dingusppc/devices/amic.h

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/*
DingusPPC - The Experimental PowerPC Macintosh emulator
Copyright (C) 2018-21 divingkatae and maximum
(theweirdo) spatium
(Contact divingkatae#1017 or powermax#2286 on Discord for more info)
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 3 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, see <https://www.gnu.org/licenses/>.
*/
/** @file Apple memory-mapped I/O controller emulation. */
#ifndef AMIC_H
#define AMIC_H
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#include "awacs.h"
#include "dmacore.h"
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#include "mmiodevice.h"
#include "viacuda.h"
#include <cinttypes>
#include <memory>
/** AMIC sound buffers are located at fixed offsets from DMA base. */
#define AMIC_SND_BUF0_OFFS 0x10000
#define AMIC_SND_BUF1_OFFS 0x12000
// PDM HWInit source defines two constants: kExpBit = 0x80 and kCmdBit = 0x40
// I don't know what they means but it seems that their combination will
// cause sound control parameters to be transferred to the sound chip.
#define PDM_SND_CTRL_VALID 0xC0
#define PDM_DMA_IF1 0x80 // DMA interrupt flag => buffer 1 drained
#define PDM_DMA_IF0 0x40 // DMA interrupt flag => buffer 0 drained
#define PDM_DMA_INTS_MASK 0xF0 // mask for clearing all interrupt flags
/** AMIC-specific sound output DMA implementation. */
class AmicSndOutDma : public DmaOutChannel {
public:
AmicSndOutDma();
~AmicSndOutDma() = default;
bool is_active();
void init(uint32_t buf_base, uint32_t buf_samples);
void enable() { this->enabled = true; };
void disable() { this->enabled = false; };
uint8_t read_stat();
void write_dma_out_ctrl(uint8_t value);
uint32_t get_cur_buf_pos() { return this->cur_buf_pos; };
DmaPullResult pull_data(uint32_t req_len, uint32_t *avail_len,
uint8_t **p_data);
private:
bool enabled;
uint8_t dma_out_ctrl;
uint32_t out_buf0;
uint32_t out_buf1;
uint32_t out_buf_len;
uint32_t snd_buf_num;
uint32_t cur_buf_pos;
};
/* AMIC registers offsets from AMIC base (0x50F00000). */
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enum AMICReg : uint32_t {
// Sound control registers
Snd_Ctrl_0 = 0x14000, // audio codec control register 0
Snd_Ctrl_1 = 0x14001, // audio codec control register 1
Snd_Ctrl_2 = 0x14002, // audio codec control register 2
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Snd_Stat_0 = 0x14004, // audio codec status register 0
Snd_Stat_1 = 0x14005, // audio codec status register 1
Snd_Stat_2 = 0x14006, // audio codec status register 2
Snd_Buf_Size_Hi = 0x14008, // sound buffer size, high-order byte
Snd_Buf_Size_Lo = 0x14009, // sound buffer size, low-order byte
Snd_Phase0 = 0x1400C, // high-order byte of the sound phase register
Snd_Phase1 = 0x1400D, // middle byte of the sound phase register
Snd_Phase2 = 0x1400E, // low-order byte of the sound phase register
Snd_Out_Ctrl = 0x14010, // audio codec output control register
Snd_In_Ctrl = 0x14011, // audio codec input control register
Snd_In_DMA = 0x14014, // sound input DMA status/control register
Snd_Out_DMA = 0x14018, // sound output DMA status/control register
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// VIA2 registers
VIA2_Slot_IER = 0x26012,
VIA2_IER = 0x26013,
// Video control registers
Video_Mode_Reg = 0x28000,
Int_Ctrl = 0x2A000,
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// Undocumented diagnostics register
Diag_Reg = 0x2C000,
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// DMA control registers
DMA_Base_Addr_0 = 0x31000,
DMA_Base_Addr_1 = 0x31001,
DMA_Base_Addr_2 = 0x31002,
DMA_Base_Addr_3 = 0x31003,
Enet_DMA_Xmt_Ctrl = 0x31C20,
SCSI_DMA_Ctrl = 0x32008,
Enet_DMA_Rcv_Ctrl = 0x32028,
SWIM3_DMA_Ctrl = 0x32068,
SCC_DMA_Xmt_A_Ctrl = 0x32088,
SCC_DMA_Rcv_A_Ctrl = 0x32098,
SCC_DMA_Xmt_B_Ctrl = 0x320A8,
SCC_DMA_Rcv_B_Ctrl = 0x320B8,
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};
/** Apple Memory-mapped I/O controller device. */
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class AMIC : public MMIODevice {
public:
AMIC();
~AMIC() = default;
bool supports_type(HWCompType type);
/* MMIODevice methods */
uint32_t read(uint32_t reg_start, uint32_t offset, int size);
void write(uint32_t reg_start, uint32_t offset, uint32_t value, int size);
protected:
void dma_reg_write(uint32_t offset, uint32_t value, int size);
private:
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uint8_t imm_snd_regs[4]; // temporary storage for sound control registers
uint32_t dma_base = 0; // DMA physical base address
uint16_t snd_buf_size = 0; // sound buffer size in bytes
uint8_t snd_out_ctrl = 0;
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std::unique_ptr<ViaCuda> viacuda;
std::unique_ptr<AwacDevicePdm> awacs;
std::unique_ptr<AmicSndOutDma> snd_out_dma;
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};
#endif // AMIC_H