/* Copyright (c) 2001, Stanford University * All rights reserved. * * See the file LICENSE.txt for information on redistributing this software. */ #ifndef CR_PACK_H #define CR_PACK_H #include "cr_compiler.h" #include "cr_error.h" #include "cr_protocol.h" #include "cr_opcodes.h" #include "cr_endian.h" #include "state/cr_statetypes.h" #include "state/cr_currentpointers.h" #include "state/cr_client.h" #ifdef CHROMIUM_THREADSAFE #include "cr_threads.h" #endif #include #ifdef __cplusplus extern "C" { #endif typedef struct CRPackContext_t CRPackContext; /** * Packer buffer */ typedef struct { void *pack; /**< the actual storage space/buffer */ unsigned int size; /**< size of pack[] buffer */ unsigned int mtu; unsigned char *data_start, *data_current, *data_end; unsigned char *opcode_start, *opcode_current, *opcode_end; GLboolean geometry_only; /**< just used for debugging */ GLboolean holds_BeginEnd; GLboolean in_BeginEnd; GLboolean canBarf; GLboolean holds_List; GLboolean in_List; CRPackContext *context; } CRPackBuffer; typedef void (*CRPackFlushFunc)(void *arg); typedef void (*CRPackSendHugeFunc)(CROpcode, void *); typedef void (*CRPackErrorHandlerFunc)(int line, const char *file, GLenum error, const char *info); #define CRPACKBLOCKSTATE_OP_BEGIN 0x01 #define CRPACKBLOCKSTATE_OP_NEWLIST 0x02 #define CRPACKBLOCKSTATE_OP_BEGINQUERY 0x04 #define CRPACKBLOCKSTATE_OP_ALL 0x07 #define CRPACKBLOCKSTATE_IS_OP_STARTED(_state, _op) (!!((_state) & (_op))) #define CRPACKBLOCKSTATE_IS_STARTED(_state) (!!(_state)) #define CRPACKBLOCKSTATE_OP_START(_state, _op) do { \ Assert(!CRPACKBLOCKSTATE_IS_OP_STARTED(_state, _op)); \ (_state) |= (_op); \ } while (0) #define CRPACKBLOCKSTATE_OP_STOP(_state, _op) do { \ Assert(CRPACKBLOCKSTATE_IS_OP_STARTED(_state, _op)); \ (_state) &= ~(_op); \ } while (0) /** * Packer context */ struct CRPackContext_t { CRPackBuffer buffer; /**< not a pointer, see comments in pack_buffer.c */ CRPackFlushFunc Flush; void *flush_arg; CRPackSendHugeFunc SendHuge; CRPackErrorHandlerFunc Error; CRCurrentStatePointers current; uint32_t u32CmdBlockState; GLvectorf bounds_min, bounds_max; int updateBBOX; int swapping; CRPackBuffer *currentBuffer; #ifdef CHROMIUM_THREADSAFE CRmutex mutex; #endif char *file; /**< for debugging only */ int line; /**< for debugging only */ }; #if !defined(IN_RING0) # define CR_PACKER_CONTEXT_ARGSINGLEDECL void # define CR_PACKER_CONTEXT_ARGDECL # define CR_PACKER_CONTEXT_ARG # define CR_PACKER_CONTEXT_ARG_NOREF() do {} while (0) # define CR_PACKER_CONTEXT_ARGCTX(C) # ifdef CHROMIUM_THREADSAFE extern CRtsd _PackerTSD; # define CR_GET_PACKER_CONTEXT(C) CRPackContext *C = (CRPackContext *) crGetTSD(&_PackerTSD) # define CR_LOCK_PACKER_CONTEXT(PC) crLockMutex(&((PC)->mutex)) # define CR_UNLOCK_PACKER_CONTEXT(PC) crUnlockMutex(&((PC)->mutex)) # else extern DLLDATA(CRPackContext) cr_packer_globals; # define CR_GET_PACKER_CONTEXT(C) CRPackContext *C = &cr_packer_globals # define CR_LOCK_PACKER_CONTEXT(PC) # define CR_UNLOCK_PACKER_CONTEXT(PC) # endif