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input_buffer.cc
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input_buffer.cc
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/*-
* SPDX-License-Identifier: BSD-2-Clause
*
* Copyright (c) 2013 David Chisnall
* All rights reserved.
*
* This software was developed by SRI International and the University of
* Cambridge Computer Laboratory under DARPA/AFRL contract (FA8750-10-C-0237)
* ("CTSRD"), as part of the DARPA CRASH research programme.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include "input_buffer.hh"
#include <ctype.h>
#include <errno.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <functional>
#ifndef NDEBUG
#include <iostream>
#endif
#include <limits>
#include <sys/stat.h>
#include <sys/mman.h>
#include <assert.h>
#include <fcntl.h>
#include <unistd.h>
#ifndef MAP_PREFAULT_READ
#define MAP_PREFAULT_READ 0
#endif
using std::string;
namespace
{
/**
* Subclass of input_buffer that mmap()s a file and owns the resulting memory.
* When this object is destroyed, the memory is unmapped.
*/
struct mmap_input_buffer : public dtc::input_buffer
{
string fn;
const string &filename() const override
{
return fn;
}
/**
* Constructs a new buffer from the file passed in as a file
* descriptor.
*/
mmap_input_buffer(int fd, string &&filename);
/**
* Unmaps the buffer, if one exists.
*/
virtual ~mmap_input_buffer();
};
/**
* Input buffer read from standard input. This is used for reading device tree
* blobs and source from standard input. It reads the entire input into
* malloc'd memory, so will be very slow for large inputs. DTS and DTB files
* are very rarely more than 10KB though, so this is probably not a problem.
*/
struct stream_input_buffer : public dtc::input_buffer
{
const string &filename() const override
{
static string n = "<standard input>";
return n;
}
/**
* The buffer that will store the data read from the standard input.
*/
std::vector<char> b;
/**
* Constructs a new buffer from the standard input.
*/
stream_input_buffer();
};
mmap_input_buffer::mmap_input_buffer(int fd, string &&filename)
: input_buffer(0, 0), fn(filename)
{
struct stat sb;
if (fstat(fd, &sb))
{
perror("Failed to stat file");
}
size = sb.st_size;
buffer = (const char*)mmap(0, size, PROT_READ, MAP_PRIVATE |
MAP_PREFAULT_READ, fd, 0);
if (buffer == MAP_FAILED)
{
perror("Failed to mmap file");
exit(EXIT_FAILURE);
}
}
mmap_input_buffer::~mmap_input_buffer()
{
if (buffer != 0)
{
munmap(const_cast<char*>(buffer), size);
}
}
stream_input_buffer::stream_input_buffer() : input_buffer(0, 0)
{
int c;
while ((c = fgetc(stdin)) != EOF)
{
b.push_back(c);
}
buffer = b.data();
size = b.size();
}
} // Anonymous namespace
namespace dtc
{
void
input_buffer::skip_to(char c)
{
while ((cursor < size) && (buffer[cursor] != c))
{
cursor++;
}
}
void
text_input_buffer::skip_to(char c)
{
while (!finished() && (*(*this) != c))
{
++(*this);
}
}
void
text_input_buffer::skip_spaces()
{
if (finished()) { return; }
char c = *(*this);
bool last_nl = false;
while ((c == ' ') || (c == '\t') || (c == '\n') || (c == '\f')
|| (c == '\v') || (c == '\r'))
{
last_nl = ((c == '\n') || (c == '\r'));
++(*this);
if (finished())
{
c = '\0';
}
else
{
c = *(*this);
}
}
// Skip C preprocessor leftovers
if ((c == '#') && ((cursor == 0) || last_nl))
{
skip_to('\n');
skip_spaces();
}
if (consume("/include/"))
{
handle_include();
skip_spaces();
}
}
void
text_input_buffer::handle_include()
{
bool reallyInclude = true;
if (consume("if "))
{
next_token();
string name = parse_property_name();
if (defines.count(name) == 0)
{
reallyInclude = false;
}
consume('/');
}
next_token();
if (!consume('"'))
{
parse_error("Expected quoted filename");
return;
}
auto loc = location();
string file = parse_to('"');
consume('"');
if (!reallyInclude)
{
return;
}
string include_file = dir + '/' + file;
auto include_buffer = input_buffer::buffer_for_file(include_file, false);
if (include_buffer == 0)
{
for (auto i : include_paths)
{
include_file = i + '/' + file;
include_buffer = input_buffer::buffer_for_file(include_file, false);
if (include_buffer != 0)
{
break;
}
}
}
if (depfile)
{
putc(' ', depfile);
fputs(include_file.c_str(), depfile);
}
if (!include_buffer)
{
loc.report_error("Unable to locate input file");
return;
}
input_stack.push(std::move(include_buffer));
}
bool text_input_buffer::read_binary_file(const std::string &filename, byte_buffer &b)
{
bool try_include_paths = true;
string include_file;
if (filename[0] == '/')
{
include_file = filename;
// Don't try include paths if we're given an absolute path.
