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00cc9309cb3a9e41afe5def8dcb9bf5b089b9a21
kaizen/external/capstone/SStream.c
T
iris 00cc9309cb Squashed 'external/ircolib/' changes from ce3cd726c..de6e324bd 
de6e324bd separate emu thread
10d3daf86 Roms List improvements
95d202f37 Let's make the rom list process on a separate thread so the emulator doesnt take ages to load.
fc306967f Wow the ROM Header was just completely busted. Game list view works now
bad1691ee fuck this shit
2b59e5f46 game list in progress
d26417b83 remappable inputs in progress
ac4af8106 input
e72abc240 update readme
430139dc9 Qt6 frontend
3080d4d45 Fix this small bug too
08cd13b85 Cop0 unused functions do not actually pose a threat (as per manual). They don't do anything, so shall we.
61bb4fb44 make idle loop detection a little more specific with where the load goes
b037de4c3 SAZDFsdff
12e81e73e need to figure out why n64-systemtest loops indefinitely at some address that appears to be valid (i think it's me not invalidating the cache properly)
204f0e13b idle skipping seems to work!
cb8bb634a sdkfjlasdf
58e5c89c1 Fix compilation issue on my machine (no idea)
24fb2898e attempting more serious idle skipping
214719577 Place rsp.Step inside cached interpreter. Gains about 3 more fps
bb97dcc23 mmmmm
920b77d38 wjkhasdfjhkasdf
430ccdab4 it's a start...
4f42a673a Cached interpreter plays Mario 64. Start looking into RSP as well
c9a030787 idle skipping works!
5fbda03ce new idea
366637aba Idle skipping... maybe?
609fa2fb0 Cache instructions implemented but broken lmao. Commented out for now
e140a6d12 - Stop using inheritance for CPU, instead use composition. - Introduce KAIZEN_JIT_ENABLED optional define instead of relying on __aarch64__ and the like. - More cache work
68e613057 prep cache impl
811b4d809 fix clang format
fda755f7d idk
d5024ebbf small MI refactor in preparation of (eventually) implementing the RDRAM interface properly
694b45341 Merge commit '206dcdedf195fb320913584180edb12c7731e396' as 'external/SDL'
206dcdedf Squashed 'external/SDL/' content from commit 4d17b99d0a
4d16e1cb4 need to update sdl
848b19920 Fix compilation error
db61b5299 Merge commit 'e94a94559f28e49678fbcf72199a5258137b0fe9' as 'external/imgui'
e94a94559 Squashed 'external/imgui/' content from commit 02e9b8cac
52edb3757 need to update imgui
c1a705e86 Emulate weird JALR behaviour
4b4c32f4b Fix exception for "unusable COP1" in 4 instructions i missed accidentally (again)
df5828142 Bug putting 0s in the log everywhere
f8b580048 Make isviewer a sink to file
8241e9735 Fix exception for "unusable COP1" in 4 instructions i missed accidentally
b29715f20 small changes
d9a620bc1 make use of my new small utility library
0d1aa938e Add 'external/ircolib/' from commit 'ce3cd726c8df8388d554abf8bb55d55020eb4450'
e64eb40b3 Fuck git

git-subtree-dir: external/ircolib
git-subtree-split: de6e324bde
2026-06-15 11:56:38 +02:00

525 lines
12 KiB
C
Raw Blame History

/* 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;
ss->unsigned_num = false;
}
void SStream_opt_unum(SStream *ss, bool print_unsigned_numbers)
{
assert(ss);
ss->unsigned_num = print_unsigned_numbers;
}
/// 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);
if (ss->unsigned_num) {
printUInt64Bang(ss, val);
return;
}
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);
if (ss->unsigned_num) {
printUInt64(ss, val);
return;
}
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);
if (ss->unsigned_num) {
printUInt32Bang(ss, val);
return;
}
SSTREAM_RETURN_IF_CLOSED(ss);
SStream_concat1(ss, '#');
printInt32(ss, val);
}
void printUInt8(SStream *ss, uint8_t val)
{
assert(ss);
if (val > HEX_THRESHOLD)
SStream_concat(ss, "0x%"PRIx8, val);
else
SStream_concat(ss, "%"PRIu8, val);
}
void printUInt16(SStream *ss, uint16_t val)
{
assert(ss);
if (val > HEX_THRESHOLD)
SStream_concat(ss, "0x%"PRIx16, val);
else
SStream_concat(ss, "%"PRIu16, val);
}
void printInt8(SStream *ss, int8_t val)
{
assert(ss);
if (ss->unsigned_num) {
printUInt8(ss, val);
return;
}
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);
if (ss->unsigned_num) {
printUInt16(ss, val);
return;
}
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 printInt16HexOffset(SStream *ss, int16_t val)
{
assert(ss);
if (ss->unsigned_num) {
printUInt16(ss, val);
return;
}
SSTREAM_RETURN_IF_CLOSED(ss);
if (val >= 0) {
SStream_concat(ss, "+0x%" PRIx16, val);
} else {
if (val == INT16_MIN)
SStream_concat(ss, "-0x%" PRIx16,
(uint16_t)INT16_MAX + 1);
else
SStream_concat(ss, "-0x%" PRIx16, (int16_t)-val);
}
}
void printInt32(SStream *ss, int32_t val)
{
assert(ss);
if (ss->unsigned_num) {
printUInt32(ss, val);
return;
}
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 printInt32HexOffset(SStream *ss, int32_t val)
{
assert(ss);
if (ss->unsigned_num) {
printUInt32(ss, val);
return;
}
SSTREAM_RETURN_IF_CLOSED(ss);
if (val >= 0) {
SStream_concat(ss, "+0x%" PRIx32, val);
} else {
if (val == INT32_MIN)
SStream_concat(ss, "-0x%" PRIx32,
(uint32_t)INT32_MAX + 1);
else
SStream_concat(ss, "-0x%" PRIx32, (int32_t)-val);
}
}
void printInt32Hex(SStream *ss, int32_t val)
{
assert(ss);
SSTREAM_RETURN_IF_CLOSED(ss);
if (val >= 0) {
SStream_concat(ss, "0x%" PRIx32, val);
} else {
if (val == INT32_MIN)
SStream_concat(ss, "-0x%" PRIx32,
(uint32_t)INT32_MAX + 1);
else
SStream_concat(ss, "-0x%" PRIx32, (int32_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;
}
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