src/devices/board/drivers/sherlock/luis-cpu.cc

// Copyright 2020 The Fuchsia Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

#include <ddk/binding.h>
#include <ddk/debug.h>
#include <ddk/device.h>
#include <ddk/driver.h>
#include <ddk/platform-defs.h>
#include <ddk/protocol/platform/bus.h>
#include <soc/aml-common/aml-cpu-metadata.h>
#include <soc/aml-meson/g12b-clk.h>
#include <soc/aml-t931/t931-hw.h>
#include <soc/aml-t931/t931-power.h>

#include "sherlock.h"

namespace {

constexpr amlogic_cpu::PerfDomainId kPdArmA53 = 1;
constexpr amlogic_cpu::PerfDomainId kPdArmA73 = 2;

constexpr pbus_mmio_t cpu_mmios[]{
    {
        // AOBUS
        .base = T931_AOBUS_BASE,
        .length = T931_AOBUS_LENGTH,
    },
};

constexpr zx_bind_inst_t root_match[] = {
    BI_MATCH(),
};

constexpr zx_bind_inst_t big_power_match[] = {
    BI_ABORT_IF(NE, BIND_PROTOCOL, ZX_PROTOCOL_POWER),
    BI_MATCH_IF(EQ, BIND_POWER_DOMAIN, static_cast<uint32_t>(T931PowerDomains::kArmCoreBig)),
};

constexpr zx_bind_inst_t little_power_match[] = {
    BI_ABORT_IF(NE, BIND_PROTOCOL, ZX_PROTOCOL_POWER),
    BI_MATCH_IF(EQ, BIND_POWER_DOMAIN, static_cast<uint32_t>(T931PowerDomains::kArmCoreLittle)),
};

const zx_bind_inst_t big_pll_div16_match[] = {
    BI_ABORT_IF(NE, BIND_PROTOCOL, ZX_PROTOCOL_CLOCK),
    BI_MATCH_IF(EQ, BIND_CLOCK_ID, g12b_clk::G12B_CLK_SYS_PLL_DIV16),
};
const zx_bind_inst_t big_cpu_div16_match[] = {
    BI_ABORT_IF(NE, BIND_PROTOCOL, ZX_PROTOCOL_CLOCK),
    BI_MATCH_IF(EQ, BIND_CLOCK_ID, g12b_clk::G12B_CLK_SYS_CPU_CLK_DIV16),
};
const zx_bind_inst_t little_pll_div16_match[] = {
    BI_ABORT_IF(NE, BIND_PROTOCOL, ZX_PROTOCOL_CLOCK),
    BI_MATCH_IF(EQ, BIND_CLOCK_ID, g12b_clk::G12B_CLK_SYS_PLLB_DIV16),
};
const zx_bind_inst_t little_cpu_div16_match[] = {
    BI_ABORT_IF(NE, BIND_PROTOCOL, ZX_PROTOCOL_CLOCK),
    BI_MATCH_IF(EQ, BIND_CLOCK_ID, g12b_clk::G12B_CLK_SYS_CPUB_CLK_DIV16),
};

constexpr zx_bind_inst_t clock_big_cpu_scaler_match[] = {
    BI_ABORT_IF(NE, BIND_PROTOCOL, ZX_PROTOCOL_CLOCK),
    BI_MATCH_IF(EQ, BIND_CLOCK_ID, g12b_clk::CLK_SYS_CPU_BIG_CLK),
};

constexpr zx_bind_inst_t clock_little_cpu_scaler_match[] = {
    BI_ABORT_IF(NE, BIND_PROTOCOL, ZX_PROTOCOL_CLOCK),
    BI_MATCH_IF(EQ, BIND_CLOCK_ID, g12b_clk::CLK_SYS_CPU_LITTLE_CLK),
};

const device_fragment_part_t big_power_fragment[] = {
    {countof(root_match), root_match},
    {countof(big_power_match), big_power_match},
};

const device_fragment_part_t little_power_fragment[] = {
    {countof(root_match), root_match},
    {countof(little_power_match), little_power_match},
};

const device_fragment_part_t big_pll_div16_fragment[] = {
    {countof(root_match), root_match},
    {countof(big_pll_div16_match), big_pll_div16_match},
};

const device_fragment_part_t big_cpu_div16_fragment[] = {
    {countof(root_match), root_match},
    {countof(big_cpu_div16_match), big_cpu_div16_match},
};

const device_fragment_part_t little_pll_div16_fragment[] = {
    {countof(root_match), root_match},
    {countof(little_pll_div16_match), little_pll_div16_match},
};

const device_fragment_part_t little_cpu_div16_fragment[] = {
    {countof(root_match), root_match},
    {countof(little_cpu_div16_match), little_cpu_div16_match},
};

const device_fragment_part_t clock_big_cpu_scaler_fragment[] = {
    {countof(root_match), root_match},
    {countof(clock_big_cpu_scaler_match), clock_big_cpu_scaler_match},
};

const device_fragment_part_t clock_little_cpu_scaler_fragment[] = {
    {countof(root_match), root_match},
    {countof(clock_little_cpu_scaler_match), clock_little_cpu_scaler_match},
};

const device_fragment_t fragments[] = {
    // Clusters are defined in groups of 4
    {"power-01", countof(big_power_fragment), big_power_fragment},                    // 0
    {"clock-pll-div16-01", countof(big_pll_div16_fragment), big_pll_div16_fragment},  // 1
    {"clock-cpu-div16-01", countof(big_cpu_div16_fragment), big_cpu_div16_fragment},  // 2
    {"clock-cpu-scaler-01", countof(clock_big_cpu_scaler_fragment), clock_big_cpu_scaler_fragment},

