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ruby--ruby/io_buffer.c

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/**********************************************************************
io_buffer.c
Copyright (C) 2021 Samuel Grant Dawson Williams
**********************************************************************/
#include "ruby/io.h"
#include "ruby/io/buffer.h"
#include "internal/string.h"
#include "internal/bits.h"
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#include "internal/error.h"
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VALUE rb_cIOBuffer;
size_t RUBY_IO_BUFFER_PAGE_SIZE;
#ifdef _WIN32
#else
#include <unistd.h>
#include <sys/mman.h>
#endif
struct rb_io_buffer {
void *base;
size_t size;
enum rb_io_buffer_flags flags;
#if defined(_WIN32)
HANDLE mapping;
#endif
VALUE source;
};
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static inline void *
io_buffer_map_memory(size_t size)
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{
#if defined(_WIN32)
void * base = VirtualAlloc(0, size, MEM_COMMIT, PAGE_READWRITE);
if (!base) {
rb_sys_fail("io_buffer_map_memory:VirtualAlloc");
}
#else
void * base = mmap(NULL, size, PROT_READ | PROT_WRITE, MAP_ANON | MAP_PRIVATE, -1, 0);
if (base == MAP_FAILED) {
rb_sys_fail("io_buffer_map_memory:mmap");
}
#endif
return base;
}
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static void
io_buffer_map_file(struct rb_io_buffer *data, int descriptor, size_t size, off_t offset, enum rb_io_buffer_flags flags)
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{
#if defined(_WIN32)
HANDLE file = (HANDLE)_get_osfhandle(descriptor);
if (!file) rb_sys_fail("io_buffer_map_descriptor:_get_osfhandle");
DWORD protect = PAGE_READONLY, access = FILE_MAP_READ;
if (flags & RB_IO_BUFFER_IMMUTABLE) {
data->flags |= RB_IO_BUFFER_IMMUTABLE;
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}
else {
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protect = PAGE_READWRITE;
access = FILE_MAP_WRITE;
}
HANDLE mapping = CreateFileMapping(file, NULL, protect, 0, 0, NULL);
if (!mapping) rb_sys_fail("io_buffer_map_descriptor:CreateFileMapping");
if (flags & RB_IO_BUFFER_PRIVATE) {
access |= FILE_MAP_COPY;
data->flags |= RB_IO_BUFFER_PRIVATE;
}
void *base = MapViewOfFile(mapping, access, (DWORD)(offset >> 32), (DWORD)(offset & 0xFFFFFFFF), size);
if (!base) {
CloseHandle(mapping);
rb_sys_fail("io_buffer_map_file:MapViewOfFile");
}
data->mapping = mapping;
#else
int protect = PROT_READ, access = 0;
if (flags & RB_IO_BUFFER_IMMUTABLE) {
data->flags |= RB_IO_BUFFER_IMMUTABLE;
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}
else {
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protect |= PROT_WRITE;
}
if (flags & RB_IO_BUFFER_PRIVATE) {
data->flags |= RB_IO_BUFFER_PRIVATE;
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}
else {
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access |= MAP_SHARED;
}
void *base = mmap(NULL, size, protect, access, descriptor, offset);
if (base == MAP_FAILED) {
rb_sys_fail("io_buffer_map_file:mmap");
}
#endif
data->base = base;
data->size = size;
data->flags |= RB_IO_BUFFER_MAPPED;
}
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static inline void
io_buffer_unmap(void* base, size_t size)
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{
#ifdef _WIN32
VirtualFree(base, 0, MEM_RELEASE);
#else
munmap(base, size);
#endif
}
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static void
io_buffer_experimental(void)
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{
static int warned = 0;
if (warned) return;
warned = 1;
if (rb_warning_category_enabled_p(RB_WARN_CATEGORY_EXPERIMENTAL)) {
rb_category_warn(RB_WARN_CATEGORY_EXPERIMENTAL,
"IO::Buffer is experimental and both the Ruby and C interface may change in the future!"
