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#include <stdio.h>
#include <string.h>
#include "ich9desc.h" // structs describing what's in the descriptor region
#include "ich9gbe.h" // structs describing what's in the gbe region
// ---------------------------------------------------------------------
// x86 compatibility checking:
// ---------------------------------------------------------------------
// Basically, this should only return true on non-x86 machines
int structSizesIncorrect(struct DESCRIPTORREGIONRECORD descriptorDummy, struct GBEREGIONRECORD_8K gbe8kDummy) {
unsigned int descriptorRegionStructSize = sizeof(descriptorDummy);
unsigned int gbeRegion8kStructSize = sizeof(gbe8kDummy);
// check compiler bit-packs in a compatible way. basically, it is expected that this code will be used on x86
if (DESCRIPTORREGIONSIZE != descriptorRegionStructSize){
printf("\nerror: compiler incompatibility: descriptor struct length is %i bytes (should be %i)\n", descriptorRegionStructSize, DESCRIPTORREGIONSIZE);
return 1;
}
if (GBEREGIONSIZE != gbeRegion8kStructSize){
printf("\nerror: compiler incompatibility: gbe struct length is %i bytes (should be %i)\n", gbeRegion8kStructSize, GBEREGIONSIZE);
return 1;
}
return 0;
}
int systemIsBigEndian() {
// endianness check. big endian forced to fail
unsigned short steak = 0xBEEF;
unsigned char *grill = (unsigned char*)&steak;
if (*grill==0xBE) {
printf("\nunsigned short 0xBEEF: first byte should be EF, but it's BE. Your system is big endian, and unsupported (only little endian is tested)\n");
return 1;
}
return 0;
}
// fail if members are presented in the wrong order
int structMembersWrongOrder()
{
int i;
struct DESCRIPTORREGIONRECORD descriptorDummy;
unsigned char *meVsccTablePtr = (unsigned char*)&descriptorDummy.meVsccTable;
// These do not use bitfields.
descriptorDummy.meVsccTable.jid0 = 0x01020304; // unsigned int 32-bit
descriptorDummy.meVsccTable.vscc0 = 0x10203040; // unsigned int 32-bit
descriptorDummy.meVsccTable.jid1 = 0x11223344; // unsigned int 32-bit
descriptorDummy.meVsccTable.vscc1 = 0x05060708; // unsigned int 32-bit
descriptorDummy.meVsccTable.jid2 = 0x50607080; // unsigned int 32-bit
descriptorDummy.meVsccTable.vscc2 = 0x55667788; // unsigned int 32-bit
descriptorDummy.meVsccTable.padding[0] = 0xAA; // unsigned char 8-bit
descriptorDummy.meVsccTable.padding[1] = 0xBB; // unsigned char 8-bit
descriptorDummy.meVsccTable.padding[2] = 0xCC; // unsigned char 8-bit
descriptorDummy.meVsccTable.padding[3] = 0xDD; // unsigned char 8-bit
// Look from the top down, and concatenate the unsigned ints but
// with each unsigned in little endian order.
// Then, concatenate the unsigned chars in big endian order. (in the padding array)
// combined, these should become:
// 01020304 10203040 11223344 05060708 50607080 55667788 AA BB CC DD (ignore this. big endian. just working it out manually:)
// 04030201 40302010 44332211 08070605 80706050 88776655 AA BB CC DD (ignore this. not byte-separated, just working it out:)
// 04 03 02 01 40 30 20 10 44 33 22 11 08 07 06 05 80 70 60 50 88 77 66 55 AA BB CC DD <-- it should match this
printf("\nStruct member order check (descriptorDummy.meVsccTable) with junk/dummy data:");
printf("\nShould be: 04 03 02 01 40 30 20 10 44 33 22 11 08 07 06 05 80 70 60 50 88 77 66 55 aa bb cc dd ");
printf("\nAnd it is: ");
for (i = 0; i < 28; i++) {
printf("%02x ", *(meVsccTablePtr + i));
}
printf("\n");
if (
!
