| /* |
| * Copyright (c) 2019, The Linux Foundation. All rights reserved. |
| * |
| * Permission to use, copy, modify, and/or distribute this software for any |
| * purpose with or without fee is hereby granted, provided that the above |
| * copyright notice and this permission notice appear in all copies. |
| * |
| * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES |
| * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF |
| * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR |
| * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES |
| * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN |
| * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF |
| * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. |
| */ |
| |
| #ifndef HAL_HWIO_H |
| #define HAL_HWIO_H |
| |
| /*=========================================================================== |
| * |
| * HWIO REGISTER INPUT/OUTPUT HEADER FILE |
| * |
| * DESCRIPTION |
| * This interface is a replacement for that represented by |
| * msm<ASIC>reg.h, msm<ASIC>io.h and msm<ASIC>redefs.h. For further background |
| * and documentation on this interface, please see word docs and ppt docs at |
| * |
| * This file, together with msmhwioreg.h, provides a portable interface |
| * from the perspective of chip address file coupling to DMSS register |
| * I/O software. The interface defined by msmhwio.h and msmhwioreg.h |
| * encapsulates register name, size, type and access method. |
| * |
| * msmhwioreg.h is an auto-generated file that may be subsequently edited |
| * by hand to handle arbitrary register and bit field name changes, and |
| * register type and size changes. When hand editing, one does not directly |
| * hand edit msmhwioreg.h or msm<ASIC>reg.h except to cut/paste registers |
| * or bitmasks from msm<ASIC>reg.h to msm<ASIC>reg_port.h or from msmhwioreg.h |
| * to msmhwioreg_port.h. One edits an msmreg.pl input file, possibly named |
| * something like msmreg_port.dat, to add patterns which msmreg.pl matches |
| * during chip address file parsing. If a pattern from input the port.dat input |
| * file is matched, that register or bitmask is not ouput to the register |
| * header files, but is output to the *_port.h versions of the register header |
| * files. This mechanism allows hand edit of register header file without loss |
| * of hand edits on each successive re-parse of chip address file. See msmreg.pl |
| * header comments for more information. |
| * |
| * msmhwioreg.h also handles register access method changes by allowing users |
| * to change a registers I/O functions on a per register basis. By default, |
| * when auto-generated, all register I/O functions are selected from the |
| * inline functions listed below. |
| * |
| * (Note that currently inline functions are not used. This is because |
| * rex_int_lock/rex_int_free are not inline and there the masked IO functions |
| * would not inline since the compiler will not inline a function that calls |
| * a function. The task of figuring out how to inline rex_int_lock has been |
| * deferred. So, for the time being, the functions described below are |
| * implemented as #define marcos.) |
| * |
| * To customize register I/O for a single register, one follows the porting |
| * mechanism mentioned above and changes the input/output function for the |
| * desired register. |
| * |
| * Direct, un-encapsulated, use of register addresses or register header file |
| * components is discouraged. To that end, the interface described here fully |
| * encapsulates all the CAF components including register address, bit field mask, |
| * and bit field shift values in addition to register input and output. |
| * |
| * INLINE byte in_byte(dword addr) |
| * INLINE byte in_byte_masked(dword addr, dword mask) |
| * INLINE void out_byte(dword addr, byte val) |
| * INLINE void out_byte_masked(dword io, dword mask, byte val) |
| * |
| * INLINE word in_word(dword addr) |
| * INLINE word in_word_masked(dword addr, dword mask) |
| * INLINE void out_word(dword addr, word val) |
| * INLINE void out_word_masked(dword io, dword mask, word val) |
| * |
| * INLINE dword in_dword(dword addr) |
| * INLINE dword in_dword_masked(dword addr, dword mask) |
| * INLINE void out_dword(dword addr, dword val) |
| * INLINE void out_dword_masked(dword io, dword mask, dword val) |
| * |
| * Initially, then there is a one-to-one correspondance between the inline |
| * functions above and the macro interface below with the inline functions |
| * intended as implementation detail of the macro interface. Register access |
| * method changes of arbitrary complexity are handled by writing the |
| * appropriate new I/O function and replacing the existing one for the |
| * register under consideration. |
| * |
| * The interface described below takes chip address file (CAF) symbols as input. |
| * Wherever hwiosym, hsio_regsym, or hwio_fldsym appears below, that is |
| * a CAF register or bit field name. |
| * |
| * |
| * #define HWIO_IN(hwiosym) |
| * Perform input on register hwiosym. Replaces MSM_IN, MSM_INH and MSM_INW. |
| * |
| * #define HWIO_INM(hwiosym, m) |
| * Perform masked input on register hwiosym applying mask m. |
| * Replaces MSM_INM, MSM_INHM, and MSM_INWM. |
| * |
| * #define HWIO_INF(hwio_regsym, hwio_fldsym) |
| * Read the value from the given field in the given register. |
| * |
| * #define HWIO_OUT(hwiosym, val) |
