mirror of
https://github.com/dingusdev/dingusppc.git
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227 lines
9.4 KiB
C++
227 lines
9.4 KiB
C++
/*
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DingusPPC - The Experimental PowerPC Macintosh emulator
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Copyright (C) 2018-23 divingkatae and maximum
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(theweirdo) spatium
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(Contact divingkatae#1017 or powermax#2286 on Discord for more info)
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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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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You should have received a copy of the GNU General Public License
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along with this program. If not, see <https://www.gnu.org/licenses/>.
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*/
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#include <devices/common/pci/pcibridge.h>
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#include <memaccess.h>
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PCIBridge::PCIBridge(std::string name) : PCIDevice(name)
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{
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this->num_bars = 2;
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this->hdr_type = 1;
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this->pci_rd_primary_bus = [this]() { return this->primary_bus; };
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this->pci_rd_secondary_bus = [this]() { return this->secondary_bus; };
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this->pci_rd_subordinate_bus = [this]() { return this->subordinate_bus; };
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this->pci_rd_sec_latency_timer = [this]() { return this->sec_latency_timer; };
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this->pci_rd_sec_status = [this]() { return this->sec_status; };
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this->pci_rd_memory_base = [this]() { return this->memory_base; };
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this->pci_rd_memory_limit = [this]() { return this->memory_limit; };
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this->pci_rd_io_base = [this]() { return this->io_base; };
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this->pci_rd_io_limit = [this]() { return this->io_limit; };
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this->pci_rd_pref_mem_base = [this]() { return this->pref_mem_base; };
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this->pci_rd_pref_mem_limit = [this]() { return this->pref_mem_limit; };
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this->pci_rd_io_base_upper16 = [this]() { return this->io_base_upper16; };
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this->pci_rd_io_limit_upper16 = [this]() { return this->io_limit_upper16; };
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this->pci_rd_pref_base_upper32 = [this]() { return this->pref_base_upper32; };
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this->pci_rd_pref_limit_upper32 = [this]() { return this->pref_limit_upper32; };
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this->pci_rd_bridge_control = [this]() { return this->bridge_control; };
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this->pci_wr_primary_bus = [this](uint8_t val) { this->primary_bus = val; };
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this->pci_wr_secondary_bus = [this](uint8_t val) { this->secondary_bus = val; };
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this->pci_wr_subordinate_bus = [this](uint8_t val) { this->subordinate_bus = val; };
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this->pci_wr_sec_latency_timer = [this](uint8_t val) {
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this->sec_latency_timer = (this->sec_latency_timer & ~this->sec_latency_timer_cfg) |
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(val & this->sec_latency_timer_cfg);
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};
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this->pci_wr_sec_status = [this](uint16_t val) {};
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this->pci_wr_memory_base = [this](uint16_t val) {
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this->memory_base = (val & this->memory_cfg) | (this->memory_cfg & 15);
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this->memory_base_32 = ((this->memory_base & 0xfff0) << 16);
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};
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this->pci_wr_memory_limit = [this](uint16_t val) {
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this->memory_limit = (val & this->memory_cfg) | (this->memory_cfg & 15);
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this->memory_limit_32 = ((this->memory_limit & 0xfff0) << 16) + 0x100000;
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};
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this->pci_wr_io_base = [this](uint8_t val) {
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this->io_base = (val & this->io_cfg) | (this->io_cfg & 15);
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this->io_base_32 = ((uint32_t)this->io_base_upper16 << 16) | ((this->io_base & 0xf0) << 8);
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};
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this->pci_wr_io_limit = [this](uint8_t val) {
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this->io_limit = (val & this->io_cfg) | (this->io_cfg & 15);
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this->io_limit_32 = (((uint32_t)this->io_limit_upper16 << 16) |
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((this->io_limit & 0xf0) << 8)) + 0x1000;
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};
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this->pci_wr_pref_mem_base = [this](uint16_t val) {
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this->pref_mem_base = (val & this->pref_mem_cfg) | (this->pref_mem_cfg & 15);
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this->pref_mem_base_64 = ((uint64_t)this->pref_base_upper32 << 32) |
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((this->pref_mem_base & 0xfff0) << 16);
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};
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this->pci_wr_pref_mem_limit = [this](uint16_t val) {
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this->pref_mem_limit = (val & this->pref_mem_cfg) | (this->pref_mem_cfg & 15);
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this->pref_mem_limit_64 = (((uint64_t)this->pref_limit_upper32 << 32) |
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((this->pref_mem_limit & 0xfff0) << 16)) + 0x100000;
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};
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this->pci_wr_io_base_upper16 = [this](uint16_t val) {
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if ((this->io_base & 15) == 1)
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this->io_base_upper16 = val;
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this->io_base_32 = ((uint32_t)this->io_base_upper16 << 16) |
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((this->io_base & 0xf0) << 8);
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};
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this->pci_wr_io_limit_upper16 = [this](uint16_t val) {
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if ((this->io_limit & 15) == 1)
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this->io_limit_upper16 = val;
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this->io_limit_32 = (((uint32_t)this->io_limit_upper16 << 16) |
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((this->io_limit & 0xf0) << 8)) + 0x1000;
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};
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this->pci_wr_pref_base_upper32 = [this](uint32_t val) {
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if ((this->pref_mem_cfg & 15) == 1)
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this->pref_base_upper32 = val;
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this->pref_mem_base_64 = ((uint64_t)this->pref_base_upper32 << 32) |
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((this->pref_mem_base & 0xfff0) << 16);
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};
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this->pci_wr_pref_limit_upper32 = [this](uint32_t val) {
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if ((this->pref_mem_cfg & 15) == 1)
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this->pref_limit_upper32 = val;
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this->pref_mem_limit_64 = (((uint64_t)this->pref_limit_upper32 << 32) |