// Failing is better so that we don't accidentally do the wrong thing,
// but make it seem like everything is alright.
try_include_paths = false;
}
else
{
include_file = dir + '/' + filename;
}
auto include_buffer = input_buffer::buffer_for_file(include_file, false);
if (include_buffer == 0 && try_include_paths)
{
for (auto i : include_paths)
{
include_file = i + '/' + filename;
include_buffer = input_buffer::buffer_for_file(include_file, false);
if (include_buffer != 0)
{
break;
}
}
}
if (!include_buffer)
{
return false;
}
if (depfile)
{
putc(' ', depfile);
fputs(include_file.c_str(), depfile);
}
b.insert(b.begin(), include_buffer->begin(), include_buffer->end());
return true;
}
input_buffer
input_buffer::buffer_from_offset(int offset, int s)
{
if (offset < 0)
{
return input_buffer();
}
if (s == 0)
{
s = size - offset;
}
if (offset > size)
{
return input_buffer();
}
if (s > (size-offset))
{
return input_buffer();
}
return input_buffer(&buffer[offset], s);
}
bool
input_buffer::consume(const char *str)
{
int len = strlen(str);
if (len > size - cursor)
{
return false;
}
else
{
for (int i=0 ; i<len ; ++i)
{
if (str[i] != (*this)[i])
{
return false;
}
}
cursor += len;
return true;
}
return false;
}
bool
input_buffer::consume_char_literal(unsigned long long &outInt)
{
outInt = (unsigned char)((*this)[0]);
cursor++;
if(outInt != '\\')
{
return true;
}
else if(cursor >= size)
{
return false;
}
outInt = (unsigned char)((*this)[0]);
cursor++;
switch (outInt) {
default:
return false;
case 'n':
outInt = (unsigned char)'\n';
break;
case 'r':
outInt = (unsigned char)'\r';
break;
case 't':
outInt = (unsigned char)'\t';
break;
case '0':
outInt = 0;
break;
case '\'':
case '\\':
break;
}
return true;
}
bool
input_buffer::consume_integer(unsigned long long &outInt)
{
// The first character must be a digit. Hex and octal strings
// are prefixed by 0 and 0x, respectively.
if (!isdigit((*this)[0]))
{
return false;
}
char *end= const_cast<char*>(&buffer[size]);
errno = 0;
outInt = strtoull(&buffer[cursor], &end, 0);
if (end == &buffer[cursor] ||
(outInt == std::numeric_limits<unsigned long long>::max() &&
errno == ERANGE))
{
return false;
}
cursor = end - buffer;
return true;
}
namespace {
/**
* Convenience typedef for the type that we use for all values.
*/
typedef unsigned long long valty;
/**
* Expression tree currently being parsed.
*/
struct expression
{
typedef text_input_buffer::source_location source_location;
/**
* The type that is returned when computing the result. The boolean value
* indicates whether this is a valid expression.
*
* FIXME: Once we can use C++17, this should be `std::optional`.
*/
typedef std::pair<valty, bool> result;
/**
* Evaluate this node, taking into account operator precedence.
