SheepShaver/src/name_registry.cpp

/*
 *  name_registry.cpp - Name Registry handling
 *
 *  SheepShaver (C) 1997-2005 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 <string.h>

#include "sysdeps.h"
#include "name_registry.h"
#include "main.h"
#include "macos_util.h"
#include "user_strings.h"
#include "emul_op.h"
#include "thunks.h"

#define DEBUG 0
#include "debug.h"


// Function pointers
typedef int16 (*rcec_ptr)(const RegEntryID *, const char *, RegEntryID *);
static uint32 rcec_tvect = 0;
static inline int16 RegistryCStrEntryCreate(uintptr arg1, const char *arg2, uint32 arg3)
{
        SheepString arg2str(arg2);
        return (int16)CallMacOS3(rcec_ptr, rcec_tvect, (const RegEntryID *)arg1, arg2str.addr(), arg3);
}
typedef int16 (*rpc_ptr)(const RegEntryID *, const char *, const void *, uint32);
static uint32 rpc_tvect = 0;
static inline int16 RegistryPropertyCreate(uintptr arg1, const char *arg2, uintptr arg3, uint32 arg4)
{
        SheepString arg2str(arg2);
        return (int16)CallMacOS4(rpc_ptr, rpc_tvect, (const RegEntryID *)arg1, arg2str.addr(), (const void *)arg3, arg4);
}
static inline int16 RegistryPropertyCreateStr(uintptr arg1, const char *arg2, const char *arg3)
{
        SheepString arg3str(arg3);
        return RegistryPropertyCreate(arg1, arg2, arg3str.addr(), strlen(arg3) + 1);
}

// Video driver stub
static const uint8 video_driver[] = {
#include "VideoDriverStub.i"
};

// Ethernet driver stub
static const uint8 ethernet_driver[] = {
#include "EthernetDriverStub.i"
};

// Helper for RegEntryID
typedef SheepArray<sizeof(RegEntryID)> SheepRegEntryID;

// Helper for a <uint32, uint32> pair
struct SheepPair : public SheepArray<8> {
        SheepPair(uint32 base, uint32 size) : SheepArray<8>()
                { WriteMacInt32(addr(), base); WriteMacInt32(addr() + 4, size); }
};


/*
 *  Patch Name Registry during startup
 */

void DoPatchNameRegistry(void)
{
        SheepVar32 u32;
        D(bug("Patching Name Registry..."));

        // Create "device-tree"
        SheepRegEntryID device_tree;
        if (!RegistryCStrEntryCreate(0, "Devices:device-tree", device_tree.addr())) {
                u32.set_value(BusClockSpeed);
                RegistryPropertyCreate(device_tree.addr(), "clock-frequency", u32.addr(), 4);
                RegistryPropertyCreateStr(device_tree.addr(), "model", "Power Macintosh");

                // Create "AAPL,ROM"
                SheepRegEntryID aapl_rom;
                if (!RegistryCStrEntryCreate(device_tree.addr(), "AAPL,ROM", aapl_rom.addr())) {
                        RegistryPropertyCreateStr(aapl_rom.addr(), "device_type", "rom");
                        SheepPair reg(ROM_BASE, ROM_SIZE);
                        RegistryPropertyCreate(aapl_rom.addr(), "reg", reg.addr(), 8);
                }

