From: Luo Xionghu <[email protected]> currently, we support create program from 4 types of binary: SPIR(BITCODE), LLVM Compiled Object, LLVM Library and GEN Binary. The detailed formats are listed in code. also use table to match or fill gen binary header in backend.
Signed-off-by: Luo Xionghu <[email protected]> --- backend/src/backend/gen_program.cpp | 107 ++++++++++++++++++++++-------------- src/cl_program.c | 51 ++++++++++------- 2 files changed, 95 insertions(+), 63 deletions(-) diff --git a/backend/src/backend/gen_program.cpp b/backend/src/backend/gen_program.cpp index 233dfe9..28d4ab9 100644 --- a/backend/src/backend/gen_program.cpp +++ b/backend/src/backend/gen_program.cpp @@ -205,32 +205,60 @@ namespace gbe { } #define BINARY_HEADER_LENGTH 8 -#define IS_GEN_BINARY(binary) (*binary == '\0' && *(binary+1) == 'G'&& *(binary+2) == 'E' &&*(binary+3) == 'N' &&*(binary+4) == 'C') -#define FILL_GEN_BINARY(binary) do{*binary = '\0'; *(binary+1) = 'G'; *(binary+2) = 'E'; *(binary+3) = 'N'; *(binary+4) = 'C';}while(0) -#define FILL_DEVICE_ID(binary, src_hw_info) do {*(binary+5) = src_hw_info[0]; *(binary+6) = src_hw_info[1]; *(binary+7) = src_hw_info[2];}while(0) -#define DEVICE_MATCH(typeA, src_hw_info) ((IS_IVYBRIDGE(typeA) && !strcmp(src_hw_info, "IVB")) || \ - (IS_IVYBRIDGE(typeA) && !strcmp(src_hw_info, "BYT")) || \ - (IS_BAYTRAIL_T(typeA) && !strcmp(src_hw_info, "BYT")) || \ - (IS_HASWELL(typeA) && !strcmp(src_hw_info, "HSW")) || \ - (IS_BROADWELL(typeA) && !strcmp(src_hw_info, "BDW")) || \ - (IS_CHERRYVIEW(typeA) && !strcmp(src_hw_info, "CHV")) || \ - (IS_SKYLAKE(typeA) && !strcmp(src_hw_info, "SKL")) ) + +static const unsigned char gen_binary_header[7][BINARY_HEADER_LENGTH]= \ + {{0, 'G','E', 'N', 'C', 'B', 'Y', 'T'}, + {0, 'G','E', 'N', 'C', 'I', 'V', 'B'}, + {0, 'G','E', 'N', 'C', 'H', 'S', 'W'}, + {0, 'G','E', 'N', 'C', 'C', 'H', 'V'}, + {0, 'G','E', 'N', 'C', 'B', 'D', 'W'}, + {0, 'G','E', 'N', 'C', 'S', 'K', 'L'}, + {0}}; + +#define FILL_GEN_HEADER(binary, index) do {int i = 0; do {*(binary+i) = gen_binary_header[index][i]; i++; }while(i < BINARY_HEADER_LENGTH);}while(0) +#define FILL_BYT_HEADER(binary) FILL_GEN_HEADER(binary, 0) +#define FILL_IVB_HEADER(binary) FILL_GEN_HEADER(binary, 1) +#define FILL_HSW_HEADER(binary) FILL_GEN_HEADER(binary, 2) +#define FILL_CHV_HEADER(binary) FILL_GEN_HEADER(binary, 3) +#define FILL_BDW_HEADER(binary) FILL_GEN_HEADER(binary, 4) +#define FILL_SKL_HEADER(binary) FILL_GEN_HEADER(binary, 5) + + static bool binaryCompare8(const unsigned char *BufPtr1, const unsigned char* BufPtr2) + { + return BufPtr1[0] == BufPtr2[0] && + BufPtr1[1] == BufPtr2[1] && + BufPtr1[2] == BufPtr2[2] && + BufPtr1[3] == BufPtr2[3] && + BufPtr1[4] == BufPtr2[4] && + BufPtr1[5] == BufPtr2[5] && + BufPtr1[6] == BufPtr2[6] && + BufPtr1[7] == BufPtr2[7]; + } + +#define MATCH_BYT_HEADER(binary) binaryCompare8(binary, gen_binary_header[0]) +#define MATCH_IVB_HEADER(binary) binaryCompare8(binary, gen_binary_header[1]) +#define MATCH_HSW_HEADER(binary) binaryCompare8(binary, gen_binary_header[2]) +#define MATCH_CHV_HEADER(binary) binaryCompare8(binary, gen_binary_header[3]) +#define MATCH_BDW_HEADER(binary) binaryCompare8(binary, gen_binary_header[4]) +#define MATCH_SKL_HEADER(binary) binaryCompare8(binary, gen_binary_header[5]) + +#define