/* * rsrc_patches.cpp - Resource patches * * SheepShaver (C) 1997-2008 Christian Bauer and Marc Hellwig * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include "sysdeps.h" #include "rsrc_patches.h" #include "cpu_emulation.h" #include "emul_op.h" #include "xlowmem.h" #include "macos_util.h" #include "rom_patches.h" #include "main.h" #include "audio.h" #include "audio_defs.h" #include "thunks.h" #define DEBUG 0 #include "debug.h" // Sound input driver static const uint8 sound_input_driver[] = { // .AppleSoundInput driver header // Driver header 0x4d, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x24, // Open() offset 0x00, 0x28, // Prime() offset 0x00, 0x2c, // Control() offset 0x00, 0x38, // Status() offset 0x00, 0x5e, // Close() offset 0x10, 0x2e, 0x41, 0x70, 0x70, 0x6c, 0x65, 0x53, 0x6f, 0x75, 0x6e, 0x64, 0x49, 0x6e, 0x70, 0x75, 0x74, 0x00, // ".AppleSoundInput" // Open() M68K_EMUL_OP_SOUNDIN_OPEN >> 8, M68K_EMUL_OP_SOUNDIN_OPEN & 0xff, 0x4e, 0x75, // rts // Prime() M68K_EMUL_OP_SOUNDIN_PRIME >> 8, M68K_EMUL_OP_SOUNDIN_PRIME & 0xff, 0x60, 0x0e, // bra IOReturn // Control() M68K_EMUL_OP_SOUNDIN_CONTROL >> 8, M68K_EMUL_OP_SOUNDIN_CONTROL & 0xff, 0x0c, 0x68, 0x00, 0x01, 0x00, 0x1a, // cmp.w #1,$1a(a0) 0x66, 0x04, // bne IOReturn 0x4e, 0x75, // rts // Status() M68K_EMUL_OP_SOUNDIN_STATUS >> 8, M68K_EMUL_OP_SOUNDIN_STATUS & 0xff, // IOReturn 0x32, 0x28, 0x00, 0x06, // move.w 6(a0),d1 0x08, 0x01, 0x00, 0x09, // btst #9,d1 0x67, 0x0c, // beq 1 0x4a, 0x40, // tst.w d0 0x6f, 0x02, // ble 2 0x42, 0x40, // clr.w d0 0x31, 0x40, 0x00, 0x10, //2 move.w d0,$10(a0) 0x4e, 0x75, // rts 0x4a, 0x40, //1 tst.w d0 0x6f, 0x04, // ble 3 0x42, 0x40, // clr.w d0 0x4e, 0x75, // rts 0x2f, 0x38, 0x08, 0xfc, //3 move.l $8fc,-(sp) 0x4e, 0x75, // rts // Close() M68K_EMUL_OP_SOUNDIN_CLOSE >> 8, M68K_EMUL_OP_SOUNDIN_CLOSE & 0xff, 0x4e, 0x75, // rts }; /* * Search resource for byte string, return offset (or 0) */ static uint32 find_rsrc_data(const uint8 *rsrc, uint32 max, const uint8 *search, uint32 search_len, uint32 ofs = 0) { while (ofs < max - search_len) { if (!memcmp(rsrc + ofs, search, search_len)) return ofs; ofs++; } return 0; } /* * Resource patches via vCheckLoad */ // 680x0 code pattern matching helper #define PM(N, V) (p[N] == htons(V)) void CheckLoad(uint32 type, int16 id, uint16 *p, uint32 size) { uint16 *p16; uint32 base; D(bug("vCheckLoad %c%c%c%c (%08x) ID %d, data %p, size %d\n", type >> 24, (type >> 16) & 0xff, (type >> 8) & 0xff, type & 0xff, type, id, p, size)); // Don't modify resources in ROM if ((uintptr)p >= (uintptr)ROMBaseHost && (uintptr)p <= (uintptr)(ROMBaseHost + ROM_SIZE)) return; if (type == FOURCC('b','o','o','t') && id == 3) { D(bug("boot 3 found\n")); size >>= 1; while (size--) { if (PM(0,0x51c9) && PM(2,0x2e49)) { // Set boot stack pointer (7.5.2, 7.5.3, 7.5.5, 7.6, 7.6.1, 8.0, 8.1, 8.5, 8.6, 9.0) p[2] = htons(M68K_EMUL_OP_FIX_BOOTSTACK); D(bug(" patch 1 applied\n")); } else if (PM(0,0x4267) && PM(1,0x3f01) && PM(2,0x3f2a) && PM(3,0x0006) && PM(4,0x6100)) { // Check when ntrb 17 is installed (for native Resource Manager patch) (7.5.3, 7.5.5) p[7] = htons(M68K_EMUL_OP_NTRB_17_PATCH3); D(bug(" patch 2 applied\n")); } else if (PM(0,0x3f2a) && PM(1,0x0006) && PM(2,0x3f2a) && PM(3,0x0002) && PM(4,0x6100)) { // Check when ntrb 17 is installed (for native Resource Manager patch) (7.6, 7.6.1, 8.0, 8.1) p[7] = htons(M68K_EMUL_OP_NTRB_17_PATCH); D(bug(" patch 3 applied\n")); } else if (PM(0,0x3f2a) && PM(1,0x0006) && PM(2,0x3f2a) && PM(3,0x0002) && PM(4,0x61ff) && PM(8,0x245f)) { // Check when ntrb 17 is installed (for native Resource Manager patch) (8.5, 8.6) p[8] = htons(M68K_EMUL_OP_NTRB_17_PATCH); D(bug(" patch 4 applied\n")); } else if (PM(0,0x3f2a) && PM(1,0x0006) && PM(2,0x3f2a) && PM(3,0x0002) && PM(4,0x61ff) && PM(7,0x301f)) { // Check