1 /** @file
2   Header file for Virtual Machine support. Contains EBC defines that can
3   be of use to a disassembler for the most part. Also provides function
4   prototypes for VM functions.
5 
6 Copyright (c) 2006 - 2011, Intel Corporation. All rights reserved.<BR>
7 This program and the accompanying materials
8 are licensed and made available under the terms and conditions of the BSD License
9 which accompanies this distribution.  The full text of the license may be found at
10 http://opensource.org/licenses/bsd-license.php
11 
12 THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
13 WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
14 
15 **/
16 
17 #ifndef _EBC_EXECUTE_H_
18 #define _EBC_EXECUTE_H_
19 
20 //
21 // VM major/minor version
22 //
23 #define VM_MAJOR_VERSION  1
24 #define VM_MINOR_VERSION  0
25 
26 //
27 // Macros to check and set alignment
28 //
29 #define ASSERT_ALIGNED(addr, size)  ASSERT (!((UINT32) (addr) & (size - 1)))
30 #define IS_ALIGNED(addr, size)      !((UINT32) (addr) & (size - 1))
31 
32 //
33 // Define a macro to get the operand. Then we can change it to be either a
34 // direct read or have it call a function to read memory.
35 //
36 #define GETOPERANDS(pVM)  (UINT8) (*(UINT8 *) (pVM->Ip + 1))
37 #define GETOPCODE(pVM)    (UINT8) (*(UINT8 *) pVM->Ip)
38 
39 //
40 // Bit masks for opcode encodings
41 //
42 #define OPCODE_M_OPCODE       0x3F  // bits of interest for first level decode
43 #define OPCODE_M_IMMDATA      0x80
44 #define OPCODE_M_IMMDATA64    0x40
45 #define OPCODE_M_64BIT        0x40  // for CMP
46 #define OPCODE_M_RELADDR      0x10  // for CALL instruction
47 #define OPCODE_M_CMPI32_DATA  0x80  // for CMPI
48 #define OPCODE_M_CMPI64       0x40  // for CMPI 32 or 64 bit comparison
49 #define OPERAND_M_MOVIN_N     0x80
50 #define OPERAND_M_CMPI_INDEX  0x10
51 
52 //
53 // Masks for instructions that encode presence of indexes for operand1 and/or
54 // operand2.
55 //
56 #define OPCODE_M_IMMED_OP1  0x80
57 #define OPCODE_M_IMMED_OP2  0x40
58 
59 //
60 // Bit masks for operand encodings
61 //
62 #define OPERAND_M_INDIRECT1 0x08
63 #define OPERAND_M_INDIRECT2 0x80
64 #define OPERAND_M_OP1       0x07
65 #define OPERAND_M_OP2       0x70
66 
67 //
68 // Masks for data manipulation instructions
69 //
70 #define DATAMANIP_M_64      0x40  // 64-bit width operation
71 #define DATAMANIP_M_IMMDATA 0x80
72 
73 //
74 // For MOV instructions, need a mask for the opcode when immediate
75 // data applies to R2.
76 //
77 #define OPCODE_M_IMMED_OP2  0x40
78 
79 //
80 // The MOVI/MOVIn instructions use bit 6 of operands byte to indicate
81 // if an index is present. Then bits 4 and 5 are used to indicate the width
82 // of the move.
