//! Binary machine code emission.
//!
//! The `binemit` module contains code for translating Cranelift's intermediate representation into
//! binary machine code.

mod stack_map;

pub use self::stack_map::StackMap;
use core::fmt;
#[cfg(feature = "enable-serde")]
use serde::{Deserialize, Serialize};

/// Offset in bytes from the beginning of the function.
///
/// Cranelift can be used as a cross compiler, so we don't want to use a type like `usize` which
/// depends on the *host* platform, not the *target* platform.
pub type CodeOffset = u32;

/// Addend to add to the symbol value.
pub type Addend = i64;

/// Relocation kinds for every ISA
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
#[cfg_attr(feature = "enable-serde", derive(Serialize, Deserialize))]
pub enum Reloc {
    /// absolute 4-byte
    Abs4,
    /// absolute 8-byte
    Abs8,
    /// x86 PC-relative 4-byte
    X86PCRel4,
    /// x86 call to PC-relative 4-byte
    X86CallPCRel4,
    /// x86 call to PLT-relative 4-byte
    X86CallPLTRel4,
    /// x86 GOT PC-relative 4-byte
    X86GOTPCRel4,
    /// The 32-bit offset of the target from the beginning of its section.
    /// Equivalent to `IMAGE_REL_AMD64_SECREL`.
    /// See: [PE Format](https://docs.microsoft.com/en-us/windows/win32/debug/pe-format)
    X86SecRel,
    /// Arm32 call target
    Arm32Call,
    /// Arm64 call target. Encoded as bottom 26 bits of instruction. This
    /// value is sign-extended, multiplied by 4, and added to the PC of
    /// the call instruction to form the destination address.
    Arm64Call,
    /// s390x PC-relative 4-byte offset
    S390xPCRel32Dbl,
    /// s390x PC-relative 4-byte offset to PLT
    S390xPLTRel32Dbl,

    /// Elf x86_64 32 bit signed PC relative offset to two GOT entries for GD symbol.
    ElfX86_64TlsGd,

    /// Mach-O x86_64 32 bit signed PC relative offset to a `__thread_vars` entry.
    MachOX86_64Tlv,

    /// AArch64 TLS GD
    /// Set an ADRP immediate field to the top 21 bits of the final address. Checks for overflow.
    /// This is equivalent to `R_AARCH64_TLSGD_ADR_PAGE21` in the [aaelf64](https://github.com/ARM-software/abi-aa/blob/2bcab1e3b22d55170c563c3c7940134089176746/aaelf64/aaelf64.rst#relocations-for-thread-local-storage)
    Aarch64TlsGdAdrPage21,

    /// AArch64 TLS GD
    /// Set the add immediate field to the low 12 bits of the final address. Does not check for overflow.
    /// This is equivalent to `R_AARCH64_TLSGD_ADD_LO12_NC` in the [aaelf64](https://github.com/ARM-software/abi-aa/blob/2bcab1e3b22d55170c563c3c7940134089176746/aaelf64/aaelf64.rst#relocations-for-thread-local-storage)
    Aarch64TlsGdAddLo12Nc,

    /// AArch64 GOT Page
    /// Set the immediate value of an ADRP to bits 32:12 of X; check that –232 <= X < 232
    /// This is equivalent to `R_AARCH64_ADR_GOT_PAGE` (311) in the  [aaelf64](https://github.com/ARM-software/abi-aa/blob/2bcab1e3b22d55170c563c3c7940134089176746/aaelf64/aaelf64.rst#static-aarch64-relocations)
    Aarch64AdrGotPage21,

    /// AArch64 GOT Low bits

    /// Set the LD/ST immediate field to bits 11:3 of X. No overflow check; check that X&7 = 0
    /// This is equivalent to `R_AARCH64_LD64_GOT_LO12_NC` (312) in the  [aaelf64](https://github.com/ARM-software/abi-aa/blob/2bcab1e3b22d55170c563c3c7940134089176746/aaelf64/aaelf64.rst#static-aarch64-relocations)
    Aarch64Ld64GotLo12Nc,

    /// procedure call.
    /// call symbol
    /// expands to the following assembly and relocation:
    /// auipc ra, 0
    /// jalr ra, ra, 0
    RiscvCall,

    /// s390x TLS GD64 - 64-bit offset of tls_index for GD symbol in GOT
    S390xTlsGd64,
    /// s390x TLS GDCall - marker to enable optimization of TLS calls
    S390xTlsGdCall,
}

impl fmt::Display for Reloc {
    /// Display trait implementation drops the arch, since its used in contexts where the arch is
    /// already unambiguous, e.g. clif syntax with isa specified. In other contexts, use Debug.
    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
        match *self {
            Self::Abs4 => write!(f, "Abs4"),
            Self::Abs8 => write!(f, "Abs8"),
            Self::S390xPCRel32Dbl => write!(f, "PCRel32Dbl"),
            Self::S390xPLTRel32Dbl => write!(f, "PLTRel32Dbl"),
            Self::X86PCRel4 => write!(f, "PCRel4"),
            Self::X86CallPCRel4 => write!(f, "CallPCRel4"),
            Self::X86CallPLTRel4 => write!(f, "CallPLTRel4"),
            Self::X86GOTPCRel4 => write!(f, "GOTPCRel4"),
            Self::X86SecRel => write!(f, "SecRel"),
            Self::Arm32Call | Self::Arm64Call => write!(f, "Call"),
            Self::RiscvCall => write!(f, "RiscvCall"),

            Self::ElfX86_64TlsGd => write!(f, "ElfX86_64TlsGd"),
            Self::MachOX86_64Tlv => write!(f, "MachOX86_64Tlv"),
            Self::Aarch64TlsGdAdrPage21 => write!(f, "Aarch64TlsGdAdrPage21"),
            Self::Aarch64TlsGdAddLo12Nc => write!(f, "Aarch64TlsGdAddLo12Nc"),
            Self::Aarch64AdrGotPage21 => write!(f, "Aarch64AdrGotPage21"),
            Self::Aarch64Ld64GotLo12Nc => write!(f, "Aarch64AdrGotLo12Nc"),
            Self::S390xTlsGd64 => write!(f, "TlsGd64"),
            Self::S390xTlsGdCall => write!(f, "TlsGdCall"),
        }
    }
}

/// Container for information about a vector of compiled code and its supporting read-only data.
///
/// The code starts at offset 0 and is followed optionally by relocatable jump tables and copyable
/// (raw binary) read-only data.  Any padding between sections is always part of the section that
/// precedes the boundary between the sections.
#[derive(Debug, PartialEq)]
pub struct CodeInfo {
    /// Number of bytes in total.
    pub total_size: CodeOffset,
}