                // Create "PowerPC,60x"
                SheepRegEntryID power_pc;
                char *str;
                switch (PVR >> 16) {
                        case 1:         // 601
                                str = "PowerPC,601";
                                break;
                        case 3:         // 603
                                str = "PowerPC,603";
                                break;
                        case 4:         // 604
                                str = "PowerPC,604";
                                break;
                        case 6:         // 603e
                                str = "PowerPC,603e";
                                break;
                        case 7:         // 603ev
                                str = "PowerPC,603ev";
                                break;
                        case 8:         // 750
                                str = "PowerPC,750";
                                break;
                        case 9:         // 604e
                                str = "PowerPC,604e";
                                break;
                        case 10:        // 604ev5
                                str = "PowerPC,604ev";
                                break;
                        case 50:        // 821
                                str = "PowerPC,821";
                                break;
                        case 80:        // 860
                                str = "PowerPC,860";
                                break;
                        case 12:        // 7400, 7410, 7450, 7455, 7457
                        case 0x800c:
                        case 0x8000:
                        case 0x8001:
                        case 0x8002:
                                str = "PowerPC,G4";
                                break;
                        default:
                                str = "PowerPC,???";
                                break;
                }
                if (!RegistryCStrEntryCreate(device_tree.addr(), str, power_pc.addr())) {
                        u32.set_value(CPUClockSpeed);
                        RegistryPropertyCreate(power_pc.addr(), "clock-frequency", u32.addr(), 4);
                        u32.set_value(BusClockSpeed);
                        RegistryPropertyCreate(power_pc.addr(), "bus-frequency", u32.addr(), 4);
                        u32.set_value(TimebaseSpeed);
                        RegistryPropertyCreate(power_pc.addr(), "timebase-frequency", u32.addr(), 4);
                        u32.set_value(PVR);
                        RegistryPropertyCreate(power_pc.addr(), "cpu-version", u32.addr(), 4);
                        RegistryPropertyCreateStr(power_pc.addr(), "device_type", "cpu");
                        switch (PVR >> 16) {
                                case 1:         // 601
                                        u32.set_value(64);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-block-size", u32.addr(), 4);
                                        u32.set_value(128);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-sets", u32.addr(), 4);
                                        u32.set_value(0x8000);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-size", u32.addr(), 4);
                                        u32.set_value(64);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-block-size", u32.addr(), 4);
                                        u32.set_value(128);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-sets", u32.addr(), 4);
                                        u32.set_value(0x8000);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-size", u32.addr(), 4);
                                        u32.set_value(128);
                                        RegistryPropertyCreate(power_pc.addr(), "tlb-sets", u32.addr(), 4);
                                        u32.set_value(256);
                                        RegistryPropertyCreate(power_pc.addr(), "tlb-size", u32.addr(), 4);
                                        break;
                                case 3:         // 603
                                        u32.set_value(32);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-block-size", u32.addr(), 4);
                                        u32.set_value(64);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-sets", u32.addr(), 4);
                                        u32.set_value(0x2000);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-size", u32.addr(), 4);
                                        u32.set_value(32);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-block-size", u32.addr(), 4);
                                        u32.set_value(64);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-sets", u32.addr(), 4);
                                        u32.set_value(0x2000);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-size", u32.addr(), 4);
                                        u32.set_value(32);
                                        RegistryPropertyCreate(power_pc.addr(), "tlb-sets", u32.addr(), 4);
                                        u32.set_value(64);
                                        RegistryPropertyCreate(power_pc.addr(), "tlb-size", u32.addr(), 4);
                                        break;
                                case 4:         // 604
                                        u32.set_value(32);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-block-size", u32.addr(), 4);
                                        u32.set_value(128);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-sets", u32.addr(), 4);
                                        u32.set_value(0x4000);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-size", u32.addr(), 4);
                                        u32.set_value(32);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-block-size", u32.addr(), 4);
                                        u32.set_value(128);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-sets", u32.addr(), 4);
                                        u32.set_value(0x4000);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-size", u32.addr(), 4);
                                        u32.set_value(64);
                                        RegistryPropertyCreate(power_pc.addr(), "tlb-sets", u32.addr(), 4);
                                        u32.set_value(128);
                                        RegistryPropertyCreate(power_pc.addr(), "tlb-size", u32.addr(), 4);
                                        break;
                                case 6:         // 603e
                                case 7:         // 603ev
                                        u32.set_value(32);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-block-size", u32.addr(), 4);