| * Write input val on register hwiosym. Replaces MSM_OUT, MSM_OUTH, and |
| * MSM_OUTW. |
| * |
| * #define HWIO_OUTM(hwiosym, mask, val) |
| * Write input val on register hwiosym. Input mask is applied to shadow |
| * memory and val such that only bits in mask are updated on register hwiosym |
| * and shadow memory. Replaces MSM_OUTM, MSM_OUTHM, and MSM_OUTWM. |
| * |
| * #define HWIO_OUTF(hwio_regsym, hwio_fldsym, val) |
| * Set the given field in the given register to the given value. |
| * |
| * #define HWIO_ADDR(hwiosym) |
| * Get the register address of hwiosym. Replaces the unencapulsated use of |
| * of numeric literal HEX constants for register address. |
| * |
| * #define HWIO_RMSK(hwiosym) |
| * Get the mask describing valid bits in register hwiosym. Replaces direct, |
| * unencapsulated use of mask symbol from register header file. |
| * |
| * #define HWIO_RSHFT(hwiosym) |
| * Get the shift value of the least significant bit in register hwiosym.a |
| * Replaces SHIFT_FROM_MASK. |
| * |
| * #define HWIO_FMSK(hwio_regsym, hwio_fldsym) |
| * Get the bit field mask for bit field hwio_fldsym in register hwio_regsym. |
| * Replaces the direct, unencapsulated use of bit field masks from register |
| * header file. |
| * |
| * #define HWIO_SHFT(hwio_regsym, hwio_fldsym) |
| * Get the shift value of the least significant bit of bit field hwio_fldsym |
| * in register hwio_regsym. Replaces SHIFT_FROM_MASK. |
| * |
| *===========================================================================*/ |
| |
| /*=========================================================================== |
| * |
| * EDIT HISTORY FOR FILE |
| * |
| * This section contains comments describing changes made to this file. |
| * Notice that changes are listed in reverse chronological order. |
| * |
| * when who what, where, why |
| * -------- --- ---------------------------------------------------------- |
| * 02/01/08 gfr Wrap passed in mask with parenthesis. |
| * 12/06/07 gfr More depreciated MSM macros. |
| * 11/19/07 gfr Added MSM_R macro. |
| * 11/19/07 gfr Removed obselete hwio_interrupts_locked_by_user. |
| * 10/26/07 gfr Fix MSM_SET macro. |
| * 10/10/07 gfr Added mappings for MSM_R_MASKED and some others. |
| * 09/21/07 gfr Added mapping for MSM_W_MASKED_i. |
| * 09/21/07 gfr Merged in changes for WinCE and 7k. |
| * 04/24/07 gfr Support for HWIO_INTLOCK/INTFREE to remove lint warnings. |
| * 04/09/07 gfr Cleanup, compile support for HWIO_INTLOCK/HWIO_INTFREE. |
| * 09/19/06 eav Added HWIO_PHYS, HWIO_PHYSI, HWIO_PHYSI2 |
| * 08/28/06 gfr Added HWIO_RMSKI, HWIO_SHDW, HWIO_SHDWI |
| * 06/23/06 gfr Added HWIO_INF, HWIO_INFI, HWIO_OUTF and HWIO_OUTFI |
| * 06/16/05 eav Changed __msmhwio_addri to call HWIO_##hwiosym##_ADDRI |
| * 10/10/02 aks Map MSM_OUTSH() used by the MSM6200, to the equivalent |
| * macro in the MSM6300. |
| * 4/29/02 cr initial revision |
| *===========================================================================*/ |
| |
| |
| /*=========================================================================== |
| * |
| * INCLUDE FILES |
| * |
| *===========================================================================*/ |
| |
| #ifdef FEATURE_WINCE_OAL |
| #include <windows.h> |
| #include <nkintr.h> |
| #endif |
| |
| #ifndef _ARM_ASM_ |
| #include "HALcomdef.h" |
| #endif |
| |
| |
| |
| /*=========================================================================== |
| * |
| * EXTERNAL DECLARATIONS |
| * |
| *===========================================================================*/ |
| #ifdef __cplusplus |
| extern "C" { |
| #endif |
| |
| #ifndef _ARM_ASM_ |
| extern uint32 rex_int_lock(void); |
| extern uint32 rex_int_free(void); |
| |
| uint32 pti_inpdw(uint32 * port); |
| void pti_outpdw(uint32 * port, uint32 val); |
| #endif |
| |
| #ifdef __cplusplus |
| } |
| #endif |
| |
| |
| /* ----------------------------------------------------------------------- |
| ** Macros |
| ** ----------------------------------------------------------------------- */ |
| |
| /** |
| @addtogroup macros |
| @{ |
| */ |
| |
| /** |
| * Map a base name to the pointer to access the base. |
| * |
| * This macro maps a base name to the pointer to access the base. |
| * This is generally just used internally. |
| * |
| */ |
| #define HWIO_BASE_PTR(base) base##_BASE_PTR |
| |
| |
| /** |
| * Declare a HWIO base pointer. |
| * |
| * This macro will declare a HWIO base pointer data structure. The pointer |
| * will always be declared as a weak symbol so multiple declarations will |
| * resolve correctly to the same data at link-time. |
| */ |
| #ifdef __ARMCC_VERSION |
| #define DECLARE_HWIO_BASE_PTR(base) __weak uint8 *HWIO_BASE_PTR(base) |
| #else |
| #define DECLARE_HWIO_BASE_PTR(base) uint8 *HWIO_BASE_PTR(base) |
| #endif |
| |
| /** |
| @} |
| */ |
| |
| |
| /** |
| @addtogroup hwio_macros |
| @{ |
| */ |
| |
| /** |
| * @name Address Macros |
| * |
| * Macros for getting register addresses. |
| * These macros are used for retrieving the address of a register. |
| * HWIO_ADDR* will return the directly accessible address (virtual or physical based |
| * on environment), HWIO_PHYS* will always return the physical address. |
| * The offset from the base region can be retrieved using HWIO_OFFS*. |
| * The "X" extension is used for explicit addressing where the base address of |
| * the module in question is provided as an argument to the macro. |