when ntrb 17 is installed (for native Resource Manager patch) (9.0) p[7] = htons(M68K_EMUL_OP_NTRB_17_PATCH4); p[8] = htons(ntohs(p[8]) & 0xf0ff); // bra D(bug(" patch 5 applied\n")); } else if (PM(0,0x0c39) && PM(1,0x0001) && PM(2,0xf800) && PM(3,0x0008) && PM(4,0x6f00)) { // Don't read from 0xf8000008 (8.5 with Zanzibar ROM, 8.6, 9.0) p[0] = htons(M68K_NOP); p[1] = htons(M68K_NOP); p[2] = htons(M68K_NOP); p[3] = htons(M68K_NOP); p[4] = htons(0x6000); // bra D(bug(" patch 6 applied\n")); } else if (PM(0,0x2f3c) && PM(1,0x6b72) && PM(2,0x6e6c) && PM(3,0x4267) && PM(4,0xa9a0) && PM(5,0x265f) && PM(6,0x200b) && PM(7,0x6700)) { // Don't replace nanokernel ("krnl" resource) (8.6, 9.0) p[0] = htons(M68K_NOP); p[1] = htons(M68K_NOP); p[2] = htons(M68K_NOP); p[3] = htons(M68K_NOP); p[4] = htons(M68K_NOP); p[7] = htons(0x6000); // bra D(bug(" patch 7 applied\n")); } else if (PM(0,0xa8fe) && PM(1,0x3038) && PM(2,0x017a) && PM(3,0x0c40) && PM(4,0x8805) && PM(5,0x6710)) { // No SCSI (calls via 0x205c jump vector which is not initialized in NewWorld ROM 1.6) (8.6) if (ROMType == ROMTYPE_NEWWORLD) { p[5] = htons(0x6010); // bra D(bug(" patch 8 applied\n")); } } else if (PM(0,0x2f3c) && PM(1,0x7665) && PM(2,0x7273) && PM(3,0x3f3c) && PM(4,0x0001) && PM(10,0x2041) && PM(11,0x2248) && PM(12,0x2050) && PM(20,0x7066) && PM(21,0xa9c9)) { // Check when vers 1 is installed (for safe abort if MacOS < 8.1 is used with a NewWorld ROM) p[10] = htons(M68K_EMUL_OP_CHECK_SYSV); p[11] = htons(0x4a81); // tst.l d1 p[12] = htons(0x670e); // beq.s D(bug(" patch 9 applied\n")); } p++; } } else if (type == FOURCC('g','n','l','d') && id == 0) { D(bug("gnld 0 found\n")); // Patch native Resource Manager after ntrbs are installed (7.5.2) static const uint8 dat[] = {0x4e, 0xba, 0x00, 0x9e, 0x3e, 0x00, 0x50, 0x4f, 0x67, 0x04}; base = find_rsrc_data((uint8 *)p, size, dat, sizeof(dat)); if (base) { p16 = (uint16 *)((uintptr)p + base + 6); *p16 = htons(M68K_EMUL_OP_NTRB_17_PATCH2); D(bug(" patch 1 applied\n")); } } else if (type == FOURCC('p','t','c','h') && id == 156) { D(bug("ptch 156 found\n")); size >>= 1; while (size--) { if (PM(0,0x4e56) && PM(1,0xfffa) && PM(2,0x48e7) && PM(3,0x1f18) && PM(4,0x7800) && PM(5,0x267c) && PM(6,0x6900) && PM(7,0x0000)) { // Don't call FE0A opcode (9.0) p[0] = htons(0x7000); // moveq #0,d0 p[1] = htons(M68K_RTS); D(bug(" patch 1 applied\n")); break; } p++; } } else if (type == FOURCC('p','t','c','h') && id == 420) { D(bug("ptch 420 found\n")); size >>= 1; while (size--) { if (PM(0,0xa030) && PM(1,0x5240) && PM(2,0x303c) && PM(3,0x0100) && PM(4,0xc06e) && PM(5,0xfef6)) { // Disable VM (7.5.2, 7.5.3, 7.5.5, 7.6, 7.6.1) p[1] = htons(M68K_NOP); p[2] = htons(M68K_NOP); p[3] = htons(M68K_NOP); p[4] = htons(M68K_NOP); p[5] = htons(M68K_NOP); p[6] = htons(M68K_NOP); p[7] = htons(M68K_NOP); p[8] = htons(M68K_NOP); p[9] = htons(M68K_NOP); p[10] = htons(M68K_NOP); p[11] = htons(M68K_NOP); D(bug(" patch 1 applied\n")); break; } else if (PM(0,0xa030) && PM(1,0x5240) && PM(2,0x7000) && PM(3,0x302e) && PM(4,0xfef6) && PM(5,0x323c) && PM(6,0x0100)) { // Disable VM (8.0, 8.1) p[8] = htons(M68K_NOP); p[15] = htons(M68K_NOP); D(bug(" patch 2 applied\n")); break; } else if (PM(0,0xa030) && PM(1,0x5240) && PM(2,0x7000) && PM(3,0x302e) && PM(4,0xfecc) && PM(5,0x323c) && PM(6,0x0100)) { // Disable VM (8.5, 8.6, 9.0) p[8] = htons(M68K_NOP); p[15] = htons(M68K_NOP); D(bug(" patch 3 applied\n")); break; } p++; } } else if (type == FOURCC('g','p','c','h') && id == 16) { D(bug("gpch 16 found\n")); size >>= 1; while (size--) { if (PM(0,0x6700) && PM(13,0x7013) && PM(14,0xfe0a)) { // Don't call FE0A in Shutdown Manager (7.6.1, 8.0, 8.1, 8.5) p[0] = htons(0x6000); D(bug(" patch 1 applied\n")); break; } p++; } } else if (type == FOURCC('g','p','c','h') && id == 650) { D(bug("gpch 650 found\n")); size >>= 1; while (size--) { if (PM(0,0x6600) && PM(1,0x001a) && PM(2,0x2278) && PM(3,0x0134)) { // We don't have SonyVars (7.5.2) p[0] = htons(0x6000); D(bug(" patch 1 applied\n")); } else if (PM(0,0x6618) && PM(1,0x2278) && PM(2,0x0134)) { // We don't have SonyVars (7.5.3) p[-6] = htons(M68K_NOP); p[-3] = htons(M68K_NOP); p[0] = htons(0x6018); D(bug(" patch 2 applied\n")); } else if (PM(0,0x6660) && PM(1,0x2278) && PM(2,0x0134)) { // We don't have SonyVars (7.5.3 Revision 2.2) p[-6] = htons(M68K_NOP); p[-3] = htons(M68K_NOP); p[0] = htons(0x6060); D(bug(" patch 3 applied\n")); } else if (PM(0,0x666e) && PM(1,0x2278) && PM(2,0x0134)) { // We don't have SonyVars (7.5.5) p[-6] = htons(M68K_NOP); p[-3] = htons(M68K_NOP); p[0] = htons(0x606e); D(bug(" patch 4 applied\n")); } else if (PM(0,0x6400) && PM(1,0x011c) && PM(2,0x2278) && PM(3,0x0134)) { // We don't have SonyVars (7.6.1, 8.0, 8.1, 8.5, 8.6, 9.0) p[0] = htons(0x6000); D(bug(" patch 5 applied\n")); } else if (PM(0,0x6400) && PM(1,0x00e6) && PM(2,0x2278) && PM(3,0x0134)) { // We don't have SonyVars (7.6) p[0] = htons(0x6000); D(bug(" patch 6 applied\n")); } p++; } } else if (type == FOURCC('g','p','c','h') && id == 655) { D(bug("gpch 655 found\n")); size >>= 1; while (size--) { if (PM(0,0x83a8) && PM(1,0x0024) && PM(2,0x4e71)) { // Don't write to GC interrupt mask (7.6, 7.6.1, 8.0, 8.1 with Zanzibar ROM) p[0] = htons(M68K_NOP); p[1] = htons(M68K_NOP); D(bug(" patch 1 applied\n")); } else if (PM(0,0x207c) && PM(1,0xf300) && PM(2,0x0034)) { // Don't read PowerMac ID (7.6, 7.6.1, 8.0, 8.1 with Zanzibar ROM) p[0] = htons(0x303c); // move.w #id,d0 p[1] = htons(0x3020); p[2] = htons(M68K_RTS); D(bug(" patch 2 applied\n")); } else if (PM(0,0x13fc) && PM(1,0x0081) && PM(2,0xf130) && PM(3,0xa030)) { // Don't write to hardware (7.6, 7.6.1, 8.0, 8.1 with Zanzibar ROM) p[0] = htons(M68K_NOP); p[1] = htons(M68K_NOP); p[2] = htons(M68K_NOP); p[3] = htons(M68K_NOP); D(bug(" patch 3 applied\n")); } else if (PM(0,0x4e56) && PM(1,0x0000) && PM(2,0x227c) && PM(3,0xf800) && PM(4,0x0000)) { // OpenFirmare? (7.6.1, 8.0, 8.1 with Zanzibar ROM) p[0] = htons(M68K_RTS); D(bug(" patch 4 applied\n")); } else if (PM(0,0x4e56) && PM(1,0xfffc) && PM(2,0x48e7) && PM(3,0x0300) && PM(4,0x598f) && PM(5,0x2eb8) && PM(6,0x01dc)) { // Don't write to SCC (7.6.1, 8.0, 8.1 with Zanzibar ROM) p[0] = htons(M68K_RTS); D(bug(" patch 5 applied\n")); } else if (PM(0,0x4e56) && PM(1,0x0000) && PM(2,0x227c) && PM(3,0xf300) && PM(4,0x0034)) { // Don't write to GC (7.6.1, 8.0, 8.1 with Zanzibar ROM) p[0] = htons(M68K_RTS); D(bug(" patch 6 applied\n")); } else if (PM(0,0x40e7) && PM(1,0x007c) && PM(2,0x0700) && PM(3,0x48e7) && PM(4,0x00c0) && PM(5,0x2078) && PM(6,0x0dd8) && PM(7,0xd1e8) && PM(8,0x0044) && PM(9,0x8005) && PM(11,0x93c8) && PM(12,0x2149) && PM(13,0x0024)) { // Don't replace NVRAM routines (7.6, 7.6.1, 8.0, 8.1 with Zanzibar ROM) p[0] = htons(M68K_RTS); D(bug(" patch 7 applied\n")); } else if (PM(0,0x207c) && PM(1,0x50f1) && PM(2,0xa101) && (PM(3,0x08d0) || PM(3,0x0890))) { // Don't write to 0x50f1a101 (8.1 with Zanzibar ROM) p[3] = htons(M68K_NOP); p[4] = htons(M68K_NOP); D(bug(" patch 8 applied\n")); } p++; } } else if (type == FOURCC('g','p','c','h') && id == 750) { D(bug("gpch 750 found\n")); size >>= 1; while (size--) { if (PM(0,0xf301) && PM(1,0x9100) && PM(2,0x0c11) && PM(3,0x0044)) { // Don't read from 0xf3019100 (MACE ENET) (7.6, 7.6.1, 8.0, 8.1) p[2] = htons(M68K_NOP); p[3] = htons(M68K_NOP); p[4] = htons(0x6026); D(bug(" patch 1 applied\n")); } else if (PM(0,0x41e8) && PM(1,0x0374) && PM(2,0xfc1e)) { // Don't call FC1E opcode (7.6, 7.6.1, 8.0, 8.1, 8.5, 8.6) p[2] = htons(M68K_NOP); D(bug(" patch 2 applied\n")); } else