1 //===-- Stream.cpp ----------------------------------------------*- C++ -*-===//
2 //
3 //                     The LLVM Compiler Infrastructure
4 //
5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details.
7 //
8 //===----------------------------------------------------------------------===//
9 
10 #include "lldb/Core/Stream.h"
11 #include "lldb/Host/Endian.h"
12 #include <stddef.h>
13 #include <stdio.h>
14 #include <string.h>
15 #include <stdlib.h>
16 
17 #include <inttypes.h>
18 
19 using namespace lldb;
20 using namespace lldb_private;
21 
Stream(uint32_t flags,uint32_t addr_size,ByteOrder byte_order)22 Stream::Stream (uint32_t flags, uint32_t addr_size, ByteOrder byte_order) :
23     m_flags (flags),
24     m_addr_size (addr_size),
25     m_byte_order (byte_order),
26     m_indent_level(0)
27 {
28 }
29 
Stream()30 Stream::Stream () :
31     m_flags (0),
32     m_addr_size (4),
33     m_byte_order (lldb::endian::InlHostByteOrder()),
34     m_indent_level(0)
35 {
36 }
37 
38 //------------------------------------------------------------------
39 // Destructor
40 //------------------------------------------------------------------
~Stream()41 Stream::~Stream ()
42 {
43 }
44 
45 ByteOrder
SetByteOrder(ByteOrder byte_order)46 Stream::SetByteOrder (ByteOrder byte_order)
47 {
48     ByteOrder old_byte_order = m_byte_order;
49     m_byte_order = byte_order;
50     return old_byte_order;
51 }
52 
53 //------------------------------------------------------------------
54 // Put an offset "uval" out to the stream using the printf format
55 // in "format".
56 //------------------------------------------------------------------
57 void
Offset(uint32_t uval,const char * format)58 Stream::Offset (uint32_t uval, const char *format)
59 {
60     Printf (format, uval);
61 }
62 
63 //------------------------------------------------------------------
64 // Put an SLEB128 "uval" out to the stream using the printf format
65 // in "format".
66 //------------------------------------------------------------------
67 size_t
PutSLEB128(int64_t sval)68 Stream::PutSLEB128 (int64_t sval)
69 {
70     size_t bytes_written = 0;
71     if (m_flags.Test(eBinary))
72     {
73         bool more = true;
74         while (more)
75         {
76             uint8_t byte = sval & 0x7fu;
77             sval >>= 7;
78             /* sign bit of byte is 2nd high order bit (0x40) */
79             if ((sval ==  0 && !(byte & 0x40)) ||
80                 (sval == -1 &&  (byte & 0x40)) )
81                 more = false;
82             else
83                 // more bytes to come
84                 byte |= 0x80u;
85             bytes_written += Write(&byte, 1);
86         }
87     }
88     else
89     {
90         bytes_written = Printf ("0x%" PRIi64, sval);
91     }
92 
93     return bytes_written;
94 
95 }
96 
97 //------------------------------------------------------------------
98 // Put an ULEB128 "uval" out to the stream using the printf format
99 // in "format".
100 //------------------------------------------------------------------
101 size_t
PutULEB128(uint64_t uval)102 Stream::PutULEB128 (uint64_t uval)
103 {
104     size_t bytes_written = 0;
105     if (m_flags.Test(eBinary))
106     {
107         do
108         {
109 
110             uint8_t byte = uval & 0x7fu;
111             uval >>= 7;
112             if (uval != 0)
113             {
114                 // more bytes to come
115                 byte |= 0x80u;
116             }
117             bytes_written += Write(&byte, 1);
118         } while (uval != 0);
119     }
120     else
121     {
122         bytes_written = Printf ("0x%" PRIx64, uval);
123     }
124     return bytes_written;
125 }
126 
127 //------------------------------------------------------------------
128 // Print a raw NULL terminated C string to the stream.
