Value)530 void MDrv_AVD_SetAFECD4Factory(MS_U8 u8Value)
531 {
532 MS_U8 *pArgs = &u8Value;
533
534 if(u32AVDopen==1)
535 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetAFECD4Factory, pArgs);
536 }
537
MDrv_AVD_Set2D3DPatchOnOff(MS_BOOL bEnable)538 void MDrv_AVD_Set2D3DPatchOnOff(MS_BOOL bEnable)
539 {
540 MS_BOOL *pArgs = &bEnable;
541
542 if(u32AVDopen==1)
543 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_Set2D3DPatchOnOff, pArgs);
544 }
545
MDrv_AVD_SetAutoFineGainToFixed(void)546 MS_U8 MDrv_AVD_SetAutoFineGainToFixed(void)
547 {
548 if(u32AVDopen==1)
549 {
550 #if 0 // Keep the function but do nothing, for compatibility.
551 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetAutoFineGainToFixed, &pArgs);
552 return pArgs->u8Value;
553 #endif
554 return 0;
555 }
556 else
557 return FALSE; // need to check
558 }
559
MDrv_AVD_GetFlag(void)560 MS_U32 MDrv_AVD_GetFlag(void)
561 {
562 AVD_COPYTOUSER pArgs = {0};
563 if(u32AVDopen==1)
564 {
565 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_GetFlag, &pArgs);
566 return pArgs.u32Value;
567 }
568 else
569 return FALSE; // need to check
570 }
571
MDrv_AVD_GetRegValue(MS_U16 u16Addr)572 MS_U8 MDrv_AVD_GetRegValue(MS_U16 u16Addr)
573 {
574 AVD_GETREGVALUE pArgs ={0};
575 pArgs.u16Addr = u16Addr;
576 if(u32AVDopen==1)
577 {
578 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_GetRegValue, &pArgs);
579 return pArgs.u8Value;
580 }
581 else
582 return FALSE; // need to check
583 }
584
MDrv_AVD_GetStatus(void)585 MS_U16 MDrv_AVD_GetStatus(void)
586 {
587 AVD_COPYTOUSER pArgs ={0};
588 if(u32AVDopen==1)
589 {
590 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_GetStatus, &pArgs);
591 return pArgs.u16Value;
592 }
593 else
594 return FALSE; // need to check
595 }
596
MDrv_AVD_GetNoiseMag(void)597 MS_U8 MDrv_AVD_GetNoiseMag(void)
598 {
599 AVD_COPYTOUSER pArgs = {0};
600 if(u32AVDopen==1)
601 {
602 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_GetNoiseMag, &pArgs);
603 return pArgs.u8Value;
604 }
605 else
606 return FALSE; // need to check
607 }
608
MDrv_AVD_GetVTotal(void)609 MS_U16 MDrv_AVD_GetVTotal(void)
610 {
611 AVD_COPYTOUSER pArgs = {0};
612 if(u32AVDopen==1)
613 {
614 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_GetVTotal, &pArgs);
615 return pArgs.u16Value;
616 }
617 else
618 return FALSE; // need to check
619 }
620
MDrv_AVD_GetStandardDetection(MS_U16 * u16LatchStatus)621 AVD_VideoStandardType MDrv_AVD_GetStandardDetection(MS_U16 *u16LatchStatus)
622 {
623 AVD_GETSTANDARDDETECTION pArgs ={0};
624 if(u32AVDopen==1)
625 {
626 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_GetStandardDetection, &pArgs);
627 *u16LatchStatus = MDrv_AVD_GetStatus();
628 return pArgs.VideoStandardType;
629 }
630 else
631 return FALSE; // need to check
632 }
633
MDrv_AVD_GetLastDetectedStandard(void)634 AVD_VideoStandardType MDrv_AVD_GetLastDetectedStandard(void)
635 {
636 AVD_COPYTOUSER pArgs = {0};
637 if(u32AVDopen==1)
638 {
639 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_GetLastDetectedStandard, &pArgs);
640 return pArgs.eVideoStandardType;
641 }
642 else
643 return FALSE; // need to check
644 }
645
MDrv_AVD_GetCaptureWindow(void * stCapWin,AVD_VideoStandardType eVideoStandardType)646 void MDrv_AVD_GetCaptureWindow(void *stCapWin, AVD_VideoStandardType eVideoStandardType)
647 {
648 AVD_GETCAPTUREWINDOW _eAVD_GETCAPTUREWINDOW;
649 _eAVD_GETCAPTUREWINDOW.stCapWin = stCapWin;
650 _eAVD_GETCAPTUREWINDOW.eVideoStandardType = eVideoStandardType;
651 if(u32AVDopen==1)
652 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_GetCaptureWindow, &_eAVD_GETCAPTUREWINDOW);
653 }
654
MDrv_AVD_GetVerticalFreq(void)655 AVD_VideoFreq MDrv_AVD_GetVerticalFreq(void)
656 {
657 AVD_COPYTOUSER pArgs ={0};
658 if(u32AVDopen==1)
659 {
660 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_GetVerticalFreq, &pArgs);
661 return pArgs.eVideoFreq;
662 }
663 else
664 return FALSE; // need to check
665 }
666
MDrv_AVD_GetHsyncEdge(void)667 MS_U8 MDrv_AVD_GetHsyncEdge(void)
668 {
669 AVD_COPYTOUSER pArgs;
670 pArgs.u8Value = 0;
671 if(u32AVDopen==1)
672 {
673 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_GetHsyncEdge, &pArgs);
674 return pArgs.u8Value;
675 }
676 else
677 return FALSE; // need to check
678 }
679