if (PM(0,0x700a) && PM(1,0xfe0a)) { // Don't call FE0A opcode (7.6, 7.6.1, 8.0, 8.1, 8.5, 8.6, 9.0) p[1] = htons(0x2008); // move.l a0,d0 D(bug(" patch 3 applied\n")); } else if (PM(0,0x6c00) && PM(1,0x016a) && PM(2,0x2278) && PM(3,0x0134)) { // We don't have SonyVars (8.6) p[-4] = htons(0x21fc); // move.l $40810000,($0000) p[-3] = htons(0x4081); p[-2] = htons(0x0000); p[-1] = htons(0x0000); p[0] = htons(0x6000); D(bug(" patch 4 applied\n")); } p++; } } else if (type == FOURCC('g','p','c','h') && id == 999) { D(bug("gpch 999 found\n")); size >>= 1; while (size--) { if (PM(0,0xf301) && PM(1,0x9100) && PM(2,0x0c11) && PM(3,0x0044)) { // Don't read from 0xf3019100 (MACE ENET) (8.5, 8.6) p[2] = htons(M68K_NOP); p[3] = htons(M68K_NOP); p[4] = htons(0x6026); D(bug(" patch 1 applied\n")); } p++; } } else if (type == FOURCC('g','p','c','h') && id == 3000) { D(bug("gpch 3000 found\n")); size >>= 1; while (size--) { if (PM(0,0xf301) && PM(1,0x9100) && PM(2,0x0c11) && PM(3,0x0044)) { // Don't read from 0xf3019100 (MACE ENET) (8.1 with NewWorld ROM) p[2] = htons(M68K_NOP); p[3] = htons(M68K_NOP); p[4] = htons(0x6026); D(bug(" patch 1 applied\n")); } p++; } } else if (type == FOURCC('l','t','l','k') && id == 0) { D(bug("ltlk 0 found\n")); #if 1 size >>= 1; while (size--) { if (PM(0,0xc2fc) && PM(1,0x0fa0) && PM(2,0x82c5)) { // Prevent division by 0 in speed test (7.5.2, 7.5.3, 7.5.5, 7.6, 7.6.1, 8.0, 8.1) p[2] = htons(0x7200); WriteMacInt32(0x1d8, 0x2c00); WriteMacInt32(0x1dc, 0x2c00); D(bug(" patch 1 applied\n")); } else if (PM(0,0x1418) && PM(1,0x84c1)) { // Prevent division by 0 (7.5.2, 7.5.3, 7.5.5, 7.6, 7.6.1, 8.0, 8.1) p[1] = htons(0x7400); D(bug(" patch 2 applied\n")); } else if (PM(0,0x2678) && PM(1,0x01dc) && PM(2,0x3018) && PM(3,0x6708) && PM(4,0x1680) && PM(5,0xe058) && PM(6,0x1680)) { // Don't write to SCC (7.5.2, 7.5.3, 7.5.5, 7.6, 7.6.1, 8.0, 8.1) p[4] = htons(M68K_NOP); p[6] = htons(M68K_NOP); D(bug(" patch 3 applied\n")); } else if (PM(0,0x2278) && PM(1,0x01dc) && PM(2,0x12bc) && PM(3,0x0006) && PM(4,0x4e71) && PM(5,0x1292)) { // Don't write to SCC (7.5.2, 7.5.3, 7.5.5, 7.6, 7.6.1, 8.0, 8.1) p[2] = htons(M68K_NOP); p[3] = htons(M68K_NOP); p[5] = htons(M68K_NOP); D(bug(" patch 4 applied\n")); } else if (PM(0,0x2278) && PM(1,0x01dc) && PM(2,0x12bc) && PM(3,0x0003) && PM(4,0x4e71) && PM(5,0x1281)) { // Don't write to SCC (7.5.2, 7.5.3, 7.5.5, 7.6, 7.6.1, 8.0, 8.1) p[2] = htons(M68K_NOP); p[3] = htons(M68K_NOP); p[5] = htons(M68K_NOP); D(bug(" patch 5 applied\n")); } else if (PM(0,0x0811) && PM(1,0x0000) && PM(2,0x51c8) && PM(3,0xfffa)) { // Don't test SCC (7.5.2, 7.5.3, 7.5.5, 7.6, 7.6.1, 8.0, 8.1) p[0] = htons(M68K_NOP); p[1] = htons(M68K_NOP); D(bug(" patch 6 applied\n")); } else if (PM(0,0x4a2a) && PM(1,0x063e) && PM(2,0x66fa)) { // Don't wait for SCC (7.5.2, 7.5.3, 7.5.5) p[2] = htons(M68K_NOP); D(bug(" patch 7 applied\n")); } else if (PM(0,0x4a2a) && PM(1,0x03a6) && PM(2,0x66fa)) { // Don't wait for SCC (7.6, 7.6.1, 8.0, 8.1) p[2] = htons(M68K_NOP); D(bug(" patch 8 applied\n")); } p++; } #else // Disable LocalTalk p[0] = htons(M68K_JMP_A0); p[1] = htons(0x7000); // moveq #0,d0 p[2] = htons(M68K_RTS); D(bug(" patch 1 applied\n")); #endif } else if (type == FOURCC('n','s','r','d') && id == 1) { D(bug("nsrd 1 found\n")); if (p[(0x378 + 0x460) >> 1] == htons(0x7c08) && p[(0x37a + 0x460) >> 1] == htons(0x02a6)) { // Don't overwrite our serial drivers (7.5.3 Revision 2.2) p[(0x378 + 0x460) >> 1] = htons(0x4e80); // blr p[(0x37a + 0x460) >> 1] = htons(0x0020); D(bug(" patch 1 applied\n")); } else if (p[(0x378 + 0x570) >> 1] == htons(0x7c08) && p[(0x37a + 0x570) >> 1] == htons(0x02a6)) { // Don't overwrite our serial drivers (8.0, 8.1) p[(0x378 + 0x570) >> 1] = htons(0x4e80); // blr p[(0x37a + 0x570) >> 