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SStream.c
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SStream.c
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/* Capstone Disassembly Engine */
/* By Nguyen Anh Quynh <aquynh@gmail.com>, 2013-2019 */
#include <stdarg.h>
#if defined(CAPSTONE_HAS_OSXKERNEL)
#include <Availability.h>
#include <libkern/libkern.h>
#include <i386/limits.h>
#else
#include <stdio.h>
#include <limits.h>
#endif
#include <string.h>
#include <capstone/platform.h>
#include "SStream.h"
#include "cs_priv.h"
#include "utils.h"
void SStream_Init(SStream *ss)
{
assert(ss);
ss->index = 0;
memset(ss->buffer, 0, sizeof(ss->buffer));
ss->is_closed = false;
ss->markup_stream = false;
ss->prefixed_by_markup = false;
}
/// Returns the a pointer to the internal string buffer of the stream.
/// For reading only.
const char *SStream_rbuf(const SStream *ss) {
assert(ss);
return ss->buffer;
}
/// Searches in the stream for the first (from the left) occurrence of @elem and replaces
/// it with @repl. It returns the pointer *after* the replaced character
/// or NULL if no character was replaced.
///
/// It will never replace the final \0 byte in the stream buffer.
const char *SStream_replc(const SStream *ss, char elem, char repl) {
assert(ss);
char *found = strchr(ss->buffer, elem);
if (!found || found == ss->buffer + (SSTREAM_BUF_LEN - 1)) {
return NULL;
}
*found = repl;
found++;
return found;
}
/// Searches in the stream for the first (from the left) occurrence of @chr and replaces
/// it with @rstr.
void SStream_replc_str(SStream *ss, char chr, const char *rstr) {
assert(ss && rstr);
char *found = strchr(ss->buffer, chr);
if (!found || found == ss->buffer + (SSTREAM_BUF_LEN - 1)) {
return;
}
size_t post_len = strlen(found + 1);
size_t buf_str_len = strlen(ss->buffer);
size_t repl_len = strlen(rstr);
if (repl_len - 1 + buf_str_len >= SSTREAM_BUF_LEN) {
return;
}
memmove(found + repl_len, found + 1, post_len);
memcpy(found, rstr, repl_len);
ss->index = strlen(ss->buffer);
}
/// Removes the space characters '\t' and ' ' from the beginning of the stream buffer.
void SStream_trimls(SStream *ss) {
assert(ss);
size_t buf_off = 0;
/// Remove leading spaces
while (ss->buffer[buf_off] == ' ' || ss->buffer[buf_off] == '\t') {
buf_off++;
}
if (buf_off > 0) {
memmove(ss->buffer, ss->buffer + buf_off, SSTREAM_BUF_LEN - buf_off);
ss->index -= buf_off;
}
}
/// Extract the mnemonic to @mnem_buf and the operand string into @op_str_buf from the stream buffer.
/// The mnemonic is everything up until the first ' ' or '\t' character.
/// The operand string is everything after the first ' ' or '\t' sequence.
void SStream_extract_mnem_opstr(const SStream *ss, char *mnem_buf, size_t mnem_buf_size, char *op_str_buf, size_t op_str_buf_size) {
assert(ss && mnem_buf && mnem_buf_size > 0 && op_str_buf && op_str_buf_size > 0);
size_t off = 0;
// Copy all non space chars to as mnemonic.
while (ss->buffer[off] && ss->buffer[off] != ' ' && ss->buffer[off] != '\t') {
if (off < mnem_buf_size - 1) {
// Only copy if there is space left.
mnem_buf[off] = ss->buffer[off];
}
off++;
}
if (!ss->buffer[off]) {
return;
}
// Iterate until next non space char.
do {
off++;
} while (ss->buffer[off] && (ss->buffer[off] == ' ' || ss->buffer[off] == '\t'));
if (!ss->buffer[off]) {
return;
}
// Copy all follow up characters as op_str
const char *ss_op_str = ss->buffer + off;
off = 0;
while (ss_op_str[off] && off < op_str_buf_size - 1) {
op_str_buf[off] = ss_op_str[off];
off++;
}
}
/// Empty the stream @ss to given @file (stdin/stderr).
