use crate::alloc::borrow::Cow;
use crate::alloc::vec::Vec;
use core::fmt::{LowerHex, Debug};

use scroll::{Pread, Pwrite, SizeWith};
use scroll::ctx::TryFromCtx;
use crate::error;

use crate::pe::section_table;
use crate::pe::utils;
use crate::pe::data_directories;

use log::{debug, warn};

pub const IMPORT_BY_ORDINAL_32: u32 = 0x8000_0000;
pub const IMPORT_BY_ORDINAL_64: u64 = 0x8000_0000_0000_0000;
pub const IMPORT_RVA_MASK_32: u32 = 0x7fff_ffff;
pub const IMPORT_RVA_MASK_64: u64 = 0x0000_0000_7fff_ffff;

pub trait Bitfield<'a>: Into<u64> + PartialEq + Eq + LowerHex + Debug + TryFromCtx<'a, scroll::Endian, Error=scroll::Error, Size=usize> {
    fn is_ordinal(&self) -> bool;
    fn to_ordinal(&self) -> u16;
    fn to_rva(&self) -> u32;
    fn size_of() -> usize;
    fn is_zero(&self) -> bool;
}

impl<'a> Bitfield<'a> for u64 {
    fn is_ordinal(&self) -> bool { self & IMPORT_BY_ORDINAL_64 == IMPORT_BY_ORDINAL_64 }
    fn to_ordinal(&self) -> u16 { (0xffff & self) as u16 }
    fn to_rva(&self) -> u32 { (self & IMPORT_RVA_MASK_64) as u32 }
    fn size_of() -> usize { 8 }
    fn is_zero(&self) -> bool { *self == 0 }
}

impl<'a> Bitfield<'a> for u32 {
    fn is_ordinal(&self) -> bool { self & IMPORT_BY_ORDINAL_32 == IMPORT_BY_ORDINAL_32 }
    fn to_ordinal(&self) -> u16 { (0xffff & self) as u16 }
    fn to_rva(&self) -> u32 { (self & IMPORT_RVA_MASK_32) as u32 }
    fn size_of() -> usize { 4 }
    fn is_zero(&self) -> bool { *self == 0 }
}

#[derive(Debug, Clone)]
pub struct HintNameTableEntry<'a> {
    pub hint: u16,
    pub name: &'a str,
}

impl<'a> HintNameTableEntry<'a> {
    fn parse(bytes: &'a [u8], mut offset: usize) -> error::Result<Self> {
        let offset = &mut offset;
        let hint = bytes.gread_with(offset, scroll::LE)?;
        let name = bytes.pread::<&'a str>(*offset)?;
        Ok(HintNameTableEntry { hint, name })
    }
}

#[derive(Debug, Clone)]
pub enum SyntheticImportLookupTableEntry<'a> {
    OrdinalNumber(u16),
    HintNameTableRVA ((u32, HintNameTableEntry<'a>)), // [u8; 31] bitfield :/
}

pub type ImportLookupTable<'a> = Vec<SyntheticImportLookupTableEntry<'a>>;

impl<'a> SyntheticImportLookupTableEntry<'a> {
    pub fn parse<T: Bitfield<'a>>(bytes: &'a [u8], mut offset: usize, sections: &[section_table::SectionTable], file_alignment: u32) -> error::Result<ImportLookupTable<'a>> {
        let le = scroll::LE;
        let offset = &mut offset;
        let mut table = Vec::new();
        loop {
            let bitfield: T = bytes.gread_with(offset, le)?;
            if bitfield.is_zero() {
                debug!("imports done");
                break;
            } else {
                let entry = {
                    debug!("bitfield {:#x}", bitfield);
                    use self::SyntheticImportLookupTableEntry::*;
                    if bitfield.is_ordinal() {
                        let ordinal = bitfield.to_ordinal();
                        debug!("importing by ordinal {:#x}", ordinal);
                        OrdinalNumber(ordinal)
                    } else {
                        let rva = bitfield.to_rva();
                        let hentry = {
                            debug!("searching for RVA {:#x}", rva);
                            if let Some(offset) = utils::find_offset(rva as usize, sections, file_alignment) {
                                debug!("offset {:#x}", offset);
                                HintNameTableEntry::parse(bytes, offset)?
                            } else {
                                warn!("Entry {} has bad RVA: {:#x}", table.len(), rva);
                                continue
                            }
                        };
                        HintNameTableRVA ((rva, hentry))
                    }
                };
                table.push(entry);
            }
        }
        Ok(table)
    }
}

