1#include "arm.h"
  2
  3#include "isa-arm.h"
  4#include "isa-inlines.h"
  5#include "isa-thumb.h"
  6
  7static inline enum RegisterBank _ARMSelectBank(enum PrivilegeMode);
  8
  9void ARMSetPrivilegeMode(struct ARMCore* cpu, enum PrivilegeMode mode) {
 10	if (mode == cpu->privilegeMode) {
 11		// Not switching modes after all
 12		return;
 13	}
 14
 15	enum RegisterBank newBank = _ARMSelectBank(mode);
 16	enum RegisterBank oldBank = _ARMSelectBank(cpu->privilegeMode);
 17	if (newBank != oldBank) {
 18		// Switch banked registers
 19		if (mode == MODE_FIQ || cpu->privilegeMode == MODE_FIQ) {
 20			int oldFIQBank = oldBank == BANK_FIQ;
 21			int newFIQBank = newBank == BANK_FIQ;
 22			cpu->bankedRegisters[oldFIQBank][2] = cpu->gprs[8];
 23			cpu->bankedRegisters[oldFIQBank][3] = cpu->gprs[9];
 24			cpu->bankedRegisters[oldFIQBank][4] = cpu->gprs[10];
 25			cpu->bankedRegisters[oldFIQBank][5] = cpu->gprs[11];
 26			cpu->bankedRegisters[oldFIQBank][6] = cpu->gprs[12];
 27			cpu->gprs[8] = cpu->bankedRegisters[newFIQBank][2];
 28			cpu->gprs[9] = cpu->bankedRegisters[newFIQBank][3];
 29			cpu->gprs[10] = cpu->bankedRegisters[newFIQBank][4];
 30			cpu->gprs[11] = cpu->bankedRegisters[newFIQBank][5];
 31			cpu->gprs[12] = cpu->bankedRegisters[newFIQBank][6];
 32		}
 33		cpu->bankedRegisters[oldBank][0] = cpu->gprs[ARM_SP];
 34		cpu->bankedRegisters[oldBank][1] = cpu->gprs[ARM_LR];
 35		cpu->gprs[ARM_SP] = cpu->bankedRegisters[newBank][0];
 36		cpu->gprs[ARM_LR] = cpu->bankedRegisters[newBank][1];
 37
 38		cpu->bankedSPSRs[oldBank] = cpu->spsr.packed;
 39		cpu->spsr.packed = cpu->bankedSPSRs[newBank];
 40
 41	}
 42	cpu->privilegeMode = mode;
 43}
 44
 45static inline enum RegisterBank _ARMSelectBank(enum PrivilegeMode mode) {
 46	switch (mode) {
 47		case MODE_USER:
 48		case MODE_SYSTEM:
 49			// No banked registers
 50			return BANK_NONE;
 51		case MODE_FIQ:
 52			return BANK_FIQ;
 53		case MODE_IRQ:
 54			return BANK_IRQ;
 55		case MODE_SUPERVISOR:
 56			return BANK_SUPERVISOR;
 57		case MODE_ABORT:
 58			return BANK_ABORT;
 59		case MODE_UNDEFINED:
 60			return BANK_UNDEFINED;
 61		default:
 62			// This should be unreached
 63			return BANK_NONE;
 64	}
 65}
 66
 67void ARMInit(struct ARMCore* cpu) {
 68	cpu->master->init(cpu, cpu->master);
 69	int i;
 70	for (i = 0; i < cpu->numComponents; ++i) {
 71		cpu->components[i]->init(cpu, cpu->components[i]);
 72	}
 73}
 74
 75void ARMDeinit(struct ARMCore* cpu) {
 76	if (cpu->master->deinit) {
 77		cpu->master->deinit(cpu->master);
 78	}
 79	int i;
 80	for (i = 0; i < cpu->numComponents; ++i) {
 81		if (cpu->components[i]->deinit) {
 82			cpu->components[i]->deinit(cpu->components[i]);