*/
virtual result operator()() = 0;
/**
* Returns the precedence of this node. Lower values indicate higher
* precedence.
*/
virtual int precedence() = 0;
/**
* Constructs an expression, storing the location where it was created.
*/
expression(source_location l) : loc(l) {}
virtual ~expression() {}
#ifndef NDEBUG
/**
* Dumps this expression to `std::cerr`, appending a newline if `nl` is
* `true`.
*/
void dump(bool nl=false)
{
void *ptr = this;
if (ptr == nullptr)
{
std::cerr << "{nullptr}\n";
return;
}
dump_impl();
if (nl)
{
std::cerr << '\n';
}
}
private:
/**
* Method that sublcasses override to implement the behaviour of `dump()`.
*/
virtual void dump_impl() = 0;
#endif
protected:
source_location loc;
};
/**
* Expression wrapping a single integer. Leaf nodes in the expression tree.
*/
class terminal_expr : public expression
{
/**
* The value that this wraps.
*/
valty val;
/**
* Evaluate. Trivially returns the value that this class wraps.
*/
result operator()() override
{
return {val, true};
}
int precedence() override
{
return 0;
}
public:
/**
* Constructor.
*/
terminal_expr(source_location l, valty v) : expression(l), val(v) {}
#ifndef NDEBUG
void dump_impl() override { std::cerr << val; }
#endif
};
/**
* Parenthetical expression. Exists to make the contents opaque.
*/
struct paren_expression : public expression
{
/**
* The expression within the parentheses.
*/
expression_ptr subexpr;
/**
* Constructor. Takes the child expression as the only argument.
*/
paren_expression(source_location l, expression_ptr p) : expression(l),
subexpr(std::move(p)) {}
int precedence() override
{
return 0;
}
/**
* Evaluate - just forwards to the underlying expression.
*/
result operator()() override
{
return (*subexpr)();
}
#ifndef NDEBUG
void dump_impl() override
{
std::cerr << " (";
subexpr->dump();
std::cerr << ") ";
}
#endif
};
/**
* Template class for unary operators. The `OpChar` template parameter is
* solely for debugging and makes it easy to print the expression. The `Op`
* template parameter is a function object that implements the operator that
* this class provides. Most of these are provided by the `<functional>`
* header.
*/
template<char OpChar, class Op>
class unary_operator : public expression
{
/**
* The subexpression for this unary operator.
*/
expression_ptr subexpr;
result operator()() override
{
Op op;
result s = (*subexpr)();
if (!s.second)
{
return s;
}
return {op(s.first), true};
}
/**
* All unary operators have the same precedence. They are all evaluated
* before binary expressions, but after parentheses.
*/
int precedence() override
{
return 3;
}
public:
unary_operator(source_location l, expression_ptr p) :
expression(l), subexpr(std::move(p)) {}
#ifndef NDEBUG
void dump_impl() override
{
std::cerr << OpChar;
subexpr->dump();
}
#endif
};
/**
* Abstract base class for binary operators. Allows the tree to be modified
* without knowing what the operations actually are.
*/
struct binary_operator_base : public expression
{
using expression::expression;
/**
* The left side of the expression.
*/
expression_ptr lhs;
/**
* The right side of the expression.
*/
expression_ptr rhs;
/**
* Insert a node somewhere down the path of left children, until it would
* be preempting something that should execute first.
*/
void insert_left(binary_operator_base *new_left)
{
if (lhs->precedence() < new_left->precedence())
{
new_left->rhs = std::move(lhs);
lhs.reset(new_left);
}
else
{
static_cast<binary_operator_base*>(lhs.get())->insert_left(new_left);
}
}
};
/**
* Template class for binary operators. The precedence and the operation are
* provided as template parameters.
*/
template<int Precedence, class Op>
struct binary_operator : public binary_operator_base
{
result operator()() override
{
Op op;
result l = (*lhs)();
result r = (*rhs)();
if (!(l.second && r.second))
{
return {0, false};
}
return {op(l.first, r.first), true};
}
int precedence() override
{
return Precedence;
}
#ifdef NDEBUG
/**
* Constructor. Takes the name of the operator as an argument, for
* debugging. Only stores it in debug mode.
