/* Copyright (c) 2001, Stanford University * All rights reserved * * See the file LICENSE.txt for information on redistributing this software. */ #include "cr_mem.h" #include "cr_string.h" #include "packer.h" #include "cr_error.h" #include "cr_protocol.h" #ifndef IN_RING0 #include "cr_unpack.h" #endif #ifndef IN_RING0 void crWriteUnalignedDouble( void *buffer, double d ) { unsigned int *ui = (unsigned int *) buffer; ui[0] = ((unsigned int *) &d)[0]; ui[1] = ((unsigned int *) &d)[1]; } void crWriteSwappedDouble( void *buffer, double d ) { unsigned int *ui = (unsigned int *) buffer; ui[0] = SWAP32(((unsigned int *) &d)[1]); ui[1] = SWAP32(((unsigned int *) &d)[0]); } double crReadUnalignedDouble( const void *buffer ) { const unsigned int *ui = (unsigned int *) buffer; double d; ((unsigned int *) &d)[0] = ui[0]; ((unsigned int *) &d)[1] = ui[1]; return d; } #endif /* * We need the packer to run as efficiently as possible. To avoid one * pointer dereference from the CRPackContext to the current CRPackBuffer, * we keep a _copy_ of the current CRPackBuffer in the CRPackContext and * operate on the fields in CRPackContext, rather than the CRPackBuffer. * * To keep things in sync, when we change a context's * buffer, we have to use the crPackSet/GetBuffer() functions. */ void crPackSetBuffer( CRPackContext *pc, CRPackBuffer *buffer ) { CRASSERT( pc ); CRASSERT( buffer ); if (pc->currentBuffer == buffer) return; /* re-bind is no-op */ if (pc->currentBuffer) { /* Another buffer currently bound to this packer (shouldn't normally occur) * Release it. Fixes Ensight issue. */ crPackReleaseBuffer(pc); } CRASSERT( pc->currentBuffer == NULL); /* release if NULL? */ CRASSERT( buffer->context == NULL ); /* bind context to buffer */ pc->currentBuffer = buffer; buffer->context = pc; /* update the context's packing fields with those from the buffer */ pc->buffer = *buffer; /* struct copy */ } #ifndef IN_RING0 /* This is useful for debugging packer problems */ void crPackSetBufferDEBUG( const char *file, int line, CRPackContext *pc, CRPackBuffer *buffer) { crPackSetBuffer( pc, buffer ); /* record debugging info */ pc->file = crStrdup(file); pc->line = line; } #endif /* * Release the buffer currently attached to the context. * Update/resync data structures. */ void crPackReleaseBuffer( CRPackContext *pc ) { CRPackBuffer *buf; CRASSERT( pc ); if (!pc->currentBuffer) { crWarning("crPackReleaseBuffer called with no current buffer"); return; /* nothing to do */ } CRASSERT( pc->currentBuffer->context == pc ); /* buffer to release */ buf = pc->currentBuffer; /* copy context's fields back into the buffer to update it */ *buf = pc->buffer; /* struct copy */ /* unbind buffer from context */ buf->context = NULL; pc->currentBuffer = NULL; /* zero-out context's packing fields just to be safe */ crMemZero(&(pc->buffer), sizeof(pc->buffer)); /* update the debugging fields */ if (pc->file) crFree(pc->file); pc->file = NULL; pc->line = -1; } void crPackFlushFunc( CRPackContext *pc, CRPackFlushFunc ff ) { pc->Flush = ff; } void crPackFlushArg( CRPackContext *pc, void *flush_arg ) { pc->flush_arg = flush_arg; } void crPackSendHugeFunc( CRPackContext *pc, CRPackSendHugeFunc shf ) { pc->SendHuge = shf; } /* * This basically resets the buffer attached to to the default, empty * state. */ void