129 //------------------------------------------------------------------
130 size_t
PutCString(const char * cstr)131 Stream::PutCString (const char *cstr)
132 {
133     size_t cstr_len = strlen(cstr);
134     // when in binary mode, emit the NULL terminator
135     if (m_flags.Test(eBinary))
136         ++cstr_len;
137     return Write (cstr, cstr_len);
138 }
139 
140 //------------------------------------------------------------------
141 // Print a double quoted NULL terminated C string to the stream
142 // using the printf format in "format".
143 //------------------------------------------------------------------
144 void
QuotedCString(const char * cstr,const char * format)145 Stream::QuotedCString (const char *cstr, const char *format)
146 {
147     Printf (format, cstr);
148 }
149 
150 //------------------------------------------------------------------
151 // Put an address "addr" out to the stream with optional prefix
152 // and suffix strings.
153 //------------------------------------------------------------------
154 void
Address(uint64_t addr,uint32_t addr_size,const char * prefix,const char * suffix)155 Stream::Address (uint64_t addr, uint32_t addr_size, const char *prefix, const char *suffix)
156 {
157     if (prefix == NULL)
158         prefix = "";
159     if (suffix == NULL)
160         suffix = "";
161 //    int addr_width = m_addr_size << 1;
162 //    Printf ("%s0x%0*" PRIx64 "%s", prefix, addr_width, addr, suffix);
163     Printf ("%s0x%0*" PRIx64 "%s", prefix, addr_size * 2, (uint64_t)addr, suffix);
164 }
165 
166 //------------------------------------------------------------------
167 // Put an address range out to the stream with optional prefix
168 // and suffix strings.
169 //------------------------------------------------------------------
170 void
AddressRange(uint64_t lo_addr,uint64_t hi_addr,uint32_t addr_size,const char * prefix,const char * suffix)171 Stream::AddressRange(uint64_t lo_addr, uint64_t hi_addr, uint32_t addr_size, const char *prefix, const char *suffix)
172 {
173     if (prefix && prefix[0])
174         PutCString (prefix);
175     Address (lo_addr, addr_size, "[");
176     Address (hi_addr, addr_size, "-", ")");
177     if (suffix && suffix[0])
178         PutCString (suffix);
179 }
180 
181 
182 size_t
PutChar(char ch)183 Stream::PutChar (char ch)
184 {
185     return Write (&ch, 1);
186 }
187 
188 
189 //------------------------------------------------------------------
190 // Print some formatted output to the stream.
191 //------------------------------------------------------------------
192 size_t
Printf(const char * format,...)193 Stream::Printf (const char *format, ...)
194 {
195     va_list args;
196     va_start (args, format);
197     size_t result = PrintfVarArg(format, args);
198     va_end (args);
199     return result;
200 }
201 
202 //------------------------------------------------------------------
203 // Print some formatted output to the stream.
204 //------------------------------------------------------------------
205 size_t
PrintfVarArg(const char * format,va_list args)206 Stream::PrintfVarArg (const char *format, va_list args)
207 {
208     char str[1024];
209     va_list args_copy;
210 
211     va_copy (args_copy, args);
212 
213     size_t bytes_written = 0;
214     // Try and format our string into a fixed buffer first and see if it fits
215     size_t length = ::vsnprintf (str, sizeof(str), format, args);
216     if (length < sizeof(str))
217     {
218         // Include the NULL termination byte for binary output
219         if (m_flags.Test(eBinary))
220             length += 1;
221         // The formatted string fit into our stack based buffer, so we can just
222         // append that to our packet
223         bytes_written = Write (str, length);
224     }
225     else
226     {
227         // Our stack buffer wasn't big enough to contain the entire formatted
228         // string, so lets let vasprintf create the string for us!
