#![no_std]
#![deny(missing_docs, unsafe_code, unstable_features)]
pub mod binary;
pub mod base;
#[cfg(feature = "legacy")]
pub mod legacy;
pub mod time;
pub mod spi;
pub mod rfnc;
pub mod hsm;
pub mod srst;
pub mod pmu;
pub mod dbcn;
pub mod susp;
pub mod cppc;
pub mod nacl;
pub mod sta;
const fn eid_from_str(name: &str) -> i32 {
match *name.as_bytes() {
[a] => i32::from_be_bytes([0, 0, 0, a]),
[a, b] => i32::from_be_bytes([0, 0, a, b]),
[a, b, c] => i32::from_be_bytes([0, a, b, c]),
[a, b, c, d] => i32::from_be_bytes([a, b, c, d]),
_ => unreachable!(),
}
}
#[cfg(test)]
mod tests {
use static_assertions::{
assert_eq_align, assert_eq_size, assert_fields, assert_impl_all, const_assert_eq,
};
#[test]
fn test_binary() {
use crate::binary::*;
assert_eq_align!(SbiRet, usize);
assert_eq_size!(SbiRet, [usize; 2]);
assert_fields!(SbiRet: error);
assert_fields!(SbiRet: value);
assert_impl_all!(SbiRet: Copy, Clone, PartialEq, Eq, core::fmt::Debug);
const_assert_eq!(0, RET_SUCCESS as isize);
const_assert_eq!(-1, RET_ERR_FAILED as isize);
const_assert_eq!(-2, RET_ERR_NOT_SUPPORTED as isize);
const_assert_eq!(-3, RET_ERR_INVALID_PARAM as isize);
const_assert_eq!(-4, RET_ERR_DENIED as isize);
const_assert_eq!(-5, RET_ERR_INVALID_ADDRESS as isize);
const_assert_eq!(-6, RET_ERR_ALREADY_AVAILABLE as isize);
const_assert_eq!(-7, RET_ERR_ALREADY_STARTED as isize);
const_assert_eq!(-8, RET_ERR_ALREADY_STOPPED as isize);
const_assert_eq!(-9, RET_ERR_NO_SHMEM as isize);
}
#[test]
fn test_base() {
use crate::base::*;
const_assert_eq!(0x10, EID_BASE);
const_assert_eq!(0, GET_SBI_SPEC_VERSION);
const_assert_eq!(1, GET_SBI_IMPL_ID);
const_assert_eq!(2, GET_SBI_IMPL_VERSION);
const_assert_eq!(3, PROBE_EXTENSION);
const_assert_eq!(4, GET_MVENDORID);
const_assert_eq!(5, GET_MARCHID);
const_assert_eq!(6, GET_MIMPID);
const_assert_eq!(0, impl_id::BBL);
const_assert_eq!(1, impl_id::OPEN_SBI);
const_assert_eq!(2, impl_id::XVISOR);
const_assert_eq!(3, impl_id::KVM);
const_assert_eq!(4, impl_id::RUST_SBI);
const_assert_eq!(5, impl_id::DIOSIX);
const_assert_eq!(6, impl_id::COFFER);
}
#[cfg(feature = "legacy")]
#[test]
fn test_legacy() {
use crate::legacy::*;
const_assert_eq!(0, LEGACY_SET_TIMER);
const_assert_eq!(1, LEGACY_CONSOLE_PUTCHAR);
const_assert_eq!(2, LEGACY_CONSOLE_GETCHAR);
const_assert_eq!(3, LEGACY_CLEAR_IPI);
const_assert_eq!(4, LEGACY_SEND_IPI);
const_assert_eq!(5, LEGACY_REMOTE_FENCE_I);
const_assert_eq!(6, LEGACY_REMOTE_SFENCE_VMA);
const_assert_eq!(7, LEGACY_REMOTE_SFENCE_VMA_ASID);
const_assert_eq!(8, LEGACY_SHUTDOWN);
}
#[test]
fn test_time() {
use crate::time::*;
const_assert_eq!(0x54494D45, EID_TIME);
const_assert_eq!(0, SET_TIMER);
}
#[test]
fn test_spi() {
use crate::spi::*;
const_assert_eq!(0x735049, EID_SPI);
const_assert_eq!(0, SEND_IPI);
}
#[test]
fn test_rfnc() {
use crate::rfnc::*;
const_assert_eq!(0x52464E43, EID_RFNC);
