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misc.h
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misc.h
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/*
* Header for miscellaneous helper functions, mostly defined in the
* utils subdirectory.
*/
#ifndef PUTTY_MISC_H
#define PUTTY_MISC_H
#include "defs.h"
#include "puttymem.h"
#include "marshal.h"
#include <stdio.h> /* for FILE * */
#include <stdarg.h> /* for va_list */
#include <stdlib.h> /* for abort */
#include <time.h> /* for struct tm */
#include <limits.h> /* for INT_MAX/MIN */
#include <assert.h> /* for assert (obviously) */
unsigned long parse_blocksize(const char *bs);
char ctrlparse(char *s, char **next);
size_t host_strcspn(const char *s, const char *set);
char *host_strchr(const char *s, int c);
char *host_strrchr(const char *s, int c);
char *host_strduptrim(const char *s);
char *dupstr(const char *s);
char *dupcat_fn(const char *s1, ...);
#define dupcat(...) dupcat_fn(__VA_ARGS__, (const char *)NULL)
char *dupprintf(const char *fmt, ...) PRINTF_LIKE(1, 2);
char *dupvprintf(const char *fmt, va_list ap);
void burnstr(char *string);
/*
* The visible part of a strbuf structure. There's a surrounding
* implementation struct in strbuf.c, which isn't exposed to client
* code.
*/
struct strbuf {
char *s;
unsigned char *u;
size_t len;
BinarySink_IMPLEMENTATION;
};
/* strbuf constructors: strbuf_new_nm and strbuf_new differ in that a
* strbuf constructed using the _nm version will resize itself by
* alloc/copy/smemclr/free instead of realloc. Use that version for
* data sensitive enough that it's worth costing performance to
* avoid copies of it lingering in process memory. */
strbuf *strbuf_new(void);
strbuf *strbuf_new_nm(void);
/* Helpers to allocate a strbuf containing an existing string */
strbuf *strbuf_dup(ptrlen string);
strbuf *strbuf_dup_nm(ptrlen string);
void strbuf_free(strbuf *buf);
void *strbuf_append(strbuf *buf, size_t len);
void strbuf_shrink_to(strbuf *buf, size_t new_len);
void strbuf_shrink_by(strbuf *buf, size_t amount_to_remove);
char *strbuf_to_str(strbuf *buf); /* does free buf, but you must free result */
static inline void strbuf_clear(strbuf *buf) { strbuf_shrink_to(buf, 0); }
bool strbuf_chomp(strbuf *buf, char char_to_remove);
strbuf *strbuf_new_for_agent_query(void);
void strbuf_finalise_agent_query(strbuf *buf);
/* String-to-Unicode converters that auto-allocate the destination and
* work around the rather deficient interface of mb_to_wc. */
wchar_t *dup_mb_to_wc_c(int codepage, int flags, const char *string, int len);
wchar_t *dup_mb_to_wc(int codepage, int flags, const char *string);
char *dup_wc_to_mb_c(int codepage, int flags, const wchar_t *string, int len,
const char *defchr);
char *dup_wc_to_mb(int codepage, int flags, const wchar_t *string,
const char *defchr);
static inline int toint(unsigned u)
{
/*
* Convert an unsigned to an int, without running into the
* undefined behaviour which happens by the strict C standard if
* the value overflows. You'd hope that sensible compilers would
* do the sensible thing in response to a cast, but actually I
* don't trust modern compilers not to do silly things like
* assuming that _obviously_ you wouldn't have caused an overflow
* and so they can elide an 'if (i < 0)' test immediately after
* the cast.
*
* Sensible compilers ought of course to optimise this entire
* function into 'just return the input value', and since it's
* also declared inline, elide it completely in their output.