extern uint32_t cr_packer_cmd_blocks_enabled; #else /* if defined IN_RING0 */ # define CR_PACKER_CONTEXT_ARGSINGLEDECL CRPackContext *_pCtx # define CR_PACKER_CONTEXT_ARGDECL CR_PACKER_CONTEXT_ARGSINGLEDECL, # define CR_PACKER_CONTEXT_ARG _pCtx, # define CR_PACKER_CONTEXT_ARG_NOREF() RT_NOREF_PV(_pCtx) # define CR_PACKER_CONTEXT_ARGCTX(C) C, # define CR_GET_PACKER_CONTEXT(C) CRPackContext *C = _pCtx # define CR_LOCK_PACKER_CONTEXT(PC) # define CR_UNLOCK_PACKER_CONTEXT(PC) #endif extern DECLEXPORT(CRPackContext *) crPackNewContext(int swapping); extern DECLEXPORT(void) crPackDeleteContext(CRPackContext *pc); extern DECLEXPORT(void) crPackSetContext( CRPackContext *pc ); extern DECLEXPORT(CRPackContext *) crPackGetContext( void ); extern DECLEXPORT(void) crPackSetBuffer( CRPackContext *pc, CRPackBuffer *buffer ); extern DECLEXPORT(void) crPackSetBufferDEBUG( const char *file, int line, CRPackContext *pc, CRPackBuffer *buffer ); extern DECLEXPORT(void) crPackReleaseBuffer( CRPackContext *pc ); extern DECLEXPORT(void) crPackResetPointers( CRPackContext *pc ); extern DECLEXPORT(int) crPackMaxOpcodes( int buffer_size ); extern DECLEXPORT(int) crPackMaxData( int buffer_size ); extern DECLEXPORT(void) crPackInitBuffer( CRPackBuffer *buffer, void *buf, int size, int mtu #ifdef IN_RING0 , unsigned int num_opcodes #endif ); extern DECLEXPORT(void) crPackFlushFunc( CRPackContext *pc, CRPackFlushFunc ff ); extern DECLEXPORT(void) crPackFlushArg( CRPackContext *pc, void *flush_arg ); extern DECLEXPORT(void) crPackSendHugeFunc( CRPackContext *pc, CRPackSendHugeFunc shf ); extern DECLEXPORT(void) crPackErrorFunction( CRPackContext *pc, CRPackErrorHandlerFunc errf ); extern DECLEXPORT(void) crPackOffsetCurrentPointers( int offset ); extern DECLEXPORT(void) crPackNullCurrentPointers( void ); extern DECLEXPORT(void) crPackResetBoundingBox( CRPackContext *pc ); extern DECLEXPORT(GLboolean) crPackGetBoundingBox( CRPackContext *pc, GLfloat *xmin, GLfloat *ymin, GLfloat *zmin, GLfloat *xmax, GLfloat *ymax, GLfloat *zmax); extern DECLEXPORT(void) crPackAppendBuffer( CR_PACKER_CONTEXT_ARGDECL const CRPackBuffer *buffer ); extern DECLEXPORT(void) crPackAppendBoundedBuffer( CR_PACKER_CONTEXT_ARGDECL const CRPackBuffer *buffer, const CRrecti *bounds ); extern DECLEXPORT(int) crPackCanHoldBuffer( CR_PACKER_CONTEXT_ARGDECL const CRPackBuffer *buffer ); extern DECLEXPORT(int) crPackCanHoldBoundedBuffer( CR_PACKER_CONTEXT_ARGDECL const CRPackBuffer *buffer ); #if defined(LINUX) || defined(WINDOWS) #define CR_UNALIGNED_ACCESS_OKAY #else #undef CR_UNALIGNED_ACCESS_OKAY #endif #ifndef IN_RING0 extern DECLEXPORT(void) crWriteUnalignedDouble( void *buffer, double d ); extern DECLEXPORT(void) crWriteSwappedDouble( void *buffer, double d ); #endif extern DECLEXPORT(void) *crPackAlloc( CR_PACKER_CONTEXT_ARGDECL unsigned int len ); extern DECLEXPORT(void) crHugePacket( CR_PACKER_CONTEXT_ARGDECL CROpcode op, void *ptr ); extern DECLEXPORT(void) crPackFree( CR_PACKER_CONTEXT_ARGDECL void *ptr ); extern