// get until entry is 0
pub type ImportAddressTable = Vec<u64>;

#[repr(C)]
#[derive(Debug)]
#[derive(Pread, Pwrite, SizeWith)]
pub struct ImportDirectoryEntry {
    pub import_lookup_table_rva: u32,
    pub time_date_stamp: u32,
    pub forwarder_chain: u32,
    pub name_rva: u32,
    pub import_address_table_rva: u32,
}

pub const SIZEOF_IMPORT_DIRECTORY_ENTRY: usize = 20;

impl ImportDirectoryEntry {
    pub fn is_null (&self) -> bool {
        (self.import_lookup_table_rva == 0) &&
            (self.time_date_stamp == 0) &&
            (self.forwarder_chain == 0) &&
            (self.name_rva == 0) &&
            (self.import_address_table_rva == 0)
    }
}

#[derive(Debug)]
pub struct SyntheticImportDirectoryEntry<'a> {
    pub import_directory_entry: ImportDirectoryEntry,
    /// Computed
    pub name: &'a str,
    /// The import lookup table is a vector of either ordinals, or RVAs + import names
    pub import_lookup_table: Option<ImportLookupTable<'a>>,
    /// Computed
    pub import_address_table: ImportAddressTable,
}

impl<'a> SyntheticImportDirectoryEntry<'a> {
    pub fn parse<T: Bitfield<'a>>(bytes: &'a [u8], import_directory_entry: ImportDirectoryEntry, sections: &[section_table::SectionTable], file_alignment: u32) -> error::Result<SyntheticImportDirectoryEntry<'a>> {
        const LE: scroll::Endian = scroll::LE;
        let name_rva = import_directory_entry.name_rva;
        let name = utils::try_name(bytes, name_rva as usize, sections, file_alignment)?;
        let import_lookup_table = {
            let import_lookup_table_rva = import_directory_entry.import_lookup_table_rva;
            let import_address_table_rva = import_directory_entry.import_address_table_rva;
            if let Some(import_lookup_table_offset) = utils::find_offset(import_lookup_table_rva as usize, sections, file_alignment) {
                debug!("Synthesizing lookup table imports for {} lib, with import lookup table rva: {:#x}", name, import_lookup_table_rva);
                let import_lookup_table = SyntheticImportLookupTableEntry::parse::<T>(bytes, import_lookup_table_offset, sections, file_alignment)?;
                debug!("Successfully synthesized import lookup table entry from lookup table: {:#?}", import_lookup_table);
                Some(import_lookup_table)
            } else if let Some(import_address_table_offset) = utils::find_offset(import_address_table_rva as usize, sections, file_alignment) {
                debug!("Synthesizing lookup table imports for {} lib, with import address table rva: {:#x}", name, import_lookup_table_rva);
                let import_address_table  = SyntheticImportLookupTableEntry::parse::<T>(bytes, import_address_table_offset, sections, file_alignment)?;
                debug!("Successfully synthesized import lookup table entry from IAT: {:#?}", import_address_table);
                Some(import_address_table)
            } else {
                None
            }
        };

        let import_address_table_offset = &mut utils::find_offset(import_directory_entry.import_address_table_rva as usize, sections, file_alignment).ok_or_else(|| error::Error::Malformed(format!("Cannot map import_address_table_rva {:#x} into offset for {}", import_directory_entry.import_address_table_rva, name)))?;
        let mut import_address_table = Vec::new();
        loop {
            let import_address = bytes.gread_with::<T>(import_address_table_offset, LE)?.into();
            if import_address == 0 { break } else { import_address_table.push(import_address); }
        }
        Ok(SyntheticImportDirectoryEntry {
            import_directory_entry,
            name,
            import_lookup_table,
            import_address_table
        })
    }
}