(
*meVsccTablePtr == 0x04 && *(meVsccTablePtr+1) == 0x03 && *(meVsccTablePtr+2) == 0x02 && *(meVsccTablePtr+3) == 0x01
&& *(meVsccTablePtr+4) == 0x40 && *(meVsccTablePtr+5) == 0x30 && *(meVsccTablePtr+6) == 0x20 && *(meVsccTablePtr+7) == 0x10
&& *(meVsccTablePtr+8) == 0x44 && *(meVsccTablePtr+9) == 0x33 && *(meVsccTablePtr+10) == 0x22 && *(meVsccTablePtr+11) == 0x11
&& *(meVsccTablePtr+12) == 0x08 && *(meVsccTablePtr+13) == 0x07 && *(meVsccTablePtr+14) == 0x06 && *(meVsccTablePtr+15) == 0x05
&& *(meVsccTablePtr+16) == 0x80 && *(meVsccTablePtr+17) == 0x70 && *(meVsccTablePtr+18) == 0x60 && *(meVsccTablePtr+19) == 0x50
&& *(meVsccTablePtr+20) == 0x88 && *(meVsccTablePtr+21) == 0x77 && *(meVsccTablePtr+22) == 0x66 && *(meVsccTablePtr+23) == 0x55
&& *(meVsccTablePtr+24) == 0xAA && *(meVsccTablePtr+25) == 0xBB && *(meVsccTablePtr+26) == 0xCC && *(meVsccTablePtr+27) == 0xDD
)
) {
printf("Incorrect order.\n");
return 1;
}
printf("Correct order.\n");
return 0;
}
// fail if bit fields are presented in the wrong order
int structBitfieldWrongOrder()
{
int i;
struct DESCRIPTORREGIONRECORD descriptorDummy;
unsigned char *flMap0Ptr = (unsigned char*)&descriptorDummy.flMaps.flMap0;
descriptorDummy.flMaps.flMap0.FCBA = 0xA2; // :8 --> 10100010
descriptorDummy.flMaps.flMap0.NC = 0x02; // :2 --> 10
descriptorDummy.flMaps.flMap0.reserved1 = 0x38; // :6 --> 111000
descriptorDummy.flMaps.flMap0.FRBA = 0xD2; // :8 --> 11010010
descriptorDummy.flMaps.flMap0.NR = 0x05; // :3 --> 101
descriptorDummy.flMaps.flMap0.reserved2 = 0x1C; // :5 --> 11100
// Look from the top bottom up, and concatenate the binary strings.
// Then, convert the 8-bit groups to hex and reverse the (8-bit)byte order
// combined, these should become (in memory), in binary:
// 10100010 11100010 11010010 11100101
// or in hex:
// A2 E2 D2 E5
printf("\nBitfield order check (descriptorDummy.flMaps.flMaps0) with junk/dummy data:");
printf("\nShould be: a2 e2 d2 e5 ");
printf("\nAnd it is: ");
for (i = 0; i < 4; i++) {
printf("%02x ", *(flMap0Ptr + i));
}
printf("\n");
if (!(*flMap0Ptr == 0xA2 && *(flMap0Ptr+1) == 0xE2 && *(flMap0Ptr+2) == 0xD2 && *(flMap0Ptr+3) == 0xE5)) {
printf("Incorrect order.\n");
return 1;
}
printf("Correct order.\n");
return 0;
}
// Compatibility checks. This version of ich9deblob is not yet porable.
int systemOrCompilerIncompatible(struct DESCRIPTORREGIONRECORD descriptorStruct, struct GBEREGIONRECORD_8K gbeStruct8k)
{
if (structSizesIncorrect(descriptorStruct, gbeStruct8k)) return 1;
if (systemIsBigEndian()) return 1;
if (structBitfieldWrongOrder()) return 1;
if (structMembersWrongOrder()) return 1;
return 0;
}
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