MATCH_DEVICE(typeA, binary) ((IS_IVYBRIDGE(typeA) && MATCH_IVB_HEADER(binary)) || \ + (IS_IVYBRIDGE(typeA) && MATCH_IVB_HEADER(binary)) || \ + (IS_BAYTRAIL_T(typeA) && MATCH_BYT_HEADER(binary)) || \ + (IS_HASWELL(typeA) && MATCH_HSW_HEADER(binary)) || \ + (IS_BROADWELL(typeA) && MATCH_BDW_HEADER(binary)) || \ + (IS_CHERRYVIEW(typeA) && MATCH_CHV_HEADER(binary)) || \ + (IS_SKYLAKE(typeA) && MATCH_SKL_HEADER(binary)) ) static gbe_program genProgramNewFromBinary(uint32_t deviceID, const char *binary, size_t size) { using namespace gbe; std::string binary_content; + + if(size < BINARY_HEADER_LENGTH) + return NULL; + //the header length is 8 bytes: 1 byte is binary type, 4 bytes are bitcode header, 3 bytes are hw info. - char src_hw_info[4]=""; - src_hw_info[0] = *(binary+5); - src_hw_info[1] = *(binary+6); - src_hw_info[2] = *(binary+7); - - // check whether is gen binary ('/0GENC') - if(!IS_GEN_BINARY(binary)){ - return NULL; - } - // check the whether the current device ID match the binary file's. - if(!DEVICE_MATCH(deviceID, src_hw_info)){ + if(!MATCH_DEVICE(deviceID, (unsigned char*)binary)){ return NULL; } @@ -300,36 +328,28 @@ namespace gbe { //add header to differetiate from llvm bitcode binary. //the header length is 8 bytes: 1 byte is binary type, 4 bytes are bitcode header, 3 bytes are hw info. *binary = (char *)malloc(sizeof(char) * (sz+BINARY_HEADER_LENGTH) ); + if(*binary == NULL) + return 0; + memset(*binary, 0, sizeof(char) * (sz+BINARY_HEADER_LENGTH) ); - FILL_GEN_BINARY(*binary); - char src_hw_info[4]=""; if(IS_IVYBRIDGE(prog->deviceID)){ - src_hw_info[0]='I'; - src_hw_info[1]='V'; - src_hw_info[2]='B'; + FILL_IVB_HEADER(*binary); if(IS_BAYTRAIL_T(prog->deviceID)){ - src_hw_info[0]='B'; - src_hw_info[1]='Y'; - src_hw_info[2]='T'; + FILL_BYT_HEADER(*binary); } }else if(IS_HASWELL(prog->deviceID)){ - src_hw_info[0]='H'; - src_hw_info[1]='S'; - src_hw_info[2]='W'; + FILL_HSW_HEADER(*binary); }else if(IS_BROADWELL(prog->deviceID)){ - src_hw_info[0]='B'; - src_hw_info[1]='D'; - src_hw_info[2]='W'; + FILL_BDW_HEADER(*binary); }else if(IS_CHERRYVIEW(prog->deviceID)){ - src_hw_info[0]='C'; - src_hw_info[1]='H'; - src_hw_info[2]='V'; + FILL_CHV_HEADER(*binary); }else if(IS_SKYLAKE(prog->deviceID)){ - src_hw_info[0]='S'; - src_hw_info[1]='K'; - src_hw_info[2]='L'; + FILL_SKL_HEADER(*binary); + }else { + free(*binary); + *binary = NULL; + return 0; } - FILL_DEVICE_ID(*binary, src_hw_info); memcpy(*binary+BINARY_HEADER_LENGTH, oss.str().c_str(), sz*sizeof(char)); return sz+BINARY_HEADER_LENGTH; }else{ @@ -340,6 +360,9 @@ namespace gbe { std::string& bin_str = OS.str(); int llsz = bin_str.size(); *binary = (char *)malloc(sizeof(char) * (llsz+1) ); + if(*binary == NULL) + return 0; + *(*binary) = binary_type; memcpy(*binary+1, bin_str.c_str(), llsz); return llsz+1; diff --git a/src/cl_program.c b/src/cl_program.c index 55c1ee8..ceda6ac 100644 --- a/src/cl_program.c +++ b/src/cl_program.c @@ -166,29 +166,34 @@ error: return err; } -inline cl_bool isBitcodeWrapper(const unsigned char *BufPtr, const unsigned char *BufEnd) +inline cl_bool binaryCompare4(const unsigned char *BufPtr1, const unsigned char* BufPtr2) { - // See if you can find the hidden message in the magic bytes :-). - // (Hint: it's a little-endian encoding.) - return