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root/cebix/SheepShaver/src/include/thunks.h

Comparing SheepShaver/src/include/thunks.h (file contents):
Revision 1.6 by gbeauche, 2004-04-18T23:03:52Z vs.
Revision 1.14 by gbeauche, 2006-05-03T21:45:14Z

#	Line 32 | Line 32 | enum {
32		NATIVE_VIDEO_INSTALL_ACCEL,
33		NATIVE_VIDEO_VBL,
34		NATIVE_VIDEO_DO_DRIVER_IO,
35	+	NATIVE_ETHER_AO_GET_HWADDR,
36	+	NATIVE_ETHER_AO_ADD_MULTI,
37	+	NATIVE_ETHER_AO_DEL_MULTI,
38	+	NATIVE_ETHER_AO_SEND_PACKET,
39		NATIVE_ETHER_IRQ,
40		NATIVE_ETHER_INIT,
41		NATIVE_ETHER_TERM,
#	Line 51 | Line 55 | enum {
55		NATIVE_GET_IND_RESOURCE,
56		NATIVE_GET_1_IND_RESOURCE,
57		NATIVE_R_GET_RESOURCE,
54	–	NATIVE_DISABLE_INTERRUPT,
55	–	NATIVE_ENABLE_INTERRUPT,
58		NATIVE_MAKE_EXECUTABLE,
59		NATIVE_CHECK_LOAD_INVOC,
60		NATIVE_SYNC_HOOK,
#	Line 60 | Line 62 | enum {
62		NATIVE_FILLRECT_HOOK,
63		NATIVE_BITBLT,
64		NATIVE_INVRECT,
65	<	NATIVE_FILLRECT_8,
66	<	NATIVE_FILLRECT_32,
65	>	NATIVE_FILLRECT,
66	>	NATIVE_NAMED_CHECK_LOAD_INVOC,
67	>	NATIVE_GET_NAMED_RESOURCE,
68	>	NATIVE_GET_1_NAMED_RESOURCE,
69		NATIVE_OP_MAX
70		};
71
#	Line 88 | Line 92 | extern uint32 NativeRoutineDescriptor(in
92
93		/*
94		*  Helpers to share 32-bit addressable data with MacOS
95	+	*
96	+	*  There are two distinct allocatable regions:
97	+	*
98	+	*  - The Data region is used to share data between MacOS and
99	+	*    SheepShaver. This is stack-like allocation since it is
100	+	*    meant to only hold temporary data which dies at the end
101	+	*    of the current function scope.
102	+	*
103	+	*  - The Procedure region is used to hold permanent M68K or
104	+	*    PowerPC code to assist native routine implementations.
105	+	*
106	+	*  - The Procedure region grows up whereas the Data region
107	+	*    grows down. They may intersect into the ZeroPage, which
108	+	*    is a read-only page with all bits set to zero. In practise,
109	+	*    the intersection is unlikely since the Procedure region is
110	+	*    static and the Data region is meant to be small (< 256 KB).
111		*/
112
113		class SheepMem {
#	Line 96 | Line 116 | protected:
116		static uint32  page_size;
117		static uintptr zero_page;
118		static uintptr base;
119	<	static uintptr top;
120	<	static const uint32 size = 0x40000; // 256 KB
119	>	static uintptr data;
120	>	static uintptr proc;
121	>	static const uint32 size = 0x80000; // 512 KB
122		public:
123		static bool Init(void);
124		static void Exit(void);
125		static uint32 PageSize();
126	<	static uintptr ZeroPage();
127	<	static uintptr Reserve(uint32 size);
126	>	static uint32 ZeroPage();
127	>	static uint32 Reserve(uint32 size);
128		static void Release(uint32 size);
129	+	static uint32 ReserveProc(uint32 size);
130		friend class SheepVar;
131		};
132
#	Line 119 | Line 141 | inline uint32 SheepMem::PageSize()
141		return page_size;
142		}
143
144	<	inline uintptr SheepMem::ZeroPage()
144	>	inline uint32 SheepMem::ZeroPage()
145		{
146		return zero_page;
147		}
148
149	<	inline uintptr SheepMem::Reserve(uint32 size)
149	>	inline uint32 SheepMem::Reserve(uint32 size)
150		{
151	<	top -= align(size);
152	<	assert(top >= base);
153	<	return top;
151	>	data -= align(size);
152	>	assert(data >= proc);
153	>	return data;
154		}
155
156		inline void SheepMem::Release(uint32 size)
157		{
158	<	top += align(size);
158	>	data += align(size);
159		}
160
161	+	inline uint32 SheepMem::ReserveProc(uint32 size)
162	+	{
163	+	uint32 mproc = proc;
164	+	proc += align(size);
165	+	assert(proc < data);
166	+	return mproc;
167	+	}
168	+
169	+	static inline uint32 SheepProc(const uint8 *proc, uint32 proc_size)
170	+	{
171	+	uint32 mac_proc = SheepMem::ReserveProc(proc_size);
172	+	Host2Mac_memcpy(mac_proc, proc, proc_size);
173	+	return mac_proc;
174	+	}
175	+
176	+	#define BUILD_SHEEPSHAVER_PROCEDURE(PROC)                                                       \
177	+	static uint32 PROC = 0;                                                                                 \
178	+	if (PROC == 0)                                                                                                  \
179	+	PROC = SheepProc(PROC##_template, sizeof(PROC##_template))
180	+
181		class SheepVar
182		{
183	<	uintptr m_base;
184	<	uint32  m_size;
183	>	uint32 m_base;
184	>	uint32 m_size;
185		public:
186		SheepVar(uint32 requested_size);
187		~SheepVar() { SheepMem::Release(m_size); }
188	<	uintptr addr() const { return m_base; }
147	<	void *ptr() const { return (void *)addr(); }
188	>	uint32 addr() const { return m_base; }
189		};
190
191		inline SheepVar::SheepVar(uint32 requested_size)
#	Line 155 | Line 196 | inline SheepVar::SheepVar(uint32 request
196
197		// TODO: optimize for 32-bit platforms
198
199	<	template< int size >
199	>	template< int requested_size >
200		struct SheepArray : public SheepVar
201		{
202	<	SheepArray() : SheepVar(size) { }
162	<	uint8 *ptr() const { return (uint8 *)addr(); }
202	>	SheepArray() : SheepVar(requested_size) { }
203		};
204
205		struct SheepVar32 : public SheepVar
#	Line 168 | Line 208 | struct SheepVar32 : public SheepVar
208		SheepVar32(uint32 value) : SheepVar(4) { set_value(value); }
209		uint32 value() const { return ReadMacInt32(addr()); }
210		void set_value(uint32 v) { WriteMacInt32(addr(), v); }
171	–	uint32 *ptr() const { return (uint32 *)addr(); }
211		};
212
213		struct SheepString : public SheepVar
214		{
215		SheepString(const char *str) : SheepVar(strlen(str) + 1)
216	<	{ if (str) strcpy((char *)addr(), str); else WriteMacInt8(addr(), 0); }
216	>	{ if (str) strcpy(value(), str); else WriteMacInt8(addr(), 0); }
217		char *value() const
218	<	{ return (char *)addr(); }
180	<	char *ptr() const
181	<	{ return (char *)addr(); }
218	>	{ return (char *)Mac2HostAddr(addr()); }
219		};
220
221		#endif

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