DECLEXPORT(void) crNetworkPointerWrite( CRNetworkPointer *, void * ); extern DECLEXPORT(void) crPackExpandDrawArrays(GLenum mode, GLint first, GLsizei count, CRClientState *c, const GLfloat *pZva); extern DECLEXPORT(void) crPackExpandDrawArraysSWAP(GLenum mode, GLint first, GLsizei count, CRClientState *c, const GLfloat *pZva); extern DECLEXPORT(void) crPackUnrollDrawElements(GLsizei count, GLenum type, const GLvoid *indices); extern DECLEXPORT(void) crPackUnrollDrawElementsSWAP(GLsizei count, GLenum type, const GLvoid *indices); extern DECLEXPORT(void) crPackExpandDrawElements(GLenum mode, GLsizei count, GLenum type, const GLvoid *indices, CRClientState *c, const GLfloat *pZva); extern DECLEXPORT(void) crPackExpandDrawElementsSWAP(GLenum mode, GLsizei count, GLenum type, const GLvoid *indices, CRClientState *c, const GLfloat *pZva); extern DECLEXPORT(void) crPackExpandDrawRangeElements(GLenum mode, GLuint start, GLuint end, GLsizei count, GLenum type, const GLvoid *indices, CRClientState *c, const GLfloat *pZva); extern DECLEXPORT(void) crPackExpandDrawRangeElementsSWAP(GLenum mode, GLuint start, GLuint end, GLsizei count, GLenum type, const GLvoid *indices, CRClientState *c, const GLfloat *pZva); extern DECLEXPORT(void) crPackExpandArrayElement(GLint index, CRClientState *c, const GLfloat *pZva); extern DECLEXPORT(void) crPackExpandArrayElementSWAP(GLint index, CRClientState *c, const GLfloat *pZva); extern DECLEXPORT(void) crPackExpandMultiDrawArraysEXT( GLenum mode, GLint *first, GLsizei *count, GLsizei primcount, CRClientState *c, const GLfloat *pZva ); extern DECLEXPORT(void) crPackExpandMultiDrawArraysEXTSWAP( GLenum mode, GLint *first, GLsizei *count, GLsizei primcount, CRClientState *c, const GLfloat *pZva ); extern DECLEXPORT(void) crPackExpandMultiDrawElementsEXT( GLenum mode, const GLsizei *count, GLenum type, const GLvoid **indices, GLsizei primcount, CRClientState *c, const GLfloat *pZva ); extern DECLEXPORT(void) crPackExpandMultiDrawElementsEXTSWAP( GLenum mode, const GLsizei *count, GLenum type, const GLvoid **indices, GLsizei primcount, CRClientState *c, const GLfloat *pZva ); extern DECLEXPORT(void) crPackCapsSet(uint32_t u32Caps); /** * Return number of opcodes in given buffer. */ static INLINE int crPackNumOpcodes(const CRPackBuffer *buffer) { CRASSERT(buffer->opcode_start - buffer->opcode_current >= 0); return buffer->opcode_start - buffer->opcode_current; } DECLINLINE(bool) crPackBufferIsEmpty(CRPackBuffer *buffer) { return crPackNumOpcodes(buffer) == 0; } /** * Return amount of data (in bytes) in buffer. */ static INLINE int crPackNumData(const CRPackBuffer *buffer) { CRASSERT(buffer->data_current - buffer->data_start >= 0); return buffer->data_current - buffer->data_start; /* in bytes */ } static INLINE int crPackCanHoldOpcode(const CRPackContext *pc, int num_opcode, int num_data) { int fitsInMTU, opcodesFit, dataFits; CRASSERT(pc->currentBuffer); fitsInMTU = (((pc->buffer.data_current - pc->buffer.opcode_current - 1 + num_opcode + num_data + 0x3 ) & ~0x3) + sizeof(CRMessageOpcodes) <= pc->buffer.mtu); opcodesFit = (pc->buffer.opcode_current - num_opcode >= pc->buffer.opcode_end); dataFits = (pc->buffer.data_current + num_data <= pc->buffer.data_end); return fitsInMTU && opcodesFit && dataFits; } #define CR_PACK_SPECIAL_OP( _pc, _op) \ do { \ data_ptr = pc->buffer.data_current; \ (_pc)->buffer.data_current += 4; \ WRITE_OPCODE( (_pc), (_op) ); \ WRITE_DATA( 0, GLuint, 0xdeadbeef ); \ data_ptr = NULL; /* <- sanity*/ \ } while (0) #define CR_CMDBLOCK_OP( _pc, _op) \ do { \ CR_PACK_SPECIAL_OP( _pc, _op); \ } while (0) #define CR_CMDBLOCK_IS_STARTED( pc, op ) CRPACKBLOCKSTATE_IS_OP_STARTED((pc)->u32CmdBlockState, op) #define CR_CMDBLOCK_BEGIN( pc, op ) \ do { \ CR_LOCK_PACKER_CONTEXT(pc); \ if (!cr_packer_cmd_blocks_enabled) break; \ if (!CRPACKBLOCKSTATE_IS_STARTED((pc)->u32CmdBlockState)) { \ THREADASSERT( pc ); \ CRASSERT( (pc)->currentBuffer ); \ if (!crPackBufferIsEmpty(&(pc)->buffer)) { \ if ((*(pc)->buffer.opcode_start) != CR_NOP_OPCODE) { \ (pc)->Flush( (pc)->flush_arg ); \ Assert(crPackCanHoldOpcode( (pc), 1, 4 ) ); \ CR_CMDBLOCK_OP( (pc), CR_CMDBLOCKBEGIN_OPCODE ); \ } \ else { \ (*(pc)->buffer.opcode_start) = CR_CMDBLOCKBEGIN_OPCODE; \ } \ } \ else { \ Assert(crPackCanHoldOpcode( (pc), 1, 4 ) ); \ CR_CMDBLOCK_OP( (pc), CR_CMDBLOCKBEGIN_OPCODE ); \ } \ } \ Assert(!CRPACKBLOCKSTATE_IS_OP_STARTED((pc)->u32CmdBlockState, op)); \ CRPACKBLOCKSTATE_OP_START((pc)->u32CmdBlockState, op); \ Assert(CRPACKBLOCKSTATE_IS_OP_STARTED((pc)->u32CmdBlockState, op)); \ } while (0) #define CR_CMDBLOCK_END( pc, op ) \ do { \ if (!cr_packer_cmd_blocks_enabled) break; \ Assert(CRPACKBLOCKSTATE_IS_OP_STARTED((pc)->u32CmdBlockState, op)); \ CRPACKBLOCKSTATE_OP_STOP((pc)->u32CmdBlockState, op); \ Assert(!CRPACKBLOCKSTATE_IS_OP_STARTED((pc)->u32CmdBlockState, op)); \ if (!CRPACKBLOCKSTATE_IS_STARTED((pc)->u32CmdBlockState)) { \ THREADASSERT( pc ); \ CRASSERT( (pc)->currentBuffer ); \ if (!crPackBufferIsEmpty(&(pc)->buffer)) { \ if ((*(pc)->buffer.opcode_start) != CR_CMDBLOCKBEGIN_OPCODE) {\ if ( !crPackCanHoldOpcode( pc, 1, 4 ) ) { \ (pc)->Flush( (pc)->flush_arg ); \ Assert(crPackCanHoldOpcode( pc, 1, 4 ) ); \ } \ CR_CMDBLOCK_OP( pc, CR_CMDBLOCKEND_OPCODE ); \ (pc)->Flush( (pc)->flush_arg ); \ } \ else { \ (*(pc)->buffer.opcode_start) = CR_NOP_OPCODE; \ } \ } \ else { \ Assert(crPackCanHoldOpcode( pc, 1, 4 ) ); \ CR_CMDBLOCK_OP( pc, CR_CMDBLOCKEND_OPCODE ); \ (pc)->Flush( pc->flush_arg ); \ } \ } \ } while (0) #define CR_CMDBLOCK_CHECK_FLUSH( pc ) \ do { \ if (!(cr_packer_cmd_blocks_enabled & CR_VBOX_CAP_CMDBLOCKS_FLUSH)) break; \ if(!CRPACKBLOCKSTATE_IS_OP_STARTED((pc)->u32CmdBlockState, CRPACKBLOCKSTATE_OP_NEWLIST)) break; \ THREADASSERT( pc ); \ CRASSERT( (pc)->currentBuffer ); \ if ( !crPackCanHoldOpcode( pc, 1, 4 ) ) { \ (pc)->Flush( (pc)->flush_arg ); \ Assert(crPackCanHoldOpcode( pc, 1, 4 ) ); \ } \ CR_CMDBLOCK_OP( pc, CR_CMDBLOCKFLUSH_OPCODE ); \ (pc)->Flush( (pc)->flush_arg ); \ } while (0) /** * Alloc space