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((this->pref_mem_limit & 0xfff0) << 16)) + 0x100000;
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};
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this->pci_wr_bridge_control = [this](uint16_t val) { this->bridge_control = val; };
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};
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bool PCIBridge::pci_register_mmio_region(uint32_t start_addr, uint32_t size, PCIDevice* obj)
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{
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// FIXME: constrain region to memory range
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return this->host_instance->pci_register_mmio_region(start_addr, size, obj);
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}
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bool PCIBridge::pci_unregister_mmio_region(uint32_t start_addr, uint32_t size, PCIDevice* obj)
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{
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return this->host_instance->pci_unregister_mmio_region(start_addr, size, obj);
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}
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uint32_t PCIBridge::pci_cfg_read(uint32_t reg_offs, AccessDetails &details)
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{
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if (reg_offs < 0x18) {
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return PCIDevice::pci_cfg_read(reg_offs, details);
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}
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switch (reg_offs) {
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case PCI_CFG_PRIMARY_BUS:
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return (this->pci_rd_sec_latency_timer() << 24) |
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(this->pci_rd_subordinate_bus() << 16) |
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(this->pci_rd_secondary_bus() << 8) |
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(this->pci_rd_primary_bus());
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case PCI_CFG_IO_BASE:
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return (this->pci_rd_sec_status() << 16) |
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(this->pci_rd_io_limit() << 8) | (this->pci_rd_io_base());
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case PCI_CFG_MEMORY_BASE:
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return (this->pci_rd_memory_limit() << 16) | (this->pci_rd_memory_base());
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case PCI_CFG_PREF_MEM_BASE:
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return (this->pci_rd_pref_mem_limit() << 16) | (this->pci_rd_pref_mem_base());
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case PCI_CFG_PREF_BASE_UPPER32:
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return this->pci_rd_pref_base_upper32();
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case PCI_CFG_PREF_LIMIT_UPPER32:
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return this->pci_rd_pref_limit_upper32();
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case PCI_CFG_IO_BASE_UPPER16:
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return (this->pci_rd_io_limit_upper16() << 16) | (this->pci_rd_io_base_upper16());
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case PCI_CFG_CAP_PTR:
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return cap_ptr;
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case PCI_CFG_BRIDGE_ROM_ADDRESS:
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return exp_rom_bar;
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case PCI_CFG_INTERRUPT_LINE:
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return (this->pci_rd_bridge_control() << 16) | (irq_pin << 8) | irq_line;
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}
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LOG_READ_UNIMPLEMENTED_CONFIG_REGISTER();
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return 0;
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}
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void PCIBridge::pci_cfg_write(uint32_t reg_offs, uint32_t value, AccessDetails &details)
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{
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if (reg_offs < 0x18) {
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return PCIDevice::pci_cfg_write(reg_offs, value, details);
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}
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switch (reg_offs) {
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case PCI_CFG_PRIMARY_BUS:
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this->pci_wr_sec_latency_timer(value >> 24);
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this->pci_wr_subordinate_bus(value >> 16);
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this->pci_wr_secondary_bus(value >> 8);
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this->pci_wr_primary_bus(value & 0xFFU);
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break;
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case PCI_CFG_IO_BASE:
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this->pci_wr_sec_status(value >> 16);
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this->pci_wr_io_limit(value >> 8);
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this->pci_wr_io_base(value & 0xFFU);
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break;
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case PCI_CFG_MEMORY_BASE:
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this->pci_wr_memory_limit(value >> 16);
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this->pci_wr_memory_base(value & 0xFFFFU);
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break;
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case PCI_CFG_PREF_MEM_BASE:
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this->pci_wr_pref_mem_limit(value >> 16);
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this->pci_wr_pref_mem_base(value & 0xFFFFU);
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break;
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case PCI_CFG_PREF_BASE_UPPER32:
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this->pci_wr_pref_base_upper32(value);
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break;
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case PCI_CFG_PREF_LIMIT_UPPER32:
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this->pci_wr_pref_limit_upper32(value);
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break;
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case PCI_CFG_IO_BASE_UPPER16:
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this->pci_wr_io_limit_upper16(value >> 16);
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this->pci_wr_io_base_upper16(value & 0xFFFFU);
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break;
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case PCI_CFG_BRIDGE_ROM_ADDRESS:
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this->pci_wr_exp_rom_bar(value);
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break;
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case PCI_CFG_INTERRUPT_LINE:
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this->irq_line = value >> 24;
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this->pci_wr_bridge_control(value >> 16);
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break;
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default:
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LOG_WRITE_UNIMPLEMENTED_CONFIG_REGISTER();
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}
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}
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bool PCIBridge::pci_io_read(uint32_t offset, uint32_t size, uint32_t* res)
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{
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if (!(this->command & 1)) return false;
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if (offset < this->io_base_32 || offset + size >= this->io_limit_32) return false;
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return this->pci_io_read_loop(offset, size, *res);
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}
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bool PCIBridge::pci_io_write(uint32_t offset, uint32_t value, uint32_t size)
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{
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if (!(this->command & 1)) return false;
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if (offset < this->io_base_32 || offset + size >= this->io_limit_32) return false;
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return this->pci_io_read_loop(offset, size, value);
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}
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