/// @file can be NULL. Then the buffer content is not emitted.
void SStream_Flush(SStream *ss, FILE *file)
{
assert(ss);
if (file) {
fprintf(file, "%s\n", ss->buffer);
}
SStream_Init(ss);
}
/**
* Open the output stream. Every write attempt is accepted again.
*/
void SStream_Open(SStream *ss) {
assert(ss);
ss->is_closed = false;
}
/**
* Closes the output stream. Every write attempt is ignored.
*/
void SStream_Close(SStream *ss) {
assert(ss);
ss->is_closed = true;
}
/**
* Copy the string \p s to the buffer of \p ss and terminate it with a '\\0' byte.
*/
void SStream_concat0(SStream *ss, const char *s)
{
#ifndef CAPSTONE_DIET
assert(ss && s);
SSTREAM_RETURN_IF_CLOSED(ss);
if (s[0] == '\0')
return;
unsigned int len = (unsigned int) strlen(s);
SSTREAM_OVERFLOW_CHECK(ss, len);
memcpy(ss->buffer + ss->index, s, len);
ss->index += len;
ss->buffer[ss->index] = '\0';
if (ss->markup_stream && ss->prefixed_by_markup) {
SSTREAM_OVERFLOW_CHECK(ss, 1);
ss->buffer[ss->index] = '>';
ss->index += 1;
ss->buffer[ss->index] = '\0';
}
#endif
}
/**
* Copy the single char \p c to the buffer of \p ss.
*/
void SStream_concat1(SStream *ss, const char c)
{
#ifndef CAPSTONE_DIET
assert(ss);
SSTREAM_RETURN_IF_CLOSED(ss);
if (c == '\0')
return;
SSTREAM_OVERFLOW_CHECK(ss, 1);
ss->buffer[ss->index] = c;
ss->index++;
ss->buffer[ss->index] = '\0';
if (ss->markup_stream && ss->prefixed_by_markup) {
SSTREAM_OVERFLOW_CHECK(ss, 1);
ss->buffer[ss->index] = '>';
ss->index++;
}
#endif
}
/**
* Copy all strings given to the buffer of \p ss according to formatting \p fmt.
*/
void SStream_concat(SStream *ss, const char *fmt, ...)
{
#ifndef CAPSTONE_DIET
assert(ss && fmt);
SSTREAM_RETURN_IF_CLOSED(ss);
va_list ap;
int ret;
va_start(ap, fmt);
ret = cs_vsnprintf(ss->buffer + ss->index, sizeof(ss->buffer) - (ss->index + 1), fmt, ap);
va_end(ap);
ss->index += ret;
if (ss->markup_stream && ss->prefixed_by_markup) {
SSTREAM_OVERFLOW_CHECK(ss, 1);
ss->buffer[ss->index] = '>';
ss->index += 1;
}
#endif
}
// print number with prefix #
void printInt64Bang(SStream *ss, int64_t val)
{
assert(ss);
SSTREAM_RETURN_IF_CLOSED(ss);
SStream_concat1(ss, '#');
printInt64(ss, val);
}
void printUInt64Bang(SStream *ss, uint64_t val)
{
assert(ss);
SSTREAM_RETURN_IF_CLOSED(ss);
SStream_concat1(ss, '#');
printUInt64(ss, val);
}
// print number
void printInt64(SStream *ss, int64_t val)
{
assert(ss);
SSTREAM_RETURN_IF_CLOSED(ss);
if (val >= 0) {
if (val > HEX_THRESHOLD)
SStream_concat(ss, "0x%"PRIx64, val);
else
SStream_concat(ss, "%"PRIu64, val);
} else {
if (val < -HEX_THRESHOLD) {
if (val == INT64_MIN)
SStream_concat(ss, "-0x%"PRIx64, (uint64_t) INT64_MAX + 1);
else
SStream_concat(ss, "-0x%"PRIx64, (uint64_t)-val);
} else
SStream_concat(ss, "-%"PRIu64, -val);
}
}
void printUInt64(SStream *ss, uint64_t val)
{
assert(ss);
SSTREAM_RETURN_IF_CLOSED(ss);
if (val > HEX_THRESHOLD)
SStream_concat(ss, "0x%"PRIx64, val);
else
SStream_concat(ss, "%"PRIu64, val);
}
// print number in decimal mode
