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// SPDX-License-Identifier: CC0-1.0
use core::marker::PhantomData;
use core::mem::ManuallyDrop;
use core::ptr::NonNull;
#[cfg(feature = "alloc")]
pub use self::alloc_only::*;
use crate::ffi::types::{c_uint, c_void, AlignedType};
use crate::ffi::{self, CPtr};
use crate::{Error, Secp256k1};
#[cfg(all(feature = "global-context", feature = "std"))]
/// Module implementing a singleton pattern for a global `Secp256k1` context.
pub mod global {
use std::ops::Deref;
use std::sync::Once;
use crate::{All, Secp256k1};
/// Proxy struct for global `SECP256K1` context.
#[derive(Debug, Copy, Clone)]
pub struct GlobalContext {
__private: (),
}
/// A global static context to avoid repeatedly creating contexts.
///
/// If `rand-std` feature is enabled, context will have been randomized using `thread_rng`.
///
/// ```
/// # #[cfg(all(feature = "global-context", feature = "rand-std"))] {
/// use secp256k1::{PublicKey, SECP256K1};
/// let _ = SECP256K1.generate_keypair(&mut rand::thread_rng());
/// # }
/// ```
pub static SECP256K1: &GlobalContext = &GlobalContext { __private: () };
impl Deref for GlobalContext {
type Target = Secp256k1<All>;
#[allow(unused_mut)] // Unused when `rand-std` is not enabled.
fn deref(&self) -> &Self::Target {
static ONCE: Once = Once::new();
static mut CONTEXT: Option<Secp256k1<All>> = None;
ONCE.call_once(|| unsafe {
let mut ctx = Secp256k1::new();
#[cfg(all(
not(target_arch = "wasm32"),
feature = "rand-std",
not(feature = "global-context-less-secure")
))]
{
ctx.randomize(&mut rand::thread_rng());
}
CONTEXT = Some(ctx);
});
unsafe { CONTEXT.as_ref().unwrap() }
}
}
}
/// A trait for all kinds of contexts that lets you define the exact flags and a function to
/// deallocate memory. It isn't possible to implement this for types outside this crate.
///
/// # Safety
///
/// This trait is marked unsafe to allow unsafe implementations of `deallocate`.
pub unsafe trait Context: private::Sealed {
/// Flags for the ffi.
const FLAGS: c_uint;
/// A constant description of the context.
const DESCRIPTION: &'static str;
/// A function to deallocate the memory when the context is dropped.
///
/// # Safety
///
/// `ptr` must be valid. Further safety constraints may be imposed by [`std::alloc::dealloc`].
unsafe fn deallocate(ptr: *mut u8, size: usize);
}
/// Marker trait for indicating that an instance of [`Secp256k1`] can be used for signing.
pub trait Signing: Context {}
/// Marker trait for indicating that an instance of [`Secp256k1`] can be used for verification.
pub trait Verification: Context {}
/// Represents the set of capabilities needed for signing (preallocated memory).
#[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct SignOnlyPreallocated<'buf> {
phantom: PhantomData<&'buf ()>,
}
/// Represents the set of capabilities needed for verification (preallocated memory).
#[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct VerifyOnlyPreallocated<'buf> {
phantom: PhantomData<&'buf ()>,
}
/// Represents the set of all capabilities (preallocated memory).
#[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct AllPreallocated<'buf> {
phantom: PhantomData<&'buf ()>,
}
mod private {
use super::*;
pub trait Sealed {}
impl<'buf> Sealed for AllPreallocated<'buf> {}
impl<'buf> Sealed for VerifyOnlyPreallocated<'buf> {}
impl<'buf> Sealed for SignOnlyPreallocated<'buf> {}
}
#[cfg(feature = "alloc")]
mod alloc_only {
use core::marker::PhantomData;
use core::ptr::NonNull;
use super::private;
use crate::alloc::alloc;
use crate::ffi::types::{c_uint, c_void};
use crate::ffi::{self};
use crate::{AlignedType, Context, Secp256k1, Signing, Verification};
impl private::Sealed for SignOnly {}
impl private::Sealed for All {}
impl private::Sealed for VerifyOnly {}
const ALIGN_TO: usize = core::mem::align_of::<AlignedType>();
/// Represents the set of capabilities needed for signing.
