/** @file Default exception handler Copyright (c) 2008 - 2010, Apple Inc. All rights reserved.
This program and the accompanying materials are licensed and made available under the terms and conditions of the BSD License which accompanies this distribution. The full text of the license may be found at http://opensource.org/licenses/bsd-license.php THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. **/ #include #include #include #include CHAR8 *gCondition[] = { "EQ", "NE", "CS", "CC", "MI", "PL", "VS", "VC", "HI", "LS", "GE", "LT", "GT", "LE", "", "2" }; #define COND(_a) gCondition[((_a) >> 28)] CHAR8 *gReg[] = { "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7", "r8", "r9", "r10", "r11", "r12", "sp", "lr", "pc" }; CHAR8 *gLdmAdr[] = { "DA", "IA", "DB", "IB" }; CHAR8 *gLdmStack[] = { "FA", "FD", "EA", "ED" }; #define LDM_EXT(_reg, _off) ((_reg == 13) ? gLdmStack[(_off)] : gLdmAdr[(_off)]) #define SIGN(_U) ((_U) ? "" : "-") #define WRITE(_W) ((_W) ? "!" : "") #define BYTE(_B) ((_B) ? "B":"") #define USER(_B) ((_B) ? "^" : "") CHAR8 mMregListStr[4*15 + 1]; CHAR8 * MRegList ( UINT32 OpCode ) { UINTN Index, Start, End; BOOLEAN First; mMregListStr[0] = '\0'; AsciiStrCatS (mMregListStr, sizeof mMregListStr, "{"); for (Index = 0, First = TRUE; Index <= 15; Index++) { if ((OpCode & (1 << Index)) != 0) { Start = End = Index; for (Index++; ((OpCode & (1 << Index)) != 0) && Index <= 15; Index++) { End = Index; } if (!First) { AsciiStrCatS (mMregListStr, sizeof mMregListStr, ","); } else { First = FALSE; } if (Start == End) { AsciiStrCatS (mMregListStr, sizeof mMregListStr, gReg[Start]); AsciiStrCatS (mMregListStr, sizeof mMregListStr, ", "); } else { AsciiStrCatS (mMregListStr, sizeof mMregListStr, gReg[Start]); AsciiStrCatS (mMregListStr, sizeof mMregListStr, "-"); AsciiStrCatS (mMregListStr, sizeof mMregListStr, gReg[End]); } } } if (First) { AsciiStrCatS (mMregListStr, sizeof mMregListStr, "ERROR"); } AsciiStrCatS (mMregListStr, sizeof mMregListStr, "}"); // BugBug: Make caller pass in buffer it is cleaner return mMregListStr; } CHAR8 * FieldMask ( IN UINT32 Mask ) { return ""; } UINT32 RotateRight ( IN UINT32 Op, IN UINT32 Shift ) { return (Op >> Shift) | (Op << (32 - Shift)); } /** Place a dissasembly of of **OpCodePtr into buffer, and update OpCodePtr to point to next instructin. We cheat and only decode instructions that access memory. If the instruction is not found we dump the instruction in hex. @param OpCodePtr Pointer to pointer of ARM instruction to disassemble. @param Buf Buffer to sprintf disassembly into. @param Size Size of Buf in bytes. @param Extended TRUE dump hex for instruction too. **/ VOID DisassembleArmInstruction ( IN UINT32 **OpCodePtr, OUT CHAR8 *Buf, OUT UINTN Size, IN BOOLEAN Extended ) { UINT32 OpCode = **OpCodePtr; CHAR8 *Type, *Root; BOOLEAN I, P, U, B, W, L, S, H; UINT32 Rn, Rd, Rm; UINT32 imode, offset_8, offset_12; UINT32 Index; UINT32 shift_imm, shift; I = (OpCode & BIT25) == BIT25; P = (OpCode & BIT24) == BIT24; U = (OpCode & BIT23) == BIT23; B = (OpCode & BIT22) == BIT22; // Also called S W = (OpCode & BIT21) == BIT21; L = (OpCode & BIT20) == BIT20; S = (OpCode & BIT6) == BIT6; H = (OpCode & BIT5) == BIT5; Rn = (OpCode >> 16) & 0xf; Rd = (OpCode >> 12) & 0xf; Rm = (OpCode & 0xf); if (Extended) { Index = AsciiSPrint (Buf, Size, "0x%08x ", OpCode); Buf += Index; Size -= Index; } // LDREX, STREX if ((OpCode & 0x0fe000f0) == 0x01800090) { if (L) { // A4.1.27 LDREX{} , [] AsciiSPrint (Buf, Size, "LDREX%a %a, [%a]", COND (OpCode), gReg[Rd], gReg[Rn]); } else { // A4.1.103 STREX{} , , [] AsciiSPrint (Buf, Size, "STREX%a %a, %a, [%a]", COND (OpCode), gReg[Rd], gReg[Rn], gReg[Rn]); } return; } // LDM/STM if ((OpCode & 0x0e000000) == 0x08000000) { if (L) { // A4.1.20 LDM{} {!