);
}
}
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static void
io_buffer_initialize(struct rb_io_buffer *data, void *base, size_t size, enum rb_io_buffer_flags flags, VALUE source)
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{
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io_buffer_experimental();
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data->flags = flags;
data->size = size;
if (base) {
data->base = base;
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}
else {
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if (data->flags & RB_IO_BUFFER_INTERNAL) {
data->base = calloc(data->size, 1);
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}
else if (data->flags & RB_IO_BUFFER_MAPPED) {
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data->base = io_buffer_map_memory(data->size);
}
}
if (!data->base) {
rb_raise(rb_eRuntimeError, "Could not allocate buffer!");
}
data->source = source;
}
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static int
io_buffer_free(struct rb_io_buffer *data)
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{
if (data->base) {
if (data->flags & RB_IO_BUFFER_INTERNAL) {
free(data->base);
}
if (data->flags & RB_IO_BUFFER_MAPPED) {
io_buffer_unmap(data->base, data->size);
}
if (RB_TYPE_P(data->source, T_STRING)) {
rb_str_unlocktmp(data->source);
}
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data->base = NULL;
#if defined(_WIN32)
if (data->mapping) {
CloseHandle(data->mapping);
data->mapping = NULL;
}
#endif
return 1;
}
return 0;
}
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void
rb_io_buffer_type_mark(void *_data)
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{
struct rb_io_buffer *data = _data;
rb_gc_mark(data->source);
}
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void
rb_io_buffer_type_free(void *_data)
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{
struct rb_io_buffer *data = _data;
io_buffer_free(data);
free(data);
}
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size_t
rb_io_buffer_type_size(const void *_data)
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{
const struct rb_io_buffer *data = _data;
size_t total = sizeof(struct rb_io_buffer);
if (data->flags) {
total += data->size;
}
return total;
}
static const rb_data_type_t rb_io_buffer_type = {
.wrap_struct_name = "IO::Buffer",
.function = {
.dmark = rb_io_buffer_type_mark,
.dfree = rb_io_buffer_type_free,
.dsize = rb_io_buffer_type_size,
},
.data = NULL,
.flags = RUBY_TYPED_FREE_IMMEDIATELY,
};
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VALUE
rb_io_buffer_type_allocate(VALUE self)
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{
struct rb_io_buffer *data = NULL;
VALUE instance = TypedData_Make_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
data->base = NULL;
data->size = 0;
data->flags = 0;
data->source = Qnil;
return instance;
}
VALUE
rb_io_buffer_type_for(VALUE klass, VALUE string)
{
StringValue(string);
VALUE instance = rb_io_buffer_type_allocate(klass);
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(instance, struct rb_io_buffer, &rb_io_buffer_type, data);
rb_str_locktmp(string);
io_buffer_initialize(data, RSTRING_PTR(string), RSTRING_LEN(string), RB_IO_BUFFER_EXTERNAL, string);
return instance;
}
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VALUE
rb_io_buffer_new(void *base, size_t size, enum rb_io_buffer_flags flags)
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{
VALUE instance = rb_io_buffer_type_allocate(rb_cIOBuffer);
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(instance, struct rb_io_buffer, &rb_io_buffer_type, data);
io_buffer_initialize(data, base, size, 0, Qnil);
return instance;
}
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VALUE
rb_io_buffer_map(VALUE io, size_t size, off_t offset, enum rb_io_buffer_flags flags)
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{
VALUE instance = rb_io_buffer_type_allocate(rb_cIOBuffer);
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(instance, struct rb_io_buffer, &rb_io_buffer_type, data);
int descriptor = rb_io_descriptor(io);
io_buffer_map_file(data, descriptor, size, offset, flags);
return instance;
}
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static VALUE
io_buffer_map(int argc, VALUE *argv, VALUE klass)
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{
if (argc < 1 || argc > 4) {
rb_error_arity(argc, 2, 4);
}
VALUE io = argv[0];
size_t size;
if (argc >= 2) {
size = RB_NUM2SIZE(argv[1]);
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}
else {
off_t file_size = rb_file_size(io);
// Compiler can confirm that we handled file_size < 0 case:
if (file_size < 0) {
rb_raise(rb_eArgError, "Invalid negative file size!");
}
// Here, we assume that file_size is positive:
else if ((uintmax_t)file_size > SIZE_MAX) {
rb_raise(rb_eArgError, "File larger than address space!");
}
else {