83 //
84 #define MOVI_M_IMMDATA    0x40
85 #define MOVI_M_DATAWIDTH  0xC0
86 #define MOVI_DATAWIDTH16  0x40
87 #define MOVI_DATAWIDTH32  0x80
88 #define MOVI_DATAWIDTH64  0xC0
89 #define MOVI_M_MOVEWIDTH  0x30
90 #define MOVI_MOVEWIDTH8   0x00
91 #define MOVI_MOVEWIDTH16  0x10
92 #define MOVI_MOVEWIDTH32  0x20
93 #define MOVI_MOVEWIDTH64  0x30
94 
95 //
96 // Masks for CALL instruction encodings
97 //
98 #define OPERAND_M_RELATIVE_ADDR 0x10
99 #define OPERAND_M_NATIVE_CALL   0x20
100 
101 //
102 // Masks for decoding push/pop instructions
103 //
104 #define PUSHPOP_M_IMMDATA 0x80  // opcode bit indicating immediate data
105 #define PUSHPOP_M_64      0x40  // opcode bit indicating 64-bit operation
106 //
107 // Mask for operand of JMP instruction
108 //
109 #define JMP_M_RELATIVE    0x10
110 #define JMP_M_CONDITIONAL 0x80
111 #define JMP_M_CS          0x40
112 
113 //
114 // Macros to determine if a given operand is indirect
115 //
116 #define OPERAND1_INDIRECT(op) ((op) & OPERAND_M_INDIRECT1)
117 #define OPERAND2_INDIRECT(op) ((op) & OPERAND_M_INDIRECT2)
118 
119 //
120 // Macros to extract the operands from second byte of instructions
121 //
122 #define OPERAND1_REGNUM(op)       ((op) & OPERAND_M_OP1)
123 #define OPERAND2_REGNUM(op)       (((op) & OPERAND_M_OP2) >> 4)
124 
125 #define OPERAND1_CHAR(op)         ('0' + OPERAND1_REGNUM (op))
126 #define OPERAND2_CHAR(op)         ('0' + OPERAND2_REGNUM (op))
127 
128 #define OPERAND1_REGDATA(pvm, op) pvm->Gpr[OPERAND1_REGNUM (op)]
129 #define OPERAND2_REGDATA(pvm, op) pvm->Gpr[OPERAND2_REGNUM (op)]
130 
131 //
132 // Condition masks usually for byte 1 encodings of code
133 //
134 #define CONDITION_M_CONDITIONAL 0x80
135 #define CONDITION_M_CS          0x40
136 
137 //
138 // Bits in the VM->StopFlags field
139 //
140 #define STOPFLAG_APP_DONE         0x0001
141 #define STOPFLAG_BREAKPOINT       0x0002
142 #define STOPFLAG_INVALID_BREAK    0x0004
143 #define STOPFLAG_BREAK_ON_CALLEX  0x0008
144 
145 //
146 // Masks for working with the VM flags register
147 //
148 #define VMFLAGS_CC        0x0001  // condition flag
149 #define VMFLAGS_STEP      0x0002  // step instruction mode
150 #define VMFLAGS_ALL_VALID (VMFLAGS_CC | VMFLAGS_STEP)
151 
152 //
153 // Macros for operating on the VM flags register
154 //
155 #define VMFLAG_SET(pVM, Flag)   (pVM->Flags |= (Flag))
156 #define VMFLAG_ISSET(pVM, Flag) ((pVM->Flags & (Flag)) ? 1 : 0)
157 #define VMFLAG_CLEAR(pVM, Flag) (pVM->Flags &= ~(Flag))
158 
159 //
160 // Debug macro
161 //
162 #define EBCMSG(s) gST->ConOut->OutputString (gST->ConOut, s)
163 
164 //
165 // Define OPCODES
166 //
167 #define OPCODE_BREAK    0x00
168 #define OPCODE_JMP      0x01
169 #define OPCODE_JMP8     0x02
170 #define OPCODE_CALL     0x03
171 #define OPCODE_RET      0x04
172 #define OPCODE_CMPEQ    0x05
173 #define OPCODE_CMPLTE   0x06
174 #define OPCODE_CMPGTE   0x07
175 #define OPCODE_CMPULTE  0x08
176 #define OPCODE_CMPUGTE  0x09
177 #define OPCODE_NOT      0x0A
178 #define OPCODE_NEG      0x0B
179 #define OPCODE_ADD      0x0C
180 #define OPCODE_SUB      0x0D
181 #define OPCODE_MUL      0x0E
182 #define OPCODE_MULU     0x0F
183 #define OPCODE_DIV      0x10
184 #define OPCODE_DIVU     0x11
185 #define OPCODE_MOD      0x12
186 #define OPCODE_MODU     0x13
187 #define OPCODE_AND      0x14
188 #define OPCODE_OR       0x15
189 #define OPCODE_XOR      0x16
190 #define OPCODE_SHL      0x17
191 #define OPCODE_SHR      0x18
192 #define OPCODE_ASHR     0x19
193 #define OPCODE_EXTNDB   0x1A
194 #define OPCODE_EXTNDW   0x1B
195 #define OPCODE_EXTNDD   0x1C
196 #define OPCODE_MOVBW    0x1D
197 #define OPCODE_MOVWW    0x1E
198 #define OPCODE_MOVDW    0x1F
199 #define OPCODE_MOVQW    0x20
200 #define OPCODE_MOVBD    0x21
201 #define OPCODE_MOVWD    0x22
202 #define OPCODE_MOVDD    0x23
203 #define OPCODE_MOVQD    0x24
204 #define OPCODE_MOVSNW   0x25  // Move signed natural with word index
205 #define OPCODE_MOVSND   0x26  // Move signed natural with dword index
206 //
207 // #define OPCODE_27         0x27
208 //
209 #define OPCODE_MOVQQ    0x28  // Does this go away?