crPackResetPointers( CRPackContext *pc ) { const GLboolean geom_only = pc->buffer.geometry_only; /* save this flag */ const GLboolean holds_BeginEnd = pc->buffer.holds_BeginEnd; const GLboolean in_BeginEnd = pc->buffer.in_BeginEnd; const GLboolean canBarf = pc->buffer.canBarf; CRPackBuffer *buf = pc->currentBuffer; CRASSERT(buf); crPackInitBuffer( buf, buf->pack, buf->size, buf->mtu #ifdef IN_RING0 , 0 #endif ); pc->buffer.geometry_only = geom_only; /* restore the flag */ pc->buffer.holds_BeginEnd = holds_BeginEnd; pc->buffer.in_BeginEnd = in_BeginEnd; pc->buffer.canBarf = canBarf; } /** * Return max number of opcodes that'll fit in the given buffer size. * Each opcode has at least a 1-word payload, so opcodes can occupy at most * 20% of the space. */ int crPackMaxOpcodes( int buffer_size ) { int n = ( buffer_size - sizeof(CRMessageOpcodes) ) / 5; /* Don't forget to add one here in case the buffer size is not * divisible by 4. Thanks to Ken Moreland for finding this. */ n++; /* round up to multiple of 4 */ n = (n + 0x3) & (~0x3); return n; } /** * Return max number of data bytes that'll fit in the given buffer size. */ int crPackMaxData( int buffer_size ) { int n = buffer_size - sizeof(CRMessageOpcodes); n -= crPackMaxOpcodes(buffer_size); return n; } /** * Initialize the given CRPackBuffer object. * The buffer may or may not be currently bound to a CRPackContext. * * Opcodes and operands are packed into a buffer in a special way. * Opcodes start at opcode_start and go downward in memory while operands * start at data_start and go upward in memory. The buffer is full when we * either run out of opcode space or operand space. * * Diagram (memory addresses increase upward): * * data_end -> | | <- buf->pack + buf->size * +---------+ * | | * | | * | operands| * | | * | | * data_start -> +---------+ * opcode_start -> | | * | | * | opcodes | * | | * | | * opcode_end -> +---------+ <- buf->pack * * \param buf the CRPackBuffer to initialize * \param pack the address of the buffer for packing opcodes/operands. * \param size size of the buffer, in bytes * \param mtu max transmission unit size, in bytes. When the buffer * has 'mtu' bytes in it, we have to send it. The MTU might * be somewhat smaller than the buffer size. */ void crPackInitBuffer( CRPackBuffer *buf, void *pack, int size, int mtu #ifdef IN_RING0 , unsigned int num_opcodes #endif ) { #ifndef IN_RING0 unsigned int num_opcodes; #endif CRASSERT(mtu <= size); buf->size = size; buf->mtu = mtu; buf->pack = pack; #ifdef IN_RING0 if(num_opcodes) { num_opcodes = (num_opcodes + 0x3) & (~0x3); } else #endif { num_opcodes = crPackMaxOpcodes( buf->size ); } buf->data_start = (unsigned char *) buf->pack + num_opcodes + sizeof(CRMessageOpcodes); buf->data_current = buf->data_start; buf->data_end = (unsigned char *) buf->pack + buf->size; buf->opcode_start = buf->data_start - 1; buf->opcode_current = buf->opcode_start; buf->opcode_end = buf->opcode_start - num_opcodes; buf->geometry_only = GL_FALSE; buf->holds_BeginEnd = GL_FALSE; buf->in_BeginEnd = GL_FALSE; buf->canBarf = GL_FALSE; if (buf->context) { /* Also reset context's packing fields */ CRPackContext *pc = buf->context; CRASSERT(pc->currentBuffer == buf); /*crMemcpy( &(pc->buffer), buf, sizeof(*buf) );*/ pc->buffer = *buf; } } int crPackCanHoldBuffer( CR_PACKER_CONTEXT_ARGDECL