*/
binary_operator(source_location l, const char *) :
binary_operator_base(l) {}
#else
const char *opName;
binary_operator(source_location l, const char *o) :
binary_operator_base(l), opName(o) {}
void dump_impl() override
{
lhs->dump();
std::cerr << opName;
rhs->dump();
}
#endif
};
/**
* Ternary conditional operators (`cond ? true : false`) are a special case -
* there are no other ternary operators.
*/
class ternary_conditional_operator : public expression
{
/**
* The condition for the clause.
*/
expression_ptr cond;
/**
* The expression that this evaluates to if the condition is true.
*/
expression_ptr lhs;
/**
* The expression that this evaluates to if the condition is false.
*/
expression_ptr rhs;
result operator()() override
{
result c = (*cond)();
result l = (*lhs)();
result r = (*rhs)();
if (!(l.second && r.second && c.second))
{
return {0, false};
}
return c.first ? l : r;
}
int precedence() override
{
// The actual precedence of a ternary conditional operator is 15, but
// its associativity is the opposite way around to the other operators,
// so we fudge it slightly.
return 3;
}
#ifndef NDEBUG
void dump_impl() override
{
cond->dump();
std::cerr << " ? ";
lhs->dump();
std::cerr << " : ";
rhs->dump();
}
#endif
public:
ternary_conditional_operator(source_location sl,
expression_ptr c,
expression_ptr l,
expression_ptr r) :
expression(sl), cond(std::move(c)), lhs(std::move(l)),
rhs(std::move(r)) {}
};
template<typename T>
struct lshift
{
constexpr T operator()(const T &lhs, const T &rhs) const
{
return lhs << rhs;
}
};
template<typename T>
struct rshift
{
constexpr T operator()(const T &lhs, const T &rhs) const
{
return lhs >> rhs;
}
};
template<typename T>
struct unary_plus
{
constexpr T operator()(const T &val) const
{
return +val;
}
};
// TODO: Replace with std::bit_not once we can guarantee C++14 as a baseline.
template<typename T>
struct bit_not
{
constexpr T operator()(const T &val) const
{
return ~val;
}
};
template<typename T>
struct divmod : public binary_operator<5, T>
{
using binary_operator<5, T>::binary_operator;
using typename binary_operator_base::result;
result operator()() override
{
result r = (*binary_operator_base::rhs)();
if (r.second && (r.first == 0))
{
expression::loc.report_error("Division by zero");
return {0, false};
}
return binary_operator<5, T>::operator()();
}
};
} // anonymous namespace
expression_ptr text_input_buffer::parse_binary_expression(expression_ptr lhs)
{
next_token();
binary_operator_base *expr = nullptr;
char op = *(*this);
source_location l = location();
switch (op)
{
default:
return lhs;
case '+':
expr = new binary_operator<6, std::plus<valty>>(l, "+");
break;
case '-':
expr = new binary_operator<6, std::minus<valty>>(l, "-");
break;
case '%':
expr = new divmod<std::modulus<valty>>(l, "/");
break;
case '*':
expr = new binary_operator<5, std::multiplies<valty>>(l, "*");
break;
case '/':
expr = new divmod<std::divides<valty>>(l, "/");
break;
case '<':
switch (peek())
{
default:
parse_error("Invalid operator");
return nullptr;
case ' ':
case '(':
case '0'...'9':
expr = new binary_operator<8, std::less<valty>>(l, "<");
break;
case '=':
++(*this);
expr = new binary_operator<8, std::less_equal<valty>>(l, "<=");
break;
case '<':
++(*this);
expr = new binary_operator<7, lshift<valty>>(l, "<<");
break;
}
break;
case '>':
switch (peek())
{
default:
parse_error("Invalid operator");
return nullptr;
case '(':
case ' ':