// This conversion shoud be safe:
size = (size_t)file_size;
}
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}
off_t offset = 0;
if (argc >= 3) {
offset = NUM2OFFT(argv[2]);
}
enum rb_io_buffer_flags flags = RB_IO_BUFFER_IMMUTABLE;
if (argc >= 4) {
flags = RB_NUM2UINT(argv[3]);
}
return rb_io_buffer_map(io, size, offset, flags);
}
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VALUE
rb_io_buffer_initialize(int argc, VALUE *argv, VALUE self)
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{
if (argc < 1 || argc > 2) {
rb_error_arity(argc, 1, 2);
}
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
size_t size = RB_NUM2SIZE(argv[0]);
enum rb_io_buffer_flags flags = 0;
if (argc >= 2) {
flags = RB_NUM2UINT(argv[1]);
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}
else {
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if (size > RUBY_IO_BUFFER_PAGE_SIZE) {
flags |= RB_IO_BUFFER_MAPPED;
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}
else {
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flags |= RB_IO_BUFFER_INTERNAL;
}
}
io_buffer_initialize(data, NULL, size, flags, Qnil);
return self;
}
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static int
io_buffer_validate_slice(VALUE source, void *base, size_t size)
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{
const void *source_base = NULL;
size_t source_size = 0;
if (RB_TYPE_P(source, T_STRING)) {
RSTRING_GETMEM(source, source_base, source_size);
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}
else {
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rb_io_buffer_get_immutable(source, &source_base, &source_size);
}
// Source is invalid:
if (source_base == NULL) return 0;
// Base is out of range:
if (base < source_base) return 0;
const void *source_end = (char*)source_base + source_size;
const void *end = (char*)base + size;
// End is out of range:
if (end > source_end) return 0;
// It seems okay:
return 1;
}
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static int
io_buffer_validate(struct rb_io_buffer *data)
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{
if (data->source != Qnil) {
// Only slices incur this overhead, unfortunately... better safe than sorry!
return io_buffer_validate_slice(data->source, data->base, data->size);
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}
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else {
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return 1;
}
}
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VALUE
rb_io_buffer_to_s(VALUE self)
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{
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
VALUE result = rb_str_new_cstr("#<");
rb_str_append(result, rb_class_name(CLASS_OF(self)));
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rb_str_catf(result, " %p+%"PRIdSIZE, data->base, data->size);
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if (data->flags & RB_IO_BUFFER_INTERNAL) {
rb_str_cat2(result, " INTERNAL");
}
if (data->flags & RB_IO_BUFFER_MAPPED) {
rb_str_cat2(result, " MAPPED");
}
if (data->flags & RB_IO_BUFFER_LOCKED) {
rb_str_cat2(result, " LOCKED");
}
if (data->flags & RB_IO_BUFFER_IMMUTABLE) {
rb_str_cat2(result, " IMMUTABLE");
}
if (data->source != Qnil) {
rb_str_cat2(result, " SLICE");
}
if (!io_buffer_validate(data)) {
rb_str_cat2(result, " INVALID");
}
return rb_str_cat2(result, ">");
}
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static VALUE
io_buffer_hexdump(VALUE string, size_t width, char *base, size_t size)
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{
char *text = alloca(width+1);
text[width] = '\0';
for (size_t offset = 0; offset < size; offset += width) {
memset(text, '\0', width);
rb_str_catf(string, "\n0x%08zx ", offset);
for (size_t i = 0; i < width; i += 1) {
if (offset+i < size) {
unsigned char value = ((unsigned char*)base)[offset+i];
if (value < 127 && isprint(value)) {
text[i] = (char)value;
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}
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else {
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text[i] = '.';
}
rb_str_catf(string, " %02x", value);
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}
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else {
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rb_str_cat2(string, " ");
}
}
rb_str_catf(string, " %s", text);
}
rb_str_cat2(string, "\n");
return string;
}
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VALUE
rb_io_buffer_inspect(VALUE self)
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{
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
VALUE result = rb_io_buffer_to_s(self);
if (io_buffer_validate(data)) {
io_buffer_hexdump(result, 16, data->base, data->size);
}
return result;
}
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VALUE
rb_io_buffer_size(VALUE self)
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{