for a message of 'len' bytes (plus 1 opcode). * Only flush if buffer is full. */ #define CR_GET_BUFFERED_POINTER_NO_BEGINEND_FLUSH(pc, len, lock) \ do { \ THREADASSERT( pc ); \ if (lock) CR_LOCK_PACKER_CONTEXT(pc); \ CRASSERT( pc->currentBuffer ); \ if ( !crPackCanHoldOpcode( pc, 1, (len) ) ) { \ pc->Flush( pc->flush_arg ); \ CRASSERT(crPackCanHoldOpcode( pc, 1, (len) ) ); \ } \ data_ptr = pc->buffer.data_current; \ pc->buffer.data_current += (len); \ } while (0) /** * As above, flush if the buffer contains vertex data and we're * no longer inside glBegin/glEnd. */ #define CR_GET_BUFFERED_POINTER( pc, len ) \ do { \ CR_LOCK_PACKER_CONTEXT(pc); \ CRASSERT( pc->currentBuffer ); \ if ( pc->buffer.holds_BeginEnd && !pc->buffer.in_BeginEnd ) { \ CRASSERT( 0 ); /* should never be here currently */ \ pc->Flush( pc->flush_arg ); \ pc->buffer.holds_BeginEnd = 0; \ } \ CR_GET_BUFFERED_POINTER_NO_BEGINEND_FLUSH( pc, len, GL_FALSE ); \ } while (0) /** * As above, but without lock. */ #define CR_GET_BUFFERED_POINTER_NOLOCK( pc, len ) \ do { \ CRASSERT( pc->currentBuffer ); \ if ( pc->buffer.holds_BeginEnd && !pc->buffer.in_BeginEnd ) { \ CRASSERT( 0 ); /* should never be here currently */ \ pc->Flush( pc->flush_arg ); \ pc->buffer.holds_BeginEnd = 0; \ } \ CR_GET_BUFFERED_POINTER_NO_BEGINEND_FLUSH( pc, len, GL_FALSE ); \ } while (0) /** * As above, but for vertex data between glBegin/End (counts vertices). */ #define CR_GET_BUFFERED_COUNT_POINTER( pc, len ) \ do { \ CR_LOCK_PACKER_CONTEXT(pc); \ CRASSERT( pc->currentBuffer ); \ if ( !crPackCanHoldOpcode( pc, 1, (len) ) ) { \ pc->Flush( pc->flush_arg ); \ CRASSERT( crPackCanHoldOpcode( pc, 1, (len) ) ); \ } \ data_ptr = pc->buffer.data_current; \ pc->current.vtx_count++; \ pc->buffer.data_current += (len); \ } while (0) /** * Allocate space for a msg/command that has no arguments, such * as glFinish(). */ #define CR_GET_BUFFERED_POINTER_NO_ARGS( pc ) \ CR_GET_BUFFERED_POINTER( pc, 4 ); \ WRITE_DATA( 0, GLuint, 0xdeadbeef ) #define WRITE_DATA( offset, type, data ) \ *( (type *) (data_ptr + (offset))) = (data) /* Write data to current location and auto increment */ #define WRITE_DATA_AI(type, data) \ { \ *((type*) (data_ptr)) = (data); \ data_ptr += sizeof(type); \ } #ifdef CR_UNALIGNED_ACCESS_OKAY #define WRITE_DOUBLE( offset, data ) \ WRITE_DATA( offset, GLdouble, data ) #else # ifndef IN_RING0 # define WRITE_DOUBLE( offset, data ) \ crWriteUnalignedDouble( data_ptr + (offset), (data) ) # else # define WRITE_DOUBLE( offset, data ) \ AssertReleaseFailed() # endif #endif #ifndef IN_RING0 #define WRITE_SWAPPED_DOUBLE( offset, data ) \ crWriteSwappedDouble( data_ptr + (offset), (data) ) #else #define WRITE_SWAPPED_DOUBLE( offset, data ) \ AssertReleaseFailed() #endif #define WRITE_OPCODE( pc, opcode ) \ *(pc->buffer.opcode_current--) = (unsigned char) opcode #define WRITE_NETWORK_POINTER( offset, data ) \ crNetworkPointerWrite( (CRNetworkPointer *) ( data_ptr + (offset) ), (data) ) #ifdef __cplusplus } #endif #endif /* CR_PACK_H */