*/
if (u <= (unsigned)INT_MAX)
return (int)u;
else if (u >= (unsigned)INT_MIN) /* wrap in cast _to_ unsigned is OK */
return INT_MIN + (int)(u - (unsigned)INT_MIN);
else
return INT_MIN; /* fallback; should never occur on binary machines */
}
char *fgetline(FILE *fp);
bool read_file_into(BinarySink *bs, FILE *fp);
char *chomp(char *str);
bool strstartswith(const char *s, const char *t);
bool strendswith(const char *s, const char *t);
void base64_encode_atom(const unsigned char *data, int n, char *out);
int base64_decode_atom(const char *atom, unsigned char *out);
void base64_decode_bs(BinarySink *bs, ptrlen data);
void base64_decode_fp(FILE *fp, ptrlen data);
strbuf *base64_decode_sb(ptrlen data);
void base64_encode_bs(BinarySink *bs, ptrlen data, int cpl);
void base64_encode_fp(FILE *fp, ptrlen data, int cpl);
strbuf *base64_encode_sb(ptrlen data, int cpl);
bool base64_valid(ptrlen data);
void percent_encode_bs(BinarySink *bs, ptrlen data, const char *badchars);
void percent_encode_fp(FILE *fp, ptrlen data, const char *badchars);
strbuf *percent_encode_sb(ptrlen data, const char *badchars);
void percent_decode_bs(BinarySink *bs, ptrlen data);
void percent_decode_fp(FILE *fp, ptrlen data);
strbuf *percent_decode_sb(ptrlen data);
struct bufchain_granule;
struct bufchain_tag {
struct bufchain_granule *head, *tail;
size_t buffersize; /* current amount of buffered data */
void (*queue_idempotent_callback)(IdempotentCallback *ic);
IdempotentCallback *ic;
};
void bufchain_init(bufchain *ch);
void bufchain_clear(bufchain *ch);
size_t bufchain_size(bufchain *ch);
void bufchain_add(bufchain *ch, const void *data, size_t len);
ptrlen bufchain_prefix(bufchain *ch);
void bufchain_consume(bufchain *ch, size_t len);
void bufchain_fetch(bufchain *ch, void *data, size_t len);
void bufchain_fetch_consume(bufchain *ch, void *data, size_t len);
bool bufchain_try_consume(bufchain *ch, size_t len);
bool bufchain_try_fetch(bufchain *ch, void *data, size_t len);
bool bufchain_try_fetch_consume(bufchain *ch, void *data, size_t len);
size_t bufchain_fetch_consume_up_to(bufchain *ch, void *data, size_t len);
void bufchain_set_callback_inner(
bufchain *ch, IdempotentCallback *ic,
void (*queue_idempotent_callback)(IdempotentCallback *ic));
static inline void bufchain_set_callback(bufchain *ch, IdempotentCallback *ic)
{
extern void queue_idempotent_callback(struct IdempotentCallback *ic);
/* Wrapper that puts in the standard queue_idempotent_callback
* function. Lives here rather than in bufchain.c so that
* standalone programs can use the bufchain facility without this
* optional callback feature and not need to provide a stub of
* queue_idempotent_callback. */
bufchain_set_callback_inner(ch, ic, queue_idempotent_callback);
}
bool validate_manual_hostkey(char *key);
struct tm ltime(void);
/*
* Special form of strcmp which can cope with NULL inputs. NULL is
* defined to sort before even the empty string.
*/
int nullstrcmp(const char *a, const char *b);
static inline ptrlen make_ptrlen(const void *ptr, size_t len)
{
ptrlen pl;
pl.ptr = ptr;
pl.len = len;
return pl;
}
static inline const void *ptrlen_end(ptrlen pl)
{
return (const char *)pl.ptr + pl.len;
}
static inline ptrlen make_ptrlen_startend(const void *startv, const void *endv)
{
const char *start = (const char *)startv, *end = (const char *)endv;
assert(end >= start);
ptrlen pl;
pl.ptr = start;
pl.len = end - start;
return pl;
}
static inline ptrlen ptrlen_from_asciz(const char *str)
{
return make_ptrlen(str, strlen(str));
}
static inline ptrlen ptrlen_from_strbuf(strbuf *sb)
{
return make_ptrlen(sb->u, sb->len);
}
bool ptrlen_eq_string(ptrlen pl, const char *str);
bool ptrlen_eq_ptrlen(ptrlen pl1, ptrlen pl2);
int ptrlen_strcmp(ptrlen pl1, ptrlen pl2);
/* ptrlen_startswith and ptrlen_endswith write through their 'tail'
* argument if and only if it is non-NULL and they return true. Hence
* you can write ptrlen_startswith(thing, prefix, &thing), writing
* back to the same ptrlen it read from, to remove a prefix if present
* and say whether it did so. */
bool ptrlen_startswith(ptrlen whole, ptrlen prefix, ptrlen *tail);