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
return SIZET2NUM(data->size);
}
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static VALUE
rb_io_buffer_external_p(VALUE self)
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{
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
return data->flags & (RB_IO_BUFFER_INTERNAL | RB_IO_BUFFER_MAPPED) ? Qfalse : Qtrue;
}
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static VALUE
rb_io_buffer_internal_p(VALUE self)
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{
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
return data->flags & RB_IO_BUFFER_INTERNAL ? Qtrue : Qfalse;
}
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static VALUE
rb_io_buffer_mapped_p(VALUE self)
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{
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
return data->flags & RB_IO_BUFFER_MAPPED ? Qtrue : Qfalse;
}
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static VALUE
rb_io_buffer_locked_p(VALUE self)
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{
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
return data->flags & RB_IO_BUFFER_LOCKED ? Qtrue : Qfalse;
}
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static VALUE
rb_io_buffer_immutable_p(VALUE self)
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{
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
return data->flags & RB_IO_BUFFER_IMMUTABLE ? Qtrue : Qfalse;
}
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VALUE
rb_io_buffer_lock(VALUE self)
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{
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
if (data->flags & RB_IO_BUFFER_LOCKED) {
rb_raise(rb_eRuntimeError, "Buffer already locked!");
}
data->flags |= RB_IO_BUFFER_LOCKED;
return self;
}
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VALUE
rb_io_buffer_unlock(VALUE self)
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{
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
if (!(data->flags & RB_IO_BUFFER_LOCKED)) {
rb_raise(rb_eRuntimeError, "Buffer not locked!");
}
data->flags &= ~RB_IO_BUFFER_LOCKED;
return self;
}
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VALUE
rb_io_buffer_locked(VALUE self)
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{
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
if (data->flags & RB_IO_BUFFER_LOCKED) {
rb_raise(rb_eRuntimeError, "Buffer already locked!");
}
data->flags |= RB_IO_BUFFER_LOCKED;
VALUE result = rb_yield(self);
data->flags &= ~RB_IO_BUFFER_LOCKED;
return result;
}
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VALUE
rb_io_buffer_free(VALUE self)
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{
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
if (data->flags & RB_IO_BUFFER_LOCKED) {
rb_raise(rb_eRuntimeError, "Buffer is locked!");
}
io_buffer_free(data);
return self;
}
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static inline void
rb_io_buffer_validate(struct rb_io_buffer *data, size_t offset, size_t length)
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{
if (offset + length > data->size) {
rb_raise(rb_eRuntimeError, "Specified offset + length exceeds source size!");
}
}
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VALUE
rb_io_buffer_slice(VALUE self, VALUE _offset, VALUE _length)
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{
// TODO fail on negative offets/lengths.
size_t offset = NUM2SIZET(_offset);
size_t length = NUM2SIZET(_length);
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
rb_io_buffer_validate(data, offset, length);
VALUE instance = rb_io_buffer_type_allocate(rb_class_of(self));
struct rb_io_buffer *slice = NULL;
TypedData_Get_Struct(instance, struct rb_io_buffer, &rb_io_buffer_type, slice);
slice->base = (char*)data->base + offset;
slice->size = length;
// The source should be the root buffer:
if (data->source != Qnil)
slice->source = data->source;
else
slice->source = self;
return instance;
}
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VALUE
rb_io_buffer_to_str(int argc, VALUE *argv, VALUE self)
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{
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
size_t offset = 0;
size_t length = data->size;
if (argc == 0) {
// Defaults.
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}
else if (argc == 1) {
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offset = NUM2SIZET(argv[0]);
length = data->size - offset;
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}
else if (argc == 2) {
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offset = NUM2SIZET(argv[0]);
length = NUM2SIZET(argv[1]);
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}
else {
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rb_error_arity(argc, 0, 2);
}
rb_io_buffer_validate(data, offset, length);