BufPtr != BufEnd && - BufPtr[0] == 0xDE && - BufPtr[1] == 0xC0 && - BufPtr[2] == 0x17 && - BufPtr[3] == 0x0B; + return BufPtr1[0] == BufPtr2[0] && + BufPtr1[1] == BufPtr2[1] && + BufPtr1[2] == BufPtr2[2] && + BufPtr1[3] == BufPtr2[3]; } -inline cl_bool isRawBitcode(const unsigned char *BufPtr, const unsigned char *BufEnd) +inline cl_bool binaryCompare5(const unsigned char *BufPtr1, const unsigned char* BufPtr2) { - // These bytes sort of have a hidden message, but it's not in - // little-endian this time, and it's a little redundant. - return BufPtr != BufEnd && - BufPtr[0] == 'B' && - BufPtr[1] == 'C' && - BufPtr[2] == 0xc0 && - BufPtr[3] == 0xde; + return BufPtr1[0] == BufPtr2[0] && + BufPtr1[1] == BufPtr2[1] && + BufPtr1[2] == BufPtr2[2] && + BufPtr1[3] == BufPtr2[3] && + BufPtr1[4] == BufPtr2[4]; } -#define isBitcode(BufPtr,BufEnd) (isBitcodeWrapper(BufPtr, BufEnd) || isRawBitcode(BufPtr, BufEnd)) +static const unsigned char binary_type_header[5][5]= \ + {{'B','C', 0xC0, 0xDE}, + {1, 'B', 'C', 0xC0, 0xDE}, + {2, 'B', 'C', 0xC0, 0xDE}, + {0, 'G','E', 'N', 'C'}, + {0}}; + +#define isSPIR(BufPtr) binaryCompare4(BufPtr, binary_type_header[0]) +#define isLLVM_C_O(BufPtr) binaryCompare5(BufPtr, binary_type_header[1]) +#define isLLVM_LIB(BufPtr) binaryCompare5(BufPtr, binary_type_header[2]) +#define isGenBinary(BufPtr) binaryCompare5(BufPtr, binary_type_header[3]) LOCAL cl_program cl_program_create_from_binary(cl_context ctx, @@ -216,7 +221,7 @@ cl_program_create_from_binary(cl_context ctx, goto error; } - if (lengths[0] == 0) { + if (lengths[0] == 0 || lengths[0] < 4) { err = CL_INVALID_VALUE; if (binary_status) binary_status[0] = CL_INVALID_VALUE; @@ -235,7 +240,7 @@ cl_program_create_from_binary(cl_context ctx, program->binary_sz = lengths[0]; program->source_type = FROM_BINARY; - if(isBitcode((unsigned char*)program->binary, (unsigned char*)program->binary+program->binary_sz)) { + if(isSPIR((unsigned char*)program->binary)) { char* typed_binary; TRY_ALLOC(typed_binary, cl_calloc(lengths[0]+1, sizeof(char))); @@ -249,7 +254,7 @@ cl_program_create_from_binary(cl_context ctx, } program->source_type = FROM_LLVM_SPIR; - }else if(isBitcode((unsigned char*)program->binary+1, (unsigned char*)program->binary+program->binary_sz)) { + }else if(isLLVM_C_O((unsigned char*)program->binary) || isLLVM_LIB((unsigned char*)program->binary)) { if(*program->binary == 1){ program->binary_type = CL_PROGRAM_BINARY_TYPE_COMPILED_OBJECT; }else if(*program->binary == 2){ @@ -266,7 +271,7 @@ cl_program_create_from_binary(cl_context ctx, } program->source_type = FROM_LLVM; } - else if (*program->binary == 0) { + else if (isGenBinary((unsigned char*)program->binary)) { program->opaque = interp_program_new_from_binary(program->ctx->device->device_id, program->binary, program->binary_sz); if (UNLIKELY(program->opaque == NULL)) { err = CL_INVALID_PROGRAM; @@ -277,6 +282,10 @@ cl_program_create_from_binary(cl_context ctx, TRY (cl_program_load_gen_program, program); program->binary_type = CL_PROGRAM_BINARY_TYPE_EXECUTABLE; } + else { + err= CL_INVALID_BINARY; + goto error; + } if (binary_status) binary_status[0] = CL_SUCCESS; -- 1.9.1 _______________________________________________ Beignet mailing list [email protected] http://lists.freedesktop.org/mailman/listinfo/beignet