const_assert_eq!(0, REMOTE_FENCE_I);
const_assert_eq!(1, REMOTE_SFENCE_VMA);
const_assert_eq!(2, REMOTE_SFENCE_VMA_ASID);
const_assert_eq!(3, REMOTE_HFENCE_GVMA_VMID);
const_assert_eq!(4, REMOTE_HFENCE_GVMA);
const_assert_eq!(5, REMOTE_HFENCE_VVMA_ASID);
const_assert_eq!(6, REMOTE_HFENCE_VVMA);
}
#[test]
fn test_hsm() {
use crate::hsm::*;
const_assert_eq!(0x48534D, EID_HSM);
const_assert_eq!(0, hart_state::STARTED);
const_assert_eq!(1, hart_state::STOPPED);
const_assert_eq!(2, hart_state::START_PENDING);
const_assert_eq!(3, hart_state::STOP_PENDING);
const_assert_eq!(4, hart_state::SUSPENDED);
const_assert_eq!(5, hart_state::SUSPEND_PENDING);
const_assert_eq!(6, hart_state::RESUME_PENDING);
const_assert_eq!(0x0000_0000, suspend_type::RETENTIVE);
const_assert_eq!(0x8000_0000, suspend_type::NON_RETENTIVE);
const_assert_eq!(0, HART_START);
const_assert_eq!(1, HART_STOP);
const_assert_eq!(2, HART_GET_STATUS);
const_assert_eq!(3, HART_SUSPEND);
}
#[test]
fn test_srst() {
use crate::srst::*;
const_assert_eq!(0x53525354, EID_SRST);
const_assert_eq!(0, RESET_TYPE_SHUTDOWN);
const_assert_eq!(1, RESET_TYPE_COLD_REBOOT);
const_assert_eq!(2, RESET_TYPE_WARM_REBOOT);
const_assert_eq!(0, RESET_REASON_NO_REASON);
const_assert_eq!(1, RESET_REASON_SYSTEM_FAILURE);
const_assert_eq!(0, SYSTEM_RESET);
}
#[test]
fn test_pmu() {
use crate::pmu::*;
const_assert_eq!(0x504D55, EID_PMU);
const_assert_eq!(0, NUM_COUNTERS);
const_assert_eq!(1, COUNTER_GET_INFO);
const_assert_eq!(2, COUNTER_CONFIG_MATCHING);
const_assert_eq!(3, COUNTER_START);
const_assert_eq!(4, COUNTER_STOP);
const_assert_eq!(5, COUNTER_FW_READ);
const_assert_eq!(6, COUNTER_FW_READ_HI);
const_assert_eq!(7, SNAPSHOT_SET_SHMEM);
const_assert_eq!(0, event_type::HARDWARE_GENERAL);
const_assert_eq!(1, event_type::HARDWARE_CACHE);
const_assert_eq!(2, event_type::HARDWARE_RAW);
const_assert_eq!(15, event_type::FIRMWARE);
const_assert_eq!(0, hardware_event::NO_EVENT);
const_assert_eq!(1, hardware_event::CPU_CYCLES);
const_assert_eq!(2, hardware_event::INSTRUCTIONS);
const_assert_eq!(3, hardware_event::CACHE_REFERENCES);
const_assert_eq!(4, hardware_event::CACHE_MISSES);
const_assert_eq!(5, hardware_event::BRANCH_INSTRUCTIONS);
const_assert_eq!(6, hardware_event::BRANCH_MISSES);
const_assert_eq!(7, hardware_event::BUS_CYCLES);
const_assert_eq!(8, hardware_event::STALLED_CYCLES_FRONTEND);
const_assert_eq!(9, hardware_event::STALLED_CYCLES_BACKEND);
const_assert_eq!(10, hardware_event::REF_CPU_CYCLES);
const_assert_eq!(0, cache_event::L1D);
const_assert_eq!(1, cache_event::L1I);
const_assert_eq!(2, cache_event::LL);
const_assert_eq!(3, cache_event::DTLB);
const_assert_eq!(4, cache_event::ITLB);
const_assert_eq!(5, cache_event::BPU);
const_assert_eq!(6, cache_event::NODE);
const_assert_eq!(0, cache_operation::READ);
const_assert_eq!(1, cache_operation::WRITE);
const_assert_eq!(2, cache_operation::PREFETCH);