return rb_usascii_str_new((char*)data->base + offset, length);
}
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void
rb_io_buffer_get_mutable(VALUE self, void **base, size_t *size)
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{
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
if (data->flags & RB_IO_BUFFER_IMMUTABLE) {
rb_raise(rb_eRuntimeError, "Buffer is immutable!");
}
if (!io_buffer_validate(data)) {
rb_raise(rb_eRuntimeError, "Buffer has been invalidated!");
}
if (data && data->base) {
*base = data->base;
*size = data->size;
return;
}
rb_raise(rb_eRuntimeError, "Buffer is not allocated!");
}
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void
rb_io_buffer_get_immutable(VALUE self, const void **base, size_t *size)
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{
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
if (!io_buffer_validate(data)) {
rb_raise(rb_eRuntimeError, "Buffer has been invalidated!");
}
if (data && data->base) {
*base = data->base;
*size = data->size;
return;
}
rb_raise(rb_eRuntimeError, "Buffer is not allocated!");
}
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size_t
rb_io_buffer_copy(VALUE self, VALUE source, size_t offset)
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{
const void *source_base = NULL;
size_t source_size = 0;
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struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
if (data->flags & RB_IO_BUFFER_IMMUTABLE) {
rb_raise(rb_eRuntimeError, "Buffer is immutable!");
}
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if (RB_TYPE_P(source, T_STRING)) {
RSTRING_GETMEM(source, source_base, source_size);
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}
else {
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rb_io_buffer_get_immutable(source, &source_base, &source_size);
}
rb_io_buffer_validate(data, offset, source_size);
memcpy((char*)data->base + offset, source_base, source_size);
return source_size;
}
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static VALUE
io_buffer_copy(VALUE self, VALUE source, VALUE offset)
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{
size_t size = rb_io_buffer_copy(self, source, NUM2SIZET(offset));
return RB_SIZE2NUM(size);
}
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static int
io_buffer_external_p(enum rb_io_buffer_flags flags)
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{
return !(flags & (RB_IO_BUFFER_INTERNAL | RB_IO_BUFFER_MAPPED));
}
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void
rb_io_buffer_resize(VALUE self, size_t size, size_t preserve)
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{
struct rb_io_buffer *data = NULL, updated;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
if (preserve > data->size) {
rb_raise(rb_eRuntimeError, "Preservation size bigger than buffer size!");
}
if (preserve > size) {
rb_raise(rb_eRuntimeError, "Preservation size bigger than destination size!");
}
if (data->flags & RB_IO_BUFFER_LOCKED) {
rb_raise(rb_eRuntimeError, "Cannot resize locked buffer!");
}
// By virtue of this passing, we don't need to do any further validation on the buffer:
if (io_buffer_external_p(data->flags)) {
rb_raise(rb_eRuntimeError, "Cannot resize external buffer!");
}
io_buffer_initialize(&updated, NULL, size, data->flags, data->source);
if (data->base && preserve > 0) {
memcpy(updated.base, data->base, preserve);
}
io_buffer_free(data);
*data = updated;
}
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static VALUE
rb_io_buffer_compare(VALUE self, VALUE other)
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{
const void *ptr1, *ptr2;
size_t size1, size2;
rb_io_buffer_get_immutable(self, &ptr1, &size1);
rb_io_buffer_get_immutable(other, &ptr2, &size2);
if (size1 < size2) {
return RB_INT2NUM(-1);
}
if (size1 > size2) {
return RB_INT2NUM(1);
}
return RB_INT2NUM(memcmp(ptr1, ptr2, size1));
}
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static VALUE
io_buffer_resize(VALUE self, VALUE size, VALUE preserve)
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{
rb_io_buffer_resize(self, NUM2SIZET(size), NUM2SIZET(preserve));
return self;
}
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static void
io_buffer_validate_type(size_t size, size_t offset)
{
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if (offset > size) {
rb_raise(rb_eRuntimeError, "Type extends beyond end of buffer!");
}
}
// Lower case: little endian.
// Upper case: big endian (network endian).
//
// :U8 | unsigned 8-bit integer.
// :S8 | signed 8-bit integer.
//
// :u16, :U16 | unsigned 16-bit integer.
// :s16, :S16 | signed 16-bit integer.
//
// :u32, :U32 | unsigned 32-bit integer.
// :s32, :S32 | signed 32-bit integer.
//
// :u64, :U64 | unsigned 64-bit integer.
// :s64, :S64 | signed 64-bit integer.
//
// :f32, :F32 | 32-bit floating point number.
// :f64, :F64 | 64-bit floating point number.