1] = htons(0x0020); D(bug(" patch 2 applied\n")); } else if (p[(0x378 + 0x6c0) >> 1] == htons(0x7c08) && p[(0x37a + 0x6c0) >> 1] == htons(0x02a6)) { // Don't overwrite our serial drivers (8.5, 8.6) p[(0x378 + 0x6c0) >> 1] = htons(0x4e80); // blr p[(0x37a + 0x6c0) >> 1] = htons(0x0020); D(bug(" patch 3 applied\n")); } else if (p[(0x374 + 0x510) >> 1] == htons(0x7c08) && p[(0x376 + 0x510) >> 1] == htons(0x02a6)) { // Don't overwrite our serial drivers (9.0) p[(0x374 + 0x510) >> 1] = htons(0x4e80); // blr p[(0x376 + 0x510) >> 1] = htons(0x0020); D(bug(" patch 4 applied\n")); } } else if (type == FOURCC('c','i','t','t') && id == 45) { D(bug("citt 45 found\n")); size >>= 1; while (size--) { if (PM(0,0x203c) && PM(1,0x0100) && PM(2,0x0000) && PM(3,0xc0ae) && PM(4,0xfffc)) { // Don't replace SCSI Manager (8.1, 8.5, 8.6, 9.0) p[5] = htons((ntohs(p[5]) & 0xff) | 0x6000); // beq D(bug(" patch 1 applied\n")); break; } p++; } } else if (type == FOURCC('t','h','n','g')) { // Collect info about used audio sifters uint32 thing = Host2MacAddr((uint8 *)p); uint32 c_type = ReadMacInt32(thing); uint32 sub_type = ReadMacInt32(thing + 4); if (c_type == FOURCC('s','d','e','v') && sub_type == FOURCC('s','i','n','g')) { WriteMacInt32(thing + 4, FOURCC('a','w','g','c')); D(bug("thng %d, type %c%c%c%c (%08x), sub type %c%c%c%c (%08x), data %p\n", id, c_type >> 24, (c_type >> 16) & 0xff, (c_type >> 8) & 0xff, c_type & 0xff, c_type, sub_type >> 24, (sub_type >> 16) & 0xff, (sub_type >> 8) & 0xff, sub_type & 0xff, sub_type, p)); AddSifter(ReadMacInt32(thing + componentResType), ReadMacInt16(thing + componentResID)); if (ReadMacInt32(thing + componentPFCount)) AddSifter(ReadMacInt32(thing + componentPFResType), ReadMacInt16(thing + componentPFResID)); } } else if (type == FOURCC('s','i','f','t') || type == FOURCC('n','i','f','t')) { // Patch audio sifters if (FindSifter(type, id)) { D(bug("sifter found\n")); p[0] = htons(0x4e56); p[1] = htons(0x0000); // link a6,#0 p[2] = htons(0x48e7); p[3] = htons(0x8018); // movem.l d0/a3-a4,-(a7) p[4] = htons(0x266e); p[5] = htons(0x000c); // movea.l $c(a6),a3 p[6] = htons(0x286e); p[7] = htons(0x0008); // movea.l $8(a6),a4 p[8] = htons(M68K_EMUL_OP_AUDIO_DISPATCH); p[9] = htons(0x2d40); p[10] = htons(0x0010); // move.l d0,$10(a6) p[11] = htons(0x4cdf); p[12] = htons(0x1801); // movem.l (a7)+,d0/a3-a4 p[13] = htons(0x4e5e); // unlk a6 p[14] = htons(0x4e74); p[15] = htons(0x0008); // rtd #8 D(bug(" patch applied\n")); } } else if (type == FOURCC('D','R','V','R') && (id == -16501 || id == -16500)) { // patch over native sound input driver and trap out to code in audio.cpp D(bug("DRVR -16501/-16500 found\n")); // Install sound input driver memcpy(p, sound_input_driver, sizeof(sound_input_driver)); D(bug(" patch 1 applied\n")); } else if (type == FOURCC('I','N','I','T') && id == 1 && size == (2416 >> 1)) { D(bug("INIT 1 (size 2416) found\n")); size >>= 1; while (size--) { if (PM(0,0x247c) && PM(1,0xf301) && PM(2,0x9000)) { // Prevent "MacOS Licensing Extension" from accessing hardware (7.6) p[22] = htons(0x6028); D(bug(" patch 1 applied\n")); break; } p++; } } else if (type == FOURCC('s','c','o','d') && id == -16465) { D(bug("scod -16465 found\n")); // Don't crash in Process Manager on reset/shutdown (8.6, 9.0) static const uint8 dat[] = {0x4e, 0x56, 0x00, 0x00, 0x48, 0xe7, 0x03, 0x18, 0x2c, 0x2e, 0x00, 0x10}; base = find_rsrc_data((uint8 *)p, size, dat, sizeof(dat)); if (base) { p16 = (uint16 *)((uintptr)p + base); p16[0] = htons(0x7000); // moveq #0,d0 p16[1] = htons(M68K_RTS); D(bug(" patch 1 applied\n")); } } else if (type == FOURCC('N','O','b','j') && id == 100) { D(bug("NObj 100 found\n")); // Don't access VIA registers in MacBench 5.0 static const uint8 dat1[] = {0x7c, 0x08, 0x02, 0xa6, 0xbf, 0x01, 0xff, 0xe0, 0x90, 