229         char *str_ptr = NULL;
230         length = ::vasprintf (&str_ptr, format, args_copy);
231         if (str_ptr)
232         {
233             // Include the NULL termination byte for binary output
234             if (m_flags.Test(eBinary))
235                 length += 1;
236             bytes_written = Write (str_ptr, length);
237             ::free (str_ptr);
238         }
239     }
240     va_end (args_copy);
241     return bytes_written;
242 }
243 
244 //------------------------------------------------------------------
245 // Print and End of Line character to the stream
246 //------------------------------------------------------------------
247 size_t
EOL()248 Stream::EOL()
249 {
250     return PutChar ('\n');
251 }
252 
253 //------------------------------------------------------------------
254 // Indent the current line using the current indentation level and
255 // print an optional string following the idenatation spaces.
256 //------------------------------------------------------------------
257 size_t
Indent(const char * s)258 Stream::Indent(const char *s)
259 {
260     return Printf ("%*.*s%s", m_indent_level, m_indent_level, "", s ? s : "");
261 }
262 
263 //------------------------------------------------------------------
264 // Stream a character "ch" out to this stream.
265 //------------------------------------------------------------------
266 Stream&
operator <<(char ch)267 Stream::operator<< (char ch)
268 {
269     PutChar (ch);
270     return *this;
271 }
272 
273 //------------------------------------------------------------------
274 // Stream the NULL terminated C string out to this stream.
275 //------------------------------------------------------------------
276 Stream&
operator <<(const char * s)277 Stream::operator<<  (const char *s)
278 {
279     Printf ("%s", s);
280     return *this;
281 }
282 
283 //------------------------------------------------------------------
284 // Stream the pointer value out to this stream.
285 //------------------------------------------------------------------
286 Stream&
operator <<(void * p)287 Stream::operator<< (void *p)
288 {
289     Printf ("0x%.*tx", (int)sizeof(void*) * 2, (ptrdiff_t)p);
290     return *this;
291 }
292 
293 //------------------------------------------------------------------
294 // Stream a uint8_t "uval" out to this stream.
295 //------------------------------------------------------------------
296 Stream&
operator <<(uint8_t uval)297 Stream::operator<< (uint8_t uval)
298 {
299     PutHex8(uval);
300     return *this;
301 }
302 
303 //------------------------------------------------------------------
304 // Stream a uint16_t "uval" out to this stream.
305 //------------------------------------------------------------------
306 Stream&
operator <<(uint16_t uval)307 Stream::operator<< (uint16_t uval)
308 {
309     PutHex16(uval, m_byte_order);
310     return *this;
311 }
312 
313 //------------------------------------------------------------------
314 // Stream a uint32_t "uval" out to this stream.
315 //------------------------------------------------------------------
316 Stream&
operator <<(uint32_t uval)317 Stream::operator<< (uint32_t uval)
318 {
319     PutHex32(uval, m_byte_order);
320     return *this;
321 }
322 
323 //------------------------------------------------------------------
324 // Stream a uint64_t "uval" out to this stream.
325 //------------------------------------------------------------------
326 Stream&
operator <<(uint64_t uval)327 Stream::operator<< (uint64_t uval)
328 {
329     PutHex64(uval, m_byte_order);
330     return *this;
331 }
332 
333 //------------------------------------------------------------------
334 // Stream a int8_t "sval" out to this stream.
335 //------------------------------------------------------------------
336 Stream&
operator <<(int8_t sval)337 Stream::operator<< (int8_t sval)
338 {
339     Printf ("%i", (int)sval);
340     return *this;
341 }
342 
343 //------------------------------------------------------------------
344 // Stream a int16_t "sval" out to this stream.
345 //------------------------------------------------------------------
346 Stream&
operator <<(int16_t sval)347 Stream::operator<< (int16_t sval)
348 {
349     Printf ("%i", (int)sval);
350     return *this;
351 }
352 
353 //------------------------------------------------------------------
354 // Stream a int32_t "sval" out to this stream.
355 //------------------------------------------------------------------
356 Stream&
operator <<(int32_t sval)357 Stream::operator<< (int32_t sval)
358 {
359     Printf ("%i", (int)sval);
360     return *this;
361 }
362 
363 //------------------------------------------------------------------
364 // Stream a int64_t "sval" out to this stream.