#define ruby_swap8(value) value
union swapf32 {
uint32_t integral;
float value;
};
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static float
ruby_swapf32(float value)
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{
union swapf32 swap = {.value = value};
swap.integral = ruby_swap32(swap.integral);
return swap.value;
}
union swapf64 {
uint64_t integral;
double value;
};
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static double
ruby_swapf64(double value)
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{
union swapf64 swap = {.value = value};
swap.integral = ruby_swap64(swap.integral);
return swap.value;
}
#define DECLAIR_TYPE(name, type, endian, wrap, unwrap, swap) \
static ID RB_IO_BUFFER_TYPE_##name; \
\
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static VALUE \
io_buffer_read_##name(const void* base, size_t size, size_t *offset) \
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{ \
io_buffer_validate_type(size, *offset + sizeof(type)); \
type value; \
memcpy(&value, (char*)base + *offset, sizeof(type)); \
if (endian != RB_IO_BUFFER_HOST_ENDIAN) value = swap(value); \
*offset += sizeof(type); \
return wrap(value); \
} \
\
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static void \
io_buffer_write_##name(const void* base, size_t size, size_t *offset, VALUE _value) \
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{ \
io_buffer_validate_type(size, *offset + sizeof(type)); \
type value = unwrap(_value); \
if (endian != RB_IO_BUFFER_HOST_ENDIAN) value = swap(value); \
memcpy((char*)base + *offset, &value, sizeof(type)); \
*offset += sizeof(type); \
}
DECLAIR_TYPE(U8, uint8_t, RB_IO_BUFFER_BIG_ENDIAN, RB_UINT2NUM, RB_NUM2UINT, ruby_swap8)
DECLAIR_TYPE(S8, int8_t, RB_IO_BUFFER_BIG_ENDIAN, RB_INT2NUM, RB_NUM2INT, ruby_swap8)
DECLAIR_TYPE(u16, uint16_t, RB_IO_BUFFER_LITTLE_ENDIAN, RB_UINT2NUM, RB_NUM2UINT, ruby_swap16)
DECLAIR_TYPE(U16, uint16_t, RB_IO_BUFFER_BIG_ENDIAN, RB_UINT2NUM, RB_NUM2UINT, ruby_swap16)
DECLAIR_TYPE(s16, int16_t, RB_IO_BUFFER_LITTLE_ENDIAN, RB_INT2NUM, RB_NUM2INT, ruby_swap16)
DECLAIR_TYPE(S16, int16_t, RB_IO_BUFFER_BIG_ENDIAN, RB_INT2NUM, RB_NUM2INT, ruby_swap16)
DECLAIR_TYPE(u32, uint32_t, RB_IO_BUFFER_LITTLE_ENDIAN, RB_UINT2NUM, RB_NUM2UINT, ruby_swap32)
DECLAIR_TYPE(U32, uint32_t, RB_IO_BUFFER_BIG_ENDIAN, RB_UINT2NUM, RB_NUM2UINT, ruby_swap32)
DECLAIR_TYPE(s32, int32_t, RB_IO_BUFFER_LITTLE_ENDIAN, RB_INT2NUM, RB_NUM2INT, ruby_swap32)
DECLAIR_TYPE(S32, int32_t, RB_IO_BUFFER_BIG_ENDIAN, RB_INT2NUM, RB_NUM2INT, ruby_swap32)
DECLAIR_TYPE(u64, uint64_t, RB_IO_BUFFER_LITTLE_ENDIAN, RB_ULL2NUM, RB_NUM2ULL, ruby_swap64)
DECLAIR_TYPE(U64, uint64_t, RB_IO_BUFFER_BIG_ENDIAN, RB_ULL2NUM, RB_NUM2ULL, ruby_swap64)
DECLAIR_TYPE(s64, int64_t, RB_IO_BUFFER_LITTLE_ENDIAN, RB_LL2NUM, RB_NUM2LL, ruby_swap64)
DECLAIR_TYPE(S64, int64_t, RB_IO_BUFFER_BIG_ENDIAN, RB_LL2NUM, RB_NUM2LL, ruby_swap64)
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DECLAIR_TYPE(f32, float, RB_IO_BUFFER_LITTLE_ENDIAN, DBL2NUM, NUM2DBL, ruby_swapf32)
DECLAIR_TYPE(F32, float, RB_IO_BUFFER_BIG_ENDIAN, DBL2NUM, NUM2DBL, ruby_swapf32)
DECLAIR_TYPE(f64, double, RB_IO_BUFFER_LITTLE_ENDIAN, DBL2NUM, NUM2DBL, ruby_swapf64)
DECLAIR_TYPE(F64, double, RB_IO_BUFFER_BIG_ENDIAN, DBL2NUM, NUM2DBL, ruby_swapf64)