                                        u32.set_value(128);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-sets", u32.addr(), 4);
                                        u32.set_value(0x4000);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-size", u32.addr(), 4);
                                        u32.set_value(32);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-block-size", u32.addr(), 4);
                                        u32.set_value(128);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-sets", u32.addr(), 4);
                                        u32.set_value(0x4000);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-size", u32.addr(), 4);
                                        u32.set_value(32);
                                        RegistryPropertyCreate(power_pc.addr(), "tlb-sets", u32.addr(), 4);
                                        u32.set_value(64);
                                        RegistryPropertyCreate(power_pc.addr(), "tlb-size", u32.addr(), 4);
                                        break;
                                case 8:         // 750, 750FX
                                case 0x7000:
                                        u32.set_value(32);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-block-size", u32.addr(), 4);
                                        u32.set_value(256);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-sets", u32.addr(), 4);
                                        u32.set_value(0x8000);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-size", u32.addr(), 4);
                                        u32.set_value(32);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-block-size", u32.addr(), 4);
                                        u32.set_value(256);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-sets", u32.addr(), 4);
                                        u32.set_value(0x8000);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-size", u32.addr(), 4);
                                        u32.set_value(64);
                                        RegistryPropertyCreate(power_pc.addr(), "tlb-sets", u32.addr(), 4);
                                        u32.set_value(128);
                                        RegistryPropertyCreate(power_pc.addr(), "tlb-size", u32.addr(), 4);
                                        break;
                                case 9:         // 604e
                                case 10:        // 604ev5
                                        u32.set_value(32);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-block-size", u32.addr(), 4);
                                        u32.set_value(256);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-sets", u32.addr(), 4);
                                        u32.set_value(0x8000);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-size", u32.addr(), 4);
                                        u32.set_value(32);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-block-size", u32.addr(), 4);
                                        u32.set_value(256);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-sets", u32.addr(), 4);
                                        u32.set_value(0x8000);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-size", u32.addr(), 4);
                                        u32.set_value(64);
                                        RegistryPropertyCreate(power_pc.addr(), "tlb-sets", u32.addr(), 4);
                                        u32.set_value(128);
                                        RegistryPropertyCreate(power_pc.addr(), "tlb-size", u32.addr(), 4);
                                        break;
                                case 12:        // 7400, 7410, 7450, 7455, 7457
                                case 0x800c:
                                case 0x8000:
                                case 0x8001:
                                case 0x8002:
                                        u32.set_value(32);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-block-size", u32.addr(), 4);
                                        u32.set_value(128);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-sets", u32.addr(), 4);
                                        u32.set_value(0x8000);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-size", u32.addr(), 4);
                                        u32.set_value(32);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-block-size", u32.addr(), 4);
                                        u32.set_value(128);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-sets", u32.addr(), 4);
                                        u32.set_value(0x8000);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-size", u32.addr(), 4);
                                        u32.set_value(64);
                                        RegistryPropertyCreate(power_pc.addr(), "tlb-sets", u32.addr(), 4);
                                        u32.set_value(128);
                                        RegistryPropertyCreate(power_pc.addr(), "tlb-size", u32.addr(), 4);
                                        break;
                                case 0x39:      // 970
                                        u32.set_value(128);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-block-size", u32.addr(), 4);
                                        u32.set_value(128);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-sets", u32.addr(), 4);
                                        u32.set_value(0x8000);
                                        RegistryPropertyCreate(power_pc.addr(), "d-cache-size", u32.addr(), 4);
                                        u32.set_value(128);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-block-size", u32.addr(), 4);
                                        u32.set_value(512);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-sets", u32.addr(), 4);
                                        u32.set_value(0x10000);
                                        RegistryPropertyCreate(power_pc.addr(), "i-cache-size", u32.addr(), 4);
                                        u32.set_value(256);
                                        RegistryPropertyCreate(power_pc.addr(), "tlb-sets", u32.addr(), 4);
                                        u32.set_value(0x1000);
                                        RegistryPropertyCreate(power_pc.addr(), "tlb-size", u32.addr(), 4);
                                        break;
                                default:
                                        break;
                        }
                        u32.set_value(32);
                        RegistryPropertyCreate(power_pc.addr(), "reservation-granularity", u32.addr(), 4);
                        SheepPair reg(0, 0);
                        RegistryPropertyCreate(power_pc.addr(), "reg", reg.addr(), 8);
                }