const_assert_eq!(0, cache_result::ACCESS);
const_assert_eq!(1, cache_result::MISS);
const_assert_eq!(0, firmware_event::MISALIGNED_LOAD);
const_assert_eq!(1, firmware_event::MISALIGNED_STORE);
const_assert_eq!(2, firmware_event::ACCESS_LOAD);
const_assert_eq!(3, firmware_event::ACCESS_STORE);
const_assert_eq!(4, firmware_event::ILLEGAL_INSN);
const_assert_eq!(5, firmware_event::SET_TIMER);
const_assert_eq!(6, firmware_event::IPI_SENT);
const_assert_eq!(7, firmware_event::IPI_RECEIVED);
const_assert_eq!(8, firmware_event::FENCE_I_SENT);
const_assert_eq!(9, firmware_event::FENCE_I_RECEIVED);
const_assert_eq!(10, firmware_event::SFENCE_VMA_SENT);
const_assert_eq!(11, firmware_event::SFENCE_VMA_RECEIVED);
const_assert_eq!(12, firmware_event::SFENCE_VMA_ASID_SENT);
const_assert_eq!(13, firmware_event::SFENCE_VMA_ASID_RECEIVED);
const_assert_eq!(14, firmware_event::HFENCE_GVMA_SENT);
const_assert_eq!(15, firmware_event::HFENCE_GVMA_RECEIVED);
const_assert_eq!(16, firmware_event::HFENCE_GVMA_VMID_SENT);
const_assert_eq!(17, firmware_event::HFENCE_GVMA_VMID_RECEIVED);
const_assert_eq!(18, firmware_event::HFENCE_VVMA_SENT);
const_assert_eq!(19, firmware_event::HFENCE_VVMA_RECEIVED);
const_assert_eq!(20, firmware_event::HFENCE_VVMA_ASID_SENT);
const_assert_eq!(21, firmware_event::HFENCE_VVMA_ASID_RECEIVED);
const_assert_eq!(65535, firmware_event::PLATFORM);
}
#[test]
fn test_dbcn() {
use crate::dbcn::*;
const_assert_eq!(0x4442434E, EID_DBCN);
const_assert_eq!(0, CONSOLE_WRITE);
const_assert_eq!(1, CONSOLE_READ);
const_assert_eq!(2, CONSOLE_WRITE_BYTE);
}
#[test]
fn test_susp() {
use crate::susp::*;
const_assert_eq!(0x53555350, EID_SUSP);
const_assert_eq!(0, SUSPEND);
}
#[test]
fn test_cppc() {
use crate::cppc::*;
const_assert_eq!(0x43505043, EID_CPPC);
const_assert_eq!(0, PROBE);
const_assert_eq!(1, READ);
const_assert_eq!(2, READ_HI);
const_assert_eq!(3, WRITE);
}
#[test]
fn test_nacl() {
use crate::nacl::*;
const_assert_eq!(0x4E41434C, EID_NACL);
const_assert_eq!(0, PROBE_FEATURE);
const_assert_eq!(1, SET_SHMEM);
const_assert_eq!(2, SYNC_CSR);
const_assert_eq!(3, SYNC_HFENCE);
const_assert_eq!(4, SYNC_SRET);
const_assert_eq!(0, feature_id::SYNC_CSR);
const_assert_eq!(1, feature_id::SYNC_HFENCE);
const_assert_eq!(2, feature_id::SYNC_SRET);
const_assert_eq!(3, feature_id::AUTOSWAP_CSR);
const_assert_eq!(8192, shmem_size::RV32);
const_assert_eq!(12288, shmem_size::RV64);
const_assert_eq!(20480, shmem_size::RV128);
match () {
#[cfg(target_pointer_width = "32")]
() => {
const_assert_eq!(shmem_size::NATIVE, shmem_size::RV32);
}
#[cfg(target_pointer_width = "64")]
() => {
const_assert_eq!(shmem_size::NATIVE, shmem_size::RV64);
}
#[cfg(target_pointer_width = "128")]
() => {
const_assert_eq!(shmem_size::NATIVE, shmem_size::RV128);
}
}
}
#[test]
fn test_sta() {
use crate::sta::*;
const_assert_eq!(0x535441, EID_STA);
const_assert_eq!(0, SET_SHMEM);
}
}