| * |
| * @{ |
| */ |
| #define HWIO_ADDR(hwiosym) __msmhwio_addr(hwiosym) |
| #define HWIO_ADDRI(hwiosym, index) __msmhwio_addri(hwiosym, index) |
| #define HWIO_ADDRI2(hwiosym, index1, index2) __msmhwio_addri2(hwiosym, index1, index2) |
| #define HWIO_ADDRI3(hwiosym, index1, index2, index3) __msmhwio_addri3(hwiosym, index1, index2, index3) |
| |
| #define HWIO_ADDRX(base, hwiosym) __msmhwio_addrx(base, hwiosym) |
| #define HWIO_ADDRXI(base, hwiosym, index) __msmhwio_addrxi(base, hwiosym, index) |
| #define HWIO_ADDRXI2(base, hwiosym, index1, index2) __msmhwio_addrxi2(base, hwiosym, index1, index2) |
| #define HWIO_ADDRXI3(base, hwiosym, index1, index2, index3) __msmhwio_addrxi3(base, hwiosym, index1, index2, index3) |
| |
| |
| #define HWIO_PHYS(hwiosym) __msmhwio_phys(hwiosym) |
| #define HWIO_PHYSI(hwiosym, index) __msmhwio_physi(hwiosym, index) |
| #define HWIO_PHYSI2(hwiosym, index1, index2) __msmhwio_physi2(hwiosym, index1, index2) |
| #define HWIO_PHYSI3(hwiosym, index1, index2, index3) __msmhwio_physi3(hwiosym, index1, index2, index3) |
| |
| #define HWIO_PHYSX(base, hwiosym) __msmhwio_physx(base, hwiosym) |
| #define HWIO_PHYSXI(base, hwiosym, index) __msmhwio_physxi(base, hwiosym, index) |
| #define HWIO_PHYSXI2(base, hwiosym, index1, index2) __msmhwio_physxi2(base, hwiosym, index1, index2) |
| #define HWIO_PHYSXI3(base, hwiosym, index1, index2, index3) __msmhwio_physxi3(base, hwiosym, index1, index2, index3) |
| |
| #define HWIO_OFFS(hwiosym) __msmhwio_offs(hwiosym) |
| #define HWIO_OFFSI(hwiosym, index) __msmhwio_offsi(hwiosym, index) |
| #define HWIO_OFFSI2(hwiosym, index1, index2) __msmhwio_offsi2(hwiosym, index1, index2) |
| #define HWIO_OFFSI3(hwiosym, index1, index2, index3) __msmhwio_offsi3(hwiosym, index1, index2, index3) |
| |
| /** @} */ |
| |
| |
| /*=========================================================================== |
| * |
| * MACRO DECLARATIONS |
| * |
| *===========================================================================*/ |
| |
| #define HWIO_POR(io) HWIO_##io##_POR |
| |
| /** |
| * @name Input Macros |
| * |
| * These macros are used for reading from a named hardware register. Register |
| * arrays ("indexed") use the macros with the "I" suffix. The "M" suffix |
| * indicates that the input will be masked with the supplied mask. The HWIO_INF* |
| * macros take a field name and will do the appropriate masking and shifting |
| * to return just the value of that field. |
| * The "X" extension is used for explicit addressing where the base address of |
| * the module in question is provided as an argument to the macro. |
| * |
| * Generally you want to use either HWIO_IN or HWIO_INF (with required indexing). |
| * |
| * @{ |
| */ |
| |
| #define HWIO_IN(hwiosym) __msmhwio_in(hwiosym) |
| #define HWIO_INI(hwiosym, index) __msmhwio_ini(hwiosym, index) |
| #define HWIO_INI2(hwiosym, index1, index2) __msmhwio_ini2(hwiosym, index1, index2) |
| #define HWIO_INI3(hwiosym, index1, index2, index3) __msmhwio_ini3(hwiosym, index1, index2, index3) |
| |
| #define HWIO_INM(hwiosym, mask) __msmhwio_inm(hwiosym, mask) |
| #define HWIO_INMI(hwiosym, index, mask) __msmhwio_inmi(hwiosym, index, mask) |
| #define HWIO_INMI2(hwiosym, index1, index2, mask) __msmhwio_inmi2(hwiosym, index1, index2, mask) |
| #define HWIO_INMI3(hwiosym, index1, index2, index3, mask) __msmhwio_inmi3(hwiosym, index1, index2, index3, mask) |
| |
| |
| #define HWIO_INF(io, field) (HWIO_INM(io, HWIO_FMSK(io, field)) >> HWIO_SHFT(io, field)) |
| #define HWIO_INFI(io, index, field) (HWIO_INMI(io, index, HWIO_FMSK(io, field)) >> HWIO_SHFT(io, field)) |
| #define HWIO_INFI2(io, index1, index2, field) (HWIO_INMI2(io, index1, index2, HWIO_FMSK(io, field)) >> HWIO_SHFT(io, field)) |
| #define HWIO_INFI3(io, index1, index2, index3, field) (HWIO_INMI3(io, index1, index2, index3, HWIO_FMSK(io, field)) >> HWIO_SHFT(io, field)) |
| |
| #define HWIO_INX(base, hwiosym) __msmhwio_inx(base, hwiosym) |
| #define HWIO_INXI(base, hwiosym, index) __msmhwio_inxi(base, hwiosym, index) |
| #define HWIO_INXI2(base, hwiosym, index1, index2) __msmhwio_inxi2(base, hwiosym, index1, index2) |
| #define HWIO_INXI3(base, hwiosym, index1, index2, index3) __msmhwio_inxi3(base, hwiosym, index1, index2, index3) |
| |
| #define HWIO_INXM(base, hwiosym, mask) __msmhwio_inxm(base, hwiosym, mask) |
| #define HWIO_INXMI(base, hwiosym, index, mask) __msmhwio_inxmi(base, hwiosym, index, mask) |
| #define HWIO_INXMI2(base, hwiosym, index1, index2, mask) __msmhwio_inxmi2(base, hwiosym, index1, index2, mask) |
| #define HWIO_INXMI3(base, hwiosym, index1, index2, index3, mask) __msmhwio_inxmi3(base, hwiosym, index1, index2, index3, mask) |
| |
| #define HWIO_INXF(base, io, field) (HWIO_INXM(base, io, HWIO_FMSK(io, field)) >> HWIO_SHFT(io, field)) |
| #define HWIO_INXFI(base, io, index, field) (HWIO_INXMI(base, io, index, HWIO_FMSK(io, field)) >> HWIO_SHFT(io, field)) |
| #define HWIO_INXFI2(base, io, index1, index2, field) (HWIO_INXMI2(base, io, index1, index2, HWIO_FMSK(io, field)) >> HWIO_SHFT(io, field)) |
| #define HWIO_INXFI3(base, io, index1, index2, index3, field) (HWIO_INXMI3(base, io, index1, index2, index3, HWIO_FMSK(io, field)) >> HWIO_SHFT(io, field)) |
| /** @} */ |
| |
| |
| |
| /** |
| * @name Output Macros |
| * |
| * These macros are used for writing to a named hardware register. Register |