                // Create "memory"
                SheepRegEntryID memory;
                if (!RegistryCStrEntryCreate(device_tree.addr(), "memory", memory.addr())) {
                        SheepPair reg(RAMBase, RAMSize);
                        RegistryPropertyCreateStr(memory.addr(), "device_type", "memory");
                        RegistryPropertyCreate(memory.addr(), "reg", reg.addr(), 8);
                }

                // Create "video"
                SheepRegEntryID video;
                if (!RegistryCStrEntryCreate(device_tree.addr(), "video", video.addr())) {
                        RegistryPropertyCreateStr(video.addr(), "AAPL,connector", "monitor");
                        RegistryPropertyCreateStr(video.addr(), "device_type", "display");
                        SheepArray<sizeof(video_driver)> the_video_driver;
                        Host2Mac_memcpy(the_video_driver.addr(), video_driver, sizeof(video_driver));
                        RegistryPropertyCreate(video.addr(), "driver,AAPL,MacOS,PowerPC", the_video_driver.addr(), sizeof(video_driver));
                        RegistryPropertyCreateStr(video.addr(), "model", "SheepShaver Video");
                }

                // Create "ethernet"
                // XXX the current ethernet driver is not direct addressing clean
#if REAL_ADDRESSING
                SheepRegEntryID ethernet;
                if (!RegistryCStrEntryCreate(device_tree.addr(), "ethernet", ethernet.addr())) {
                        RegistryPropertyCreateStr(ethernet.addr(), "AAPL,connector", "ethernet");
                        RegistryPropertyCreateStr(ethernet.addr(), "device_type", "network");
                        SheepArray<sizeof(ethernet_driver)> the_ethernet_driver;
                        Host2Mac_memcpy(the_ethernet_driver.addr(), ethernet_driver, sizeof(ethernet_driver));
                        RegistryPropertyCreate(ethernet.addr(), "driver,AAPL,MacOS,PowerPC", the_ethernet_driver.addr(), sizeof(ethernet_driver));
                        // local-mac-address
                        // max-frame-size 2048
                }
#endif
        }
        D(bug("done.\n"));
}

void PatchNameRegistry(void)
{
        // Find RegistryCStrEntryCreate() and RegistryPropertyCreate() TVECTs
        rcec_tvect = FindLibSymbol("\017NameRegistryLib", "\027RegistryCStrEntryCreate");
        D(bug("RegistryCStrEntryCreate TVECT at %08x\n", rcec_tvect));
        rpc_tvect = FindLibSymbol("\017NameRegistryLib", "\026RegistryPropertyCreate");
        D(bug("RegistryPropertyCreate TVECT at %08x\n", rpc_tvect));
        if (rcec_tvect == 0 || rpc_tvect == 0) {
                ErrorAlert(GetString(STR_NO_NAME_REGISTRY_ERR));
                QuitEmulator();
        }