 83		}
 84	}
 85}
 86
 87void ARMSetComponents(struct ARMCore* cpu, struct ARMComponent* master, int extra, struct ARMComponent** extras) {
 88	cpu->master = master;
 89	cpu->numComponents = extra;
 90	cpu->components = extras;
 91}
 92
 93
 94void ARMReset(struct ARMCore* cpu) {
 95	int i;
 96	for (i = 0; i < 16; ++i) {
 97		cpu->gprs[i] = 0;
 98	}
 99	for (i = 0; i < 6; ++i) {
100		cpu->bankedRegisters[i][0] = 0;
101		cpu->bankedRegisters[i][1] = 0;
102		cpu->bankedRegisters[i][2] = 0;
103		cpu->bankedRegisters[i][3] = 0;
104		cpu->bankedRegisters[i][4] = 0;
105		cpu->bankedRegisters[i][5] = 0;
106		cpu->bankedRegisters[i][6] = 0;
107		cpu->bankedSPSRs[i] = 0;
108	}
109
110	cpu->privilegeMode = MODE_SYSTEM;
111	cpu->cpsr.packed = MODE_SYSTEM;
112	cpu->spsr.packed = 0;
113
114	cpu->shifterOperand = 0;
115	cpu->shifterCarryOut = 0;
116
117	cpu->executionMode = MODE_THUMB;
118	_ARMSetMode(cpu, MODE_ARM);
119
120	int currentCycles = 0;
121	ARM_WRITE_PC;
122
123	cpu->cycles = 0;
124	cpu->nextEvent = 0;
125	cpu->halted = 0;
126
127	cpu->irqh.reset(cpu);
128}
129
130void ARMRaiseIRQ(struct ARMCore* cpu) {
131	if (cpu->cpsr.i) {
132		return;
133	}
134	union PSR cpsr = cpu->cpsr;
135	int instructionWidth;
136	if (cpu->executionMode == MODE_THUMB) {
137		instructionWidth = WORD_SIZE_THUMB;
138	} else {
139		instructionWidth = WORD_SIZE_ARM;
140	}
141	ARMSetPrivilegeMode(cpu, MODE_IRQ);
142	cpu->cpsr.priv = MODE_IRQ;
143	cpu->gprs[ARM_LR] = cpu->gprs[ARM_PC] - instructionWidth + WORD_SIZE_ARM;
144	cpu->gprs[ARM_PC] = BASE_IRQ;
145	int currentCycles = 0;
146	ARM_WRITE_PC;
147	cpu->memory.setActiveRegion(cpu, cpu->gprs[ARM_PC]);
148	_ARMSetMode(cpu, MODE_ARM);
149	cpu->spsr = cpsr;
150	cpu->cpsr.i = 1;
151}
152
153void ARMRaiseSWI(struct ARMCore* cpu) {
154	union PSR cpsr = cpu->cpsr;
155	int instructionWidth;
156	if (cpu->executionMode == MODE_THUMB) {
157		instructionWidth = WORD_SIZE_THUMB;
158	} else {
159		instructionWidth = WORD_SIZE_ARM;
160	}
161	ARMSetPrivilegeMode(cpu, MODE_SUPERVISOR);
162	cpu->cpsr.priv = MODE_SUPERVISOR;
163	cpu->gprs[ARM_LR] = cpu->gprs[ARM_PC] - instructionWidth;
164	cpu->gprs[ARM_PC] = BASE_SWI;
165	int currentCycles = 0;
166	ARM_WRITE_PC;
167	cpu->memory.setActiveRegion(cpu, cpu->gprs[ARM_PC]);
168	_ARMSetMode(cpu, MODE_ARM);
169	cpu->spsr = cpsr;
170	cpu->cpsr.i = 1;
171}
172
173static inline void ARMStep(struct ARMCore* cpu) {
174	uint32_t opcode = cpu->prefetch;
175	LOAD_32(cpu->prefetch, cpu->gprs[ARM_PC] & cpu->memory.activeMask, cpu->memory.activeRegion);
176	cpu->gprs[ARM_PC] += WORD_SIZE_ARM;
177
178	unsigned condition = opcode >> 28;
179	if (condition != 0xE) {
180		switch (condition) {