0x01, 0x00, 0x08}; base = find_rsrc_data((uint8 *)p, size, dat1, sizeof(dat1)); if (base) { p[(base + 0x00) >> 1] = htons(0x3860); // li r3,0 p[(base + 0x02) >> 1] = htons(0x0000); p[(base + 0x04) >> 1] = htons(0x4e80); // blr p[(base + 0x06) >> 1] = htons(0x0020); D(bug(" patch 1 applied\n")); } static const uint8 dat2[] = {0x7c, 0x6c, 0x1b, 0x78, 0x7c, 0x8b, 0x23, 0x78, 0x38, 0xc0, 0x3f, 0xfd}; base = find_rsrc_data((uint8 *)p, size, dat2, sizeof(dat2)); if (base) { p[(base + 0x00) >> 1] = htons(0x3860); // li r3,0 p[(base + 0x02) >> 1] = htons(0x0000); p[(base + 0x04) >> 1] = htons(0x4e80); // blr p[(base + 0x06) >> 1] = htons(0x0020); D(bug(" patch 2 applied\n")); } } else if (type == FOURCC('C','O','D','E') && id == 27 && size == 25024) { D(bug("CODE 27 found [Apple Personal Diagnostics]\n")); // Don't access FCBs directly in Apple Personal Diagnostics (MacOS 9) // FIXME: this should not be called in the first place, use UTResolveFCB? static const uint8 dat[] = {0x2d, 0x78, 0x03, 0x4e, 0xff, 0xf8, 0x20, 0x6e, 0xff, 0xf8}; base = find_rsrc_data((uint8 *)p, size, dat, sizeof(dat)); if (base && ReadMacInt16(0x3f6) == 4 /* FSFCBLen */ && p[(base + 0x1a) >> 1] == htons(0x605e) && p[(base + 0x80) >> 1] == htons(0x7000)) { p[(base + 0x1a) >> 1] = htons(0x6064); D(bug(" patch1 applied\n")); } } else if (type == FOURCC('i','n','f','n') && (id == 129 || id == 200)) { D(bug("infn %d found\n", id)); size >>= 1; while (size--) { if (PM(0,0x203c) && PM(1,0xf800) && PM(2,0x0000) && PM(4,0x2040) && PM(5,0x1028) && PM(6,0x0090)) { // Don't read from 0xf8000090 during MacOS (8.5, 9.0) installation p[0] = htons(M68K_NOP); p[1] = htons(M68K_NOP); p[2] = htons(M68K_NOP); p[3] = htons(M68K_NOP); p[4] = htons(M68K_NOP); p[5] = htons(M68K_NOP); p[6] = htons(0x7000); // moveq #0,d0 D(bug(" patch 1 applied\n")); break; } p++; } } } /* * Resource patches via GetNamedResource() and Get1NamedResource() */ void CheckLoad(uint32 type, const char *name, uint8 *p, uint32 size) { uint16 *p16; uint32 base; D(bug("vCheckLoad %c%c%c%c (%08x) name \"%*s\", data %p, size %d\n", type >> 24, (type >> 16) & 0xff, (type >> 8) & 0xff, type & 0xff, type, name[0], &name[1], p, size)); // Don't modify resources in ROM if ((uintptr)p >= (uintptr)ROMBaseHost && (uintptr)p <= (uintptr)(ROMBaseHost + ROM_SIZE)) return; if (type == FOURCC('D','R','V','R') && strncmp(&name[1], ".AFPTranslator", name[0]) == 0) { D(bug(" DRVR .AFPTranslator found\n")); // Don't access ROM85 as it it was a pointer to a ROM version number (8.0, 8.1) static const uint8 dat[] = {0x3a, 0x2e, 0x00, 0x0a, 0x55, 0x4f, 0x3e, 0xb8, 0x02, 0x8e, 0x30, 0x1f, 0x48, 0xc0, 0x24, 0x40, 0x20, 0x40}; base = find_rsrc_data(p, size, dat, sizeof(dat)); if (base) { p16 = (uint16 *)(p + base + 4); *p16++ = htons(0x303c); // move.l #ROM85,%d0 *p16++ = htons(0x028e); *p16++ = htons(M68K_NOP); *p16++ = htons(M68K_NOP); D(bug(" patch 1 applied\n")); } } } /* * Native Resource Manager patches */ #ifdef __BEOS__ static #else extern "C" #endif void check_load_invoc(uint32 type, int16 id, uint32 h) { if (h == 0) return; uint32 p = ReadMacInt32(h); if (p == 0) return; uint32 size = ReadMacInt32(p - 2 * 4) & 0xffffff; CheckLoad(type, id, (uint16 *)Mac2HostAddr(p), size); } #ifdef __BEOS__ static #else extern "C" #endif void named_check_load_invoc(uint32 type, uint32 name, uint32 h) { if (h == 0) return; uint32 p = ReadMacInt32(h); if (p == 0) return; uint32 size = ReadMacInt32(p - 2 * 4) & 0xffffff; CheckLoad(type, (char *)Mac2HostAddr(name), Mac2HostAddr(p), size); } #ifdef __BEOS__ static asm void **get_resource(register uint32 type, register int16 id) { // Create stack frame mflr r0 stw r0,8(r1) stwu r1,-(56+12)(r1) // Save type/ID stw r3,56(r1) stw r4,56+4(r1) // Call old routine lwz r0,XLM_GET_RESOURCE lwz