//===-- Stream.cpp ----------------------------------------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "lldb/Utility/Stream.h" #include "lldb/Utility/Endian.h" #include "lldb/Utility/VASPrintf.h" #include "llvm/ADT/SmallString.h" #include "llvm/Support/LEB128.h" #include #include #include using namespace lldb; using namespace lldb_private; Stream::Stream(uint32_t flags, uint32_t addr_size, ByteOrder byte_order) : m_flags(flags), m_addr_size(addr_size), m_byte_order(byte_order), m_indent_level(0), m_forwarder(*this) {} Stream::Stream() : m_flags(0), m_addr_size(4), m_byte_order(endian::InlHostByteOrder()), m_indent_level(0), m_forwarder(*this) {} // Destructor Stream::~Stream() {} ByteOrder Stream::SetByteOrder(ByteOrder byte_order) { ByteOrder old_byte_order = m_byte_order; m_byte_order = byte_order; return old_byte_order; } // Put an offset "uval" out to the stream using the printf format in "format". void Stream::Offset(uint32_t uval, const char *format) { Printf(format, uval); } // Put an SLEB128 "uval" out to the stream using the printf format in "format". size_t Stream::PutSLEB128(int64_t sval) { if (m_flags.Test(eBinary)) return llvm::encodeSLEB128(sval, m_forwarder); else return Printf("0x%" PRIi64, sval); } // Put an ULEB128 "uval" out to the stream using the printf format in "format". size_t Stream::PutULEB128(uint64_t uval) { if (m_flags.Test(eBinary)) return llvm::encodeULEB128(uval, m_forwarder); else return Printf("0x%" PRIx64, uval); } // Print a raw NULL terminated C string to the stream. size_t Stream::PutCString(llvm::StringRef str) { size_t bytes_written = 0; bytes_written = Write(str.data(), str.size()); // when in binary mode, emit the NULL terminator if (m_flags.Test(eBinary)) bytes_written += PutChar('\0'); return bytes_written; } // Print a double quoted NULL terminated C string to the stream using the // printf format in "format". void Stream::QuotedCString(const char *cstr, const char *format) { Printf(format, cstr); } // Put an address "addr" out to the stream with optional prefix and suffix // strings. void Stream::Address(uint64_t addr, uint32_t addr_size, const char *prefix, const char *suffix) { if (prefix == nullptr) prefix = ""; if (suffix == nullptr) suffix = ""; // int addr_width = m_addr_size << 1; // Printf ("%s0x%0*" PRIx64 "%s", prefix, addr_width, addr, suffix); Printf("%s0x%0*" PRIx64 "%s", prefix, addr_size * 2, addr, suffix); } // Put an address range out to the stream with optional prefix and suffix // strings. void Stream::AddressRange(uint64_t lo_addr, uint64_t hi_addr, uint32_t addr_size, const char *prefix, const char *suffix) { if (prefix && prefix[0]) PutCString(prefix); Address(lo_addr, addr_size, "["); Address(hi_addr, addr_size, "-", ")"); if (suffix && suffix[0]) PutCString(suffix); } size_t Stream::PutChar(char ch) { return Write(&ch, 1); } // Print some formatted output to the stream. size_t Stream::Printf(const char *format, ...) { va_list args; va_start(args, format); size_t result = PrintfVarArg(format, args); va_end(args); return result; } // Print some formatted output to the stream. size_t Stream::PrintfVarArg(const char *format, va_list args) { llvm::SmallString<1024> buf; VASprintf(buf, format, args); // Include the NULL termination byte for binary output size_t length = buf.size(); if (m_flags.Test(eBinary)) ++length; return Write(buf.c_str(), length); } // Print and End of Line character to the stream size_t Stream::EOL() { return PutChar('\n'); } // Indent the current line using the current indentation level and print an // optional string following the indentation spaces. size_t Stream::Indent(const char *s) { return Printf("%*.*s%s", m_indent_level, m_indent_level, "", s ? s : ""); } size_t Stream::Indent(llvm::StringRef str) { return Printf("%*.