181		case 0x0:
182			if (!ARM_COND_EQ) {
183				cpu->cycles += ARM_PREFETCH_CYCLES;
184				return;
185			}
186			break;
187		case 0x1:
188			if (!ARM_COND_NE) {
189				cpu->cycles += ARM_PREFETCH_CYCLES;
190				return;
191			}
192			break;
193		case 0x2:
194			if (!ARM_COND_CS) {
195				cpu->cycles += ARM_PREFETCH_CYCLES;
196				return;
197			}
198			break;
199		case 0x3:
200			if (!ARM_COND_CC) {
201				cpu->cycles += ARM_PREFETCH_CYCLES;
202				return;
203			}
204			break;
205		case 0x4:
206			if (!ARM_COND_MI) {
207				cpu->cycles += ARM_PREFETCH_CYCLES;
208				return;
209			}
210			break;
211		case 0x5:
212			if (!ARM_COND_PL) {
213				cpu->cycles += ARM_PREFETCH_CYCLES;
214				return;
215			}
216			break;
217		case 0x6:
218			if (!ARM_COND_VS) {
219				cpu->cycles += ARM_PREFETCH_CYCLES;
220				return;
221			}
222			break;
223		case 0x7:
224			if (!ARM_COND_VC) {
225				cpu->cycles += ARM_PREFETCH_CYCLES;
226				return;
227			}
228			break;
229		case 0x8:
230			if (!ARM_COND_HI) {
231				cpu->cycles += ARM_PREFETCH_CYCLES;
232				return;
233			}
234			break;
235		case 0x9:
236			if (!ARM_COND_LS) {
237				cpu->cycles += ARM_PREFETCH_CYCLES;
238				return;
239			}
240			break;
241		case 0xA:
242			if (!ARM_COND_GE) {
243				cpu->cycles += ARM_PREFETCH_CYCLES;
244				return;
245			}
246			break;
247		case 0xB:
248			if (!ARM_COND_LT) {
249				cpu->cycles += ARM_PREFETCH_CYCLES;
250				return;
251			}
252			break;
253		case 0xC:
254			if (!ARM_COND_GT) {
255				cpu->cycles += ARM_PREFETCH_CYCLES;
256				return;
257			}
258			break;
259		case 0xD:
260			if (!ARM_COND_LE) {
261				cpu->cycles += ARM_PREFETCH_CYCLES;
262				return;
263			}
264			break;
265		default:
266			break;
267		}
268	}
269	ARMInstruction instruction = _armTable[((opcode >> 16) & 0xFF0) | ((opcode >> 4) & 0x00F)];
270	instruction(cpu, opcode);
271}
272
273static inline void ThumbStep(struct ARMCore* cpu) {
274	uint32_t opcode = cpu->prefetch;
275	LOAD_16(cpu->prefetch, cpu->gprs[ARM_PC] & cpu->memory.activeMask, cpu->memory.activeRegion);
276	cpu->gprs[ARM_PC] += WORD_SIZE_THUMB;
277	ThumbInstruction instruction = _thumbTable[opcode >> 6];
278	instruction(cpu, opcode);
279}
280
281void ARMRun(struct ARMCore* cpu) {
282	if (cpu->executionMode == MODE_THUMB) {
283		ThumbStep(cpu);
284	} else {
285		ARMStep(cpu);
286	}
287	if (cpu->cycles >= cpu->nextEvent) {
288		cpu->irqh.processEvents(cpu);
289	}
290}
291
292void ARMRunLoop(struct ARMCore* cpu) {
293	while (cpu->cycles < cpu->nextEvent) {
294		if (cpu->executionMode == MODE_THUMB) {
295			ThumbStep(cpu);
296		} else {
297			ARMStep(cpu);
298		}
299	}
300	cpu->irqh.processEvents(cpu);
301}