linux/fs/bcachefs/printbuf.h

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/* SPDX-License-Identifier: LGPL-2.1+ */
/* Copyright (C) 2022 Kent Overstreet */
#ifndef _BCACHEFS_PRINTBUF_H
#define _BCACHEFS_PRINTBUF_H
/*
* Printbufs: Simple strings for printing to, with optional heap allocation
*
* This code has provisions for use in userspace, to aid in making other code
* portable between kernelspace and userspace.
*
* Basic example:
* struct printbuf buf = PRINTBUF;
*
* prt_printf(&buf, "foo=");
* foo_to_text(&buf, foo);
* printk("%s", buf.buf);
* printbuf_exit(&buf);
*
* Or
* struct printbuf buf = PRINTBUF_EXTERN(char_buf, char_buf_size)
*
* We can now write pretty printers instead of writing code that dumps
* everything to the kernel log buffer, and then those pretty-printers can be
* used by other code that outputs to kernel log, sysfs, debugfs, etc.
*
* Memory allocation: Outputing to a printbuf may allocate memory. This
* allocation is done with GFP_KERNEL, by default: use the newer
* memalloc_*_(save|restore) functions as needed.
*
* Since no equivalent yet exists for GFP_ATOMIC/GFP_NOWAIT, memory allocations
* will be done with GFP_NOWAIT if printbuf->atomic is nonzero.
*
* It's allowed to grab the output buffer and free it later with kfree() instead
* of using printbuf_exit(), if the user just needs a heap allocated string at
* the end.
*
* Memory allocation failures: We don't return errors directly, because on
* memory allocation failure we usually don't want to bail out and unwind - we
* want to print what we've got, on a best-effort basis. But code that does want
* to return -ENOMEM may check printbuf.allocation_failure.
*
* Indenting, tabstops:
*
* To aid is writing multi-line pretty printers spread across multiple
* functions, printbufs track the current indent level.
*
* printbuf_indent_push() and printbuf_indent_pop() increase and decrease the current indent
* level, respectively.
*
* To use tabstops, set printbuf->tabstops[]; they are in units of spaces, from
* start of line. Once set, prt_tab() will output spaces up to the next tabstop.
* prt_tab_rjust() will also advance the current line of text up to the next
* tabstop, but it does so by shifting text since the previous tabstop up to the
* next tabstop - right justifying it.
*
* Make sure you use prt_newline() instead of \n in the format string for indent
* level and tabstops to work corretly.
*
* Output units: printbuf->units exists to tell pretty-printers how to output
* numbers: a raw value (e.g. directly from a superblock field), as bytes, or as
* human readable bytes. prt_units() obeys it.
*/
#include <linux/kernel.h>
#include <linux/string.h>
enum printbuf_si {
PRINTBUF_UNITS_2, /* use binary powers of 2^10 */
PRINTBUF_UNITS_10, /* use powers of 10^3 (standard SI) */
};
#define PRINTBUF_INLINE_TABSTOPS 6
struct printbuf {
char *buf;
unsigned size;
unsigned pos;
unsigned last_newline;
unsigned last_field;
unsigned indent;
/*
* If nonzero, allocations will be done with GFP_ATOMIC:
*/
u8 atomic;
bool allocation_failure:1;
bool heap_allocated:1;
enum printbuf_si si_units:1;
bool human_readable_units:1;
bool has_indent_or_tabstops:1;
bool suppress_indent_tabstop_handling:1;
u8 nr_tabstops;
/*
* Do not modify directly: use printbuf_tabstop_add(),
* printbuf_tabstop_get()
*/
u8 cur_tabstop;
u8 _tabstops[PRINTBUF_INLINE_TABSTOPS];
};
int bch2_printbuf_make_room(struct printbuf *, unsigned);
__printf(2, 3) void bch2_prt_printf(struct printbuf *out, const char *fmt, ...);
__printf(2, 0) void bch2_prt_vprintf(struct printbuf *out, const char *fmt, va_list);
const char *bch2_printbuf_str(const struct printbuf *);
void bch2_printbuf_exit(struct printbuf *);
void bch2_printbuf_tabstops_reset(struct printbuf *);
void bch2_printbuf_tabstop_pop(struct printbuf *);
int bch2_printbuf_tabstop_push(struct printbuf *, unsigned);
void bch2_printbuf_indent_add(struct printbuf *, unsigned);
void bch2_printbuf_indent_sub(struct printbuf *, unsigned);
void bch2_prt_newline(struct printbuf *);
void bch2_prt_tab(struct printbuf *);
void bch2_prt_tab_rjust(struct printbuf *);
void bch2_prt_bytes_indented(struct printbuf *, const char *, unsigned);
void bch2_prt_human_readable_u64(struct printbuf *, u64);
void bch2_prt_human_readable_s64(struct printbuf *, s64);
void bch2_prt_units_u64(struct printbuf *, u64);
void bch2_prt_units_s64(struct printbuf *, s64);
void bch2_prt_string_option(struct printbuf *, const char * const[], size_t);
void bch2_prt_bitflags(struct printbuf *, const char * const[], u64);
/* Initializer for a heap allocated printbuf: */
#define PRINTBUF ((struct printbuf) { .heap_allocated = true })
/* Initializer a printbuf that points to an external buffer: */
#define PRINTBUF_EXTERN(_buf, _size) \
((struct printbuf) { \
.buf = _buf, \
.size = _size, \
})
/*
* Returns size remaining of output buffer:
*/
static inline unsigned printbuf_remaining_size(struct printbuf *out)
{
return out->pos < out->size ? out->size - out->pos : 0;
}
/*
* Returns number of characters we can print to the output buffer - i.e.