const CRPackBuffer *src ) { const int num_data = crPackNumData(src); const int num_opcode = crPackNumOpcodes(src); int res; CR_GET_PACKER_CONTEXT(pc); CR_LOCK_PACKER_CONTEXT(pc); res = crPackCanHoldOpcode( pc, num_opcode, num_data ); CR_UNLOCK_PACKER_CONTEXT(pc); return res; } int crPackCanHoldBoundedBuffer( CR_PACKER_CONTEXT_ARGDECL const CRPackBuffer *src ) { const int len_aligned = (src->data_current - src->opcode_current - 1 + 3) & ~3; CR_GET_PACKER_CONTEXT(pc); /* 24 is the size of the bounds-info packet... */ return crPackCanHoldOpcode( pc, 1, len_aligned + 24 ); } void crPackAppendBuffer( CR_PACKER_CONTEXT_ARGDECL const CRPackBuffer *src ) { CR_GET_PACKER_CONTEXT(pc); const int num_data = crPackNumData(src); const int num_opcode = crPackNumOpcodes(src); CRASSERT(num_data >= 0); CRASSERT(num_opcode >= 0); CR_LOCK_PACKER_CONTEXT(pc); /* don't append onto ourself! */ CRASSERT(pc->currentBuffer); CRASSERT(pc->currentBuffer != src); if (!crPackCanHoldBuffer(CR_PACKER_CONTEXT_ARG src)) { if (src->holds_BeginEnd) { crWarning( "crPackAppendBuffer: overflowed the destination!" ); CR_UNLOCK_PACKER_CONTEXT(pc); return; } else { crError( "crPackAppendBuffer: overflowed the destination!" ); CR_UNLOCK_PACKER_CONTEXT(pc); } } /* Copy the buffer data/operands which are at the head of the buffer */ crMemcpy( pc->buffer.data_current, src->data_start, num_data ); pc->buffer.data_current += num_data; /* Copy the buffer opcodes which are at the tail of the buffer */ CRASSERT( pc->buffer.opcode_current - num_opcode >= pc->buffer.opcode_end ); crMemcpy( pc->buffer.opcode_current + 1 - num_opcode, src->opcode_current + 1, num_opcode ); pc->buffer.opcode_current -= num_opcode; pc->buffer.holds_BeginEnd |= src->holds_BeginEnd; pc->buffer.in_BeginEnd = src->in_BeginEnd; pc->buffer.holds_List |= src->holds_List; CR_UNLOCK_PACKER_CONTEXT(pc); } void crPackAppendBoundedBuffer( CR_PACKER_CONTEXT_ARGDECL const CRPackBuffer *src, const CRrecti *bounds ) { CR_GET_PACKER_CONTEXT(pc); const GLbyte *payload = (const GLbyte *) src->opcode_current + 1; const int num_opcodes = crPackNumOpcodes(src); const int length = src->data_current - src->opcode_current - 1; CRASSERT(pc); CR_LOCK_PACKER_CONTEXT(pc); CRASSERT(pc->currentBuffer); CRASSERT(pc->currentBuffer != src); /* * payload points to the block of opcodes immediately followed by operands. */ if ( !crPackCanHoldBoundedBuffer( CR_PACKER_CONTEXT_ARG src ) ) { if (src->holds_BeginEnd) { crWarning( "crPackAppendBoundedBuffer: overflowed the destination!" ); CR_UNLOCK_PACKER_CONTEXT(pc); return; } else { crError( "crPackAppendBoundedBuffer: overflowed the destination!" ); CR_UNLOCK_PACKER_CONTEXT(pc); } } if (pc->swapping) crPackBoundsInfoCRSWAP( CR_PACKER_CONTEXT_ARG bounds, payload, length, num_opcodes ); else crPackBoundsInfoCR( CR_PACKER_CONTEXT_ARG bounds, payload, length, num_opcodes ); pc->buffer.holds_BeginEnd |= src->holds_BeginEnd; pc->buffer.in_BeginEnd = src->in_BeginEnd; pc->buffer.holds_List |= src->holds_List; CR_UNLOCK_PACKER_CONTEXT(pc); } #ifndef CHROMIUM_THREADSAFE static unsigned char *sanityCheckPointer = NULL; #endif /* * Allocate space for a command that might be very large, such as * glTexImage2D or glBufferDataARB call. * The command buffer _MUST_ then be transmitted by calling crHugePacket. */ void *crPackAlloc( CR_PACKER_CONTEXT_ARGDECL