/* DingusPPC - The Experimental PowerPC Macintosh emulator Copyright (C) 2018-24 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 . */ /** @file SCSI bus emulation. */ #include #include #include #include #include ScsiBus::ScsiBus(const std::string name) { this->set_name(name); supports_types(HWCompType::SCSI_BUS); for(int i = 0; i < SCSI_MAX_DEVS; i++) { this->devices[i] = nullptr; this->dev_ctrl_lines[i] = 0; } this->ctrl_lines = 0; // all control lines released this->data_lines = 0; // data lines released this->arb_winner_id = -1; this->initiator_id = -1; this->target_id = -1; } void ScsiBus::register_device(int id, ScsiDevice* dev_obj) { if (this->devices[id] != nullptr) { ABORT_F("ScsiBus: device with ID %d already registered", id); } this->devices[id] = dev_obj; dev_obj->set_bus_object_ptr(this); } void ScsiBus::change_bus_phase(int initiator_id) { for (int i = 0; i < SCSI_MAX_DEVS; i++) { if (i == initiator_id) continue; // don't notify the initiator if (this->devices[i] != nullptr) { this->devices[i]->notify(ScsiMsg::BUS_PHASE_CHANGE, this->cur_phase); } } } void ScsiBus::assert_ctrl_line(int initiator_id, uint16_t mask) { DCHECK_F(initiator_id >= 0 && initiator_id < SCSI_MAX_DEVS, "ScsiBus: invalid initiator ID %d", initiator_id); uint16_t new_state = 0xFFFFU & mask; this->dev_ctrl_lines[initiator_id] |= new_state; if (new_state == this->ctrl_lines) { return; } if (new_state & SCSI_CTRL_RST) { this->ctrl_lines |= SCSI_CTRL_RST; this->cur_phase = ScsiPhase::RESET; change_bus_phase(initiator_id); } } void ScsiBus::release_ctrl_line(int id, uint16_t mask) { DCHECK_F(id >= 0 && id < SCSI_MAX_DEVS, "ScsiBus: invalid initiator ID %d", id); uint16_t new_state = 0; this->dev_ctrl_lines[id] &= ~mask; // OR control lines of all devices together for (int i = 0; i < SCSI_MAX_DEVS; i++) { new_state |= this->dev_ctrl_lines[i]; } if (this->ctrl_lines & SCSI_CTRL_RST) { if (!(new_state & SCSI_CTRL_RST)) { this->ctrl_lines = new_state; this->cur_phase = ScsiPhase::BUS_FREE; change_bus_phase(id); } } else { this->ctrl_lines = new_state; } } void ScsiBus::release_ctrl_lines(int id) { this->release_ctrl_line(id, 0xFFFFUL); } uint16_t ScsiBus::test_ctrl_lines(uint16_t mask) { uint16_t new_state = 0; // OR control lines of all devices together for (int i = 0; i < SCSI_MAX_DEVS; i++) { new_state |= this->dev_ctrl_lines[i]; } return new_state & mask; } int ScsiBus::switch_phase(int id, int new_phase) { int old_phase = this->cur_phase; // leave the current phase (low-level) switch (old_phase) { case ScsiPhase::COMMAND: this->release_ctrl_line(id, SCSI_CTRL_CD); break; case ScsiPhase::DATA_IN: this->release_ctrl_line(id, SCSI_CTRL_IO); break; case ScsiPhase::STATUS: this->release_ctrl_line(id, SCSI_CTRL_CD | SCSI_CTRL_IO); break; case ScsiPhase::MESSAGE_OUT: this->release_ctrl_line(id, SCSI_CTRL_CD | SCSI_CTRL_MSG); break; case ScsiPhase::MESSAGE_IN: this->release_ctrl_line(id, SCSI_CTRL_CD | SCSI_CTRL_MSG | SCSI_CTRL_IO); break; } // enter new phase (low-level) switch (new_phase) { case ScsiPhase::COMMAND: this->assert_ctrl_line(id, SCSI_CTRL_CD); break; case ScsiPhase::DATA_IN: this->assert_ctrl_line(id, SCSI_CTRL_IO); break; case