| * arrays ("indexed") use the macros with the "I" suffix. The "M" suffix |
| * indicates that the output will be masked with the supplied mask (meaning these |
| * macros do a read first, mask in the supplied data, then write it back). |
| * The "X" extension is used for explicit addressing where the base address of |
| * the module in question is provided as an argument to the macro. |
| * The HWIO_OUTF* macros take a field name and will do the appropriate masking |
| * and shifting to output just the value of that field. |
| * HWIO_OUTV* registers take a named value instead of a numeric value and |
| * do the same masking/shifting as HWIO_OUTF. |
| * |
| * Generally you want to use either HWIO_OUT or HWIO_OUTF (with required indexing). |
| * |
| * @{ |
| */ |
| |
| #define HWIO_OUT(hwiosym, val) __msmhwio_out(hwiosym, val) |
| #define HWIO_OUTI(hwiosym, index, val) __msmhwio_outi(hwiosym, index, val) |
| #define HWIO_OUTI2(hwiosym, index1, index2, val) __msmhwio_outi2(hwiosym, index1, index2, val) |
| #define HWIO_OUTI3(hwiosym, index1, index2, index3, val) __msmhwio_outi3(hwiosym, index1, index2, index3, val) |
| |
| #define HWIO_OUTM(hwiosym, mask, val) __msmhwio_outm(hwiosym, mask, val) |
| #define HWIO_OUTMI(hwiosym, index, mask, val) __msmhwio_outmi(hwiosym, index, mask, val) |
| #define HWIO_OUTMI2(hwiosym, index1, index2, mask, val) __msmhwio_outmi2(hwiosym, index1, index2, mask, val) |
| #define HWIO_OUTMI3(hwiosym, index1, index2, index3, mask, val) __msmhwio_outmi3(hwiosym, index1, index2, index3, mask, val) |
| |
| #define HWIO_OUTF(io, field, val) HWIO_OUTM(io, HWIO_FMSK(io, field), (uint32)(val) << HWIO_SHFT(io, field)) |
| #define HWIO_OUTFI(io, index, field, val) HWIO_OUTMI(io, index, HWIO_FMSK(io, field), (uint32)(val) << HWIO_SHFT(io, field)) |
| #define HWIO_OUTFI2(io, index1, index2, field, val) HWIO_OUTMI2(io, index1, index2, HWIO_FMSK(io, field), (uint32)(val) << HWIO_SHFT(io, field)) |
| #define HWIO_OUTFI3(io, index1, index2, index3, field, val) HWIO_OUTMI3(io, index1, index2, index3, HWIO_FMSK(io, field), (uint32)(val) << HWIO_SHFT(io, field)) |
| |
| |
| //---------------------------------------------------------------------------------------------- |
| //<DVICP> added for Waverider |
| #define HWIO_OUTF2(io, field2, field1, val2, val1) HWIO_OUTM(io, (HWIO_FMSK(io, field2)|HWIO_FMSK(io, field1)), \ |
| ( (val2<<HWIO_SHFT(io, field2))|(val1<<HWIO_SHFT(io, field1))) ) |
| #define HWIO_OUTF3(io, field3, field2, field1, val3, val2, val1) HWIO_OUTM(io, (HWIO_FMSK(io, field3)|HWIO_FMSK(io, field2)|HWIO_FMSK(io, field1)), \ |
| ( (val3<<HWIO_SHFT(io, field3))|(val2<<HWIO_SHFT(io, field2))|(val1<<HWIO_SHFT(io, field1))) ) |
| #define HWIO_OUTF4(io, field4, field3, field2, field1, val4, val3, val2, val1) HWIO_OUTM(io, (HWIO_FMSK(io, field4) |HWIO_FMSK(io, field3)|HWIO_FMSK(io, field2)|HWIO_FMSK(io, field1)), \ |
| ( (val4<<HWIO_SHFT(io, field4))|(val3<<HWIO_SHFT(io, field3))|(val2<<HWIO_SHFT(io, field2))|(val1<<HWIO_SHFT(io, field1))) ) |
| #define HWIO_OUTF5(io, field5, field4, field3, field2, field1, val5, val4, val3, val2, val1) HWIO_OUTM(io, (HWIO_FMSK(io, field5)|HWIO_FMSK(io, field4)|HWIO_FMSK(io, field3)|HWIO_FMSK(io, field2)|HWIO_FMSK(io, field1)), \ |
| ( (val5<<HWIO_SHFT(io, field5))|(val4<<HWIO_SHFT(io, field4))|(val3<<HWIO_SHFT(io, field3))|(val2<<HWIO_SHFT(io, field2))|(val1<<HWIO_SHFT(io, field1))) ) |
| #define HWIO_OUTF6(io, field6, field5, field4, field3, field2, field1, val6, val5, val4, val3, val2, val1) HWIO_OUTM(io, (HWIO_FMSK(io, field6)|HWIO_FMSK(io, field5)|HWIO_FMSK(io, field4)|HWIO_FMSK(io, field3)|HWIO_FMSK(io, field2)|HWIO_FMSK(io, field1)), \ |
| ( (val6<<HWIO_SHFT(io, field6))|(val5<<HWIO_SHFT(io, field5))|(val4<<HWIO_SHFT(io, field4))|(val3<<HWIO_SHFT(io, field3))|(val2<<HWIO_SHFT(io, field2))|(val1<<HWIO_SHFT(io, field1))) ) |
| |
| #define HWIO_OUTF2I(io, idx, field2, field1, val2, val1) HWIO_OUTMI(io, idx, (HWIO_FMSK(io, field2)|HWIO_FMSK(io, field1)), \ |
| ( (val2<<HWIO_SHFT(io, field2))|(val1<<HWIO_SHFT(io, field1))) ) |
| #define HWIO_OUTF3I(io, idx, field3, field2, field1, val3, val2, val1) HWIO_OUTMI(io, idx, (HWIO_FMSK(io, field3)|HWIO_FMSK(io, field2)|HWIO_FMSK(io, field1)), \ |
| ( (val3<<HWIO_SHFT(io, field3))|(val2<<HWIO_SHFT(io, field2))|(val1<<HWIO_SHFT(io, field1))) ) |
| #define HWIO_OUTF4I(io, idx, field4, field3, field2, field1, val4, val3, val2, val1) HWIO_OUTMI(io, idx, (HWIO_FMSK(io, field4)|HWIO_FMSK(io, field3)|HWIO_FMSK(io, field2)|HWIO_FMSK(io, field1)), \ |
| ( (val4<<HWIO_SHFT(io, field4))|(val3<<HWIO_SHFT(io, field3))|(val2<<HWIO_SHFT(io, field2))|(val1<<HWIO_SHFT(io, field1))) ) |
| #define HWIO_OUTF5I(io, idx, field5, field4, field3, field2, field1, val5, val4, val3, val2, val1) HWIO_OUTMI(io, idx, (HWIO_FMSK(io, field5)|HWIO_FMSK(io, field4)|HWIO_FMSK(io, field3)|HWIO_FMSK(io, field2)|HWIO_FMSK(io, field1)), \ |
| ( (val5<<HWIO_SHFT(io, field5))|(val4<<HWIO_SHFT(io, field4))|(val3<<HWIO_SHFT(io, field3))|(val2<<HWIO_SHFT(io, field2))|(val1<<HWIO_SHFT(io, field1))) ) |
| #define HWIO_OUTF6I(io, idx, field6, field5, field4, field3, field2, field1, val6, val5, val4, val3, val2, val1) HWIO_OUTMI(io, idx, (HWIO_FMSK(io, field6)|HWIO_FMSK(io, field5)|HWIO_FMSK(io, field4)|HWIO_FMSK(io, field3)|HWIO_FMSK(io, field2)|HWIO_FMSK(io, field1)), \ |
| ( (val6<<HWIO_SHFT(io, field6))|(val5<<HWIO_SHFT(io, field5))|(val4<<HWIO_SHFT(io, field4))|(val3<<HWIO_SHFT(io, field3))|(val2<<HWIO_SHFT(io, field2))|(val1<<HWIO_SHFT(io, field1))) ) |
