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76 //******************************************************************************
77 ////////////////////////////////////////////////////////////////////////////////////////////////////
78 // file halFQ.c
79 // @brief FQ HAL
80 // @author MStar Semiconductor,Inc.
81 ////////////////////////////////////////////////////////////////////////////////////////////////////
82 #include "MsCommon.h"
83 #include "regFQ.h"
84 #include "halFQ.h"
85
86 //--------------------------------------------------------------------------------------------------
87 // Driver Compiler Option
88 //--------------------------------------------------------------------------------------------------
89
90 //--------------------------------------------------------------------------------------------------
91 // TSP Hardware Abstraction Layer
92 //--------------------------------------------------------------------------------------------------
93 static MS_U32 _u32RegBase = 0;
94 static MS_U32 _dramRASPBase = 0;
95 #define _RASP_DRAM_BASE_128MB_256MB (0x08000000)
96 #define _RASP_DRAM_BASE_0MB_128MB (0x0)
97 #define _RASP_BASE_SET(addr) ((addr)|(_dramRASPBase))
98 #define _RASP_BASE_CLR(addr) ((addr)&(~_dramRASPBase))
99
100 REG_FIQ* _REGFIQ = NULL;
101
102 // Some register has write order, for example, writing PCR_L will disable PCR counter
103 // writing PCR_M trigger nothing, writing PCR_H will enable PCR counter
104 #define FQ32_W(reg, value); { (reg)->L = ((value) & 0x0000FFFF); \
105 (reg)->H = ((value) >> 16);}
106 #define FQ16_W(reg, value); {(reg)->data = ((value) & 0x0000FFFF);}
107 //--------------------------------------------------------------------------------------------------
108 // Forward declaration
109 //--------------------------------------------------------------------------------------------------
110
111 //--------------------------------------------------------------------------------------------------
112 // Implementation
113 //--------------------------------------------------------------------------------------------------
114 /*static MS_U32 _HAL_REG32_R(REG32_FQ *reg)
115 {
116 MS_U32 value = 0;
117 value = (reg)->H << 16;
118 value |= (reg)->L;
119 return value;
120 }*/
121
_HAL_REG16_R(REG16_FQ * reg)122 static MS_U16 _HAL_REG16_R(REG16_FQ *reg)
123 {
124 MS_U16 value;
125 value = (reg)->data;
126 return value;
127 }
128
129 //--------------------------------------------------------------------------------------------------
130 // For MISC part
131 //--------------------------------------------------------------------------------------------------
HAL_FQ_SetBank(MS_U32 u32BankAddr)132 MS_BOOL HAL_FQ_SetBank(MS_U32 u32BankAddr)
133 {
134 _u32RegBase = u32BankAddr;
135 _REGFIQ = (REG_FIQ*)(_u32RegBase + FQ_REG_CTRL_BASE);
136
137 return TRUE;
138 }
139
140 //for K1 ECO U04 switch RASP dram base from 0-128MB to 128-256MB
141 //This function will be called by HAL_TSP_HWPatch() in halTSP.c of K1
HAL_FQ_SetDramBase(MS_U32 dramBase)142 MS_BOOL HAL_FQ_SetDramBase(MS_U32 dramBase)
143 {
144 if(dramBase == _RASP_DRAM_BASE_0MB_128MB)
145 {
146 _dramRASPBase = dramBase;
147 return TRUE;
148 }
149 if(dramBase == _RASP_DRAM_BASE_128MB_256MB)
150 {
151 _dramRASPBase = dramBase;
152 return TRUE;
153 }
154 else
155 {
156 _dramRASPBase = 0;
157 return FALSE;
158 }
159 }
160
HAL_FQ_PVR_SetBuf(MS_U32 u32FQEng,MS_U32 u32StartAddr,MS_U32 u32BufSize)161 void HAL_FQ_PVR_SetBuf(MS_U32 u32FQEng, MS_U32 u32StartAddr, MS_U32 u32BufSize)
162 {
163 MS_U32 u32EndAddr = u32StartAddr + u32BufSize;
164 FQ32_W(&(_REGFIQ[u32FQEng].str2mi_head), MIU_FQ(u32StartAddr) & FIQ_STR2MI2_ADDR_MASK);
165 FQ32_W(&(_REGFIQ[u32FQEng].str2mi_tail), MIU_FQ(u32EndAddr) & FIQ_STR2MI2_ADDR_MASK);
166 FQ32_W(&(_REGFIQ[u32FQEng].str2mi_mid), MIU_FQ(u32StartAddr) & FIQ_STR2MI2_ADDR_MASK);
167 }
168
HAL_FQ_PVR_SetRushAddr(MS_U32 u32FQEng,MS_U32 u32RushAddr)169 void HAL_FQ_PVR_SetRushAddr(MS_U32 u32FQEng, MS_U32 u32RushAddr)
170 {
171 FQ32_W(&(_REGFIQ[u32FQEng].rush_addr), MIU_FQ(u32RushAddr) & FIQ_STR2MI2_ADDR_MASK);
172 }
173
HAL_FQ_PVR_Start(MS_U32 u32FQEng)174 void HAL_FQ_PVR_Start(MS_U32 u32FQEng)
175 {
176 //reset write address
177 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config0), _SET_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config0)), FIQ_CFG0_RESET_WR_PTR));
178 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config0), _CLR_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config0)), FIQ_CFG0_RESET_WR_PTR));
179
180 //enable string to miu
181 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config0), _SET_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config0)), FIQ_CFG0_PVR_ENABLE));
182 }
183
HAL_FQ_PVR_Stop(MS_U32 u32FQEng)184 void HAL_FQ_PVR_Stop(MS_U32 u32FQEng)
185 {
186 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config0), _CLR_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config0)), FIQ_CFG0_PVR_ENABLE));