#[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub enum SignOnly {}
/// Represents the set of capabilities needed for verification.
#[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub enum VerifyOnly {}
/// Represents the set of all capabilities.
#[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub enum All {}
impl Signing for SignOnly {}
impl Signing for All {}
impl Verification for VerifyOnly {}
impl Verification for All {}
unsafe impl Context for SignOnly {
const FLAGS: c_uint = ffi::SECP256K1_START_SIGN;
const DESCRIPTION: &'static str = "signing only";
unsafe fn deallocate(ptr: *mut u8, size: usize) {
let layout = alloc::Layout::from_size_align(size, ALIGN_TO).unwrap();
alloc::dealloc(ptr, layout);
}
}
unsafe impl Context for VerifyOnly {
const FLAGS: c_uint = ffi::SECP256K1_START_VERIFY;
const DESCRIPTION: &'static str = "verification only";
unsafe fn deallocate(ptr: *mut u8, size: usize) {
let layout = alloc::Layout::from_size_align(size, ALIGN_TO).unwrap();
alloc::dealloc(ptr, layout);
}
}
unsafe impl Context for All {
const FLAGS: c_uint = VerifyOnly::FLAGS | SignOnly::FLAGS;
const DESCRIPTION: &'static str = "all capabilities";
unsafe fn deallocate(ptr: *mut u8, size: usize) {
let layout = alloc::Layout::from_size_align(size, ALIGN_TO).unwrap();
alloc::dealloc(ptr, layout);
}
}
impl<C: Context> Secp256k1<C> {
/// Lets you create a context in a generic manner (sign/verify/all).
///
/// If `rand-std` feature is enabled, context will have been randomized using `thread_rng`.
/// If `rand-std` feature is not enabled please consider randomizing the context as follows:
/// ```
/// # #[cfg(feature = "rand-std")] {
/// # use secp256k1::Secp256k1;
/// # use secp256k1::rand::{thread_rng, RngCore};
/// let mut ctx = Secp256k1::new();
/// # let mut rng = thread_rng();
/// # let mut seed = [0u8; 32];
/// # rng.fill_bytes(&mut seed);
/// // let seed = <32 bytes of random data>
/// ctx.seeded_randomize(&seed);
/// # }
/// ```
#[cfg_attr(not(feature = "rand-std"), allow(clippy::let_and_return, unused_mut))]
pub fn gen_new() -> Secp256k1<C> {
#[cfg(target_arch = "wasm32")]
ffi::types::sanity_checks_for_wasm();
let size = unsafe { ffi::secp256k1_context_preallocated_size(C::FLAGS) };
let layout = alloc::Layout::from_size_align(size, ALIGN_TO).unwrap();
let ptr = unsafe { alloc::alloc(layout) };
let ptr = NonNull::new(ptr as *mut c_void)
.unwrap_or_else(|| alloc::handle_alloc_error(layout));
#[allow(unused_mut)] // ctx is not mutated under some feature combinations.
let mut ctx = Secp256k1 {
ctx: unsafe { ffi::secp256k1_context_preallocated_create(ptr, C::FLAGS) },
phantom: PhantomData,
};
#[cfg(all(
not(target_arch = "wasm32"),
feature = "rand-std",
not(feature = "global-context-less-secure")
))]
{
ctx.randomize(&mut rand::thread_rng());
}
#[allow(clippy::let_and_return)] // as for unusted_mut
ctx
}
}
impl Secp256k1<All> {
/// Creates a new Secp256k1 context with all capabilities.
///
/// If `rand-std` feature is enabled, context will have been randomized using `thread_rng`.
/// If `rand-std` feature is not enabled please consider randomizing the context (see docs
/// for `Secp256k1::gen_new()`).
pub fn new() -> Secp256k1<All> { Secp256k1::gen_new() }
}
impl Secp256k1<SignOnly> {
/// Creates a new Secp256k1 context that can only be used for signing.