bool ptrlen_endswith(ptrlen whole, ptrlen suffix, ptrlen *tail);
ptrlen ptrlen_get_word(ptrlen *input, const char *separators);
bool ptrlen_contains(ptrlen input, const char *characters);
bool ptrlen_contains_only(ptrlen input, const char *characters);
char *mkstr(ptrlen pl);
int string_length_for_printf(size_t);
/* Derive two printf arguments from a ptrlen, suitable for "%.*s" */
#define PTRLEN_PRINTF(pl) \
string_length_for_printf((pl).len), (const char *)(pl).ptr
/* Make a ptrlen out of a compile-time string literal. We try to
* enforce that it _is_ a string literal by token-pasting "" on to it,
* which should provoke a compile error if it's any other kind of
* string. */
#define PTRLEN_LITERAL(stringlit) \
TYPECHECK("" stringlit "", make_ptrlen(stringlit, sizeof(stringlit)-1))
/* Make a ptrlen out of a compile-time string literal in a way that
* allows you to declare the ptrlen itself as a compile-time initialiser. */
#define PTRLEN_DECL_LITERAL(stringlit) \
{ TYPECHECK("" stringlit "", stringlit), sizeof(stringlit)-1 }
/* Make a ptrlen out of a constant byte array. */
#define PTRLEN_FROM_CONST_BYTES(a) make_ptrlen(a, sizeof(a))
void wordwrap(BinarySink *bs, ptrlen input, size_t maxwid);
/* Wipe sensitive data out of memory that's about to be freed. Simpler
* than memset because we don't need the fill char parameter; also
* attempts (by fiddly use of volatile) to inhibit the compiler from
* over-cleverly trying to optimise the memset away because it knows
* the variable is going out of scope. */
void smemclr(void *b, size_t len);
/* Compare two fixed-length chunks of memory for equality, without
* data-dependent control flow (so an attacker with a very accurate
* stopwatch can't try to guess where the first mismatching byte was).
* Returns 0 for mismatch or 1 for equality (unlike memcmp), hinted at
* by the 'eq' in the name. */
unsigned smemeq(const void *av, const void *bv, size_t len);
/* Encode a single UTF-8 character. Assumes that illegal characters
* (such as things in the surrogate range, or > 0x10FFFF) have already
* been removed. */
size_t encode_utf8(void *output, unsigned long ch);
/* Encode a wide-character string into UTF-8. Tolerates surrogates if
* sizeof(wchar_t) == 2, assuming that in that case the wide string is
* encoded in UTF-16. */
char *encode_wide_string_as_utf8(const wchar_t *wstr);
/* Decode a single UTF-8 character. Returns U+FFFD for any of the
* illegal cases. */
unsigned long decode_utf8(const char **utf8);
/* Decode a single UTF-8 character to an output buffer of the
* platform's wchar_t. May write a pair of surrogates if
* sizeof(wchar_t) == 2, assuming that in that case the wide string is
* encoded in UTF-16. Otherwise, writes one character. Returns the
* number written. */
size_t decode_utf8_to_wchar(const char **utf8, wchar_t *out);
/* Write a string out in C string-literal format. */
void write_c_string_literal(FILE *fp, ptrlen str);
char *buildinfo(const char *newline);
/*
* A function you can put at points in the code where execution should
* never reach in the first place. Better than assert(false), or even
* assert(false && "some explanatory message"), because some compilers
* don't interpret assert(false) as a declaration of unreachability,
* so they may still warn about pointless things like some variable
* not being initialised on the unreachable code path.
*
* I follow the assertion with a call to abort() just in case someone
* compiles with -DNDEBUG, and I wrap that abort inside my own
* function labelled NORETURN just in case some unusual kind of system
* header wasn't foresighted enough to label abort() itself that way.
*/
static inline NORETURN void unreachable_internal(void) { abort(); }
#define unreachable(msg) (assert(false && msg), unreachable_internal())
/*
* Debugging functions.
*
* Output goes to debug.log
*
* debug() is like printf().
*
* dmemdump() and dmemdumpl() both do memory dumps. The difference
* is that dmemdumpl() is more suited for when the memory address is
* important (say because you'll be recording pointer values later
* on). dmemdump() is more concise.