* excluding the terminating nul:
*/
static inline unsigned printbuf_remaining(struct printbuf *out)
{
return out->pos < out->size ? out->size - out->pos - 1 : 0;
}
static inline unsigned printbuf_written(struct printbuf *out)
{
return out->size ? min(out->pos, out->size - 1) : 0;
}
/*
* Returns true if output was truncated:
*/
static inline bool printbuf_overflowed(struct printbuf *out)
{
return out->pos >= out->size;
}
static inline void printbuf_nul_terminate(struct printbuf *out)
{
bch2_printbuf_make_room(out, 1);
if (out->pos < out->size)
out->buf[out->pos] = 0;
else if (out->size)
out->buf[out->size - 1] = 0;
}
/* Doesn't call bch2_printbuf_make_room(), doesn't nul terminate: */
static inline void __prt_char_reserved(struct printbuf *out, char c)
{
if (printbuf_remaining(out))
out->buf[out->pos] = c;
out->pos++;
}
/* Doesn't nul terminate: */
static inline void __prt_char(struct printbuf *out, char c)
{
bch2_printbuf_make_room(out, 1);
__prt_char_reserved(out, c);
}
static inline void prt_char(struct printbuf *out, char c)
{
__prt_char(out, c);
printbuf_nul_terminate(out);
}
static inline void __prt_chars_reserved(struct printbuf *out, char c, unsigned n)
{
unsigned i, can_print = min(n, printbuf_remaining(out));
for (i = 0; i < can_print; i++)
out->buf[out->pos++] = c;
out->pos += n - can_print;
}
static inline void prt_chars(struct printbuf *out, char c, unsigned n)
{
bch2_printbuf_make_room(out, n);
__prt_chars_reserved(out, c, n);
printbuf_nul_terminate(out);
}
static inline void prt_bytes(struct printbuf *out, const void *b, unsigned n)
{
unsigned i, can_print;
bch2_printbuf_make_room(out, n);
can_print = min(n, printbuf_remaining(out));
for (i = 0; i < can_print; i++)
out->buf[out->pos++] = ((char *) b)[i];
out->pos += n - can_print;
printbuf_nul_terminate(out);
}
static inline void prt_str(struct printbuf *out, const char *str)
{
prt_bytes(out, str, strlen(str));
}
static inline void prt_str_indented(struct printbuf *out, const char *str)
{
bch2_prt_bytes_indented(out, str, strlen(str));
}
static inline void prt_hex_byte(struct printbuf *out, u8 byte)
{
bch2_printbuf_make_room(out, 2);
__prt_char_reserved(out, hex_asc_hi(byte));
__prt_char_reserved(out, hex_asc_lo(byte));
printbuf_nul_terminate(out);
}
static inline void prt_hex_byte_upper(struct printbuf *out, u8 byte)
{
bch2_printbuf_make_room(out, 2);
__prt_char_reserved(out, hex_asc_upper_hi(byte));
__prt_char_reserved(out, hex_asc_upper_lo(byte));
printbuf_nul_terminate(out);
}
/**
* printbuf_reset - re-use a printbuf without freeing and re-initializing it:
*/
static inline void printbuf_reset(struct printbuf *buf)
{
buf->pos = 0;
buf->allocation_failure = 0;
buf->indent = 0;
buf->nr_tabstops = 0;
buf->cur_tabstop = 0;
}
/**
* printbuf_atomic_inc - mark as entering an atomic section
*/
static inline void printbuf_atomic_inc(struct printbuf *buf)
{
buf->atomic++;
}
/**
* printbuf_atomic_inc - mark as leaving an atomic section
*/
static inline void printbuf_atomic_dec(struct printbuf *buf)
{
buf->atomic--;
}
#endif /* _BCACHEFS_PRINTBUF_H */