piros
/
tor


			
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							// Copyright (c) 2016-2017, The Tor Project, Inc. */
// See LICENSE for licensing information */

//! FFI functions, only to be called from C.
//!
//! Equivalent C versions of this api are in `src/or/protover.c`

use libc::{c_char, c_int, uint32_t};
use std::ffi::CStr;
use std::ffi::CString;

use smartlist::*;
use tor_allocate::allocate_and_copy_string;
use tor_util::strings::byte_slice_is_c_like;
use tor_util::strings::empty_static_cstr;


use errors::ProtoverError;
use protover::*;

/// Translate C enums to Rust Proto enums, using the integer value of the C
/// enum to map to its associated Rust enum.
///
/// C_RUST_COUPLED: src/or/protover.h `protocol_type_t`
fn translate_to_rust(c_proto: uint32_t) -> Result<Protocol, ProtoverError> {
    match c_proto {
        0 => Ok(Protocol::Link),
        1 => Ok(Protocol::LinkAuth),
        2 => Ok(Protocol::Relay),
        3 => Ok(Protocol::DirCache),
        4 => Ok(Protocol::HSDir),
        5 => Ok(Protocol::HSIntro),
        6 => Ok(Protocol::HSRend),
        7 => Ok(Protocol::Desc),
        8 => Ok(Protocol::Microdesc),
        9 => Ok(Protocol::Cons),
        _ => Err(ProtoverError::UnknownProtocol),
    }
}

/// Provide an interface for C to translate arguments and return types for
/// protover::all_supported
#[no_mangle]
pub extern "C" fn protover_all_supported(
    c_relay_version: *const c_char,
    missing_out: *mut *mut c_char,
) -> c_int {

    if c_relay_version.is_null() {
        return 1;
    }

    // Require an unsafe block to read the version from a C string. The pointer
    // is checked above to ensure it is not null.
    let c_str: &CStr = unsafe { CStr::from_ptr(c_relay_version) };

    let relay_version = match c_str.to_str() {
        Ok(n) => n,
        Err(_) => return 1,
    };

    let relay_proto_entry: UnvalidatedProtoEntry =
        match UnvalidatedProtoEntry::from_str_any_len(relay_version) {
        Ok(n)  => n,
        Err(_) => return 1,
    };
    let maybe_unsupported: Option<UnvalidatedProtoEntry> = relay_proto_entry.all_supported();

    if maybe_unsupported.is_some() {
        let unsupported: UnvalidatedProtoEntry = maybe_unsupported.unwrap();
        let c_unsupported: CString = match CString::new(unsupported.to_string()) {
            Ok(n) => n,
            Err(_) => return 1,
        };

        let ptr = c_unsupported.into_raw();
        unsafe { *missing_out = ptr };

        return 0;
    }

    1
}

/// Provide an interface for C to translate arguments and return types for
/// protover::list_supports_protocol
#[no_mangle]
pub extern "C" fn protocol_list_supports_protocol(
    c_protocol_list: *const c_char,
    c_protocol: uint32_t,
    version: uint32_t,
) -> c_int {
    if c_protocol_list.is_null() {
        return 1;
    }

    // Require an unsafe block to read the version from a C string. The pointer
    // is checked above to ensure it is not null.
    let c_str: &CStr = unsafe { CStr::from_ptr(c_protocol_list) };

    let protocol_list = match c_str.to_str() {
        Ok(n) => n,
        Err(_) => return 1,
    };
    let proto_entry: UnvalidatedProtoEntry = match protocol_list.parse() {
        Ok(n)  => n,
        Err(_) => return 0,
    };
    let protocol: UnknownProtocol = match translate_to_rust(c_protocol) {
        Ok(n) => n.into(),
        Err(_) => return 0,
    };
    match proto_entry.supports_protocol(&protocol, &version) {
        false => return 0,
        true  => return 1,
    }
}

#[no_mangle]
pub extern "C" fn protover_contains_long_protocol_names_(
    c_protocol_list: *const c_char
) -> c_int {
    if c_protocol_list.is_null() {
        return 1;
    }

    // Require an unsafe block to read the version from a C string. The pointer
    // is checked above to ensure it is not null.
    let c_str: &CStr = unsafe { CStr::from_ptr(c_protocol_list) };

    let protocol_list = match c_str.to_str() {
        Ok(n) => n,
        Err(_) => return 1
    };

    let protocol_entry : Result<UnvalidatedProtoEntry,_> =
        protocol_list.parse();

    match protocol_entry {
        Ok(_) => 0,
        Err(_) => 1,
    }
}

/// Provide an interface for C to translate arguments and return types for
/// protover::list_supports_protocol_or_later
#[no_mangle]
pub extern "C" fn protocol_list_supports_protocol_or_later(
    c_protocol_list: *const c_char,
    c_protocol: uint32_t,
    version: uint32_t,
) -> c_int {
    if c_protocol_list.is_null() {
        return 1;
    }

