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//===-- ARMNaClHeaders.cpp - Print SFI headers to an ARM .s file -----------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file contains the initial header string needed
// for the Native Client target in ARM assembly.
//
//===----------------------------------------------------------------------===//
#include "llvm/Support/raw_ostream.h"
#include "ARMNaClRewritePass.h"
#include <string>
using namespace llvm;
void EmitSFIHeaders(raw_ostream &O) {
O << " @ ========================================\n";
O << "@ Branch: " << FlagSfiBranch << "\n";
O << "@ Stack: " << FlagSfiStack << "\n";
O << "@ Store: " << FlagSfiStore << "\n";
O << "@ Data: " << FlagSfiData << "\n";
O << " @ ========================================\n";
// NOTE: this macro does bundle alignment as follows
// if current bundle pos is X emit pX data items of value "val"
// NOTE: that pos will be one of: 0,4,8,12
//
O <<
"\t.macro sfi_long_based_on_pos p0 p1 p2 p3 val\n"
"\t.set pos, (. - XmagicX) % 16\n"
"\t.fill (((\\p3<<12)|(\\p2<<8)|(\\p1<<4)|\\p0)>>pos) & 15, 4, \\val\n"
"\t.endm\n"
"\n\n";
O <<
"\t.macro sfi_illegal_if_at_bundle_begining\n"
"\tsfi_long_based_on_pos 1 0 0 0 0xe125be70\n"
"\t.endm\n"
"\n\n";
O <<
"\t.macro sfi_nop_if_at_bundle_end\n"
"\tsfi_long_based_on_pos 0 0 0 1 0xe320f000\n"
"\t.endm\n"
"\n\n";
O <<
"\t.macro sfi_nops_to_force_slot3\n"
"\tsfi_long_based_on_pos 3 2 1 0 0xe320f000\n"
"\t.endm\n"
"\n\n";
O <<
"\t.macro sfi_nops_to_force_slot2\n"
"\tsfi_long_based_on_pos 2 1 0 3 0xe320f000\n"
"\t.endm\n"
"\n\n";
O <<
"\t.macro sfi_nops_to_force_slot1\n"
"\tsfi_long_based_on_pos 1 0 3 2 0xe320f000\n"
"\t.endm\n"
"\n\n";
O << " @ ========================================\n";
if (FlagSfiZeroMask) {
// This mode sets all mask to zero which makes them into nops
// this is useful for linking this code against non-sandboxed code
// for debugging purposes
O <<
"\t.macro sfi_data_mask reg cond\n"
"\tbic\\cond \\reg, \\reg, #0\n"
"\t.endm\n"
"\n\n";
O <<
"\t.macro sfi_data_tst reg\n"
"\ttst \\reg, #0x00000000\n"
"\t.endm\n"
"\n\n";
O <<
"\t.macro sfi_code_mask reg cond=\n"
"\tbic\\cond \\reg, \\reg, #0\n"
"\t.endm\n"
"\n\n";
} else {
O <<
"\t.macro sfi_data_mask reg cond\n"
"\tbic\\cond \\reg, \\reg, #0xc0000000\n"
"\t.endm\n"
"\n\n";
O <<
"\t.macro sfi_data_tst reg\n"
"\ttst \\reg, #0xc0000000\n"
"\t.endm\n"
"\n\n";
O <<
"\t.macro sfi_code_mask reg cond=\n"
"\tbic\\cond \\reg, \\reg, #0xc000000f\n"
"\t.endm\n"
"\n\n";
}
O << " @ ========================================\n";
if (FlagSfiBranch) {
O <<
"\t.macro sfi_call_preamble cond=\n"
"\tsfi_nops_to_force_slot3\n"
"\t.endm\n"
"\n\n";
O <<
"\t.macro sfi_return_preamble reg cond=\n"
"\tsfi_nop_if_at_bundle_end\n"
"\tsfi_code_mask \\reg \\cond\n"
"\t.endm\n"
"\n\n";
// This is used just before "bx rx"
O <<
"\t.macro sfi_indirect_jump_preamble link cond=\n"
"\tsfi_nop_if_at_bundle_end\n"
"\tsfi_code_mask \\link \\cond\n"
"\t.endm\n"
"\n\n";
// This is use just before "blx rx"
O <<
"\t.macro sfi_indirect_call_preamble link cond=\n"
"\tsfi_nops_to_force_slot2\n"
"\tsfi_code_mask \\link \\cond\n"
"\t.endm\n"
"\n\n";
}
if (FlagSfiStore) {
O << " @ ========================================\n";
O <<
"\t.macro sfi_load_store_preamble reg cond\n"
"\tsfi_nop_if_at_bundle_end\n"
"\tsfi_data_mask \\reg, \\cond\n"
"\t.endm\n"
"\n\n";
O <<
"\t.macro sfi_cstore_preamble reg\n"
"\tsfi_nop_if_at_bundle_end\n"
"\tsfi_data_tst \\reg\n"
"\t.endm\n"
"\n\n";
} else {
O <<
"\t.macro sfi_load_store_preamble reg cond\n"
"\t.endm\n"
"\n\n";
O <<
"\t.macro sfi_cstore_preamble reg cond\n"
"\t.endm\n"
"\n\n";
}
O << " @ ========================================\n";
O << "\t.text\n";
}
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