r2,XLM_RES_LIB_TOC mtctr r0 bctrl lwz r2,XLM_TOC // Get TOC stw r3,56+8(r1) // Save handle // Call CheckLoad lwz r3,56(r1) lwz r4,56+4(r1) lwz r5,56+8(r1) bl check_load_invoc lwz r3,56+8(r1) // Restore handle // Return to caller lwz r0,56+12+8(r1) mtlr r0 addi r1,r1,56+12 blr } static asm void **get_1_resource(register uint32 type, register int16 id) { // Create stack frame mflr r0 stw r0,8(r1) stwu r1,-(56+12)(r1) // Save type/ID stw r3,56(r1) stw r4,56+4(r1) // Call old routine lwz r0,XLM_GET_1_RESOURCE lwz r2,XLM_RES_LIB_TOC mtctr r0 bctrl lwz r2,XLM_TOC // Get TOC stw r3,56+8(r1) // Save handle // Call CheckLoad lwz r3,56(r1) lwz r4,56+4(r1) lwz r5,56+8(r1) bl check_load_invoc lwz r3,56+8(r1) // Restore handle // Return to caller lwz r0,56+12+8(r1) mtlr r0 addi r1,r1,56+12 blr } static asm void **get_ind_resource(register uint32 type, register int16 index) { // Create stack frame mflr r0 stw r0,8(r1) stwu r1,-(56+12)(r1) // Save type/index stw r3,56(r1) stw r4,56+4(r1) // Call old routine lwz r0,XLM_GET_IND_RESOURCE lwz r2,XLM_RES_LIB_TOC mtctr r0 bctrl lwz r2,XLM_TOC // Get TOC stw r3,56+8(r1) // Save handle // Call CheckLoad lwz r3,56(r1) lwz r4,56+4(r1) lwz r5,56+8(r1) bl check_load_invoc lwz r3,56+8(r1) // Restore handle // Return to caller lwz r0,56+12+8(r1) mtlr r0 addi r1,r1,56+12 blr } static asm void **get_1_ind_resource(register uint32 type, register int16 index) { // Create stack frame mflr r0 stw r0,8(r1) stwu r1,-(56+12)(r1) // Save type/index stw r3,56(r1) stw r4,56+4(r1) // Call old routine lwz r0,XLM_GET_1_IND_RESOURCE lwz r2,XLM_RES_LIB_TOC mtctr r0 bctrl lwz r2,XLM_TOC // Get TOC stw r3,56+8(r1) // Save handle // Call CheckLoad lwz r3,56(r1) lwz r4,56+4(r1) lwz r5,56+8(r1) bl check_load_invoc lwz r3,56+8(r1) // Restore handle // Return to caller lwz r0,56+12+8(r1) mtlr r0 addi r1,r1,56+12 blr } static asm void **r_get_resource(register uint32 type, register int16 id) { // Create stack frame mflr r0 stw r0,8(r1) stwu r1,-(56+12)(r1) // Save type/ID stw r3,56(r1) stw r4,56+4(r1) // Call old routine lwz r0,XLM_R_GET_RESOURCE lwz r2,XLM_RES_LIB_TOC mtctr r0 bctrl lwz r2,XLM_TOC // Get TOC stw r3,56+8(r1) // Save handle // Call CheckLoad lwz r3,56(r1) lwz r4,56+4(r1) lwz r5,56+8(r1) bl check_load_invoc lwz r3,56+8(r1) // Restore handle // Return to caller lwz r0,56+12+8(r1) mtlr r0 addi r1,r1,56+12 blr } static asm void **get_named_resource(register uint32 type, register uint32 name) { // Create stack frame mflr r0 stw r0,8(r1) stwu r1,-(56+12)(r1) // Save type/ID stw r3,56(r1) stw r4,56+4(r1) // Call old routine lwz r0,XLM_GET_NAMED_RESOURCE lwz r2,XLM_RES_LIB_TOC mtctr r0 bctrl lwz r2,XLM_TOC // Get TOC stw r3,56+8(r1) // Save handle // Call CheckLoad lwz r3,56(r1) lwz r4,56+4(r1) lwz r5,56+8(r1) bl named_check_load_invoc lwz r3,56+8(r1) // Restore handle // Return to caller lwz r0,56+12+8(r1) mtlr r0 addi r1,r1,56+12 blr } static asm void **get_1_named_resource(register uint32 type, register uint32 name) { // Create stack frame mflr r0 stw r0,8(r1) stwu r1,-(56+12)(r1) // Save type/ID stw r3,56(r1) stw r4,56+4(r1) // Call old routine lwz r0,XLM_GET_1_NAMED_RESOURCE lwz r2,XLM_RES_LIB_TOC mtctr r0 bctrl lwz r2,XLM_TOC // Get TOC stw r3,56+8(r1) // Save handle // Call CheckLoad lwz r3,56(r1) lwz r4,56+4(r1) lwz r5,56+8(r1) bl named_check_load_invoc lwz r3,56+8(r1) // Restore handle // Return to caller lwz r0,56+12+8(r1) mtlr r0 addi r1,r1,56+12 blr } #else // Routines in asm_linux.S extern "C" void get_resource(void); extern "C" void get_1_resource(void); extern "C" void get_ind_resource(void); extern "C" void get_1_ind_resource(void); extern "C" void r_get_resource(void); extern "C" void get_named_resource(void); extern "C" void get_1_named_resource(void); #endif void