| // ---------------------------------------------------------------------------------------------- |
| |
| |
| #define HWIO_OUTV(io, field, val) HWIO_OUTM(io, HWIO_FMSK(io, field), (uint32)(HWIO_VAL(io, field, val)) << HWIO_SHFT(io, field)) |
| #define HWIO_OUTVI(io, index, field, val) HWIO_OUTMI(io, index, HWIO_FMSK(io, field), (uint32)(HWIO_VAL(io, field, val)) << HWIO_SHFT(io, field)) |
| #define HWIO_OUTVI2(io, index1, index2, field, val) HWIO_OUTMI2(io, index1, index2, HWIO_FMSK(io, field), (uint32)(HWIO_VAL(io, field, val)) << HWIO_SHFT(io, field)) |
| #define HWIO_OUTVI3(io, index1, index2, index3, field, val) HWIO_OUTMI3(io, index1, index2, index3, HWIO_FMSK(io, field), (uint32)(HWIO_VAL(io, field, val)) << HWIO_SHFT(io, field)) |
| |
| #define HWIO_OUTX(base, hwiosym, val) __msmhwio_outx(base, hwiosym, val) |
| #define HWIO_OUTXI(base, hwiosym, index, val) __msmhwio_outxi(base, hwiosym, index, val) |
| #define HWIO_OUTXI2(base, hwiosym, index1, index2, val) __msmhwio_outxi2(base, hwiosym, index1, index2, val) |
| #define HWIO_OUTXI3(base, hwiosym, index1, index2, index3, val) __msmhwio_outxi3(base, hwiosym, index1, index2, index3, val) |
| |
| #define HWIO_OUTXM(base, hwiosym, mask, val) __msmhwio_outxm(base, hwiosym, mask, val) |
| #define HWIO_OUTXM2(base, hwiosym, mask1, mask2, val1, val2) __msmhwio_outxm2(base, hwiosym, mask1, mask2, val1, val2) |
| #define HWIO_OUTXM3(base, hwiosym, mask1, mask2, mask3, val1, val2, val3) __msmhwio_outxm3(base, hwiosym, mask1, mask2, mask3, val1, val2, val3) |
| #define HWIO_OUTXM4(base, hwiosym, mask1, mask2, mask3, mask4, val1, val2, val3, val4) __msmhwio_outxm4(base, hwiosym, mask1, mask2, mask3, mask4, val1, val2, val3, val4) |
| #define HWIO_OUTXMI(base, hwiosym, index, mask, val) __msmhwio_outxmi(base, hwiosym, index, mask, val) |
| #define HWIO_OUTXMI2(base, hwiosym, index1, index2, mask, val) __msmhwio_outxmi2(base, hwiosym, index1, index2, mask, val) |
| #define HWIO_OUTXMI3(base, hwiosym, index1, index2, index3, mask, val) __msmhwio_outxmi3(base, hwiosym, index1, index2, index3, mask, val) |
| |
| #define HWIO_OUTXF(base, io, field, val) HWIO_OUTXM(base, io, HWIO_FMSK(io, field), (uint32)(val) << HWIO_SHFT(io, field)) |
| #define HWIO_OUTX2F(base, io, field1, field2, val1, val2) HWIO_OUTXM2(base, io, HWIO_FMSK(io, field1), HWIO_FMSK(io, field2), (uint32)(val1) << HWIO_SHFT(io, field1), (uint32)(val2) << HWIO_SHFT(io, field2)) |
| #define HWIO_OUTX3F(base, io, field1, field2, field3, val1, val2, val3) HWIO_OUTXM3(base, io, HWIO_FMSK(io, field1), HWIO_FMSK(io, field2), HWIO_FMSK(io, field3),(uint32)(val1) << HWIO_SHFT(io, field1), (uint32)(val2) << HWIO_SHFT(io, field2), (uint32)(val3) << HWIO_SHFT(io, field3) ) |
| #define HWIO_OUTX4F(base, io, field1, field2, field3, field4, val1, val2, val3, val4) HWIO_OUTXM4(base, io, HWIO_FMSK(io, field1), HWIO_FMSK(io, field2), HWIO_FMSK(io, field3), HWIO_FMSK(io, field4), (uint32)(val1) << HWIO_SHFT(io, field1) , (uint32)(val2) << HWIO_SHFT(io, field2), (uint32)(val3) << HWIO_SHFT(io, field3), (uint32)(val4) << HWIO_SHFT(io, field4) ) |
| #define HWIO_OUTXFI(base, io, index, field, val) HWIO_OUTXMI(base, io, index, HWIO_FMSK(io, field), (uint32)(val) << HWIO_SHFT(io, field)) |
| #define HWIO_OUTXFI2(base, io, index1, index2, field, val) HWIO_OUTXMI2(base, io, index1, index2, HWIO_FMSK(io, field), (uint32)(val) << HWIO_SHFT(io, field)) |
| #define HWIO_OUTXFI3(base, io, index1, index2, index3, field, val) HWIO_OUTXMI3(base, io, index1, index2, index3, HWIO_FMSK(io, field), (uint32)(val) << HWIO_SHFT(io, field)) |
| |
| #define HWIO_OUTXV(base, io, field, val) HWIO_OUTXM(base, io, HWIO_FMSK(io, field), (uint32)(HWIO_VAL(io, field, val)) << HWIO_SHFT(io, field)) |
| #define HWIO_OUTXVI(base, io, index, field, val) HWIO_OUTXMI(base, io, index, HWIO_FMSK(io, field), (uint32)(HWIO_VAL(io, field, val)) << HWIO_SHFT(io, field)) |
| #define HWIO_OUTXVI2(base, io, index1, index2, field, val) HWIO_OUTXMI2(base, io, index1, index2, HWIO_FMSK(io, field), (uint32)(HWIO_VAL(io, field, val)) << HWIO_SHFT(io, field)) |
| #define HWIO_OUTXVI3(base, io, index1, index2, index3, field, val) HWIO_OUTXMI3(base, io, index1, index2, index3, HWIO_FMSK(io, field), (uint32)(HWIO_VAL(io, field, val)) << HWIO_SHFT(io, field)) |
| /** @} */ |
| |
| |
| |
| /** |
| * @name Shift and Mask Macros |
| * |
| * Macros for getting shift and mask values for fields and registers. |
| * HWIO_RMSK: The mask value for accessing an entire register. For example: |
| * @code |
| * HWIO_RMSK(REG) -> 0xFFFFFFFF |
| * @endcode |
| * HWIO_RSHFT: The right-shift value for an entire register (rarely necessary).\n |
| * HWIO_SHFT: The right-shift value for accessing a field in a register. For example: |
| * @code |
| * HWIO_SHFT(REG, FLD) -> 8 |
| * @endcode |
| * HWIO_FMSK: The mask value for accessing a field in a register. For example: |
| * @code |
| * HWIO_FMSK(REG, FLD) -> 0xFF00 |
| * @endcode |
| * HWIO_VAL: The value for a field in a register. For example: |
| * @code |
| * HWIO_VAL(REG, FLD, ON) -> 0x1 |
| * @endcode |
| * HWIO_FVAL: This macro takes a numerical value and will shift and mask it into |
| * the given field position. For example: |
| * @code |
| * HWIO_FVAL(REG, FLD, 0x1) -> 0x100 |
| * @endcode |
| * HWIO_FVALV: This macro takes a logical (named) value and will shift and mask it |