    {"power-02", countof(little_power_fragment), little_power_fragment},                    // 4
    {"clock-pll-div16-02", countof(little_pll_div16_fragment), little_pll_div16_fragment},  // 5
    {"clock-cpu-div16-02", countof(little_cpu_div16_fragment), little_cpu_div16_fragment},
    {"clock-cpu-scaler-02", countof(clock_little_cpu_scaler_fragment),
     clock_little_cpu_scaler_fragment},
};

constexpr amlogic_cpu::operating_point_t operating_points[] = {
    // Little Cluster DVFS Table
    {.freq_hz = 100'000'000, .volt_uv = 731'000, .pd_id = kPdArmA53},
    {.freq_hz = 250'000'000, .volt_uv = 731'000, .pd_id = kPdArmA53},
    {.freq_hz = 500'000'000, .volt_uv = 731'000, .pd_id = kPdArmA53},
    {.freq_hz = 667'000'000, .volt_uv = 731'000, .pd_id = kPdArmA53},
    {.freq_hz = 1'000'000'000, .volt_uv = 731'000, .pd_id = kPdArmA53},
    {.freq_hz = 1'200'000'000, .volt_uv = 731'000, .pd_id = kPdArmA53},
    {.freq_hz = 1'398'000'000, .volt_uv = 761'000, .pd_id = kPdArmA53},
    {.freq_hz = 1'512'000'000, .volt_uv = 791'000, .pd_id = kPdArmA53},
    {.freq_hz = 1'608'000'000, .volt_uv = 831'000, .pd_id = kPdArmA53},
    {.freq_hz = 1'704'000'000, .volt_uv = 861'000, .pd_id = kPdArmA53},
    {.freq_hz = 1'896'000'000, .volt_uv = 981'000, .pd_id = kPdArmA53},

    // Big Cluster DVFS Table.
    {.freq_hz = 100'000'000, .volt_uv = 737'500, .pd_id = kPdArmA73},
    {.freq_hz = 250'000'000, .volt_uv = 737'500, .pd_id = kPdArmA73},
    {.freq_hz = 500'000'000, .volt_uv = 737'500, .pd_id = kPdArmA73},
    {.freq_hz = 667'000'000, .volt_uv = 737'500, .pd_id = kPdArmA73},
    {.freq_hz = 1000'000'000, .volt_uv = 737'500, .pd_id = kPdArmA73},
    {.freq_hz = 1200'000'000, .volt_uv = 750'000, .pd_id = kPdArmA73},
    {.freq_hz = 1398'000'000, .volt_uv = 775'000, .pd_id = kPdArmA73},
    {.freq_hz = 1512'000'000, .volt_uv = 775'000, .pd_id = kPdArmA73},
    {.freq_hz = 1608'000'000, .volt_uv = 787'500, .pd_id = kPdArmA73},
    {.freq_hz = 1704'000'000, .volt_uv = 800'000, .pd_id = kPdArmA73},
    {.freq_hz = 1800'000'000, .volt_uv = 837'500, .pd_id = kPdArmA73},
    {.freq_hz = 1908'000'000, .volt_uv = 862'500, .pd_id = kPdArmA73},
    {.freq_hz = 2016'000'000, .volt_uv = 912'500, .pd_id = kPdArmA73},
    {.freq_hz = 2100'000'000, .volt_uv = 950'000, .pd_id = kPdArmA73},
    {.freq_hz = 2208'000'000, .volt_uv = 1012'500, .pd_id = kPdArmA73},
};

constexpr amlogic_cpu::perf_domain_t performance_domains[] = {
    {.id = kPdArmA73, .relative_performance = 255, .name = "T931 ARM A73"},
    {.id = kPdArmA53, .relative_performance = 128, .name = "T931 ARM A53"},
};

static const pbus_metadata_t cpu_metadata[] = {
    {
        .type = DEVICE_METADATA_AML_OP_POINTS,
        .data_buffer = operating_points,
        .data_size = sizeof(operating_points),
    },
    {
        .type = DEVICE_METADATA_AML_PERF_DOMAINS,
        .data_buffer = performance_domains,
        .data_size = sizeof(performance_domains),
    },
};

constexpr pbus_dev_t cpu_dev = []() {
  pbus_dev_t result = {};
  result.name = "aml-cpu";
  result.vid = PDEV_VID_GOOGLE;
  result.pid = PDEV_PID_LUIS;
  result.did = PDEV_DID_GOOGLE_AMLOGIC_CPU;
  result.metadata_list = cpu_metadata;
  result.metadata_count = countof(cpu_metadata);
  result.mmio_list = cpu_mmios;
  result.mmio_count = countof(cpu_mmios);
  return result;
}();

}  // namespace

namespace sherlock {

zx_status_t Sherlock::LuisCpuInit() {
  zx_status_t result = pbus_.CompositeDeviceAdd(&cpu_dev, fragments, countof(fragments), 1);

  if (result != ZX_OK) {
    zxlogf(ERROR, "%s: Failed to add CPU composite device, st = %d\n", __func__, result);
  }

  return result;
}

}  // namespace sherlock