        // Main routine must be executed in PPC mode
        ExecuteNative(NATIVE_PATCH_NAME_REGISTRY);
}
Revision:	1.18
Committed:	2005-03-19T04:31:59Z (19 years, 1 month ago) by gbeauche
Branch:	MAIN
Changes since 1.17:	+3 -0 lines
Log Message:	the current ethernet code is not direct addressing clean, so enable it only if real addressing mode is available (e.g. this excludes win32 platforms for now)
#	Content
1	/*
2	* name_registry.cpp - Name Registry handling
3	*
4	* SheepShaver (C) 1997-2005 Christian Bauer and Marc Hellwig
5	*
6	* This program is free software; you can redistribute it and/or modify
7	* it under the terms of the GNU General Public License as published by
8	* the Free Software Foundation; either version 2 of the License, or
9	* (at your option) any later version.
10	*
11	* This program is distributed in the hope that it will be useful,
12	* but WITHOUT ANY WARRANTY; without even the implied warranty of
13	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14	* GNU General Public License for more details.
15	*
16	* You should have received a copy of the GNU General Public License
17	* along with this program; if not, write to the Free Software
18	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
19	*/
20
21	#include <string.h>
22
23	#include "sysdeps.h"
24	#include "name_registry.h"
25	#include "main.h"
26	#include "macos_util.h"
27	#include "user_strings.h"
28	#include "emul_op.h"
29	#include "thunks.h"
30
31	#define DEBUG 0
32	#include "debug.h"
33
34
35	// Function pointers
36	typedef int16 (rcec_ptr)(const RegEntryID , const char , RegEntryID );
37	static uint32 rcec_tvect = 0;
38	static inline int16 RegistryCStrEntryCreate(uintptr arg1, const char *arg2, uint32 arg3)
39	{
40	SheepString arg2str(arg2);
41	return (int16)CallMacOS3(rcec_ptr, rcec_tvect, (const RegEntryID *)arg1, arg2str.addr(), arg3);
42	}
43	typedef int16 (rpc_ptr)(const RegEntryID , const char , const void , uint32);
44	static uint32 rpc_tvect = 0;
45	static inline int16 RegistryPropertyCreate(uintptr arg1, const char *arg2, uintptr arg3, uint32 arg4)
46	{
47	SheepString arg2str(arg2);
48	return (int16)CallMacOS4(rpc_ptr, rpc_tvect, (const RegEntryID )arg1, arg2str.addr(), (const void )arg3, arg4);
49	}
50	static inline int16 RegistryPropertyCreateStr(uintptr arg1, const char arg2, const char arg3)
51	{
52	SheepString arg3str(arg3);
53	return RegistryPropertyCreate(arg1, arg2, arg3str.addr(), strlen(arg3) + 1);
54	}
55
56	// Video driver stub
57	static const uint8 video_driver[] = {
58	#include "VideoDriverStub.i"
59	};
60
61	// Ethernet driver stub
62	static const uint8 ethernet_driver[] = {
63	#include "EthernetDriverStub.i"
64	};
65
66	// Helper for RegEntryID
67	typedef SheepArray<sizeof(RegEntryID)> SheepRegEntryID;
68
69	// Helper for a <uint32, uint32> pair
70	struct SheepPair : public SheepArray<8> {
71	SheepPair(uint32 base, uint32 size) : SheepArray<8>()
72	{ WriteMacInt32(addr(), base); WriteMacInt32(addr() + 4, size); }
73	};
74
75
76	/*
77	* Patch Name Registry during startup
78	*/
79
80	void DoPatchNameRegistry(void)
81	{
82	SheepVar32 u32;
83	D(bug("Patching Name Registry..."));
84
85	// Create "device-tree"
86	SheepRegEntryID device_tree;
87	if (!RegistryCStrEntryCreate(0, "Devices:device-tree", device_tree.addr())) {
88	u32.set_value(BusClockSpeed);
89	RegistryPropertyCreate(device_tree.addr(), "clock-frequency", u32.addr(), 4);
90	RegistryPropertyCreateStr(device_tree.addr(), "model", "Power Macintosh");
91
92	// Create "AAPL,ROM"
93	SheepRegEntryID aapl_rom;
94	if (!RegistryCStrEntryCreate(device_tree.addr(), "AAPL,ROM", aapl_rom.addr())) {
95	RegistryPropertyCreateStr(aapl_rom.addr(), "device_type", "rom");