| * into the given field position. For example: |
| * @code |
| * HWIO_FVALV(REG, FLD, ON) -> 0x100 |
| * @endcode |
| * |
| * @{ |
| */ |
| #define HWIO_RMSK(hwiosym) __msmhwio_rmsk(hwiosym) |
| #define HWIO_RMSKI(hwiosym, index) __msmhwio_rmski(hwiosym, index) |
| #define HWIO_RSHFT(hwiosym) __msmhwio_rshft(hwiosym) |
| #define HWIO_SHFT(hwio_regsym, hwio_fldsym) __msmhwio_shft(hwio_regsym, hwio_fldsym) |
| #define HWIO_FMSK(hwio_regsym, hwio_fldsym) __msmhwio_fmsk(hwio_regsym, hwio_fldsym) |
| #define HWIO_VAL(io, field, val) __msmhwio_val(io, field, val) |
| #define HWIO_FVAL(io, field, val) (((uint32)(val) << HWIO_SHFT(io, field)) & HWIO_FMSK(io, field)) |
| #define HWIO_FVALV(io, field, val) (((uint32)(HWIO_VAL(io, field, val)) << HWIO_SHFT(io, field)) & HWIO_FMSK(io, field)) |
| /** @} */ |
| |
| |
| /** |
| * @name Shadow Register Macros |
| * |
| * These macros are used for directly reading the value stored in a |
| * shadow register. |
| * Shadow registers are defined for write-only registers. Generally these |
| * macros should not be necessary as HWIO_OUTM* macros will automatically use |
| * the shadow values internally. |
| * |
| * @{ |
| */ |
| #define HWIO_SHDW(hwiosym) __msmhwio_shdw(hwiosym) |
| #define HWIO_SHDWI(hwiosym, index) __msmhwio_shdwi(hwiosym, index) |
| /** @} */ |
| |
| |
| |
| /** |
| @} |
| */ /* end_group */ |
| |
| |
| |
| |
| |
| |
| |
| #define __msmhwio_in(hwiosym) HWIO_##hwiosym##_IN |
| #define __msmhwio_ini(hwiosym, index) HWIO_##hwiosym##_INI(index) |
| #define __msmhwio_ini2(hwiosym, index1, index2) HWIO_##hwiosym##_INI2(index1, index2) |
| #define __msmhwio_ini3(hwiosym, index1, index2, index3) HWIO_##hwiosym##_INI3(index1, index2, index3) |
| #define __msmhwio_inm(hwiosym, mask) HWIO_##hwiosym##_INM(mask) |
| #define __msmhwio_inmi(hwiosym, index, mask) HWIO_##hwiosym##_INMI(index, mask) |
| #define __msmhwio_inmi2(hwiosym, index1, index2, mask) HWIO_##hwiosym##_INMI2(index1, index2, mask) |
| #define __msmhwio_inmi3(hwiosym, index1, index2, index3, mask) HWIO_##hwiosym##_INMI3(index1, index2, index3, mask) |
| #define __msmhwio_out(hwiosym, val) HWIO_##hwiosym##_OUT(val) |
| #define __msmhwio_outi(hwiosym, index, val) HWIO_##hwiosym##_OUTI(index,val) |
| #define __msmhwio_outi2(hwiosym, index1, index2, val) HWIO_##hwiosym##_OUTI2(index1, index2, val) |
| #define __msmhwio_outi3(hwiosym, index1, index2, index3, val) HWIO_##hwiosym##_OUTI2(index1, index2, index3, val) |
| #define __msmhwio_outm(hwiosym, mask, val) HWIO_##hwiosym##_OUTM(mask, val) |
| #define __msmhwio_outmi(hwiosym, index, mask, val) HWIO_##hwiosym##_OUTMI(index, mask, val) |
| #define __msmhwio_outmi2(hwiosym, idx1, idx2, mask, val) HWIO_##hwiosym##_OUTMI2(idx1, idx2, mask, val) |
| #define __msmhwio_outmi3(hwiosym, idx1, idx2, idx3, mask, val) HWIO_##hwiosym##_OUTMI3(idx1, idx2, idx3, mask, val) |
| |
| #define __msmhwio_addr(hwiosym) HWIO_##hwiosym##_ADDR |
| #define __msmhwio_addri(hwiosym, index) HWIO_##hwiosym##_ADDR(index) |
| #define __msmhwio_addri2(hwiosym, idx1, idx2) HWIO_##hwiosym##_ADDR(idx1, idx2) |
| #define __msmhwio_addri3(hwiosym, idx1, idx2, idx3) HWIO_##hwiosym##_ADDR(idx1, idx2, idx3) |
| #define __msmhwio_phys(hwiosym) HWIO_##hwiosym##_PHYS |
| #define __msmhwio_physi(hwiosym, index) HWIO_##hwiosym##_PHYS(index) |
| #define __msmhwio_physi2(hwiosym, idx1, idx2) HWIO_##hwiosym##_PHYS(idx1, idx2) |
| #define __msmhwio_physi3(hwiosym, idx1, idx2, idx3) HWIO_##hwiosym##_PHYS(idx1, idx2, idx3) |
| #define __msmhwio_offs(hwiosym) HWIO_##hwiosym##_OFFS |
| #define __msmhwio_offsi(hwiosym, index) HWIO_##hwiosym##_OFFS(index) |
| #define __msmhwio_offsi2(hwiosym, idx1, idx2) HWIO_##hwiosym##_OFFS(idx1, idx2) |
| #define __msmhwio_offsi3(hwiosym, idx1, idx2, idx3) HWIO_##hwiosym##_OFFS(idx1, idx2, idx3) |
| #define __msmhwio_rmsk(hwiosym) HWIO_##hwiosym##_RMSK |
| #define __msmhwio_rmski(hwiosym, index) HWIO_##hwiosym##_RMSK(index) |
| #define __msmhwio_fmsk(hwiosym, hwiofldsym) HWIO_##hwiosym##_##hwiofldsym##_BMSK |
| #define __msmhwio_rshft(hwiosym) HWIO_##hwiosym##_SHFT |
| #define __msmhwio_shft(hwiosym, hwiofldsym) HWIO_##hwiosym##_##hwiofldsym##_SHFT |
| #define __msmhwio_shdw(hwiosym) HWIO_##hwiosym##_shadow |
| #define __msmhwio_shdwi(hwiosym, index) HWIO_##hwiosym##_SHDW(index) |
| #define __msmhwio_val(hwiosym, hwiofld, hwioval) HWIO_##hwiosym##_##hwiofld##_##hwioval##_FVAL |
| |
| #define __msmhwio_inx(base, hwiosym) HWIO_##hwiosym##_IN(base) |
| #define __msmhwio_inxi(base, hwiosym, index) HWIO_##hwiosym##_INI(base, index) |
| #define __msmhwio_inxi2(base, hwiosym, index1, index2) HWIO_##hwiosym##_INI2(base, index1, index2) |
| #define __msmhwio_inxi3(base, hwiosym, index1, index2, index3) HWIO_##hwiosym##_INI3(base, index1, index2, index3) |
| #define __msmhwio_inxm(base, hwiosym, mask) HWIO_##hwiosym##_INM(base, mask) |
| #define __msmhwio_inxmi(base, hwiosym, index, mask) HWIO_##hwiosym##_INMI(base, index, mask) |
| #define __msmhwio_inxmi2(base, hwiosym, index1, index2, mask) HWIO_##hwiosym##_INMI2(base, index1, index2, mask) |
| #define __msmhwio_inxmi3(base, hwiosym, index1, index2, index3, mask) HWIO_##hwiosym##_INMI3(base, index1, index2, index3, mask) |
| #define __msmhwio_outx(base, hwiosym, val) HWIO_##hwiosym##_OUT(base, val) |
| #define __msmhwio_outxi(base, hwiosym, index, val) HWIO_##hwiosym##_OUTI(base, index,val) |