365 //------------------------------------------------------------------
366 Stream&
operator <<(int64_t sval)367 Stream::operator<< (int64_t sval)
368 {
369     Printf ("%" PRIi64, sval);
370     return *this;
371 }
372 
373 //------------------------------------------------------------------
374 // Get the current indentation level
375 //------------------------------------------------------------------
376 int
GetIndentLevel() const377 Stream::GetIndentLevel() const
378 {
379     return m_indent_level;
380 }
381 
382 //------------------------------------------------------------------
383 // Set the current indentation level
384 //------------------------------------------------------------------
385 void
SetIndentLevel(int indent_level)386 Stream::SetIndentLevel(int indent_level)
387 {
388     m_indent_level = indent_level;
389 }
390 
391 //------------------------------------------------------------------
392 // Increment the current indentation level
393 //------------------------------------------------------------------
394 void
IndentMore(int amount)395 Stream::IndentMore(int amount)
396 {
397     m_indent_level += amount;
398 }
399 
400 //------------------------------------------------------------------
401 // Decrement the current indentation level
402 //------------------------------------------------------------------
403 void
IndentLess(int amount)404 Stream::IndentLess (int amount)
405 {
406     if (m_indent_level >= amount)
407         m_indent_level -= amount;
408     else
409         m_indent_level = 0;
410 }
411 
412 //------------------------------------------------------------------
413 // Get the address size in bytes
414 //------------------------------------------------------------------
415 uint32_t
GetAddressByteSize() const416 Stream::GetAddressByteSize() const
417 {
418     return m_addr_size;
419 }
420 
421 //------------------------------------------------------------------
422 // Set the address size in bytes
423 //------------------------------------------------------------------
424 void
SetAddressByteSize(uint32_t addr_size)425 Stream::SetAddressByteSize(uint32_t addr_size)
426 {
427     m_addr_size = addr_size;
428 }
429 
430 //------------------------------------------------------------------
431 // Returns true if the verbose flag bit is set in this stream.
432 //------------------------------------------------------------------
433 bool
GetVerbose() const434 Stream::GetVerbose() const
435 {
436     return m_flags.Test(eVerbose);
437 }
438 
439 //------------------------------------------------------------------
440 // Returns true if the debug flag bit is set in this stream.
441 //------------------------------------------------------------------
442 bool
GetDebug() const443 Stream::GetDebug() const
444 {
445     return m_flags.Test(eDebug);
446 }
447 
448 //------------------------------------------------------------------
449 // The flags get accessor
450 //------------------------------------------------------------------
451 Flags&
GetFlags()452 Stream::GetFlags()
453 {
454     return m_flags;
455 }
456 
457 //------------------------------------------------------------------
458 // The flags const get accessor
459 //------------------------------------------------------------------
460 const Flags&
GetFlags() const461 Stream::GetFlags() const
462 {
463     return m_flags;
464 }
465 
466 //------------------------------------------------------------------
467 // The byte order get accessor
468 //------------------------------------------------------------------
469 
470 lldb::ByteOrder
GetByteOrder() const471 Stream::GetByteOrder() const
472 {
473     return m_byte_order;
474 }
475 
476 size_t
PrintfAsRawHex8(const char * format,...)477 Stream::PrintfAsRawHex8 (const char *format, ...)
478 {
479     va_list args;
480     va_list args_copy;
481     va_start (args, format);
482     va_copy (args, args_copy); // Copy this so we
483 
484     char str[1024];
485     size_t bytes_written = 0;
486     // Try and format our string into a fixed buffer first and see if it fits
487     size_t length = ::vsnprintf (str, sizeof(str), format, args);
488     if (length < sizeof(str))
489     {
490         // The formatted string fit into our stack based buffer, so we can just
491         // append that to our packet
492         for (size_t i=0; i<length; ++i)
493             bytes_written += _PutHex8 (str[i], false);
494     }
495     else
496     {
497         // Our stack buffer wasn't big enough to contain the entire formatted
498         // string, so lets let vasprintf create the string for us!