*/
#ifdef DEBUG
void debug_printf(const char *fmt, ...) PRINTF_LIKE(1, 2);
void debug_memdump(const void *buf, int len, bool L);
#define debug(...) (debug_printf(__VA_ARGS__))
#define dmemdump(buf,len) (debug_memdump(buf, len, false))
#define dmemdumpl(buf,len) (debug_memdump(buf, len, true))
#else
#define debug(...) ((void)0)
#define dmemdump(buf,len) ((void)0)
#define dmemdumpl(buf,len) ((void)0)
#endif
#ifndef lenof
#define lenof(x) ( (sizeof((x))) / (sizeof(*(x))))
#endif
#ifndef min
#define min(x,y) ( (x) < (y) ? (x) : (y) )
#endif
#ifndef max
#define max(x,y) ( (x) > (y) ? (x) : (y) )
#endif
static inline uint64_t GET_64BIT_LSB_FIRST(const void *vp)
{
const uint8_t *p = (const uint8_t *)vp;
return (((uint64_t)p[0] ) | ((uint64_t)p[1] << 8) |
((uint64_t)p[2] << 16) | ((uint64_t)p[3] << 24) |
((uint64_t)p[4] << 32) | ((uint64_t)p[5] << 40) |
((uint64_t)p[6] << 48) | ((uint64_t)p[7] << 56));
}
static inline void PUT_64BIT_LSB_FIRST(void *vp, uint64_t value)
{
uint8_t *p = (uint8_t *)vp;
p[0] = (uint8_t)(value);
p[1] = (uint8_t)(value >> 8);
p[2] = (uint8_t)(value >> 16);
p[3] = (uint8_t)(value >> 24);
p[4] = (uint8_t)(value >> 32);
p[5] = (uint8_t)(value >> 40);
p[6] = (uint8_t)(value >> 48);
p[7] = (uint8_t)(value >> 56);
}
static inline uint32_t GET_32BIT_LSB_FIRST(const void *vp)
{
const uint8_t *p = (const uint8_t *)vp;
return (((uint32_t)p[0] ) | ((uint32_t)p[1] << 8) |
((uint32_t)p[2] << 16) | ((uint32_t)p[3] << 24));
}
static inline void PUT_32BIT_LSB_FIRST(void *vp, uint32_t value)
{
uint8_t *p = (uint8_t *)vp;
p[0] = (uint8_t)(value);
p[1] = (uint8_t)(value >> 8);
p[2] = (uint8_t)(value >> 16);
p[3] = (uint8_t)(value >> 24);
}
static inline uint16_t GET_16BIT_LSB_FIRST(const void *vp)
{
const uint8_t *p = (const uint8_t *)vp;
return (((uint16_t)p[0] ) | ((uint16_t)p[1] << 8));
}
static inline void PUT_16BIT_LSB_FIRST(void *vp, uint16_t value)
{
uint8_t *p = (uint8_t *)vp;
p[0] = (uint8_t)(value);
p[1] = (uint8_t)(value >> 8);
}
static inline uint64_t GET_64BIT_MSB_FIRST(const void *vp)
{
const uint8_t *p = (const uint8_t *)vp;
return (((uint64_t)p[7] ) | ((uint64_t)p[6] << 8) |
((uint64_t)p[5] << 16) | ((uint64_t)p[4] << 24) |
((uint64_t)p[3] << 32) | ((uint64_t)p[2] << 40) |
((uint64_t)p[1] << 48) | ((uint64_t)p[0] << 56));
}
static inline void PUT_64BIT_MSB_FIRST(void *vp, uint64_t value)
{
uint8_t *p = (uint8_t *)vp;
p[7] = (uint8_t)(value);
p[6] = (uint8_t)(value >> 8);
p[5] = (uint8_t)(value >> 16);
p[4] = (uint8_t)(value >> 24);
p[3] = (uint8_t)(value >> 32);
p[2] = (uint8_t)(value >> 40);
p[1] = (uint8_t)(value >> 48);
p[0] = (uint8_t)(value >> 56);
}
static inline uint32_t GET_32BIT_MSB_FIRST(const void *vp)
{
const uint8_t *p = (const uint8_t *)vp;
return (((uint32_t)p[3] ) | ((uint32_t)p[2] << 8) |
((uint32_t)p[1] << 16) | ((uint32_t)p[0] << 24));
}
static inline void PUT_32BIT_MSB_FIRST(void *vp, uint32_t value)
{
uint8_t *p = (uint8_t *)vp;
p[3] = (uint8_t)(value);
p[2] = (uint8_t)(value >> 8);
p[1] = (uint8_t)(value >> 16);
p[0] = (uint8_t)(value >> 24);
}
static inline uint16_t GET_16BIT_MSB_FIRST(const void *vp)
{
const uint8_t *p = (const uint8_t *)vp;
return (((uint16_t)p[1] ) | ((uint16_t)p[0] << 8));
}
static inline void PUT_16BIT_MSB_FIRST(void *vp, uint16_t value)
{
uint8_t *p = (uint8_t *)vp;
p[1] = (uint8_t)(value);
p[0] = (uint8_t)(value >> 8);
}
/* For use in X11-related applications, an endianness-variable form of
* {GET,PUT}_16BIT which expects 'endian' to be either 'B' or 'l' */
static inline uint16_t GET_16BIT_X11(char endian, const void *p)
{
return endian == 'B' ? GET_16BIT_MSB_FIRST(p) : GET_16BIT_LSB_FIRST(p);
}
static inline void PUT_16BIT_X11(char endian, void *p, uint16_t value)
{
if (endian == 'B')
PUT_16BIT_MSB_FIRST(p, value);
else
PUT_16BIT_LSB_FIRST(p, value);
}
/* Replace NULL with the empty string, permitting an idiom in which we
* get a string (pointer,length) pair that might be NULL,0 and can
* then safely say things like printf("%.*s", length, NULLTOEMPTY(ptr)) */
static inline const char *NULLTOEMPTY(const char *s)
{
return s ? s : "";
}
/* StripCtrlChars, defined in stripctrl.c: an adapter you can put on
* the front of one BinarySink and which functions as one in turn.