#undef DECLAIR_TYPE
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VALUE
rb_io_buffer_get(const void* base, size_t size, ID type, size_t offset)
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{
#define READ_TYPE(name) if (type == RB_IO_BUFFER_TYPE_##name) return io_buffer_read_##name(base, size, &offset);
READ_TYPE(U8)
READ_TYPE(S8)
READ_TYPE(u16)
READ_TYPE(U16)
READ_TYPE(s16)
READ_TYPE(S16)
READ_TYPE(u32)
READ_TYPE(U32)
READ_TYPE(s32)
READ_TYPE(S32)
READ_TYPE(u64)
READ_TYPE(U64)
READ_TYPE(s64)
READ_TYPE(S64)
READ_TYPE(f32)
READ_TYPE(F32)
READ_TYPE(f64)
READ_TYPE(F64)
#undef READ_TYPE
rb_raise(rb_eArgError, "Invalid type name!");
}
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static VALUE
io_buffer_get(VALUE self, VALUE type, VALUE _offset)
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{
const void *base;
size_t size;
size_t offset = NUM2SIZET(_offset);
rb_io_buffer_get_immutable(self, &base, &size);
return rb_io_buffer_get(base, size, RB_SYM2ID(type), offset);
}
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void
rb_io_buffer_set(const void* base, size_t size, ID type, size_t offset, VALUE value)
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{
#define WRITE_TYPE(name) if (type == RB_IO_BUFFER_TYPE_##name) {io_buffer_write_##name(base, size, &offset, value); return;}
WRITE_TYPE(U8)
WRITE_TYPE(S8)
WRITE_TYPE(u16)
WRITE_TYPE(U16)
WRITE_TYPE(s16)
WRITE_TYPE(S16)
WRITE_TYPE(u32)
WRITE_TYPE(U32)
WRITE_TYPE(s32)
WRITE_TYPE(S32)
WRITE_TYPE(u64)
WRITE_TYPE(U64)
WRITE_TYPE(s64)
WRITE_TYPE(S64)
WRITE_TYPE(f32)
WRITE_TYPE(F32)
WRITE_TYPE(f64)
WRITE_TYPE(F64)
#undef WRITE_TYPE
rb_raise(rb_eArgError, "Invalid type name!");
}
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static VALUE
io_buffer_set(VALUE self, VALUE type, VALUE _offset, VALUE value)
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{
void *base;
size_t size;
size_t offset = NUM2SIZET(_offset);
rb_io_buffer_get_mutable(self, &base, &size);
rb_io_buffer_set(base, size, RB_SYM2ID(type), offset, value);
return SIZET2NUM(offset);
}
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void
rb_io_buffer_clear(VALUE self, uint8_t value, size_t offset, size_t length)
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{
void *base;
size_t size;
rb_io_buffer_get_mutable(self, &base, &size);
if (offset + length > size) {
rb_raise(rb_eRuntimeError, "Offset + length out of bounds!");
}
memset((char*)base + offset, value, length);
}
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static VALUE
io_buffer_clear(int argc, VALUE *argv, VALUE self)
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{
struct rb_io_buffer *data = NULL;
TypedData_Get_Struct(self, struct rb_io_buffer, &rb_io_buffer_type, data);
if (argc > 3) {
rb_error_arity(argc, 0, 3);
}
uint8_t value = 0;
if (argc >= 1) {
value = NUM2UINT(argv[0]);
}
size_t offset = 0;
if (argc >= 2) {
offset = NUM2SIZET(argv[1]);
}
size_t length = data->size;
if (argc >= 3) {
length = NUM2SIZET(argv[2]);
}
rb_io_buffer_clear(self, value, offset, length);
return self;
}
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void
Init_IO_Buffer(void)
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{
rb_cIOBuffer = rb_define_class_under(rb_cIO, "Buffer", rb_cObject);
rb_define_alloc_func(rb_cIOBuffer, rb_io_buffer_type_allocate);