///
/// If `rand-std` feature is enabled, context will have been randomized using `thread_rng`.
/// If `rand-std` feature is not enabled please consider randomizing the context (see docs
/// for `Secp256k1::gen_new()`).
pub fn signing_only() -> Secp256k1<SignOnly> { Secp256k1::gen_new() }
}
impl Secp256k1<VerifyOnly> {
/// Creates a new Secp256k1 context that can only be used for verification.
///
/// * If `rand-std` feature is enabled, context will have been randomized using `thread_rng`.
/// * If `rand-std` feature is not enabled please consider randomizing the context (see docs
/// for `Secp256k1::gen_new()`).
pub fn verification_only() -> Secp256k1<VerifyOnly> { Secp256k1::gen_new() }
}
impl Default for Secp256k1<All> {
fn default() -> Self { Self::new() }
}
impl<C: Context> Clone for Secp256k1<C> {
fn clone(&self) -> Secp256k1<C> {
let size = unsafe { ffi::secp256k1_context_preallocated_clone_size(self.ctx.as_ptr()) };
let layout = alloc::Layout::from_size_align(size, ALIGN_TO).unwrap();
let ptr = unsafe { alloc::alloc(layout) };
let ptr = NonNull::new(ptr as *mut c_void)
.unwrap_or_else(|| alloc::handle_alloc_error(layout));
Secp256k1 {
ctx: unsafe { ffi::secp256k1_context_preallocated_clone(self.ctx.as_ptr(), ptr) },
phantom: PhantomData,
}
}
}
}
impl<'buf> Signing for SignOnlyPreallocated<'buf> {}
impl<'buf> Signing for AllPreallocated<'buf> {}
impl<'buf> Verification for VerifyOnlyPreallocated<'buf> {}
impl<'buf> Verification for AllPreallocated<'buf> {}
unsafe impl<'buf> Context for SignOnlyPreallocated<'buf> {
const FLAGS: c_uint = ffi::SECP256K1_START_SIGN;
const DESCRIPTION: &'static str = "signing only";
unsafe fn deallocate(_ptr: *mut u8, _size: usize) {
// Allocated by the user
}
}
unsafe impl<'buf> Context for VerifyOnlyPreallocated<'buf> {
const FLAGS: c_uint = ffi::SECP256K1_START_VERIFY;
const DESCRIPTION: &'static str = "verification only";
unsafe fn deallocate(_ptr: *mut u8, _size: usize) {
// Allocated by the user.
}
}
unsafe impl<'buf> Context for AllPreallocated<'buf> {
const FLAGS: c_uint = SignOnlyPreallocated::FLAGS | VerifyOnlyPreallocated::FLAGS;
const DESCRIPTION: &'static str = "all capabilities";
unsafe fn deallocate(_ptr: *mut u8, _size: usize) {
// Allocated by the user.
}
}
/// Trait marking that a particular context object internally points to
/// memory that must outlive `'a`
///
/// # Safety
///
/// This trait is used internally to gate which context markers can safely
/// be used with the `preallocated_gen_new` function. Do not implement it
/// on your own structures.
pub unsafe trait PreallocatedContext<'a> {}
unsafe impl<'buf> PreallocatedContext<'buf> for AllPreallocated<'buf> {}
unsafe impl<'buf> PreallocatedContext<'buf> for SignOnlyPreallocated<'buf> {}
unsafe impl<'buf> PreallocatedContext<'buf> for VerifyOnlyPreallocated<'buf> {}
impl<'buf, C: Context + PreallocatedContext<'buf>> Secp256k1<C> {
/// Lets you create a context with a preallocated buffer in a generic manner (sign/verify/all).
pub fn preallocated_gen_new(buf: &'buf mut [AlignedType]) -> Result<Secp256k1<C>, Error> {
#[cfg(target_arch = "wasm32")]
ffi::types::sanity_checks_for_wasm();
if buf.len() < Self::preallocate_size_gen() {
return Err(Error::NotEnoughMemory);
}
// Safe because buf is not null since it is not empty.
