mirror of
https://github.com/UberGuidoZ/Flipper.git
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216 lines
8.3 KiB
C
216 lines
8.3 KiB
C
/*
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* TamaLIB - A hardware agnostic Tamagotchi P1 emulation library
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*
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* Copyright (C) 2021 Jean-Christophe Rona <jc@rona.fr>
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*/
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#ifndef _CPU_H_
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#define _CPU_H_
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#include "hal.h"
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#define MEMORY_SIZE 4096 // 4096 x 4 bits (640 x 4 bits of RAM)
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#define MEM_RAM_ADDR 0x000
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#define MEM_RAM_SIZE 0x280
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#define MEM_DISPLAY1_ADDR 0xE00
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#define MEM_DISPLAY1_SIZE 0x050
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#define MEM_DISPLAY2_ADDR 0xE80
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#define MEM_DISPLAY2_SIZE 0x050
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#define MEM_IO_ADDR 0xF00
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#define MEM_IO_SIZE 0x080
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/* Define this if you want to reduce the footprint of the memory buffer from 4096 u4_t (most likely bytes)
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* to 464 u8_t (bytes for sure), while increasing slightly the number of operations needed to read/write from/to it.
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*/
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#define LOW_FOOTPRINT
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#ifdef LOW_FOOTPRINT
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/* Invalid memory areas are not buffered to reduce the footprint of the library in memory */
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#define MEM_BUFFER_SIZE (MEM_RAM_SIZE + MEM_DISPLAY1_SIZE + MEM_DISPLAY2_SIZE + MEM_IO_SIZE) / 2
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/* Maps the CPU memory to the memory buffer */
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#define RAM_TO_MEMORY(n) ((n - MEM_RAM_ADDR) / 2)
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#define DISP1_TO_MEMORY(n) ((n - MEM_DISPLAY1_ADDR + MEM_RAM_SIZE) / 2)
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#define DISP2_TO_MEMORY(n) ((n - MEM_DISPLAY2_ADDR + MEM_RAM_SIZE + MEM_DISPLAY1_SIZE) / 2)
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#define IO_TO_MEMORY(n) \
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((n - MEM_IO_ADDR + MEM_RAM_SIZE + MEM_DISPLAY1_SIZE + MEM_DISPLAY2_SIZE) / 2)
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#define SET_RAM_MEMORY(buffer, n, v) \
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{ \
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buffer[RAM_TO_MEMORY(n)] = (buffer[RAM_TO_MEMORY(n)] & ~(0xF << (((n) % 2) << 2))) | \
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((v)&0xF) << (((n) % 2) << 2); \
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}
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#define SET_DISP1_MEMORY(buffer, n, v) \
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{ \
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buffer[DISP1_TO_MEMORY(n)] = (buffer[DISP1_TO_MEMORY(n)] & ~(0xF << (((n) % 2) << 2))) | \
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((v)&0xF) << (((n) % 2) << 2); \
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}
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#define SET_DISP2_MEMORY(buffer, n, v) \
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{ \
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buffer[DISP2_TO_MEMORY(n)] = (buffer[DISP2_TO_MEMORY(n)] & ~(0xF << (((n) % 2) << 2))) | \
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((v)&0xF) << (((n) % 2) << 2); \
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}
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#define SET_IO_MEMORY(buffer, n, v) \
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{ \
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buffer[IO_TO_MEMORY(n)] = (buffer[IO_TO_MEMORY(n)] & ~(0xF << (((n) % 2) << 2))) | \
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((v)&0xF) << (((n) % 2) << 2); \
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}
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#define SET_MEMORY(buffer, n, v) \
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{ \
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if((n) < (MEM_RAM_ADDR + MEM_RAM_SIZE)) { \
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SET_RAM_MEMORY(buffer, n, v); \
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} else if((n) < MEM_DISPLAY1_ADDR) { \
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/* INVALID_MEMORY */ \
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} else if((n) < (MEM_DISPLAY1_ADDR + MEM_DISPLAY1_SIZE)) { \
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SET_DISP1_MEMORY(buffer, n, v); \
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} else if((n) < MEM_DISPLAY2_ADDR) { \
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/* INVALID_MEMORY */ \
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} else if((n) < (MEM_DISPLAY2_ADDR + MEM_DISPLAY2_SIZE)) { \
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SET_DISP2_MEMORY(buffer, n, v); \
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} else if((n) < MEM_IO_ADDR) { \
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/* INVALID_MEMORY */ \
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} else if((n) < (MEM_IO_ADDR + MEM_IO_SIZE)) { \
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SET_IO_MEMORY(buffer, n, v); \
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} else { \
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/* INVALID_MEMORY */ \
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} \
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}
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#define GET_RAM_MEMORY(buffer, n) ((buffer[RAM_TO_MEMORY(n)] >> (((n) % 2) << 2)) & 0xF)
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#define GET_DISP1_MEMORY(buffer, n) ((buffer[DISP1_TO_MEMORY(n)] >> (((n) % 2) << 2)) & 0xF)
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#define GET_DISP2_MEMORY(buffer, n) ((buffer[DISP2_TO_MEMORY(n)] >> (((n) % 2) << 2)) & 0xF)
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#define GET_IO_MEMORY(buffer, n) ((buffer[IO_TO_MEMORY(n)] >> (((n) % 2) << 2)) & 0xF)
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#define GET_MEMORY(buffer, n) \
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((buffer \
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[((n) < (MEM_RAM_ADDR + MEM_RAM_SIZE)) ? RAM_TO_MEMORY(n) : \
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((n) < MEM_DISPLAY1_ADDR) ? 0 : \