#[derive(Debug)]
/// Contains a list of synthesized import data for this binary, e.g., which symbols from which libraries it is importing from
pub struct ImportData<'a> {
    pub import_data: Vec<SyntheticImportDirectoryEntry<'a>>,
}

impl<'a> ImportData<'a> {
    pub fn parse<T: Bitfield<'a>>(bytes: &'a[u8], dd: data_directories::DataDirectory, sections: &[section_table::SectionTable], file_alignment: u32) -> error::Result<ImportData<'a>> {
        let import_directory_table_rva = dd.virtual_address as usize;
        debug!("import_directory_table_rva {:#x}", import_directory_table_rva);
        let offset = &mut utils::find_offset(import_directory_table_rva, sections, file_alignment).ok_or_else(|| error::Error::Malformed(format!("Cannot create ImportData; cannot map import_directory_table_rva {:#x} into offset", import_directory_table_rva)))?;;
        debug!("import data offset {:#x}", offset);
        let mut import_data = Vec::new();
        loop {
            let import_directory_entry: ImportDirectoryEntry = bytes.gread_with(offset, scroll::LE)?;
            debug!("{:#?}", import_directory_entry);
            if import_directory_entry.is_null() {
                break;
            } else {
                let entry = SyntheticImportDirectoryEntry::parse::<T>(bytes, import_directory_entry, sections, file_alignment)?;
                debug!("entry {:#?}", entry);
                import_data.push(entry);
            }
        }
        debug!("finished ImportData");
        Ok(ImportData { import_data})
    }
}

#[derive(Debug)]
/// A synthesized symbol import, the name is pre-indexed, and the binary offset is computed, as well as which dll it belongs to
pub struct Import<'a> {
    pub name: Cow<'a, str>,
    pub dll: &'a str,
    pub ordinal: u16,
    pub offset: usize,
    pub rva: usize,
    pub size: usize,
}

impl<'a> Import<'a> {
    pub fn parse<T: Bitfield<'a>>(_bytes: &'a [u8], import_data: &ImportData<'a>, _sections: &[section_table::SectionTable]) -> error::Result<Vec<Import<'a>>> {
        let mut imports = Vec::new();
        for data in &import_data.import_data {
            if let Some(ref import_lookup_table) = data.import_lookup_table {
                let dll = data.name;
                let import_base = data.import_directory_entry.import_address_table_rva as usize;
                debug!("Getting imports from {}", &dll);
                for (i, entry) in import_lookup_table.iter().enumerate() {
                    let offset = import_base + (i * T::size_of());
                    use self::SyntheticImportLookupTableEntry::*;
                    let (rva, name, ordinal) =
                        match *entry {
                            HintNameTableRVA ((rva, ref hint_entry)) => {
                                // if hint_entry.name = "" && hint_entry.hint = 0 {
                                //     println!("<PE.Import> warning hint/name table rva from {} without hint {:#x}", dll, rva);
                                // }
                                (rva, Cow::Borrowed(hint_entry.name), hint_entry.hint)
                            },
                            OrdinalNumber(ordinal) => {
                                let name = format!("ORDINAL {}", ordinal);
                                (0x0, Cow::Owned(name), ordinal)
                            },
                        };
                    let import =
                        Import {
                            name,
                            ordinal, dll,
                            size: T::size_of(), offset, rva: rva as usize
                        };
                    imports.push(import);
                }
            }
        }
        Ok (imports)
    }
}