| #define __msmhwio_outxi2(base, hwiosym, index1, index2, val) HWIO_##hwiosym##_OUTI2(base, index1, index2, val) |
| #define __msmhwio_outxi3(base, hwiosym, index1, index2, index3, val) HWIO_##hwiosym##_OUTI3(base, index1, index2, index3, val) |
| #define __msmhwio_outxm(base, hwiosym, mask, val) HWIO_##hwiosym##_OUTM(base, mask, val) |
| #define __msmhwio_outxm2(base, hwiosym, mask1, mask2, val1, val2) { \ |
| HWIO_##hwiosym##_OUTM(base, mask1, val1); \ |
| HWIO_##hwiosym##_OUTM(base, mask2, val2); \ |
| } |
| #define __msmhwio_outxm3(base, hwiosym, mask1, mask2, mask3, val1, val2, val3) { \ |
| HWIO_##hwiosym##_OUTM(base, mask1, val1); \ |
| HWIO_##hwiosym##_OUTM(base, mask2, val2); \ |
| HWIO_##hwiosym##_OUTM(base, mask3, val3); \ |
| } |
| #define __msmhwio_outxm4(base, hwiosym, mask1, mask2, mask3, mask4, val1, val2, val3, val4) { \ |
| HWIO_##hwiosym##_OUTM(base, mask1, val1); \ |
| HWIO_##hwiosym##_OUTM(base, mask2, val2); \ |
| HWIO_##hwiosym##_OUTM(base, mask3, val3); \ |
| HWIO_##hwiosym##_OUTM(base, mask4, val4); \ |
| } |
| #define __msmhwio_outxmi(base, hwiosym, index, mask, val) HWIO_##hwiosym##_OUTMI(base, index, mask, val) |
| #define __msmhwio_outxmi2(base, hwiosym, idx1, idx2, mask, val) HWIO_##hwiosym##_OUTMI2(base, idx1, idx2, mask, val) |
| #define __msmhwio_outxmi3(base, hwiosym, idx1, idx2, idx3, mask, val) HWIO_##hwiosym##_OUTMI3(base, idx1, idx2, idx3, mask, val) |
| #define __msmhwio_addrx(base, hwiosym) HWIO_##hwiosym##_ADDR(base) |
| #define __msmhwio_addrxi(base, hwiosym, index) HWIO_##hwiosym##_ADDR(base, index) |
| #define __msmhwio_addrxi2(base, hwiosym, idx1, idx2) HWIO_##hwiosym##_ADDR(base, idx1, idx2) |
| #define __msmhwio_addrxi3(base, hwiosym, idx1, idx2, idx3) HWIO_##hwiosym##_ADDR(base, idx1, idx2, idx3) |
| #define __msmhwio_physx(base, hwiosym) HWIO_##hwiosym##_PHYS(base) |
| #define __msmhwio_physxi(base, hwiosym, index) HWIO_##hwiosym##_PHYS(base, index) |
| #define __msmhwio_physxi2(base, hwiosym, idx1, idx2) HWIO_##hwiosym##_PHYS(base, idx1, idx2) |
| #define __msmhwio_physxi3(base, hwiosym, idx1, idx2, idx3) HWIO_##hwiosym##_PHYS(base, idx1, idx2, idx3) |
| |
| |
| |
| |
| |
| /* |
| * MSM_x (depreciated) |
| * |
| * These macros should be replaced with the relevant HWIO equivalent. |
| */ |
| #define MSM_OUT(io, val) HWIO_OUT(io, val) |
| #define MSM_IN(io) HWIO_IN(io) |
| #define MSM_OUTM(io, mask, val) HWIO_OUTM(io, mask, val) |
| #define MSM_INM(io, mask) HWIO_INM(io, mask) |
| #define MSM_INF(io, field) HWIO_INF(io, field) |
| #define MSM_FIELD(field, val) (((val) << field##_SHFT) & (field##_BMSK)) |
| #define MSM_OUTSH(io, mask, val) HWIO_OUTM(io, mask, val) |
| #define MSM_FOUTSH(io, field, val) HWIO_OUTM(io, mask, val) |
| #define MSM_SET(io, field) HWIO_OUTM(io, HWIO_FMSK(io, field), HWIO_FMSK(io, field)) |
| #define MSM_SET_BIT(io, bit) HWIO_OUTM(io, (1<<bit), (1<<bit)) |
| #define MSM_SET_i(io, field, index) HWIO_OUTMI(io, index, HWIO_FMSK(io,field), HWIO_FMSK(io,field)) |
| #define MSM_SET_ij(io, field, index1, index2) HWIO_OUTMI2(io, index1, index2, HWIO_FMSK(io,field), HWIO_FMSK(io,field)) |
| #define MSM_CLEAR(io, field) HWIO_OUTM(io, HWIO_FMSK(io, field), 0) |
| #define MSM_CLEAR_BIT(io, bit) HWIO_OUTM(io, (1<<bit), 0) |
| #define MSM_CLEAR_i(io, field, n) HWIO_OUTMI(io, n, HWIO_FMSK(io,field), 0) |
| #define MSM_CLEAR_ij(io, field, m, n) HWIO_OUTMI2(io, m, n, HWIO_FMSK(io,field), 0) |
| #define MSM_SET_MASK(io, mask) HWIO_OUTM(io, mask, mask) |
| #define MSM_CLEAR_MASK(io, mask) HWIO_OUTM(io, mask, 0) |
| #define MSM_PULSE(io, field) HWIO_OUTF(io, field, 1); HWIO_OUTF(io, field, 0) |
| #define MSM_GET(io, field) HWIO_INF(io, field) |
| #define MSM_W(io, val) HWIO_OUT(io, val) |
| #define MSM_W_i(io, val, index) HWIO_OUTI(io, index, val) |
| #define MSM_W_ij(io, val, index1, index2) HWIO_OUTI2(io, index1, index2, val ) |
| #define MSM_W_MASKED(io, field, val) HWIO_OUTF(io, field, val) |
| #define MSM_W_MASKED_i(io, field, val, index) HWIO_OUTFI(io, index, field, val) |
| #define MSM_W_MASKED_ij(io, field, val, index1, index2) HWIO_OUTFI2(io, index1, index2, field, val) |
| #define MSM_R(io) HWIO_IN(io) |
| #define MSM_R_MASKED(base, field) HWIO_INF(base, field) |
| #define MSM_R_MASKED_i(base, field, n) HWIO_INFI(base, n, field) |
| #define MSM_R_MASKED_ij(base, field, index1, index2) HWIO_INFI2(base, index1, index2, field) |
| #define MSM_GET_BIT(io, bit) (HWIO_INM(io, (1<<bit) ) >> bit) |
| #define MSM_NOT_USED( i ) if(i) {} |
| |
| |
| /* |
| * MSM_LOCK / MSM_UNLOCK (depreciated) |
| * |
| * These macros are intended to be used if a client will be issuing a |
| * series of HWIO writes to avoid the multiple locking/freeing of interrupts |
| * that will otherwise occur. |
| * They should be replaced with HWIO_LOCK / HWIO_UNLOCK |
| */ |
| #define MSM_LOCK_REQUIRED \ |
| /*lint -save -e548 else expected*/ \ |
| MSM_LOCK_required = MSM_LOCK_required; \ |
| /*lint -restore */ |
| |
| #define MSM_LOCK( ) \ |
| { \ |
| boolean MSM_LOCK_required = TRUE; \ |
| uint32 msm_sav; \ |
| INTLOCK_SAV(msm_sav) |
| |
| #define MSM_UNLOCK( ) \ |
| MSM_LOCK_REQUIRED \ |
| INTFREE_SAV(msm_sav); \ |
| } |
| |
| #define MSM_UNLOCK_AND_LOCK( ) \ |
| MSM_LOCK_REQUIRED \ |
| INTFREE_SAV( msm_sav ), \ |
| INTLOCK_SAV( msm_sav ) |
| |
| |
| /* |
| * INPxx / OUTPxx (depreciated) |
| * |
| */ |
| #define INP32(addr) in_dword(addr) |
| #define INP32M(addr, mask) in_dword_masked(addr,mask) |