case '0'...'9':
expr = new binary_operator<8, std::greater<valty>>(l, ">");
break;
case '=':
++(*this);
expr = new binary_operator<8, std::greater_equal<valty>>(l, ">=");
break;
case '>':
++(*this);
expr = new binary_operator<7, rshift<valty>>(l, ">>");
break;
return lhs;
}
break;
case '=':
if (peek() != '=')
{
parse_error("Invalid operator");
return nullptr;
}
expr = new binary_operator<9, std::equal_to<valty>>(l, "==");
break;
case '!':
if (peek() != '=')
{
parse_error("Invalid operator");
return nullptr;
}
cursor++;
expr = new binary_operator<9, std::not_equal_to<valty>>(l, "!=");
break;
case '&':
if (peek() == '&')
{
expr = new binary_operator<13, std::logical_and<valty>>(l, "&&");
}
else
{
expr = new binary_operator<10, std::bit_and<valty>>(l, "&");
}
break;
case '|':
if (peek() == '|')
{
expr = new binary_operator<12, std::logical_or<valty>>(l, "||");
}
else
{
expr = new binary_operator<14, std::bit_or<valty>>(l, "|");
}
break;
case '?':
{
consume('?');
expression_ptr true_case = parse_expression();
next_token();
if (!true_case || !consume(':'))
{
parse_error("Expected : in ternary conditional operator");
return nullptr;
}
expression_ptr false_case = parse_expression();
if (!false_case)
{
parse_error("Expected false condition for ternary operator");
return nullptr;
}
return expression_ptr(new ternary_conditional_operator(l, std::move(lhs),
std::move(true_case), std::move(false_case)));
}
}
++(*this);
next_token();
expression_ptr e(expr);
expression_ptr rhs(parse_expression());
if (!rhs)
{
return nullptr;
}
expr->lhs = std::move(lhs);
if (rhs->precedence() < expr->precedence())
{
expr->rhs = std::move(rhs);
}
else
{
// If we're a normal left-to-right expression, then we need to insert
// this as the far-left child node of the rhs expression
binary_operator_base *rhs_op =
static_cast<binary_operator_base*>(rhs.get());
rhs_op->insert_left(expr);
e.release();
return rhs;
}
return e;
}
expression_ptr text_input_buffer::parse_expression(bool stopAtParen)
{
next_token();
unsigned long long leftVal;
expression_ptr lhs;
source_location l = location();
switch (*(*this))
{
case '\'':
consume('\'');
if(!consume_char_literal(leftVal))
{
return nullptr;
}
if (!consume('\''))
{
return nullptr;
}
lhs.reset(new terminal_expr(l, leftVal));
break;
case '0'...'9':
if (!consume_integer(leftVal))
{
return nullptr;
}
lhs.reset(new terminal_expr(l, leftVal));
break;
case '(':
{
consume('(');
expression_ptr &&subexpr = parse_expression();
if (!subexpr)
{
return nullptr;
}
lhs.reset(new paren_expression(l, std::move(subexpr)));
if (!consume(')'))
{
return nullptr;
}
if (stopAtParen)
{
return lhs;
}
break;
}
case '+':
{
consume('+');
expression_ptr &&subexpr = parse_expression();
if (!subexpr)
{
return nullptr;
}
lhs.reset(new unary_operator<'+', unary_plus<valty>>(l, std::move(subexpr)));
break;
}
case '-':
{
consume('-');
expression_ptr &&subexpr = parse_expression();
if (!subexpr)
{
return nullptr;
}
lhs.reset(new unary_operator<'-', std::negate<valty>>(l, std::move(subexpr)));
break;
}
case '!':
{
consume('!');
expression_ptr &&subexpr = parse_expression();
if (!subexpr)
{
return nullptr;
}
lhs.reset(new unary_operator<'!', std::logical_not<valty>>(l, std::move(subexpr)));
break;
}
case '~':
{
consume('~');
expression_ptr &&subexpr = parse_expression();
if (!subexpr)
{
return nullptr;
}
lhs.reset(new unary_operator<'~', bit_not<valty>>(l, std::move(subexpr)));
break;
}
}