pub mod alloc; pub mod allocator_bump; pub mod allocator_system; pub mod bpf_verifier; pub mod helpers; #[macro_export] macro_rules! solana_bpf_loader { () => { ( "solana_bpf_loader".to_string(), solana_sdk::bpf_loader::id(), ) }; } use alloc::Alloc; use byteorder::{ByteOrder, LittleEndian, WriteBytesExt}; use log::*; use solana_rbpf::{EbpfVmRaw, MemoryRegion}; use solana_sdk::account::KeyedAccount; use solana_sdk::instruction::InstructionError; use solana_sdk::loader_instruction::LoaderInstruction; use solana_sdk::pubkey::Pubkey; use std::io::prelude::*; use std::io::Error; use std::mem; pub fn create_vm(prog: &[u8]) -> Result<(EbpfVmRaw, MemoryRegion), Error> { let mut vm = EbpfVmRaw::new(None)?; vm.set_verifier(bpf_verifier::check)?; vm.set_max_instruction_count(36000)?; vm.set_elf(&prog)?; let heap_region = helpers::register_helpers(&mut vm)?; Ok((vm, heap_region)) } fn serialize_parameters( program_id: &Pubkey, keyed_accounts: &mut [KeyedAccount], data: &[u8], ) -> Vec { assert_eq!(32, mem::size_of::()); let mut v: Vec = Vec::new(); v.write_u64::(keyed_accounts.len() as u64) .unwrap(); for info in keyed_accounts.iter_mut() { v.write_u64::(info.signer_key().is_some() as u64) .unwrap(); v.write_all(info.unsigned_key().as_ref()).unwrap(); v.write_u64::(info.account.lamports).unwrap(); v.write_u64::(info.account.data.len() as u64) .unwrap(); v.write_all(&info.account.data).unwrap(); v.write_all(info.account.owner.as_ref()).unwrap(); } v.write_u64::(data.len() as u64).unwrap(); v.write_all(data).unwrap(); v.write_all(program_id.as_ref()).unwrap(); v } fn deserialize_parameters(keyed_accounts: &mut [KeyedAccount], buffer: &[u8]) { assert_eq!(32, mem::size_of::()); let mut start = mem::size_of::(); for info in keyed_accounts.iter_mut() { start += mem::size_of::(); // skip signer_key boolean start += mem::size_of::(); // skip pubkey info.account.lamports = LittleEndian::read_u64(&buffer[start..]); start += mem::size_of::() // skip lamports + mem::size_of::(); // skip length tag let end = start + info.account.data.len(); info.account.data.clone_from_slice(&buffer[start..end]); start += info.account.data.len() // skip data + mem::size_of::(); // skip owner } } pub fn process_instruction( program_id: &Pubkey, keyed_accounts: &mut [KeyedAccount], ix_data: &[u8], ) -> Result<(), InstructionError> { solana_logger::setup(); if let Ok(instruction) = bincode::deserialize(ix_data) { match instruction { LoaderInstruction::Write { offset, bytes } => { if keyed_accounts[0].signer_key().is_none() { warn!("key[0] did not sign the transaction"); return Err(InstructionError::GenericError); } let offset = offset as usize; let len = bytes.len(); debug!("Write: offset={} length={}", offset, len); if keyed_accounts[0].account.data.len() < offset + len { warn!( "Write overflow: {} < {}", keyed_accounts[0].account.data.len(), offset + len ); return Err(InstructionError::GenericError); } keyed_accounts[0].account.data[offset..offset + len].copy_from_slice(&bytes); } LoaderInstruction::Finalize => { if keyed_accounts[0].signer_key().is_none() { warn!("key[0] did not sign the transaction"); return Err(InstructionError::GenericError); } keyed_accounts[0].account.executable = true; info!( "Finalize: account {:?}", keyed_accounts[0].signer_key().unwrap() ); } LoaderInstruction::InvokeMain { data } => { if !keyed_accounts[0].account.executable { warn!("BPF account not executable"); return Err(InstructionError::GenericError); } let (progs, params) = keyed_accounts.split_at_mut(1); let prog = &progs[0].account.data; info!("Call BPF program"); let (mut vm, heap_region) = match create_vm(prog) { Ok(info) => info, Err(e) => { warn!("Failed to create BPF VM: {}", e); return Err(InstructionError::GenericError); } }; let mut v = serialize_parameters(program_id, params, &data); match vm.execute_program(v.as_mut_slice(), &[], &[heap_region]) { Ok(status) => { if 0 == status { warn!("BPF program failed: {}", status); return Err(InstructionError::GenericError); } } Err(e) => { warn!("BPF VM failed to run program: {}", e); return Err(InstructionError::GenericError); } } deserialize_parameters(params, &v); info!( "BPF program executed {} instructions", vm.get_last_instruction_count() ); } } } else { warn!("Invalid instruction data: {:?}", ix_data); return Err(InstructionError::GenericError); } Ok(()) } #[cfg(test)] mod tests { use super::*; #[test] #[should_panic(expected = "Error: Execution exceeded maximum number of instructions")] fn test_non_terminating_program() { #[rustfmt::skip] let prog = &[ 0x07, 0x01, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, // r6 + 1 0x05, 0x00, 0xfe, 0xff, 0x00, 0x00, 0x00, 0x00, // goto -2 0x95, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // exit ]; let input = &mut [0x00]; let mut vm = EbpfVmRaw::new(None).unwrap(); vm.set_verifier(bpf_verifier::check).unwrap(); vm.set_max_instruction_count(10).unwrap(); vm.set_program(prog).unwrap(); vm.execute_program(input, &[], &[]).unwrap(); } }