96	SheepPair reg(ROM_BASE, ROM_SIZE);
97	RegistryPropertyCreate(aapl_rom.addr(), "reg", reg.addr(), 8);
98	}
99
100	// Create "PowerPC,60x"
101	SheepRegEntryID power_pc;
102	char *str;
103	switch (PVR >> 16) {
104	case 1: // 601
105	str = "PowerPC,601";
106	break;
107	case 3: // 603
108	str = "PowerPC,603";
109	break;
110	case 4: // 604
111	str = "PowerPC,604";
112	break;
113	case 6: // 603e
114	str = "PowerPC,603e";
115	break;
116	case 7: // 603ev
117	str = "PowerPC,603ev";
118	break;
119	case 8: // 750
120	str = "PowerPC,750";
121	break;
122	case 9: // 604e
123	str = "PowerPC,604e";
124	break;
125	case 10: // 604ev5
126	str = "PowerPC,604ev";
127	break;
128	case 50: // 821
129	str = "PowerPC,821";
130	break;
131	case 80: // 860
132	str = "PowerPC,860";
133	break;
134	case 12: // 7400, 7410, 7450, 7455, 7457
135	case 0x800c:
136	case 0x8000:
137	case 0x8001:
138	case 0x8002:
139	str = "PowerPC,G4";
140	break;
141	default:
142	str = "PowerPC,???";
143	break;
144	}
145	if (!RegistryCStrEntryCreate(device_tree.addr(), str, power_pc.addr())) {
146	u32.set_value(CPUClockSpeed);
147	RegistryPropertyCreate(power_pc.addr(), "clock-frequency", u32.addr(), 4);
148	u32.set_value(BusClockSpeed);
149	RegistryPropertyCreate(power_pc.addr(), "bus-frequency", u32.addr(), 4);
150	u32.set_value(TimebaseSpeed);
151	RegistryPropertyCreate(power_pc.addr(), "timebase-frequency", u32.addr(), 4);
152	u32.set_value(PVR);
153	RegistryPropertyCreate(power_pc.addr(), "cpu-version", u32.addr(), 4);
154	RegistryPropertyCreateStr(power_pc.addr(), "device_type", "cpu");
155	switch (PVR >> 16) {
156	case 1: // 601
157	u32.set_value(64);
158	RegistryPropertyCreate(power_pc.addr(), "d-cache-block-size", u32.addr(), 4);
159	u32.set_value(128);
160	RegistryPropertyCreate(power_pc.addr(), "d-cache-sets", u32.addr(), 4);
161	u32.set_value(0x8000);
162	RegistryPropertyCreate(power_pc.addr(), "d-cache-size", u32.addr(), 4);
163	u32.set_value(64);
164	RegistryPropertyCreate(power_pc.addr(), "i-cache-block-size", u32.addr(), 4);
165	u32.set_value(128);
166	RegistryPropertyCreate(power_pc.addr(), "i-cache-sets", u32.addr(), 4);
167	u32.set_value(0x8000);
168	RegistryPropertyCreate(power_pc.addr(), "i-cache-size", u32.addr(), 4);
169	u32.set_value(128);
170	RegistryPropertyCreate(power_pc.addr(), "tlb-sets", u32.addr(), 4);
171	u32.set_value(256);
172	RegistryPropertyCreate(power_pc.addr(), "tlb-size", u32.addr(), 4);
173	break;
174	case 3: // 603
175	u32.set_value(32);
176	RegistryPropertyCreate(power_pc.addr(), "d-cache-block-size", u32.addr(), 4);
177	u32.set_value(64);
178	RegistryPropertyCreate(power_pc.addr(), "d-cache-sets", u32.addr(), 4);
179	u32.set_value(0x2000);
180	RegistryPropertyCreate(power_pc.addr(), "d-cache-size", u32.addr(), 4);
181	u32.set_value(32);
182	RegistryPropertyCreate(power_pc.addr(), "i-cache-block-size", u32.addr(), 4);
183	u32.set_value(64);
184	RegistryPropertyCreate(power_pc.addr(), "i-cache-sets", u32.addr(), 4);
185	u32.set_value(0x2000);
186	RegistryPropertyCreate(power_pc.addr(), "i-cache-size", u32.addr(), 4);
187	u32.set_value(32);
188	RegistryPropertyCreate(power_pc.addr(), "tlb-sets", u32.addr(), 4);
189	u32.set_value(64);
190	RegistryPropertyCreate(power_pc.addr(), "tlb-size", u32.addr(), 4);
191	break;
192	case 4: // 604
193	u32.set_value(32);
194	RegistryPropertyCreate(power_pc.addr(), "d-cache-block-size", u32.addr(), 4);
195	u32.set_value(128);
196	RegistryPropertyCreate(power_pc.addr(), "d-cache-sets", u32.addr(), 4);
197	u32.set_value(0x4000);
198	RegistryPropertyCreate(power_pc.addr(), "d-cache-size", u32.addr(), 4);
199	u32.set_value(32);
200	RegistryPropertyCreate(power_pc.addr(), "i-cache-block-size", u32.addr(), 4);