| #define OUTP32(addr, val) out_dword(addr, val) |
| #define OUTP32M(addr, mask, val) \ |
| HWIO_INTLOCK(); \ |
| out_dword_masked_ns(addr, mask, val, INP32(addr)); \ |
| HWIO_INTFREE() |
| |
| |
| /* |
| * HWIO_LOCK / HWIO_UNLOCK |
| * |
| * These macros are intended to be used if a client will be issuing a |
| * series of HWIO writes to avoid the multiple locking/freeing of interrupts |
| * that will otherwise occur. |
| */ |
| #define HWIO_LOCK() \ |
| { \ |
| uint16 hwio_sav; \ |
| INTLOCK_SAV(hwio_sav) |
| |
| #define HWIO_UNLOCK() \ |
| INTFREE_SAV(hwio_sav); \ |
| } |
| |
| |
| #if defined(FEATURE_WINCE_BOOTLOADER) |
| |
| #define HWIO_INTLOCK() |
| |
| #define HWIO_INTFREE() |
| |
| #elif defined(FEATURE_WINCE_OAL) |
| |
| #define HWIO_INTLOCK() \ |
| { \ |
| uint32 ints_already_enabled = INTERRUPTS_ENABLE(FALSE) |
| |
| #define HWIO_INTFREE() \ |
| if (ints_already_enabled) INTERRUPTS_ENABLE(TRUE); \ |
| } |
| |
| #else |
| |
| #define HWIO_INTLOCK() \ |
| { \ |
| uint32 intlock_sav; \ |
| INTLOCK_SAV(intlock_sav) |
| |
| #define HWIO_INTFREE() \ |
| INTFREE_SAV(intlock_sav); \ |
| } |
| |
| #endif |
| |
| #if defined (PTI_PRINTF_EN) || defined(PTI_MEMORY_EN) || defined(PTI_STM_EN) |
| |
| #define __inp(port) (*((volatile uint8 *) (port))) |
| #define __inpw(port) (*((volatile uint16 *) (port))) |
| // #define __inpdw(port) (*((volatile uint32 *) (port))) |
| #define __inpdw(port) pti_inpdw((uint32 *) (port)) |
| |
| #define __outp(port, val) (*((volatile uint8 *) (port)) = ((uint8) (val))) |
| #define __outpw(port, val) (*((volatile uint16 *) (port)) = ((uint16) (val))) |
| // #define __outpdw(port, val) (*((volatile uint32 *) (port)) = ((uint32) (val))) |
| #define __outpdw(port, val) pti_outpdw((uint32 *) (port), (val)) |
| #elif defined(__FWV) || defined(__KERNEL__) || defined(__SHARED_CODE) || defined(QURT_UFW_BUILD) || defined (_WIN) |
| extern uint32_t registerRead(unsigned long addr); |
| extern void registerWrite(unsigned long addr, uint32_t value); |
| #define __inp(port) registerRead(port) |
| #define __inpw(port) registerRead(port) |
| #define __inpdw(port) registerRead(port) |
| #define __outp(port, val) registerWrite(port, val) |
| #define __outpw(port, val) registerWrite(port, val) |
| #define __outpdw(port, val) registerWrite(port, val) |
| #else |
| #ifdef CDVI_SVTB_VERBOSE |
| #define __inp(port) ((printf("CDVI_SVTB_VERBOSE: Calling bus_read from %s:%0d\n", __FILE__,__LINE__)&0) + bus_read(port)) |
| #else |
| #define __inp(port) bus_read(port) |
| #endif |
| #define __inpw(port) __inp(port) |
| #define __inpdw(port) __inp(port) |
| |
| #ifdef CDVI_SVTB_VERBOSE |
| #define __outp(port, val) ((printf("CDVI_SVTB_VERBOSE: Calling bus_write from %s:%0d\n",__FILE__,__LINE__)&0) + bus_write (port, val)) |
| #else |
| #define __outp(port, val) bus_write (port, val) |
| #endif |
| #define __outpw(port, val) __outp (port, val) |
| #define __outpdw(port, val) __outp (port, val) |
| #endif |
| |
| |
| #define in_byte(addr) (__inp(addr)) |
| #define in_byte_masked(addr, mask) (__inp(addr) & (mask)) |
| #define out_byte(addr, val) __outp(addr,val) |
| #define out_byte_masked(io, mask, val, shadow) \ |
| HWIO_INTLOCK(); \ |
| (void) out_byte( io, shadow); \ |
| shadow = (shadow & (uint16)(~(mask))) | ((uint16)((val) & (mask))); \ |
| HWIO_INTFREE() |
| #define out_byte_masked_ns(io, mask, val, current_reg_content) \ |
| (void) out_byte( io, ((current_reg_content & (uint16)(~(mask))) | \ |
| ((uint16)((val) & (mask)))) ) |
| |
| #define in_word(addr) (__inpw(addr)) |
| #define in_word_masked(addr, mask) (__inpw(addr) & (mask)) |
| #define out_word(addr, val) __outpw(addr,val) |
| #define out_word_masked(io, mask, val, shadow) \ |
| HWIO_INTLOCK( ); \ |
| shadow = (shadow & (uint16)(~(mask))) | ((uint16)((val) & (mask))); \ |
| (void) out_word( io, shadow); \ |
| HWIO_INTFREE( ) |
| #define out_word_masked_ns(io, mask, val, current_reg_content) \ |
| (void) out_word( io, ((current_reg_content & (uint16)(~(mask))) | \ |
| ((uint16)((val) & (mask)))) ) |
| |
| #define in_dword(addr) (__inpdw(addr)) |
| #define in_dword_masked(addr, mask) (__inpdw(addr) & (mask)) |
| #define out_dword(addr, val) __outpdw(addr,val) |
| #define out_dword_masked(io, mask, val, shadow) \ |
| HWIO_INTLOCK( ); \ |
| shadow = (shadow & (uint32)(~(mask))) | ((uint32)((val) & (mask))); \ |
| (void) out_dword( io, shadow); \ |
| HWIO_INTFREE( ) |
| #define out_dword_masked_ns(io, mask, val, current_reg_content) \ |
| (void) out_dword( io, ((current_reg_content & (uint32)(~(mask))) | ((uint32)((val) & (mask)))) ) |
| |
| /* |
| * Base 64-bit quad-word accessing macros. |
| */ |
| #define in_qword(addr) (__inpqw(addr)) |
| #define in_qword_masked(addr, mask) (__inpqw(addr) & (mask)) |
| #define out_qword(addr, val) __outpqw(addr,val) |
| #define out_qword_masked(io, mask, val, shadow) \ |
| HWIO_INTLOCK(); \ |
| shadow = (shadow & (uint64)(~(mask))) | ((uint64)((val) & (mask))); \ |
| out_qword( io, shadow); \ |
| HWIO_INTFREE() |
| #define out_qword_masked_ns(io, mask, val, current_reg_content) \ |
| out_qword( io, ((current_reg_content & (uint64)(~(mask))) | \ |
| ((uint64)((val) & (mask)))) ) |
| |
| #define OUTP64(addr, val) out_qword(addr, val) |
| #define __outpqw(port, val) (*((volatile uint64 *) (port)) = ((uint64) (val))) |
| |
| #define INP64(addr) in_qword(addr) |
| #define __inpqw(port) (*((volatile uint64 *) (port))) |
| |
| #endif |
| |
| |