499         char *str_ptr = NULL;
500         length = ::vasprintf (&str_ptr, format, args_copy);
501         if (str_ptr)
502         {
503             for (size_t i=0; i<length; ++i)
504                 bytes_written += _PutHex8 (str_ptr[i], false);
505             ::free (str_ptr);
506         }
507     }
508     va_end (args);
509     va_end (args_copy);
510 
511     return bytes_written;
512 }
513 
514 size_t
PutNHex8(size_t n,uint8_t uvalue)515 Stream::PutNHex8 (size_t n, uint8_t uvalue)
516 {
517     size_t bytes_written = 0;
518     for (size_t i=0; i<n; ++i)
519         bytes_written += _PutHex8 (uvalue, m_flags.Test(eAddPrefix));
520     return bytes_written;
521 }
522 
523 size_t
_PutHex8(uint8_t uvalue,bool add_prefix)524 Stream::_PutHex8 (uint8_t uvalue, bool add_prefix)
525 {
526     size_t bytes_written = 0;
527     if (m_flags.Test(eBinary))
528     {
529         bytes_written = Write (&uvalue, 1);
530     }
531     else
532     {
533         if (add_prefix)
534             PutCString("0x");
535 
536         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' };
537         char nibble_chars[2];
538         nibble_chars[0] = g_hex_to_ascii_hex_char[(uvalue >> 4) & 0xf];
539         nibble_chars[1] = g_hex_to_ascii_hex_char[(uvalue >> 0) & 0xf];
540         bytes_written = Write (nibble_chars, sizeof(nibble_chars));
541     }
542     return bytes_written;
543 }
544 
545 size_t
PutHex8(uint8_t uvalue)546 Stream::PutHex8 (uint8_t uvalue)
547 {
548     return _PutHex8 (uvalue, m_flags.Test(eAddPrefix));
549 }
550 
551 size_t
PutHex16(uint16_t uvalue,ByteOrder byte_order)552 Stream::PutHex16 (uint16_t uvalue, ByteOrder byte_order)
553 {
554     if (byte_order == eByteOrderInvalid)
555         byte_order = m_byte_order;
556 
557     bool add_prefix = m_flags.Test(eAddPrefix);
558     size_t bytes_written = 0;
559     if (byte_order == eByteOrderLittle)
560     {
561         for (size_t byte = 0; byte < sizeof(uvalue); ++byte, add_prefix = false)
562             bytes_written += _PutHex8 ((uint8_t)(uvalue >> (byte * 8)), add_prefix);
563     }
564     else
565     {
566         for (size_t byte = sizeof(uvalue)-1; byte < sizeof(uvalue); --byte, add_prefix = false)
567             bytes_written += _PutHex8 ((uint8_t)(uvalue >> (byte * 8)), add_prefix);
568     }
569     return bytes_written;
570 }
571 
572 size_t
PutHex32(uint32_t uvalue,ByteOrder byte_order)573 Stream::PutHex32(uint32_t uvalue, ByteOrder byte_order)
574 {
575     if (byte_order == eByteOrderInvalid)
576         byte_order = m_byte_order;
577 
578     bool add_prefix = m_flags.Test(eAddPrefix);
579     size_t bytes_written = 0;
580     if (byte_order == eByteOrderLittle)
581     {
582         for (size_t byte = 0; byte < sizeof(uvalue); ++byte, add_prefix = false)
583             bytes_written += _PutHex8 ((uint8_t)(uvalue >> (byte * 8)), add_prefix);
584     }
585     else
586     {
587         for (size_t byte = sizeof(uvalue)-1; byte < sizeof(uvalue); --byte, add_prefix = false)
588             bytes_written += _PutHex8 ((uint8_t)(uvalue >> (byte * 8)), add_prefix);
589     }
590     return bytes_written;