*s%s", m_indent_level, m_indent_level, "", str.str().c_str()); } // Stream a character "ch" out to this stream. Stream &Stream::operator<<(char ch) { PutChar(ch); return *this; } // Stream the NULL terminated C string out to this stream. Stream &Stream::operator<<(const char *s) { Printf("%s", s); return *this; } Stream &Stream::operator<<(llvm::StringRef str) { Write(str.data(), str.size()); return *this; } // Stream the pointer value out to this stream. Stream &Stream::operator<<(const void *p) { Printf("0x%.*tx", static_cast(sizeof(const void *)) * 2, (ptrdiff_t)p); return *this; } // Stream a uint8_t "uval" out to this stream. Stream &Stream::operator<<(uint8_t uval) { PutHex8(uval); return *this; } // Stream a uint16_t "uval" out to this stream. Stream &Stream::operator<<(uint16_t uval) { PutHex16(uval, m_byte_order); return *this; } // Stream a uint32_t "uval" out to this stream. Stream &Stream::operator<<(uint32_t uval) { PutHex32(uval, m_byte_order); return *this; } // Stream a uint64_t "uval" out to this stream. Stream &Stream::operator<<(uint64_t uval) { PutHex64(uval, m_byte_order); return *this; } // Stream a int8_t "sval" out to this stream. Stream &Stream::operator<<(int8_t sval) { Printf("%i", static_cast(sval)); return *this; } // Stream a int16_t "sval" out to this stream. Stream &Stream::operator<<(int16_t sval) { Printf("%i", static_cast(sval)); return *this; } // Stream a int32_t "sval" out to this stream. Stream &Stream::operator<<(int32_t sval) { Printf("%i", static_cast(sval)); return *this; } // Stream a int64_t "sval" out to this stream. Stream &Stream::operator<<(int64_t sval) { Printf("%" PRIi64, sval); return *this; } // Get the current indentation level int Stream::GetIndentLevel() const { return m_indent_level; } // Set the current indentation level void Stream::SetIndentLevel(int indent_level) { m_indent_level = indent_level; } // Increment the current indentation level void Stream::IndentMore(int amount) { m_indent_level += amount; } // Decrement the current indentation level void Stream::IndentLess(int amount) { if (m_indent_level >= amount) m_indent_level -= amount; else m_indent_level = 0; } // Get the address size in bytes uint32_t Stream::GetAddressByteSize() const { return m_addr_size; } // Set the address size in bytes void Stream::SetAddressByteSize(uint32_t addr_size) { m_addr_size = addr_size; } // The flags get accessor Flags &Stream::GetFlags() { return m_flags; } // The flags const get accessor const Flags &Stream::GetFlags() const { return m_flags; } // The byte order get accessor lldb::ByteOrder Stream::GetByteOrder() const { return m_byte_order; } size_t Stream::PrintfAsRawHex8(const char *format, ...) { va_list args; va_start(args, format); llvm::SmallString<1024> buf; VASprintf(buf, format, args); ByteDelta delta(*this); for (char C : buf) _PutHex8(C, false); va_end(args); return *delta; } size_t Stream::PutNHex8(size_t n, uint8_t uvalue) { ByteDelta delta(*this); for (size_t i = 0; i < n; ++i) _PutHex8(uvalue, false); return *delta; } void Stream::_PutHex8(uint8_t uvalue, bool add_prefix) { if (m_flags.Test(eBinary)) { Write(&uvalue, 1); } else { if (add_prefix) PutCString("0x"); static char g_hex_to_ascii_hex_char[16] = {'0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f'}; char nibble_chars[2]; nibble_chars[0] = g_hex_to_ascii_hex_char[(uvalue >> 4) & 0xf]; nibble_chars[1] = g_hex_to_ascii_hex_char[(uvalue >> 0) & 0xf]; Write(nibble_chars, sizeof(nibble_chars)); } } size_t Stream::PutHex8(uint8_t uvalue) { ByteDelta delta(*this); _PutHex8(uvalue, false); return *delta; } size_t Stream::PutHex16(uint16_t uvalue, ByteOrder byte_order) { ByteDelta delta(*this); if (byte_order == eByteOrderInvalid) byte_order = m_byte_order; if (byte_order == eByteOrderLittle) { for (size_t byte = 0; byte < sizeof(uvalue); ++byte) _PutHex8(static_cast(uvalue >> (byte * 8)), false); } else { for (size_t byte = sizeof(uvalue) - 1; byte < sizeof(uvalue); --byte) _PutHex8(static_cast(uvalue >> (byte * 8)), false); } return *delta; } size_t Stream::PutHex32(uint32_t uvalue, ByteOrder byte_order) { ByteDelta delta(*this); if (byte_order == eByteOrderInvalid) byte_order = m_byte_order; if (byte_order == eByteOrderLittle) { for (size_t byte = 0; byte < sizeof(uvalue); ++byte) _PutHex8(static_cast(uvalue >> (byte * 8)), false); } else { for (size_t byte = sizeof(uvalue) - 1; byte < sizeof(uvalue); --byte) _PutHex8(static_cast(uvalue >> (byte * 8)), false); } return *delta; } size_t Stream::PutHex64(uint64_t uvalue, ByteOrder byte_order) { ByteDelta delta(*this); if (byte_order == eByteOrderInvalid) byte_order = m_byte_order; if (byte_order == eByteOrderLittle) { for (size_t byte = 0; byte < sizeof(uvalue); ++byte) _PutHex8(static_cast(uvalue >> (byte * 8)), false); } else { for (size_t byte = sizeof(uvalue) - 1; byte < sizeof(uvalue); --byte) _PutHex8(static_cast(uvalue >> (byte * 8)), false); } return *delta; } size_t Stream::PutMaxHex64(uint64_t uvalue, size_t byte_size, lldb::ByteOrder byte_order) { switch (byte_size) { case 1: return PutHex8(static_cast(uvalue)); case 2: return PutHex16(static_cast(uvalue), byte_order); case 4: return PutHex32(static_cast(uvalue), byte_order); case 8: return PutHex64(uvalue, byte_order); } return 0; } size_t Stream::PutPointer(void *ptr) { return PutRawBytes(&ptr, sizeof(ptr), endian::InlHostByteOrder(), endian::InlHostByteOrder()); } size_t Stream::PutFloat(float f, ByteOrder byte_order) { if (byte_order == eByteOrderInvalid) byte_order = m_byte_order; return PutRawBytes(&f, sizeof(f), endian::InlHostByteOrder(), byte_order); } size_t Stream::PutDouble(double d, ByteOrder byte_order) { if (byte_order == eByteOrderInvalid) byte_order = m_byte_order; return PutRawBytes(&d, sizeof(d), endian::InlHostByteOrder(), byte_order); } size_t Stream::PutLongDouble(long double ld, ByteOrder byte_order) { if (byte_order == eByteOrderInvalid) byte_order = m_byte_order; return PutRawBytes(&ld, sizeof(ld), endian::InlHostByteOrder(), byte_order); } size_t Stream::PutRawBytes(const void *s, size_t src_len, ByteOrder src_byte_order, ByteOrder dst_byte_order) { ByteDelta delta(*this); if (src_byte_order == eByteOrderInvalid) src_byte_order = m_byte_order; if (dst_byte_order == eByteOrderInvalid) dst_byte_order = m_byte_order; const uint8_t *src = static_cast(s); bool binary_was_set = m_flags.Test(eBinary); if (!binary_was_set) m_flags.Set(eBinary); if (src_byte_order == dst_byte_order) { for (size_t i = 0; i < src_len; ++i) _PutHex8(src[i], false); } else { for (size_t i = src_len - 1; i < src_len; --i) _PutHex8(src[i], false); } if (!binary_was_set) m_flags.Clear(eBinary); return *delta; } size_t Stream::PutBytesAsRawHex8(const void *s, size_t src_len, ByteOrder src_byte_order, ByteOrder dst_byte_order) { ByteDelta delta(*this); if (src_byte_order == eByteOrderInvalid) src_byte_order = m_byte_order; if (dst_byte_order == eByteOrderInvalid) dst_byte_order = m_byte_order; const uint8_t *src = static_cast(s); bool binary_is_set = m_flags.Test(eBinary); m_flags.Clear(eBinary); if (src_byte_order == dst_byte_order) { for (size_t i = 0; i < src_len; ++i) _PutHex8(src[i], false); } else { for (size_t i = src_len - 1; i < src_len; --i) _PutHex8(src[i], false); } if (binary_is_set) m_flags.Set(eBinary); return *delta; } size_t Stream::PutStringAsRawHex8(llvm::StringRef s) { ByteDelta delta(*this); bool binary_is_set = m_flags.Test(eBinary); m_flags.Clear(eBinary); for (char c : s) _PutHex8(c, false); if (binary_is_set) m_flags.Set(eBinary); return *delta; }