210 #define OPCODE_LOADSP   0x29
211 #define OPCODE_STORESP  0x2A
212 #define OPCODE_PUSH     0x2B
213 #define OPCODE_POP      0x2C
214 #define OPCODE_CMPIEQ   0x2D
215 #define OPCODE_CMPILTE  0x2E
216 #define OPCODE_CMPIGTE  0x2F
217 #define OPCODE_CMPIULTE 0x30
218 #define OPCODE_CMPIUGTE 0x31
219 #define OPCODE_MOVNW    0x32
220 #define OPCODE_MOVND    0x33
221 //
222 // #define OPCODE_34         0x34
223 //
224 #define OPCODE_PUSHN  0x35
225 #define OPCODE_POPN   0x36
226 #define OPCODE_MOVI   0x37
227 #define OPCODE_MOVIN  0x38
228 #define OPCODE_MOVREL 0x39
229 
230 /**
231   Execute an EBC image from an entry point or from a published protocol.
232 
233   @param  VmPtr             A pointer to a VM context.
234 
235   @retval EFI_UNSUPPORTED   At least one of the opcodes is not supported.
236   @retval EFI_SUCCESS       All of the instructions are executed successfully.
237 
238 **/
239 EFI_STATUS
240 EbcExecute (
241   IN VM_CONTEXT *VmPtr
242   );
243 
244 
245 
246 /**
247   Returns the version of the EBC virtual machine.
248 
249   @return The 64-bit version of EBC virtual machine.
250 
251 **/
252 UINT64
253 GetVmVersion (
254   VOID
255   );
256 
257 /**
258   Writes UINTN data to memory address.
259 
260   This routine is called by the EBC data
261   movement instructions that write to memory. Since these writes
262   may be to the stack, which looks like (high address on top) this,
263 
264   [EBC entry point arguments]
265   [VM stack]
266   [EBC stack]
267 
268   we need to detect all attempts to write to the EBC entry point argument
269   stack area and adjust the address (which will initially point into the
270   VM stack) to point into the EBC entry point arguments.
271 
272   @param  VmPtr             A pointer to a VM context.
273   @param  Addr              Address to write to.
274   @param  Data              Value to write to Addr.
275 
276   @retval EFI_SUCCESS       The instruction is executed successfully.
277   @retval Other             Some error occurs when writing data to the address.
278 
279 **/
280 EFI_STATUS
281 VmWriteMemN (
282   IN VM_CONTEXT   *VmPtr,
283   IN UINTN        Addr,
284   IN UINTN        Data
285   );
286 
287 /**
288   Writes 64-bit data to memory address.
289 
290   This routine is called by the EBC data
291   movement instructions that write to memory. Since these writes
292   may be to the stack, which looks like (high address on top) this,
293 
294   [EBC entry point arguments]
295   [VM stack]
296   [EBC stack]
297 
298   we need to detect all attempts to write to the EBC entry point argument
299   stack area and adjust the address (which will initially point into the
300   VM stack) to point into the EBC entry point arguments.
301 
302   @param  VmPtr             A pointer to a VM context.
303   @param  Addr              Address to write to.
304   @param  Data              Value to write to Addr.
305 
306   @retval EFI_SUCCESS       The instruction is executed successfully.
307   @retval Other             Some error occurs when writing data to the address.
308 
309 **/
310 EFI_STATUS
311 VmWriteMem64 (
312   IN VM_CONTEXT   *VmPtr,
313   IN UINTN        Addr,
314   IN UINT64       Data
315   );
316 
317 /**
318   Given a pointer to a new VM context, execute one or more instructions. This
319   function is only used for test purposes via the EBC VM test protocol.
320 
321   @param  This              A pointer to the EFI_EBC_VM_TEST_PROTOCOL structure.
322   @param  VmPtr             A pointer to a VM context.
323   @param  InstructionCount  A pointer to a UINTN value holding the number of
324                             instructions to execute. If it holds value of 0,
325                             then the instruction to be executed is 1.
326 
327   @retval EFI_UNSUPPORTED   At least one of the opcodes is not supported.
328   @retval EFI_SUCCESS       All of the instructions are executed successfully.
329 
330 **/
331 EFI_STATUS
332 EFIAPI
333 EbcExecuteInstructions (
334   IN EFI_EBC_VM_TEST_PROTOCOL *This,
335   IN VM_CONTEXT               *VmPtr,
336   IN OUT UINTN                *InstructionCount
337   );
338 
339 #endif // ifndef _EBC_EXECUTE_H_
340