201	u32.set_value(128);
202	RegistryPropertyCreate(power_pc.addr(), "i-cache-sets", u32.addr(), 4);
203	u32.set_value(0x4000);
204	RegistryPropertyCreate(power_pc.addr(), "i-cache-size", u32.addr(), 4);
205	u32.set_value(64);
206	RegistryPropertyCreate(power_pc.addr(), "tlb-sets", u32.addr(), 4);
207	u32.set_value(128);
208	RegistryPropertyCreate(power_pc.addr(), "tlb-size", u32.addr(), 4);
209	break;
210	case 6: // 603e
211	case 7: // 603ev
212	u32.set_value(32);
213	RegistryPropertyCreate(power_pc.addr(), "d-cache-block-size", u32.addr(), 4);
214	u32.set_value(128);
215	RegistryPropertyCreate(power_pc.addr(), "d-cache-sets", u32.addr(), 4);
216	u32.set_value(0x4000);
217	RegistryPropertyCreate(power_pc.addr(), "d-cache-size", u32.addr(), 4);
218	u32.set_value(32);
219	RegistryPropertyCreate(power_pc.addr(), "i-cache-block-size", u32.addr(), 4);
220	u32.set_value(128);
221	RegistryPropertyCreate(power_pc.addr(), "i-cache-sets", u32.addr(), 4);
222	u32.set_value(0x4000);
223	RegistryPropertyCreate(power_pc.addr(), "i-cache-size", u32.addr(), 4);
224	u32.set_value(32);
225	RegistryPropertyCreate(power_pc.addr(), "tlb-sets", u32.addr(), 4);
226	u32.set_value(64);
227	RegistryPropertyCreate(power_pc.addr(), "tlb-size", u32.addr(), 4);
228	break;
229	case 8: // 750, 750FX
230	case 0x7000:
231	u32.set_value(32);
232	RegistryPropertyCreate(power_pc.addr(), "d-cache-block-size", u32.addr(), 4);
233	u32.set_value(256);
234	RegistryPropertyCreate(power_pc.addr(), "d-cache-sets", u32.addr(), 4);
235	u32.set_value(0x8000);
236	RegistryPropertyCreate(power_pc.addr(), "d-cache-size", u32.addr(), 4);
237	u32.set_value(32);
238	RegistryPropertyCreate(power_pc.addr(), "i-cache-block-size", u32.addr(), 4);
239	u32.set_value(256);
240	RegistryPropertyCreate(power_pc.addr(), "i-cache-sets", u32.addr(), 4);
241	u32.set_value(0x8000);
242	RegistryPropertyCreate(power_pc.addr(), "i-cache-size", u32.addr(), 4);
243	u32.set_value(64);
244	RegistryPropertyCreate(power_pc.addr(), "tlb-sets", u32.addr(), 4);
245	u32.set_value(128);
246	RegistryPropertyCreate(power_pc.addr(), "tlb-size", u32.addr(), 4);
247	break;
248	case 9: // 604e
249	case 10: // 604ev5
250	u32.set_value(32);
251	RegistryPropertyCreate(power_pc.addr(), "d-cache-block-size", u32.addr(), 4);
252	u32.set_value(256);
253	RegistryPropertyCreate(power_pc.addr(), "d-cache-sets", u32.addr(), 4);
254	u32.set_value(0x8000);
255	RegistryPropertyCreate(power_pc.addr(), "d-cache-size", u32.addr(), 4);
256	u32.set_value(32);
257	RegistryPropertyCreate(power_pc.addr(), "i-cache-block-size", u32.addr(), 4);
258	u32.set_value(256);
259	RegistryPropertyCreate(power_pc.addr(), "i-cache-sets", u32.addr(), 4);
260	u32.set_value(0x8000);
261	RegistryPropertyCreate(power_pc.addr(), "i-cache-size", u32.addr(), 4);
262	u32.set_value(64);
263	RegistryPropertyCreate(power_pc.addr(), "tlb-sets", u32.addr(), 4);
264	u32.set_value(128);
265	RegistryPropertyCreate(power_pc.addr(), "tlb-size", u32.addr(), 4);
266	break;
267	case 12: // 7400, 7410, 7450, 7455, 7457
268	case 0x800c:
269	case 0x8000:
270	case 0x8001:
271	case 0x8002:
272	u32.set_value(32);
273	RegistryPropertyCreate(power_pc.addr(), "d-cache-block-size", u32.addr(), 4);
274	u32.set_value(128);
275	RegistryPropertyCreate(power_pc.addr(), "d-cache-sets", u32.addr(), 4);
276	u32.set_value(0x8000);
277	RegistryPropertyCreate(power_pc.addr(), "d-cache-size", u32.addr(), 4);
278	u32.set_value(32);
279	RegistryPropertyCreate(power_pc.addr(), "i-cache-block-size", u32.addr(), 4);
280	u32.set_value(128);
281	RegistryPropertyCreate(power_pc.addr(), "i-cache-sets", u32.addr(), 4);
282	u32.set_value(0x8000);