rb_define_singleton_method(rb_cIOBuffer, "for", rb_io_buffer_type_for, 1);
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#ifdef _WIN32
SYSTEM_INFO info;
GetSystemInfo(&info);
RUBY_IO_BUFFER_PAGE_SIZE = info.dwPageSize;
#else /* not WIN32 */
RUBY_IO_BUFFER_PAGE_SIZE = sysconf(_SC_PAGESIZE);
#endif
// Efficient sicing of mapped buffers:
rb_define_const(rb_cIOBuffer, "PAGE_SIZE", SIZET2NUM(RUBY_IO_BUFFER_PAGE_SIZE));
rb_define_singleton_method(rb_cIOBuffer, "map", io_buffer_map, -1);
// General use:
rb_define_method(rb_cIOBuffer, "initialize", rb_io_buffer_initialize, -1);
rb_define_method(rb_cIOBuffer, "inspect", rb_io_buffer_inspect, 0);
rb_define_method(rb_cIOBuffer, "to_s", rb_io_buffer_to_s, 0);
rb_define_method(rb_cIOBuffer, "size", rb_io_buffer_size, 0);
// Flags:
rb_define_const(rb_cIOBuffer, "EXTERNAL", RB_INT2NUM(RB_IO_BUFFER_EXTERNAL));
rb_define_const(rb_cIOBuffer, "INTERNAL", RB_INT2NUM(RB_IO_BUFFER_INTERNAL));
rb_define_const(rb_cIOBuffer, "MAPPED", RB_INT2NUM(RB_IO_BUFFER_MAPPED));
rb_define_const(rb_cIOBuffer, "LOCKED", RB_INT2NUM(RB_IO_BUFFER_LOCKED));
rb_define_const(rb_cIOBuffer, "PRIVATE", RB_INT2NUM(RB_IO_BUFFER_PRIVATE));
rb_define_const(rb_cIOBuffer, "IMMUTABLE", RB_INT2NUM(RB_IO_BUFFER_IMMUTABLE));
// Endian:
rb_define_const(rb_cIOBuffer, "LITTLE_ENDIAN", RB_INT2NUM(RB_IO_BUFFER_LITTLE_ENDIAN));
rb_define_const(rb_cIOBuffer, "BIG_ENDIAN", RB_INT2NUM(RB_IO_BUFFER_BIG_ENDIAN));
rb_define_const(rb_cIOBuffer, "HOST_ENDIAN", RB_INT2NUM(RB_IO_BUFFER_HOST_ENDIAN));
rb_define_const(rb_cIOBuffer, "NETWORK_ENDIAN", RB_INT2NUM(RB_IO_BUFFER_NETWORK_ENDIAN));
rb_define_method(rb_cIOBuffer, "external?", rb_io_buffer_external_p, 0);
rb_define_method(rb_cIOBuffer, "internal?", rb_io_buffer_internal_p, 0);
rb_define_method(rb_cIOBuffer, "mapped?", rb_io_buffer_mapped_p, 0);
rb_define_method(rb_cIOBuffer, "locked?", rb_io_buffer_locked_p, 0);
rb_define_method(rb_cIOBuffer, "immutable?", rb_io_buffer_immutable_p, 0);
// Locking to prevent changes while using pointer:
// rb_define_method(rb_cIOBuffer, "lock", rb_io_buffer_lock, 0);
// rb_define_method(rb_cIOBuffer, "unlock", rb_io_buffer_unlock, 0);
rb_define_method(rb_cIOBuffer, "locked", rb_io_buffer_locked, 0);
// Manipulation:
rb_define_method(rb_cIOBuffer, "slice", rb_io_buffer_slice, 2);
rb_define_method(rb_cIOBuffer, "to_str", rb_io_buffer_to_str, -1);
rb_define_method(rb_cIOBuffer, "copy", io_buffer_copy, 2);
rb_define_method(rb_cIOBuffer, "<=>", rb_io_buffer_compare, 1);
rb_define_method(rb_cIOBuffer, "resize", io_buffer_resize, 2);
rb_define_method(rb_cIOBuffer, "clear", io_buffer_clear, -1);
rb_define_method(rb_cIOBuffer, "free", rb_io_buffer_free, 0);
rb_include_module(rb_cIOBuffer, rb_mComparable);
#define DEFINE_TYPE(name) RB_IO_BUFFER_TYPE_##name = rb_intern_const(#name)
DEFINE_TYPE(U8); DEFINE_TYPE(S8);
DEFINE_TYPE(u16); DEFINE_TYPE(U16); DEFINE_TYPE(s16); DEFINE_TYPE(S16);
DEFINE_TYPE(u32); DEFINE_TYPE(U32); DEFINE_TYPE(s32); DEFINE_TYPE(S32);
DEFINE_TYPE(u64); DEFINE_TYPE(U64); DEFINE_TYPE(s64); DEFINE_TYPE(S64);
DEFINE_TYPE(f32); DEFINE_TYPE(F32); DEFINE_TYPE(f64); DEFINE_TYPE(F64);
#undef DEFINE_TYPE
// Data access:
rb_define_method(rb_cIOBuffer, "get", io_buffer_get, 2);
rb_define_method(rb_cIOBuffer, "set", io_buffer_set, 3);
}