591 }
592 
593 size_t
PutHex64(uint64_t uvalue,ByteOrder byte_order)594 Stream::PutHex64(uint64_t uvalue, ByteOrder byte_order)
595 {
596     if (byte_order == eByteOrderInvalid)
597         byte_order = m_byte_order;
598 
599     bool add_prefix = m_flags.Test(eAddPrefix);
600     size_t bytes_written = 0;
601     if (byte_order == eByteOrderLittle)
602     {
603         for (size_t byte = 0; byte < sizeof(uvalue); ++byte, add_prefix = false)
604             bytes_written += _PutHex8 ((uint8_t)(uvalue >> (byte * 8)), add_prefix);
605     }
606     else
607     {
608         for (size_t byte = sizeof(uvalue)-1; byte < sizeof(uvalue); --byte, add_prefix = false)
609             bytes_written += _PutHex8 ((uint8_t)(uvalue >> (byte * 8)), add_prefix);
610     }
611     return bytes_written;
612 }
613 
614 size_t
PutMaxHex64(uint64_t uvalue,size_t byte_size,lldb::ByteOrder byte_order)615 Stream::PutMaxHex64
616 (
617     uint64_t uvalue,
618     size_t byte_size,
619     lldb::ByteOrder byte_order
620 )
621 {
622     switch (byte_size)
623     {
624     case 1: return PutHex8  ((uint8_t)uvalue);
625     case 2: return PutHex16 ((uint16_t)uvalue);
626     case 4: return PutHex32 ((uint32_t)uvalue);
627     case 8: return PutHex64 (uvalue);
628     }
629     return 0;
630 }
631 
632 size_t
PutPointer(void * ptr)633 Stream::PutPointer (void *ptr)
634 {
635     return PutRawBytes (&ptr, sizeof(ptr), lldb::endian::InlHostByteOrder(), lldb::endian::InlHostByteOrder());
636 }
637 
638 size_t
PutFloat(float f,ByteOrder byte_order)639 Stream::PutFloat(float f, ByteOrder byte_order)
640 {
641     if (byte_order == eByteOrderInvalid)
642         byte_order = m_byte_order;
643 
644     return PutRawBytes (&f, sizeof(f), lldb::endian::InlHostByteOrder(), byte_order);
645 }
646 
647 size_t
PutDouble(double d,ByteOrder byte_order)648 Stream::PutDouble(double d, ByteOrder byte_order)
649 {
650     if (byte_order == eByteOrderInvalid)
651         byte_order = m_byte_order;
652 
653     return PutRawBytes (&d, sizeof(d), lldb::endian::InlHostByteOrder(), byte_order);
654 }
655 
656 size_t
PutLongDouble(long double ld,ByteOrder byte_order)657 Stream::PutLongDouble(long double ld, ByteOrder byte_order)
658 {
659     if (byte_order == eByteOrderInvalid)
660         byte_order = m_byte_order;
661 
662     return PutRawBytes (&ld, sizeof(ld), lldb::endian::InlHostByteOrder(), byte_order);
663 }
664 
665 size_t
PutRawBytes(const void * s,size_t src_len,ByteOrder src_byte_order,ByteOrder dst_byte_order)666 Stream::PutRawBytes (const void *s, size_t src_len, ByteOrder src_byte_order, ByteOrder dst_byte_order)
667 {
668     if (src_byte_order == eByteOrderInvalid)
669         src_byte_order = m_byte_order;
670 
671     if (dst_byte_order == eByteOrderInvalid)
672         dst_byte_order = m_byte_order;
673 
674     size_t bytes_written = 0;
675     const uint8_t *src = (const uint8_t *)s;
676     bool binary_was_set = m_flags.Test (eBinary);
677     if (!binary_was_set)
678         m_flags.Set (eBinary);
679     if (src_byte_order == dst_byte_order)
680     {
681         for (size_t i = 0; i < src_len; ++i)