MDrv_AVD_GetDSPFineGain(void)680 MS_U8 MDrv_AVD_GetDSPFineGain(void)
681 {
682 AVD_COPYTOUSER pArgs;
683 pArgs.u8Value = 0;
684 if(u32AVDopen==1)
685 {
686 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_GetDSPFineGain, &pArgs);
687 return pArgs.u8Value;
688 }
689 else
690 return FALSE; // need to check
691 }
692
MDrv_AVD_GetDSPVersion(void)693 MS_U16 MDrv_AVD_GetDSPVersion(void)
694 {
695 AVD_COPYTOUSER pArgs;
696 pArgs.u16Value = 0;
697 if(u32AVDopen==1)
698 {
699 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_GetDSPVersion, &pArgs);
700 return pArgs.u16Value;
701 }
702 else
703 return FALSE; // need to check
704 }
705
MDrv_AVD_GetLibVer(const MSIF_Version ** ppVersion)706 AVD_Result MDrv_AVD_GetLibVer(const MSIF_Version **ppVersion)
707 {
708 AVD_GETLIBVER pArgs = {0};
709 pArgs.ppVersion = ppVersion;
710 if(u32AVDopen==1)
711 {
712 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_GetLibVer, &pArgs);
713 return pArgs.eAVDResult;
714 }
715 else
716 return FALSE; // need to check
717 }
718
MDrv_AVD_GetInfo(void)719 const AVD_Info* MDrv_AVD_GetInfo(void) //MDrv_CMD_AVD_GetInfo,
720 {
721 static AVD_COPYTOUSER spArgs;
722 //static AVD_Info sAVD_Info;
723 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_GetInfo, &spArgs);
724 return &(spArgs.eAVDInfo);
725 //return & sAVD_Info;
726 }
727
MDrv_AVD_IsSyncLocked(void)728 MS_BOOL MDrv_AVD_IsSyncLocked(void)
729 {
730 AVD_COPYTOUSER pArgs = {0};
731 if(u32AVDopen==1)
732 {
733 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_IsSyncLocked, &pArgs);
734 return pArgs.bEnable;
735 }
736 else
737 return FALSE; // need to check
738 }
739
MDrv_AVD_IsSignalInterlaced(void)740 MS_BOOL MDrv_AVD_IsSignalInterlaced(void)
741 {
742 AVD_COPYTOUSER pArgs ={0};
743 if(u32AVDopen==1)
744 {
745 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_IsSignalInterlaced, &pArgs);
746 return pArgs.bEnable;
747 }
748 else
749 return FALSE; // need to check
750 }
751
MDrv_AVD_IsColorOn(void)752 MS_BOOL MDrv_AVD_IsColorOn(void)
753 {
754 AVD_COPYTOUSER pArgs ={0};
755 if(u32AVDopen==1)
756 {
757 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_IsColorOn, &pArgs);
758 return pArgs.bEnable;
759 }
760 else
761 return FALSE; // need to check
762 }
763
MDrv_AVD_SetPowerState(EN_POWER_MODE u16PowerState)764 MS_U32 MDrv_AVD_SetPowerState(EN_POWER_MODE u16PowerState)
765 {
766 AVD_SETPOWERSTATE pArgs;
767 pArgs.u32Value = 0;
768 pArgs.u16PowerState = u16PowerState;
769
770 if(u32AVDopen==1)
771 {
772 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetPowerState, &pArgs);
773 return pArgs.u32Value;
774 }
775 else
776 return FALSE; // need to check
777 }
778
MDrv_AVD_GetMacroVisionDetect(void)779 MS_BOOL MDrv_AVD_GetMacroVisionDetect(void)
780 {
781 AVD_COPYTOUSER pArgs;
782 pArgs.bEnable = FALSE;
783 if(u32AVDopen==1)
784 {
785 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_GetMacroVisionDetect, &pArgs);
786 return pArgs.bEnable;
787 }
788 else
789 return FALSE; // need to check
790 }
791
MDrv_AVD_GetCGMSDetect(void)792 MS_BOOL MDrv_AVD_GetCGMSDetect(void)
793 {
794 AVD_COPYTOUSER pArgs;
795 pArgs.bEnable = FALSE;
796 if(u32AVDopen==1)
797 {
798 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_GetCGMSDetect, &pArgs);
799 return pArgs.bEnable;
800 }
801 else
802 return FALSE; // need to check
803 }
804
MDrv_AVD_SetBurstWinStart(MS_U8 u8BusrtStartPosition)805 void SYMBOL_WEAK MDrv_AVD_SetBurstWinStart(MS_U8 u8BusrtStartPosition)
806 {
807 MS_U8*pArgs = &u8BusrtStartPosition;
808 if(u32AVDopen==1)
809 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_SetBurstWinStart, pArgs);
810 }
811
MDrv_AVD_AliveCheck(void)812 MS_BOOL SYMBOL_WEAK MDrv_AVD_AliveCheck(void)
813 {
814 AVD_COPYTOUSER pArgs;
815 pArgs.bEnable = FALSE;
816 if(bAVD_Open_result==1 && u32AVDopen==1)
817 {
818 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_AliveCheck, &pArgs);
819 return pArgs.bEnable;
820 }
821 else
822 return FALSE; // need to check
823 }
824
MDrv_AVD_IsLockAudioCarrier(void)825 MS_BOOL SYMBOL_WEAK MDrv_AVD_IsLockAudioCarrier(void)
826 {
827 AVD_COPYTOUSER pArgs = {0};
828 if(u32AVDopen==1)
829 {
830 UtopiaIoctl(ppAVDInstant, MDrv_CMD_AVD_IsLockAudioCarrier, &pArgs);
831 return pArgs.bEnable;
832 }
833 else
834 return FALSE; // need to check
835 }