    // Require an unsafe block to read the version from a C string. The pointer
    // is checked above to ensure it is not null.
    let c_str: &CStr = unsafe { CStr::from_ptr(c_protocol_list) };

    let protocol_list = match c_str.to_str() {
        Ok(n) => n,
        Err(_) => return 1,
    };

    let protocol = match translate_to_rust(c_protocol) {
        Ok(n) => n,
        Err(_) => return 0,
    };

    let proto_entry: UnvalidatedProtoEntry = match protocol_list.parse() {
        Ok(n)  => n,
        Err(_) => return 1,
    };

    if proto_entry.supports_protocol_or_later(&protocol.into(), &version) {
        return 1;
    }
    0
}

/// Provide an interface for C to translate arguments and return types for
/// protover::get_supported_protocols
#[no_mangle]
pub extern "C" fn protover_get_supported_protocols() -> *const c_char {
    let supported: &'static CStr;

    // If we're going to pass it to C, there cannot be any intermediate NUL
    // bytes.  An assert is okay here, since changing the const byte slice
    // in protover.rs to contain a NUL byte somewhere in the middle would be a
    // programming error.
    assert!(byte_slice_is_c_like(SUPPORTED_PROTOCOLS));

    // It's okay to unwrap the result of this function because
    // we can see that the bytes we're passing into it 1) are valid UTF-8,
    // 2) have no intermediate NUL bytes, and 3) are terminated with a NUL
    // byte.
    supported = CStr::from_bytes_with_nul(SUPPORTED_PROTOCOLS).unwrap();

    supported.as_ptr()
}

/// Provide an interface for C to translate arguments and return types for
/// protover::compute_vote
//
// Why is the threshold a signed integer? —isis
#[no_mangle]
pub extern "C" fn protover_compute_vote(
    list: *const Stringlist,
    threshold: c_int
) -> *mut c_char {

    if list.is_null() {
        let empty = String::new();
        return allocate_and_copy_string(&empty);
    }

    // Dereference of raw pointer requires an unsafe block. The pointer is
    // checked above to ensure it is not null.
    let data: Vec<String> = unsafe { (*list).get_list() };
    let hold: usize = threshold as usize;
    let mut proto_entries: Vec<UnvalidatedProtoEntry> = Vec::new();

    for datum in data {
        let entry: UnvalidatedProtoEntry = match datum.parse() {
            Ok(n)  => n,
            Err(_) => continue
        };
        proto_entries.push(entry);
    }
    let vote: UnvalidatedProtoEntry = ProtoverVote::compute(&proto_entries, &hold);

    allocate_and_copy_string(&vote.to_string())
}

/// Provide an interface for C to translate arguments and return types for
/// protover::is_supported_here
#[no_mangle]
pub extern "C" fn protover_is_supported_here(
    c_protocol: uint32_t,
    version: uint32_t,
) -> c_int {
    let protocol = match translate_to_rust(c_protocol) {
        Ok(n) => n,
        Err(_) => return 0,
    };

    let is_supported = is_supported_here(&protocol, &version);

    return if is_supported { 1 } else { 0 };
}

/// Provide an interface for C to translate arguments and return types for
/// protover::compute_for_old_tor
#[no_mangle]
pub extern "C" fn protover_compute_for_old_tor(version: *const c_char) -> *const c_char {
    let supported: &'static CStr;
    let elder_protocols: &'static [u8];
    let empty: &'static CStr;

    empty = empty_static_cstr();

    if version.is_null() {
        return empty.as_ptr();
    }

    // Require an unsafe block to read the version from a C string. The pointer
    // is checked above to ensure it is not null.
    let c_str: &CStr = unsafe { CStr::from_ptr(version) };

    let version = match c_str.to_str() {
        Ok(n) => n,
        Err(_) => return empty.as_ptr(),
    };

    elder_protocols = compute_for_old_tor_cstr(&version);

    // If we're going to pass it to C, there cannot be any intermediate NUL
    // bytes.  An assert is okay here, since changing the const byte slice
    // in protover.rs to contain a NUL byte somewhere in the middle would be a
    // programming error.
    assert!(byte_slice_is_c_like(elder_protocols));

    // It's okay to unwrap the result of this function because
    // we can see that the bytes we're passing into it 1) are valid UTF-8,
    // 2) have no intermediate NUL bytes, and 3) are terminated with a NUL
    // byte.
    supported = CStr::from_bytes_with_nul(elder_protocols).unwrap_or(empty);

    supported.as_ptr()
}