283	RegistryPropertyCreate(power_pc.addr(), "i-cache-size", u32.addr(), 4);
284	u32.set_value(64);
285	RegistryPropertyCreate(power_pc.addr(), "tlb-sets", u32.addr(), 4);
286	u32.set_value(128);
287	RegistryPropertyCreate(power_pc.addr(), "tlb-size", u32.addr(), 4);
288	break;
289	case 0x39: // 970
290	u32.set_value(128);
291	RegistryPropertyCreate(power_pc.addr(), "d-cache-block-size", u32.addr(), 4);
292	u32.set_value(128);
293	RegistryPropertyCreate(power_pc.addr(), "d-cache-sets", u32.addr(), 4);
294	u32.set_value(0x8000);
295	RegistryPropertyCreate(power_pc.addr(), "d-cache-size", u32.addr(), 4);
296	u32.set_value(128);
297	RegistryPropertyCreate(power_pc.addr(), "i-cache-block-size", u32.addr(), 4);
298	u32.set_value(512);
299	RegistryPropertyCreate(power_pc.addr(), "i-cache-sets", u32.addr(), 4);
300	u32.set_value(0x10000);
301	RegistryPropertyCreate(power_pc.addr(), "i-cache-size", u32.addr(), 4);
302	u32.set_value(256);
303	RegistryPropertyCreate(power_pc.addr(), "tlb-sets", u32.addr(), 4);
304	u32.set_value(0x1000);
305	RegistryPropertyCreate(power_pc.addr(), "tlb-size", u32.addr(), 4);
306	break;
307	default:
308	break;
309	}
310	u32.set_value(32);
311	RegistryPropertyCreate(power_pc.addr(), "reservation-granularity", u32.addr(), 4);
312	SheepPair reg(0, 0);
313	RegistryPropertyCreate(power_pc.addr(), "reg", reg.addr(), 8);
314	}
315
316	// Create "memory"
317	SheepRegEntryID memory;
318	if (!RegistryCStrEntryCreate(device_tree.addr(), "memory", memory.addr())) {
319	SheepPair reg(RAMBase, RAMSize);
320	RegistryPropertyCreateStr(memory.addr(), "device_type", "memory");
321	RegistryPropertyCreate(memory.addr(), "reg", reg.addr(), 8);
322	}
323
324	// Create "video"
325	SheepRegEntryID video;
326	if (!RegistryCStrEntryCreate(device_tree.addr(), "video", video.addr())) {
327	RegistryPropertyCreateStr(video.addr(), "AAPL,connector", "monitor");
328	RegistryPropertyCreateStr(video.addr(), "device_type", "display");
329	SheepArray<sizeof(video_driver)> the_video_driver;
330	Host2Mac_memcpy(the_video_driver.addr(), video_driver, sizeof(video_driver));
331	RegistryPropertyCreate(video.addr(), "driver,AAPL,MacOS,PowerPC", the_video_driver.addr(), sizeof(video_driver));
332	RegistryPropertyCreateStr(video.addr(), "model", "SheepShaver Video");
333	}
334
335	// Create "ethernet"
336	// XXX the current ethernet driver is not direct addressing clean
337	#if REAL_ADDRESSING
338	SheepRegEntryID ethernet;
339	if (!RegistryCStrEntryCreate(device_tree.addr(), "ethernet", ethernet.addr())) {
340	RegistryPropertyCreateStr(ethernet.addr(), "AAPL,connector", "ethernet");
341	RegistryPropertyCreateStr(ethernet.addr(), "device_type", "network");
342	SheepArray<sizeof(ethernet_driver)> the_ethernet_driver;
343	Host2Mac_memcpy(the_ethernet_driver.addr(), ethernet_driver, sizeof(ethernet_driver));
344	RegistryPropertyCreate(ethernet.addr(), "driver,AAPL,MacOS,PowerPC", the_ethernet_driver.addr(), sizeof(ethernet_driver));
345	// local-mac-address
346	// max-frame-size 2048
347	}
348	#endif
349	}
350	D(bug("done.\n"));
351	}
352
353	void PatchNameRegistry(void)
354	{
355	// Find RegistryCStrEntryCreate() and RegistryPropertyCreate() TVECTs
356	rcec_tvect = FindLibSymbol("\017NameRegistryLib", "\027RegistryCStrEntryCreate");
357	D(bug("RegistryCStrEntryCreate TVECT at %08x\n", rcec_tvect));
358	rpc_tvect = FindLibSymbol("\017NameRegistryLib", "\026RegistryPropertyCreate");
359	D(bug("RegistryPropertyCreate TVECT at %08x\n", rpc_tvect));
360	if (rcec_tvect == 0 \|\| rpc_tvect == 0) {
361	ErrorAlert(GetString(STR_NO_NAME_REGISTRY_ERR));
362	QuitEmulator();
363	}
364
365	// Main routine must be executed in PPC mode
366	ExecuteNative(NATIVE_PATCH_NAME_REGISTRY);
367	}