/*
* Copyright (c) Atmosphère-NX
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope 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 .
*/
#include
namespace ams::gic {
namespace {
struct GicDistributor {
u32 ctlr;
u32 typer;
u32 iidr;
u32 reserved_0x0c;
u32 statusr;
u32 reserved_0x14[3];
u32 impldef_0x20[8];
u32 setspi_nsr;
u32 reserved_0x44;
u32 clrspi_nsr;
u32 reserved_0x4c;
u32 setspi_sr;
u32 reserved_0x54;
u32 clrspi_sr;
u32 reserved_0x5c[9];
u32 igroupr[32];
u32 isenabler[32];
u32 icenabler[32];
u32 ispendr[32];
u32 icpendr[32];
u32 isactiver[32];
u32 icactiver[32];
union {
u8 bytes[1020];
u32 words[255];
} ipriorityr;
u32 _0x7fc;
union {
u8 bytes[1020];
u32 words[255];
} itargetsr;
u32 _0xbfc;
u32 icfgr[64];
u32 igrpmodr[32];
u32 _0xd80[32];
u32 nsacr[64];
u32 sgir;
u32 _0xf04[3];
u32 cpendsgir[4];
u32 spendsgir[4];
u32 reserved_0xf30[52];
static constexpr size_t SgirCpuTargetListShift = 16;
enum SgirTargetListFilter : u32 {
SgirTargetListFilter_CpuTargetList = (0 << 24),
SgirTargetListFilter_Others = (1 << 24),
SgirTargetListFilter_Self = (2 << 24),
SgirTargetListFilter_Reserved = (3 << 24),
};
};
static_assert(util::is_pod::value);
static_assert(sizeof(GicDistributor) == 0x1000);
static_assert(sizeof(GicDistributor) == secmon::MemoryRegionPhysicalDeviceGicDistributor.GetSize());
struct GicCpuInterface {
u32 ctlr;
u32 pmr;
u32 bpr;
u32 iar;
u32 eoir;
u32 rpr;
u32 hppir;
u32 abpr;
u32 aiar;
u32 aeoir;
u32 ahppir;
u32 statusr;
u32 reserved_30[4];
u32 impldef_40[36];
u32 apr[4];
u32 nsapr[4];
u32 reserved_f0[3];
u32 iidr;
u32 reserved_100[960];
u32 dir;
u32 _0x1004[1023];
};
static_assert(util::is_pod::value);
static_assert(sizeof(GicCpuInterface) == 0x2000);
static_assert(sizeof(GicCpuInterface) == secmon::MemoryRegionPhysicalDeviceGicCpuInterface.GetSize());
constexpr inline int InterruptWords = InterruptCount / BITSIZEOF(u32);
constexpr inline int SpiIndex = BITSIZEOF(u32);
constinit uintptr_t g_distributor_address = secmon::MemoryRegionPhysicalDeviceGicDistributor.GetAddress();
constinit uintptr_t g_cpu_interface_address = secmon::MemoryRegionPhysicalDeviceGicCpuInterface.GetAddress();
volatile GicDistributor *GetDistributor() {
return reinterpret_cast(g_distributor_address);
}
volatile GicCpuInterface *GetCpuInterface() {
return reinterpret_cast(g_cpu_interface_address);
}
void ReadWrite(uintptr_t address, int width, int i, u32 value) {
/* This code will never be invoked with a negative interrupt id. */
AMS_ASSUME(i >= 0);
const int scale = BITSIZEOF(u32) / width;
const int word = i / scale;
const int bit = (i % scale) * width;
const u32 mask = ((1u << width) - 1) << bit;
const uintptr_t reg_addr = address + sizeof(u32) * word;
const u32 old = reg::Read(reg_addr) & ~mask;
reg::Write(reg_addr, old | ((value << bit) & mask));
}
void Write(uintptr_t address, int width, int i, u32 value) {
/* This code will never be invoked with a negative interrupt id. */
AMS_ASSUME(i >= 0);
const int scale = BITSIZEOF(u32) / width;
const int word = i / scale;
const int bit = (i % scale) * width;
reg::Write(address + sizeof(u32) * word, value << bit);
}
}
void SetRegisterAddress(uintptr_t distributor_address, uintptr_t cpu_interface_address) {
g_distributor_address = distributor_address;
g_cpu_interface_address = cpu_interface_address;
}
void InitializeCommon() {
/* Get the gicd registers. */
auto *gicd = GetDistributor();
/* Set IGROUPR for to be FFs. */
for (int i = SpiIndex / BITSIZEOF(u32); i < InterruptWords; ++i) {
gicd->igroupr[i] = 0xFFFFFFFFu;
}
/* Set IPRIORITYR for spi interrupts to be 0x80. */
for (int i = SpiIndex; i < InterruptCount; ++i) {
gicd->ipriorityr.bytes[i] = 0x80;
}
/* Enable group 0. */
gicd->ctlr = 1;
}
void InitializeCoreUnique() {
/* Get the registers. */
auto *gicd = GetDistributor();
auto *gicc = GetCpuInterface();
/* Set IGROUPR0 to be FFs. */
gicd->igroupr[0] = 0xFFFFFFFFu;
/* Set IPRIORITYR for core local interrupts to be 0x80. */
for (int i = 0; i < SpiIndex; ++i) {
gicd->ipriorityr.bytes[i] = 0x80;
}
/* Enable group 0 as FIQs. */
gicc->ctlr = 0x1D9;
/* Set PMR. */
gicc->pmr = 0x80;
/* Set BPR. */
gicc->bpr = 7;
}
void SetPriority(int interrupt_id, int priority) {
ReadWrite(g_distributor_address + AMS_OFFSETOF(GicDistributor, ipriorityr), BITSIZEOF(u8), interrupt_id, priority);
}
void SetInterruptGroup(int interrupt_id, int group) {
ReadWrite(g_distributor_address + AMS_OFFSETOF(GicDistributor, igroupr), 1, interrupt_id, group);
}
void SetEnable(int interrupt_id, bool enable) {
Write(g_distributor_address + AMS_OFFSETOF(GicDistributor, isenabler), 1, interrupt_id, enable);
}
void SetSpiTargetCpu(int interrupt_id, u32 cpu_mask) {
ReadWrite(g_distributor_address + AMS_OFFSETOF(GicDistributor, itargetsr), BITSIZEOF(u8), interrupt_id, cpu_mask);
}
void SetSpiMode(int interrupt_id, InterruptMode mode) {
ReadWrite(g_distributor_address + AMS_OFFSETOF(GicDistributor, icfgr), 2, interrupt_id, static_cast(mode) << 1);
}
void SetPending(int interrupt_id) {
Write(g_distributor_address + AMS_OFFSETOF(GicDistributor, ispendr), 1, interrupt_id, 1);
}
int GetInterruptRequestId() {
return reg::Read(GetCpuInterface()->iar);
}
void SetEndOfInterrupt(int interrupt_id) {
reg::Write(GetCpuInterface()->eoir, interrupt_id);
}
}