PatchNativeResourceManager(void) { D(bug("PatchNativeResourceManager\n")); // Patch native GetResource() uint32 upp = ReadMacInt32(0x1480); if ((upp & 0xffc00000) == ROMBase) return; uint32 tvec = ReadMacInt32(upp + 5 * 4); D(bug(" GetResource() entry %08x, TOC %08x\n", ReadMacInt32(tvec), ReadMacInt32(tvec + 4))); WriteMacInt32(XLM_RES_LIB_TOC, ReadMacInt32(tvec + 4)); WriteMacInt32(XLM_GET_RESOURCE, ReadMacInt32(tvec)); #if EMULATED_PPC WriteMacInt32(tvec, NativeFunction(NATIVE_GET_RESOURCE)); #else #ifdef __BEOS__ uint32 *tvec2 = (uint32 *)get_resource; WriteMacInt32(tvec, tvec2[0]); WriteMacInt32(tvec + 4, tvec2[1]); #else WriteMacInt32(tvec, (uint32)get_resource); #endif #endif // Patch native Get1Resource() upp = ReadMacInt32(0x0e7c); tvec = ReadMacInt32(upp + 5 * 4); D(bug(" Get1Resource() entry %08x, TOC %08x\n", ReadMacInt32(tvec), ReadMacInt32(tvec + 4))); WriteMacInt32(XLM_GET_1_RESOURCE, ReadMacInt32(tvec)); #if EMULATED_PPC WriteMacInt32(tvec, NativeFunction(NATIVE_GET_1_RESOURCE)); #else #ifdef __BEOS__ tvec2 = (uint32 *)get_1_resource; WriteMacInt32(tvec, tvec2[0]); WriteMacInt32(tvec + 4, tvec2[1]); #else WriteMacInt32(tvec, (uint32)get_1_resource); #endif #endif // Patch native GetIndResource() upp = ReadMacInt32(0x1474); tvec = ReadMacInt32(upp + 5 * 4); D(bug(" GetIndResource() entry %08x, TOC %08x\n", ReadMacInt32(tvec), ReadMacInt32(tvec + 4))); WriteMacInt32(XLM_GET_IND_RESOURCE, ReadMacInt32(tvec)); #if EMULATED_PPC WriteMacInt32(tvec, NativeFunction(NATIVE_GET_IND_RESOURCE)); #else #ifdef __BEOS__ tvec2 = (uint32 *)get_ind_resource; WriteMacInt32(tvec, tvec2[0]); WriteMacInt32(tvec + 4, tvec2[1]); #else WriteMacInt32(tvec, (uint32)get_ind_resource); #endif #endif // Patch native Get1IndResource() upp = ReadMacInt32(0x0e38); tvec = ReadMacInt32(upp + 5 * 4); D(bug(" Get1IndResource() entry %08x, TOC %08x\n", ReadMacInt32(tvec), ReadMacInt32(tvec + 4))); WriteMacInt32(XLM_GET_1_IND_RESOURCE, ReadMacInt32(tvec)); #if EMULATED_PPC WriteMacInt32(tvec, NativeFunction(NATIVE_GET_1_IND_RESOURCE)); #else #ifdef __BEOS__ tvec2 = (uint32 *)get_1_ind_resource; WriteMacInt32(tvec, tvec2[0]); WriteMacInt32(tvec + 4, tvec2[1]); #else WriteMacInt32(tvec, (uint32)get_1_ind_resource); #endif #endif // Patch native RGetResource() upp = ReadMacInt32(0x0e30); tvec = ReadMacInt32(upp + 5 * 4); D(bug(" RGetResource() entry %08x, TOC %08x\n", ReadMacInt32(tvec), ReadMacInt32(tvec + 4))); WriteMacInt32(XLM_R_GET_RESOURCE, ReadMacInt32(tvec)); #if EMULATED_PPC WriteMacInt32(tvec, NativeFunction(NATIVE_R_GET_RESOURCE)); #else #ifdef __BEOS__ tvec2 = (uint32 *)r_get_resource; WriteMacInt32(tvec, tvec2[0]); WriteMacInt32(tvec + 4, tvec2[1]); #else WriteMacInt32(tvec, (uint32)r_get_resource); #endif #endif // Patch native GetNamedResource() upp = ReadMacInt32(0x1484); tvec = ReadMacInt32(upp + 5 * 4); D(bug(" GetNamedResource() entry %08x, TOC %08x\n", ReadMacInt32(tvec), ReadMacInt32(tvec + 4))); WriteMacInt32(XLM_GET_NAMED_RESOURCE, ReadMacInt32(tvec)); #if EMULATED_PPC WriteMacInt32(tvec, NativeFunction(NATIVE_GET_NAMED_RESOURCE)); #else #ifdef __BEOS__ tvec2 = (uint32 *)get_named_resource; WriteMacInt32(tvec, tvec2[0]); WriteMacInt32(tvec + 4, tvec2[1]); #else WriteMacInt32(tvec, (uint32)get_named_resource); #endif #endif // Patch native Get1NamedResource() upp = ReadMacInt32(0x0e80); tvec = ReadMacInt32(upp + 5 * 4); D(bug(" Get1NamedResource() entry %08x, TOC %08x\n", ReadMacInt32(tvec), ReadMacInt32(tvec + 4))); WriteMacInt32(XLM_GET_1_NAMED_RESOURCE, ReadMacInt32(tvec)); #if EMULATED_PPC WriteMacInt32(tvec, NativeFunction(NATIVE_GET_1_NAMED_RESOURCE)); #else #ifdef __BEOS__ tvec2 = (uint32 *)get_1_named_resource; WriteMacInt32(tvec, tvec2[0]); WriteMacInt32(tvec + 4, tvec2[1]); #else WriteMacInt32(tvec, (uint32)get_1_named_resource); #endif #endif }