}, // A4.1.21 LDM{} , ^ // A4.1.22 LDM{} {!}, ^ AsciiSPrint (Buf, Size, "LDM%a%a, %a%a, %a", COND (OpCode), LDM_EXT (Rn ,(OpCode >> 23) & 3), gReg[Rn], WRITE (W), MRegList (OpCode), USER (B)); } else { // A4.1.97 STM{} {!}, // A4.1.98 STM{} , ^ AsciiSPrint (Buf, Size, "STM%a%a, %a%a, %a", COND (OpCode), LDM_EXT (Rn ,(OpCode >> 23) & 3), gReg[Rn], WRITE (W), MRegList (OpCode), USER (B)); } return; } // LDR/STR Address Mode 2 if ( ((OpCode & 0x0c000000) == 0x04000000) || ((OpCode & 0xfd70f000 ) == 0xf550f000) ) { offset_12 = OpCode & 0xfff; if ((OpCode & 0xfd70f000 ) == 0xf550f000) { Index = AsciiSPrint (Buf, Size, "PLD"); } else { Index = AsciiSPrint (Buf, Size, "%a%a%a%a %a, ", L ? "LDR" : "STR", COND (OpCode), BYTE (B), (!(P) && W) ? "T":"", gReg[Rd]); } if (P) { if (!I) { // A5.2.2 [, #+/-] // A5.2.5 [, #+/-] AsciiSPrint (&Buf[Index], Size - Index, "[%a, #%a0x%x]%a", gReg[Rn], SIGN (U), offset_12, WRITE (W)); } else if ((OpCode & 0x03000ff0) == 0x03000000) { // A5.2.3 [, +/-] // A5.2.6 [, +/-]! AsciiSPrint (&Buf[Index], Size - Index, "[%a, #%a%a]%a", gReg[Rn], SIGN (U), WRITE (W)); } else { // A5.2.4 [, +/-, LSL #] // A5.2.7 [, +/-, LSL #]! shift_imm = (OpCode >> 7) & 0x1f; shift = (OpCode >> 5) & 0x3; if (shift == 0x0) { Type = "LSL"; } else if (shift == 0x1) { Type = "LSR"; if (shift_imm == 0) { shift_imm = 32; } } else if (shift == 0x12) { Type = "ASR"; } else if (shift_imm == 0) { AsciiSPrint (&Buf[Index], Size - Index, "[%a, #%a%a, %a, RRX]%a", gReg[Rn], SIGN (U), gReg[Rm], WRITE (W)); return; } else { Type = "ROR"; } AsciiSPrint (&Buf[Index], Size - Index, "[%a, #%a%a, %a, #%d]%a", gReg[Rn], SIGN (U), gReg[Rm], Type, shift_imm, WRITE (W)); } } else { // !P if (!I) { // A5.2.8 [], #+/- AsciiSPrint (&Buf[Index], Size - Index, "[%a], #%a0x%x", gReg[Rn], SIGN (U), offset_12); } else if ((OpCode & 0x03000ff0) == 0x03000000) { // A5.2.9 [], +/- AsciiSPrint (&Buf[Index], Size - Index, "[%a], #%a%a", gReg[Rn], SIGN (U), gReg[Rm]); } else { // A5.2.10 [], +/-, LSL # shift_imm = (OpCode >> 7) & 0x1f; shift = (OpCode >> 5) & 0x3; if (shift == 0x0) { Type = "LSL"; } else if (shift == 0x1) { Type = "LSR"; if (shift_imm == 0) { shift_imm = 32; } } else if (shift == 0x12) { Type = "ASR"; } else if (shift_imm == 0) { AsciiSPrint (&Buf[Index], Size - Index, "[%a], #%a%a, %a, RRX", gReg[Rn], SIGN (U), gReg[Rm]); // FIx me return; } else { Type = "ROR"; } AsciiSPrint (&Buf[Index], Size - Index, "[%a], #%a%a, %a, #%d", gReg[Rn], SIGN (U), gReg[Rm], Type, shift_imm); } } return; } if ((OpCode & 0x0e000000) == 0x00000000) { // LDR/STR address mode 3 // LDR|STR{}H|SH|SB|D , if (L) { if (!S) { Root = "LDR%aH %a, "; } else if (!H) { Root = "LDR%aSB %a, "; } else { Root = "LDR%aSH %a, "; } } else { if (!S) { Root = "STR%aH %a "; } else if (!H) { Root = "LDR%aD %a "; } else { Root = "STR%aD %a "; } } Index = AsciiSPrint (Buf, Size, Root, COND (OpCode), gReg[Rd]); S = (OpCode & BIT6) == BIT6; H = (OpCode & BIT5) == BIT5; offset_8 = ((OpCode >> 4) | (OpCode * 0xf)) & 0xff; if (P & !W) { // Immediate offset/index if (B) { // A5.3.2 [, #+/-] // A5.3.4 [, #+/-]! AsciiSPrint (&Buf[Index], Size - Index, "[%a, #%a%d]%a", gReg[Rn], SIGN (U), offset_8, WRITE (W)); } else { // A5.3.3 [, +/-] // A5.3.5 [, +/-]! AsciiSPrint (&Buf[Index], Size - Index, "[%a, #%a%]a", gReg[Rn], SIGN (U), gReg[Rm], WRITE (W)); } } else { // Register offset/index if (B) { // A5.3.6 [], #+/- AsciiSPrint (&Buf[Index], Size - Index, "[%a], #%a%d", gReg[Rn], SIGN (U), offset_8); } else { // A5.3.7 [], +/- AsciiSPrint (&Buf[Index], Size - Index, "[%a], #%a%a", gReg[Rn], SIGN (U), gReg[Rm]); } } return; } if ((OpCode & 0x0fb000f0) == 0x01000050) { // A4.1.108 SWP SWP{}B , , [] // A4.1.109 SWPB SWP{}B , , [] AsciiSPrint (Buf, Size, "SWP%a%a %a, %a, [%a]", COND (OpCode), BYTE (B), gReg[Rd], gReg[Rm], gReg[Rn]); return; } if ((OpCode & 0xfe5f0f00) == 0xf84d0500) { // A4.1.90 SRS SRS #{!} AsciiSPrint (Buf, Size, "SRS%a #0x%x%a", gLdmStack[(OpCode >> 23) & 3], OpCode & 0x1f, WRITE (W)); return; } if ((OpCode & 0xfe500f00) == 0xf8100500) { // A4.1.59 RFE {!} AsciiSPrint (Buf, Size, "RFE%a %a", gLdmStack[(OpCode >> 23) & 3], gReg[Rn], WRITE (W)); return; } if ((OpCode & 0xfff000f0) == 0xe1200070) { // A4.1.7 BKPT AsciiSPrint (Buf, Size, "BKPT %x", ((OpCode >> 8) | (OpCode & 0xf)) & 0xffff); return; } if ((OpCode & 0xfff10020) == 0xf1000000) { // A4.1.16 CPS {, #} if (((OpCode >> 6) & 0x7) == 0) { AsciiSPrint (Buf, Size, "CPS #0x%x", (OpCode & 0x2f)); } else { imode = (OpCode >> 18) & 0x3; Index = AsciiSPrint (Buf, Size, "CPS%a %a%a%a", (imode == 3) ? "ID":"IE", (OpCode & BIT8) ? "A":"", (OpCode & BIT7) ? "I":"", (OpCode & BIT6) ? "F":""); if ((OpCode & BIT17) != 0) { AsciiSPrint (&Buf[Index], Size - Index, ", #0x%x", OpCode & 0x1f); } } return; } if ((OpCode & 0x0f000000) == 0x0f000000) { // A4.1.107 SWI{} AsciiSPrint (Buf, Size, "SWI%a %x", COND (OpCode), OpCode & 0x00ffffff); return; } if ((OpCode & 0x0fb00000) == 0x01000000) { // A4.1.38 MRS{} , CPSR MRS{} , SPSR AsciiSPrint (Buf, Size, "MRS%a %a, %a", COND (OpCode), gReg[Rd], B ? "SPSR" : "CPSR"); return; } if ((OpCode & 0x0db00000) == 0x03200000) { // A4.1.38 MSR{} CPSR_, # MSR{} CPSR_, if (I) { // MSR{} CPSR_, # AsciiSPrint (Buf, Size, "MRS%a %a_%a, #0x%x", COND (OpCode), B ? "SPSR" : "CPSR", FieldMask ((OpCode >> 16) & 0xf), RotateRight (OpCode & 0xf, ((OpCode >> 8) & 0xf) *2)); } else { // MSR{} CPSR_, AsciiSPrint (Buf, Size, "MRS%a %a_%a, %a", COND (OpCode), B ? "SPSR" : "CPSR", gReg[Rd]); } return; } if ((OpCode & 0xff000010) == 0xfe000000) { // A4.1.13 CDP{} , , , , , AsciiSPrint (Buf, Size, "CDP%a 0x%x, 0x%x, CR%d, CR%d, CR%d, 0x%x", COND (OpCode), (OpCode >> 8) & 0xf, (OpCode >> 20) & 0xf, Rn, Rd, Rm, (OpCode >> 5) &0x7); return; } if ((OpCode & 0x0e000000) == 0x0c000000) { // A4.1.19 LDC and A4.1.96 SDC if ((OpCode & 0xf0000000) == 0xf0000000) { Index = AsciiSPrint (Buf, Size, "%a2 0x%x, CR%d, ", L ? "LDC":"SDC", (OpCode >> 8) & 0xf, Rd); } else { Index = AsciiSPrint (Buf, Size, "%a%a 0x%x, CR%d, ", L ? "LDC":"SDC", COND (OpCode), (OpCode >> 8) & 0xf, Rd); } if (!P) { if (!W) { // A5.5.5.5 [],