187 }
188
HAL_FQ_Rush_Enable(MS_U32 u32FQEng)189 void HAL_FQ_Rush_Enable(MS_U32 u32FQEng)
190 {
191 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config0), _SET_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config0)), FIQ_CFG0_RUSH_ENABLE));
192 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config0), _CLR_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config0)), FIQ_CFG0_RUSH_ENABLE));
193 }
194
HAL_FQ_Bypass(MS_U32 u32FQEng,MS_U8 u8Bypass)195 void HAL_FQ_Bypass(MS_U32 u32FQEng, MS_U8 u8Bypass)
196 {
197 if(u8Bypass)
198 {
199 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config11), _SET_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config11)), FIQ_CFG11_FIQ_BYPASS));
200 }
201 else
202 {
203 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config11), _CLR_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config11)), FIQ_CFG11_FIQ_BYPASS));
204 }
205 }
206
HAL_FQ_SWReset(MS_U32 u32FQEng,MS_U8 u8Reset)207 void HAL_FQ_SWReset(MS_U32 u32FQEng, MS_U8 u8Reset)
208 {
209 if(u8Reset)
210 {
211 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config0), _CLR_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config0)), FIQ_CFG0_SW_RSTZ));
212 }
213 else
214 {
215 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config0), _SET_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config0)), FIQ_CFG0_SW_RSTZ));
216 }
217 }
218
HAL_FQ_AddrMode(MS_U32 u32FQEng,MS_U8 u8AddrMode)219 void HAL_FQ_AddrMode(MS_U32 u32FQEng, MS_U8 u8AddrMode)
220 {
221 if(u8AddrMode)
222 {
223 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config0), _SET_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config0)), FIQ_CFG0_ADDR_MODE));
224 }
225 else
226 {
227 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config0), _CLR_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config0)), FIQ_CFG0_ADDR_MODE));
228 }
229 }
230 /*
231 #define MIU_BUS 4
232 MS_U32 HAL_FQ_GetRead(MS_U32 u32FQEng)
233 {
234 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config0), _SET_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config0)), FIQ_CFG0_LOAD_WR_PTR));
235 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config0), _CLR_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config0)), FIQ_CFG0_LOAD_WR_PTR));
236 return REG32_R(&(_REGFIQ[u32FQEng].Fiq2mi2_radr_r)) << MIU_BUS;
237 }
238
239 MS_U32 HAL_FQ_GetWrite(MS_U32 u32FQEng)
240 {
241 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config0), _SET_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config0)), FIQ_CFG0_LOAD_WR_PTR));
242 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config0), _CLR_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config0)), FIQ_CFG0_LOAD_WR_PTR));
243 return REG32_R(&(_REGFIQ[u32FQEng].str2mi2_wadr_r)) << MIU_BUS;
244 }
245
246 MS_U32 HAL_FQ_GetPktAddrOffset(MS_U32 u32FQEng)
247 {
248 return REG32_R(&(_REGFIQ[u32FQEng].pkt_addr_offset)) << MIU_BUS;
249 }
250 */
HAL_FQ_SkipRushData(MS_U32 u32FQEng,MS_U16 u16SkipPath)251 void HAL_FQ_SkipRushData(MS_U32 u32FQEng, MS_U16 u16SkipPath)
252 {
253 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config11), _CLR_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config11)), FIQ_CFG11_SKIP_RUSH_DATA_PATH_MASK));
254 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config11), _SET_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config11)), (u16SkipPath & FIQ_CFG11_SKIP_RUSH_DATA_PATH_MASK)));
255 }
256
HAL_FQ_INT_Enable(MS_U32 u32FQEng,MS_U16 u16Mask)257 void HAL_FQ_INT_Enable(MS_U32 u32FQEng, MS_U16 u16Mask)
258 {
259 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config16), _SET_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config16)), u16Mask & FIQ_CFG16_INT_ENABLE_MASK));
260 }
261
HAL_FQ_INT_Disable(MS_U32 u32FQEng,MS_U16 u16Mask)262 void HAL_FQ_INT_Disable(MS_U32 u32FQEng, MS_U16 u16Mask)
263 {
264 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config16), _CLR_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config16)), u16Mask & FIQ_CFG16_INT_ENABLE_MASK));
265 }
266
HAL_FQ_INT_GetHW(MS_U32 u32FQEng)267 MS_U16 HAL_FQ_INT_GetHW(MS_U32 u32FQEng)
268 {
269 return _HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config16)) & FIQ_CFG16_INT_STATUS_MASK;
270 }
271
HAL_FQ_INT_ClrHW(MS_U32 u32FQEng,MS_U16 u16Mask)272 void HAL_FQ_INT_ClrHW(MS_U32 u32FQEng, MS_U16 u16Mask)
273 {
274 FQ16_W(&(_REGFIQ[u32FQEng].Reg_fiq_config16), _CLR_(_HAL_REG16_R(&(_REGFIQ[u32FQEng].Reg_fiq_config16)), u16Mask & FIQ_CFG16_INT_STATUS_MASK));
275 }
276
HAL_FQ_GetPVRTimeStamp(MS_U32 u32FQEng)277 MS_U32 HAL_FQ_GetPVRTimeStamp(MS_U32 u32FQEng)
278 {
279 //not inplemented
280 return 0;
281 }
282
HAL_FQ_SetPVRTimeStamp(MS_U32 u32FQEng,MS_U32 u32Stamp)283 void HAL_FQ_SetPVRTimeStamp(MS_U32 u32FQEng , MS_U32 u32Stamp)
284 {
285 //not inplemented
286 }
287
288