unsigned int size ) { CR_GET_PACKER_CONTEXT(pc); unsigned char *data_ptr; /* include space for the length and make the payload word-aligned */ size = ( size + sizeof(unsigned int) + 0x3 ) & ~0x3; CR_LOCK_PACKER_CONTEXT(pc); if ( crPackCanHoldOpcode( pc, 1, size ) ) { /* we can just put it in the current buffer */ CR_GET_BUFFERED_POINTER_NOLOCK(pc, size ); /* NOTE: this sets data_ptr */ } else { /* Okay, it didn't fit. Maybe it will after we flush. */ CR_UNLOCK_PACKER_CONTEXT(pc); pc->Flush( pc->flush_arg ); CR_LOCK_PACKER_CONTEXT(pc); if ( crPackCanHoldOpcode( pc, 1, size ) ) { CR_GET_BUFFERED_POINTER_NOLOCK(pc, size ); /* NOTE: this sets data_ptr */ } else { /* It's really way too big, so allocate a temporary packet * with space for the single opcode plus the payload & * header. */ data_ptr = (unsigned char *) crAlloc( sizeof(CRMessageOpcodes) + 4 + size ); /* skip the header & opcode space */ data_ptr += sizeof(CRMessageOpcodes) + 4; } } /* At the top of the function, we added four to the request size and * rounded it up to the next multiple of four. * * At this point, we have: * * HIGH MEM | byte size - 1 | \ * ... | * ... | - original 'size' bytes for data * | operand data | | * return value -> | operand data | / * | byte 3 | \ * | byte 2 | |- These bytes will store 'size' * | byte 1 | | * data_ptr -> | byte 0 | / * | CR opcode | <- Set in packspuHuge() * | unused | * | unused | * | unused | * | CRMessageOpcodes | * | CRMessageOpcodes | * ... * | CRMessageOpcodes | * | CRMessageOpcodes | * LOW MEM +------------------+ */ if (pc->swapping) { *((unsigned int *) data_ptr) = SWAP32(size); crDebug( "Just swapped the length, putting %d on the wire!", *((unsigned int *) data_ptr)); } else { *((unsigned int *) data_ptr) = size; } #ifndef CHROMIUM_THREADSAFE sanityCheckPointer = data_ptr + 4; #endif return data_ptr + 4; } #define IS_BUFFERED( packet ) \ ((unsigned char *) (packet) >= pc->buffer.data_start && \ (unsigned char *) (packet) < pc->buffer.data_end) /* * Transmit a packet which was allocated with crPackAlloc. */ void crHugePacket( CR_PACKER_CONTEXT_ARGDECL CROpcode opcode, void *packet ) { CR_GET_PACKER_CONTEXT(pc); #ifndef CHROMIUM_THREADSAFE CRASSERT(sanityCheckPointer == packet); sanityCheckPointer = NULL; #endif if ( IS_BUFFERED( packet ) ) WRITE_OPCODE( pc, opcode ); else pc->SendHuge( opcode, packet ); } void crPackFree( CR_PACKER_CONTEXT_ARGDECL void *packet ) { CR_GET_PACKER_CONTEXT(pc); if ( IS_BUFFERED( packet ) ) { CR_UNLOCK_PACKER_CONTEXT(pc); return; } CR_UNLOCK_PACKER_CONTEXT(pc); /* the pointer passed in doesn't include the space for the single * opcode (4 bytes because of the alignment requirement) or the * length field or the header */ crFree( (unsigned char *) packet - 8 - sizeof(CRMessageOpcodes) ); } void crNetworkPointerWrite( CRNetworkPointer *dst, void *src ) { /* init CRNetworkPointer with invalid values */ dst->ptrAlign[0] = 0xDeadBeef; dst->ptrAlign[1] = 0xCafeBabe; /* copy the pointer's value into the CRNetworkPointer */ crMemcpy( dst, &src, sizeof(src) ); /* if either assertion fails, it probably means that a packer function * (which returns a value) was called without setting up the writeback * pointer, or something like that. */ CRASSERT(dst->ptrAlign[0] != 0xffffffff); CRASSERT(dst->ptrAlign[0] != 0xDeadBeef); }