void printInt32BangDec(SStream *ss, int32_t val)
{
assert(ss);
SSTREAM_RETURN_IF_CLOSED(ss);
if (val >= 0)
SStream_concat(ss, "#%" PRIu32, val);
else {
if (val == INT32_MIN)
SStream_concat(ss, "#-%" PRIu32, val);
else
SStream_concat(ss, "#-%" PRIu32, (uint32_t)-val);
}
}
void printInt32Bang(SStream *ss, int32_t val)
{
assert(ss);
SSTREAM_RETURN_IF_CLOSED(ss);
SStream_concat1(ss, '#');
printInt32(ss, val);
}
void printInt8(SStream *ss, int8_t val)
{
assert(ss);
SSTREAM_RETURN_IF_CLOSED(ss);
if (val >= 0) {
if (val > HEX_THRESHOLD)
SStream_concat(ss, "0x%" PRIx8, val);
else
SStream_concat(ss, "%" PRId8, val);
} else {
if (val < -HEX_THRESHOLD) {
if (val == INT8_MIN)
SStream_concat(ss, "-0x%" PRIx8, (uint8_t) INT8_MAX + 1);
else
SStream_concat(ss, "-0x%" PRIx8, (int8_t)-val);
} else
SStream_concat(ss, "-%" PRIu8, -val);
}
}
void printInt16(SStream *ss, int16_t val)
{
assert(ss);
SSTREAM_RETURN_IF_CLOSED(ss);
if (val >= 0) {
if (val > HEX_THRESHOLD)
SStream_concat(ss, "0x%" PRIx16, val);
else
SStream_concat(ss, "%" PRId16, val);
} else {
if (val < -HEX_THRESHOLD) {
if (val == INT16_MIN)
SStream_concat(ss, "-0x%" PRIx16, (uint16_t) INT16_MAX + 1);
else
SStream_concat(ss, "-0x%" PRIx16, (int16_t)-val);
} else
SStream_concat(ss, "-%" PRIu16, -val);
}
}
void printInt32(SStream *ss, int32_t val)
{
assert(ss);
SSTREAM_RETURN_IF_CLOSED(ss);
if (val >= 0) {
if (val > HEX_THRESHOLD)
SStream_concat(ss, "0x%" PRIx32, val);
else
SStream_concat(ss, "%" PRId32, val);
} else {
if (val < -HEX_THRESHOLD) {
if (val == INT32_MIN)
SStream_concat(ss, "-0x%" PRIx32, (uint32_t) INT32_MAX + 1);
else
SStream_concat(ss, "-0x%" PRIx32, (int32_t)-val);
} else {
SStream_concat(ss, "-%" PRIu32, (uint32_t)-val);
}
}
}
void printUInt32Bang(SStream *ss, uint32_t val)
{
assert(ss);
SSTREAM_RETURN_IF_CLOSED(ss);
SStream_concat1(ss, '#');
printUInt32(ss, val);
}
void printUInt32(SStream *ss, uint32_t val)
{
assert(ss);
SSTREAM_RETURN_IF_CLOSED(ss);
if (val > HEX_THRESHOLD)
SStream_concat(ss, "0x%x", val);
else
SStream_concat(ss, "%u", val);
}
void printFloat(SStream *ss, float val)
{
assert(ss);
SSTREAM_RETURN_IF_CLOSED(ss);
SStream_concat(ss, "%e", val);
}
void printFloatBang(SStream *ss, float val)
{
assert(ss);
SSTREAM_RETURN_IF_CLOSED(ss);
SStream_concat(ss, "#%e", val);
}
void printExpr(SStream *ss, uint64_t val)
{
assert(ss);
SSTREAM_RETURN_IF_CLOSED(ss);
SStream_concat(ss, "%"PRIu64, val);
}
SStream *markup_OS(SStream *OS, SStreamMarkup style) {
assert(OS);
if (OS->is_closed || !OS->markup_stream) {
return OS;
}
OS->markup_stream = false; // Disable temporarily.
switch (style) {
default:
SStream_concat0(OS, "<UNKNOWN:");
return OS;
case Markup_Immediate:
SStream_concat0(OS, "<imm:");
break;
case Markup_Register:
SStream_concat0(OS, "<reg:");
break;
case Markup_Target:
SStream_concat0(OS, "<tar:");
break;
case Markup_Memory:
SStream_concat0(OS, "<mem:");
break;
}
OS->markup_stream = true;
OS->prefixed_by_markup = true;
return OS;
}