ScsiPhase::STATUS: this->assert_ctrl_line(id, SCSI_CTRL_CD | SCSI_CTRL_IO); break; case ScsiPhase::MESSAGE_OUT: this->assert_ctrl_line(id, SCSI_CTRL_CD | SCSI_CTRL_MSG); break; case ScsiPhase::MESSAGE_IN: this->assert_ctrl_line(id, SCSI_CTRL_CD | SCSI_CTRL_MSG | SCSI_CTRL_IO); break; } // switch the bus to the new phase (high-level) this->cur_phase = new_phase; change_bus_phase(id); return old_phase; } bool ScsiBus::begin_arbitration(int initiator_id) { if (this->cur_phase == ScsiPhase::BUS_FREE) { this->data_lines |= 1 << initiator_id; this->cur_phase = ScsiPhase::ARBITRATION; change_bus_phase(initiator_id); return true; } else { return false; } } bool ScsiBus::end_arbitration(int initiator_id) { int highest_id = -1; // find the highest ID bit on the data lines for (int id = 7; id >= 0; id--) { if (this->data_lines & (1 << id)) { highest_id = id; break; } } if (highest_id >= 0) { this->arb_winner_id = highest_id; } return highest_id == initiator_id; } bool ScsiBus::begin_selection(int initiator_id, int target_id, bool atn) { // perform bus integrity checks if (this->cur_phase != ScsiPhase::ARBITRATION || this->arb_winner_id != initiator_id) return false; this->assert_ctrl_line(initiator_id, SCSI_CTRL_SEL); this->data_lines = (1 << initiator_id) | (1 << target_id); if (atn) { assert_ctrl_line(initiator_id, SCSI_CTRL_ATN); } this->initiator_id = initiator_id; this->cur_phase = ScsiPhase::SELECTION; change_bus_phase(initiator_id); return true; } void ScsiBus::confirm_selection(int target_id) { this->target_id = target_id; // notify initiator about selection confirmation from target if (this->initiator_id >= 0) { this->devices[this->initiator_id]->notify(ScsiMsg::CONFIRM_SEL, target_id); } } bool ScsiBus::end_selection(int initiator_id, int target_id) { // check for selection confirmation from target return this->target_id == target_id; } bool ScsiBus::pull_data(const int id, uint8_t* dst_ptr, const int size) { if (dst_ptr == nullptr || !size) { return false; } if (!this->devices[id]->send_data(dst_ptr, size)) { LOG_F(ERROR, "ScsiBus: error while transferring T->I data!"); return false; } return true; } bool ScsiBus::push_data(const int id, const uint8_t* src_ptr, const int size) { if (!this->devices[id]->rcv_data(src_ptr, size)) { LOG_F(ERROR, "ScsiBus: error while transferring I->T data!"); return false; } return true; } int ScsiBus::target_xfer_data() { return this->devices[this->target_id]->xfer_data(); } void ScsiBus::target_next_step() { this->devices[this->target_id]->next_step(); } bool ScsiBus::negotiate_xfer(int& bytes_in, int& bytes_out) { this->devices[this->target_id]->prepare_xfer(this, bytes_in, bytes_out); return true; } void ScsiBus::disconnect(int dev_id) { this->release_ctrl_lines(dev_id); if (!(this->ctrl_lines & SCSI_CTRL_BSY) && !(this->ctrl_lines & SCSI_CTRL_SEL)) { this->cur_phase = ScsiPhase::BUS_FREE; change_bus_phase(dev_id); } } static const DeviceDescription ScsiCurio_Descriptor = { ScsiBus::create_ScsiCurio, {}, {} }; static const DeviceDescription ScsiMesh_Descriptor = { ScsiBus::create_ScsiMesh, {}, {} }; REGISTER_DEVICE(ScsiCurio, ScsiCurio_Descriptor); REGISTER_DEVICE(ScsiMesh, ScsiMesh_Descriptor);