let buf = unsafe { NonNull::new_unchecked(buf.as_mut_c_ptr() as *mut c_void) };
Ok(Secp256k1 {
ctx: unsafe { ffi::secp256k1_context_preallocated_create(buf, AllPreallocated::FLAGS) },
phantom: PhantomData,
})
}
}
impl<'buf> Secp256k1<AllPreallocated<'buf>> {
/// Creates a new Secp256k1 context with all capabilities.
pub fn preallocated_new(
buf: &'buf mut [AlignedType],
) -> Result<Secp256k1<AllPreallocated<'buf>>, Error> {
Secp256k1::preallocated_gen_new(buf)
}
/// Uses the ffi `secp256k1_context_preallocated_size` to check the memory size needed for a context.
pub fn preallocate_size() -> usize { Self::preallocate_size_gen() }
/// Creates a context from a raw context.
///
/// The returned [`core::mem::ManuallyDrop`] context will never deallocate the memory pointed to
/// by `raw_ctx` nor destroy the context. This may lead to memory leaks. `ManuallyDrop::drop`
/// (or [`core::ptr::drop_in_place`]) will only destroy the context; the caller is required to
/// free the memory.
///
/// # Safety
///
/// This is highly unsafe due to a number of conditions that aren't checked, specifically:
///
/// * `raw_ctx` must be a valid pointer (live, aligned...) to memory that was initialized by
/// `secp256k1_context_preallocated_create` (either called directly or from this library by
/// one of the context creation methods - all of which call it internally).
/// * The version of `libsecp256k1` used to create `raw_ctx` must be **exactly the one linked
/// into this library**.
/// * The lifetime of the `raw_ctx` pointer must outlive `'buf`.
/// * `raw_ctx` must point to writable memory (cannot be `ffi::secp256k1_context_no_precomp`).
pub unsafe fn from_raw_all(
raw_ctx: NonNull<ffi::Context>,
) -> ManuallyDrop<Secp256k1<AllPreallocated<'buf>>> {
ManuallyDrop::new(Secp256k1 { ctx: raw_ctx, phantom: PhantomData })
}
}
impl<'buf> Secp256k1<SignOnlyPreallocated<'buf>> {
/// Creates a new Secp256k1 context that can only be used for signing.
pub fn preallocated_signing_only(
buf: &'buf mut [AlignedType],
) -> Result<Secp256k1<SignOnlyPreallocated<'buf>>, Error> {
Secp256k1::preallocated_gen_new(buf)
}
/// Uses the ffi `secp256k1_context_preallocated_size` to check the memory size needed for the context.
#[inline]
pub fn preallocate_signing_size() -> usize { Self::preallocate_size_gen() }
/// Creates a context from a raw context that can only be used for signing.
///
/// # Safety
///
/// Please see [`Secp256k1::from_raw_all`] for full documentation and safety requirements.
pub unsafe fn from_raw_signing_only(
raw_ctx: NonNull<ffi::Context>,
) -> ManuallyDrop<Secp256k1<SignOnlyPreallocated<'buf>>> {
ManuallyDrop::new(Secp256k1 { ctx: raw_ctx, phantom: PhantomData })
}
}
impl<'buf> Secp256k1<VerifyOnlyPreallocated<'buf>> {
/// Creates a new Secp256k1 context that can only be used for verification
pub fn preallocated_verification_only(
buf: &'buf mut [AlignedType],
) -> Result<Secp256k1<VerifyOnlyPreallocated<'buf>>, Error> {
Secp256k1::preallocated_gen_new(buf)
}
/// Uses the ffi `secp256k1_context_preallocated_size` to check the memory size needed for the context.
#[inline]
pub fn preallocate_verification_size() -> usize { Self::preallocate_size_gen() }
/// Creates a context from a raw context that can only be used for verification.
///
/// # Safety
///
/// Please see [`Secp256k1::from_raw_all`] for full documentation and safety requirements.
pub unsafe fn from_raw_verification_only(
raw_ctx: NonNull<ffi::Context>,
) -> ManuallyDrop<Secp256k1<VerifyOnlyPreallocated<'buf>>> {
ManuallyDrop::new(Secp256k1 { ctx: raw_ctx, phantom: PhantomData })
}
}