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((n) < (MEM_DISPLAY1_ADDR + MEM_DISPLAY1_SIZE)) ? DISP1_TO_MEMORY(n) : \
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((n) < MEM_DISPLAY2_ADDR) ? 0 : \
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((n) < (MEM_DISPLAY2_ADDR + MEM_DISPLAY2_SIZE)) ? DISP2_TO_MEMORY(n) : \
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((n) < MEM_IO_ADDR) ? 0 : \
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((n) < (MEM_IO_ADDR + MEM_IO_SIZE)) ? IO_TO_MEMORY(n) : \
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0] >> \
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(((n) % 2) << 2)) & \
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0xF)
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#define MEM_BUFFER_TYPE u8_t
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#else
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#define MEM_BUFFER_SIZE MEMORY_SIZE
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#define SET_MEMORY(buffer, n, v) \
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{ buffer[n] = v; }
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#define SET_RAM_MEMORY(buffer, n, v) SET_MEMORY(buffer, n, v)
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#define SET_DISP1_MEMORY(buffer, n, v) SET_MEMORY(buffer, n, v)
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#define SET_DISP2_MEMORY(buffer, n, v) SET_MEMORY(buffer, n, v)
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#define SET_IO_MEMORY(buffer, n, v) SET_MEMORY(buffer, n, v)
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#define GET_MEMORY(buffer, n) (buffer[n])
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#define GET_RAM_MEMORY(buffer, n) GET_MEMORY(buffer, n)
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#define GET_DISP1_MEMORY(buffer, n) GET_MEMORY(buffer, n)
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#define GET_DISP2_MEMORY(buffer, n) GET_MEMORY(buffer, n)
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#define GET_IO_MEMORY(buffer, n) GET_MEMORY(buffer, n)
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#define MEM_BUFFER_TYPE u4_t
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#endif
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typedef struct breakpoint {
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u13_t addr;
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struct breakpoint* next;
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} breakpoint_t;
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/* Pins (TODO: add other pins) */
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typedef enum {
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PIN_K00 = 0x0,
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PIN_K01 = 0x1,
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PIN_K02 = 0x2,
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PIN_K03 = 0x3,
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PIN_K10 = 0X4,
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PIN_K11 = 0X5,
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PIN_K12 = 0X6,
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PIN_K13 = 0X7,
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} pin_t;
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typedef enum {
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PIN_STATE_LOW = 0,
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PIN_STATE_HIGH = 1,
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} pin_state_t;
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typedef enum {
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INT_PROG_TIMER_SLOT = 0,
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INT_SERIAL_SLOT = 1,
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INT_K10_K13_SLOT = 2,
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INT_K00_K03_SLOT = 3,
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INT_STOPWATCH_SLOT = 4,
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INT_CLOCK_TIMER_SLOT = 5,
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INT_SLOT_NUM,
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} int_slot_t;
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typedef struct {
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u4_t factor_flag_reg;
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u4_t mask_reg;
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bool_t triggered; /* 1 if triggered, 0 otherwise */
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u8_t vector;
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} interrupt_t;
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typedef struct {
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u13_t* pc;
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u12_t* x;
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u12_t* y;
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u4_t* a;
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u4_t* b;
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u5_t* np;
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u8_t* sp;
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u4_t* flags;
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u32_t* tick_counter;
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u32_t* clk_timer_timestamp;
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u32_t* prog_timer_timestamp;
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bool_t* prog_timer_enabled;
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u8_t* prog_timer_data;
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u8_t* prog_timer_rld;
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u32_t* call_depth;
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interrupt_t* interrupts;
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MEM_BUFFER_TYPE* memory;
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} state_t;
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void cpu_add_bp(breakpoint_t** list, u13_t addr);
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void cpu_free_bp(breakpoint_t** list);
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void cpu_set_speed(u8_t speed);
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state_t* cpu_get_state(void);
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u32_t cpu_get_depth(void);
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void cpu_set_input_pin(pin_t pin, pin_state_t state);
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void cpu_sync_ref_timestamp(void);
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void cpu_refresh_hw(void);
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void cpu_reset(void);
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bool_t cpu_init(const u12_t* program, breakpoint_t* breakpoints, u32_t freq);
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void cpu_release(void);
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int cpu_step(void);
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#endif /* _CPU_H_ */
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