* Interprets its input as a stream of multibyte characters in the
* system locale, and removes any that are not either printable
* characters or newlines. */
struct StripCtrlChars {
BinarySink_IMPLEMENTATION;
/* and this is contained in a larger structure */
};
StripCtrlChars *stripctrl_new(
BinarySink *bs_out, bool permit_cr, wchar_t substitution);
StripCtrlChars *stripctrl_new_term_fn(
BinarySink *bs_out, bool permit_cr, wchar_t substitution,
Terminal *term, unsigned long (*translate)(
Terminal *, term_utf8_decode *, unsigned char));
#define stripctrl_new_term(bs, cr, sub, term) \
stripctrl_new_term_fn(bs, cr, sub, term, term_translate)
void stripctrl_retarget(StripCtrlChars *sccpub, BinarySink *new_bs_out);
void stripctrl_reset(StripCtrlChars *sccpub);
void stripctrl_free(StripCtrlChars *sanpub);
void stripctrl_enable_line_limiting(StripCtrlChars *sccpub);
char *stripctrl_string_ptrlen(StripCtrlChars *sccpub, ptrlen str);
static inline char *stripctrl_string(StripCtrlChars *sccpub, const char *str)
{
return stripctrl_string_ptrlen(sccpub, ptrlen_from_asciz(str));
}
/*
* A mechanism for loading a file from disk into a memory buffer where
* it can be picked apart as a BinarySource.
*/
struct LoadedFile {
char *data;
size_t len, max_size;
BinarySource_IMPLEMENTATION;
};
typedef enum {
LF_OK, /* file loaded successfully */
LF_TOO_BIG, /* file didn't fit in buffer */
LF_ERROR, /* error from stdio layer */
} LoadFileStatus;
LoadedFile *lf_new(size_t max_size);
void lf_free(LoadedFile *lf);
LoadFileStatus lf_load_fp(LoadedFile *lf, FILE *fp);
LoadFileStatus lf_load(LoadedFile *lf, const Filename *filename);
static inline ptrlen ptrlen_from_lf(LoadedFile *lf)
{ return make_ptrlen(lf->data, lf->len); }
/* Set the memory block of 'size' bytes at 'out' to the bitwise XOR of
* the two blocks of the same size at 'in1' and 'in2'.
*
* 'out' may point to exactly the same address as one of the inputs,
* but if the input and output blocks overlap in any other way, the
* result of this function is not guaranteed. No memmove-style effort
* is made to handle difficult overlap cases. */
void memxor(uint8_t *out, const uint8_t *in1, const uint8_t *in2, size_t size);
/* Boolean expressions used in OpenSSH certificate configuration */
bool cert_expr_valid(const char *expression,
char **error_msg, ptrlen *error_loc);
bool cert_expr_match_str(const char *expression,
const char *hostname, unsigned port);
/* Build a certificate expression out of hostname wildcards. Required
* to handle legacy configuration from early in development, when
* multiple wildcards were stored separately in config, implicitly
* ORed together. */
CertExprBuilder *cert_expr_builder_new(void);
void cert_expr_builder_free(CertExprBuilder *eb);
void cert_expr_builder_add(CertExprBuilder *eb, const char *wildcard);
char *cert_expr_expression(CertExprBuilder *eb);
#endif