682             bytes_written += _PutHex8 (src[i], false);
683     }
684     else
685     {
686         for (size_t i = src_len-1; i < src_len; --i)
687             bytes_written += _PutHex8 (src[i], false);
688     }
689     if (!binary_was_set)
690         m_flags.Clear (eBinary);
691 
692     return bytes_written;
693 }
694 
695 size_t
PutBytesAsRawHex8(const void * s,size_t src_len,ByteOrder src_byte_order,ByteOrder dst_byte_order)696 Stream::PutBytesAsRawHex8 (const void *s, size_t src_len, ByteOrder src_byte_order, ByteOrder dst_byte_order)
697 {
698     if (src_byte_order == eByteOrderInvalid)
699         src_byte_order = m_byte_order;
700 
701     if (dst_byte_order == eByteOrderInvalid)
702         dst_byte_order = m_byte_order;
703 
704     size_t bytes_written = 0;
705     const uint8_t *src = (const uint8_t *)s;
706     bool binary_is_set = m_flags.Test(eBinary);
707     m_flags.Clear(eBinary);
708     if (src_byte_order == dst_byte_order)
709     {
710         for (size_t i = 0; i < src_len; ++i)
711             bytes_written += _PutHex8 (src[i], false);
712     }
713     else
714     {
715         for (size_t i = src_len-1; i < src_len; --i)
716             bytes_written += _PutHex8 (src[i], false);
717     }
718     if (binary_is_set)
719         m_flags.Set(eBinary);
720 
721     return bytes_written;
722 }
723 
724 size_t
PutCStringAsRawHex8(const char * s)725 Stream::PutCStringAsRawHex8 (const char *s)
726 {
727     size_t bytes_written = 0;
728     bool binary_is_set = m_flags.Test(eBinary);
729     m_flags.Clear(eBinary);
730     do
731     {
732         bytes_written += _PutHex8 (*s, false);
733         ++s;
734     } while (*s);
735     if (binary_is_set)
736         m_flags.Set(eBinary);
737     return bytes_written;
738 }
739 
740 void
UnitTest(Stream * s)741 Stream::UnitTest(Stream *s)
742 {
743     s->PutHex8(0x12);
744 
745     s->PutChar(' ');
746     s->PutHex16(0x3456, lldb::endian::InlHostByteOrder());
747     s->PutChar(' ');
748     s->PutHex16(0x3456, eByteOrderBig);
749     s->PutChar(' ');
750     s->PutHex16(0x3456, eByteOrderLittle);
751 
752     s->PutChar(' ');
753     s->PutHex32(0x789abcde, lldb::endian::InlHostByteOrder());
754     s->PutChar(' ');
755     s->PutHex32(0x789abcde, eByteOrderBig);
756     s->PutChar(' ');
757     s->PutHex32(0x789abcde, eByteOrderLittle);
758 
759     s->PutChar(' ');
760     s->PutHex64(0x1122334455667788ull, lldb::endian::InlHostByteOrder());
761     s->PutChar(' ');
762     s->PutHex64(0x1122334455667788ull, eByteOrderBig);
763     s->PutChar(' ');
764     s->PutHex64(0x1122334455667788ull, eByteOrderLittle);
765 
766     const char *hola = "Hello World!!!";
767     s->PutChar(' ');
768     s->PutCString (hola);
769 
770     s->PutChar(' ');
771     s->Write (hola, 5);
772 
773     s->PutChar(' ');
774     s->PutCStringAsRawHex8 (hola);
775 
776     s->PutChar(' ');
777     s->PutCStringAsRawHex8 ("01234");
778 
779     s->PutChar(' ');
780     s->Printf ("pid=%i", 12733);
781 
782     s->PutChar(' ');
783     s->PrintfAsRawHex8 ("pid=%i", 12733);
784     s->PutChar('\n');
785 }
786 
787