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|
/* SPDX-License-Identifier: LGPL-2.1-or-later */
#include "efi-string.h"
#if SD_BOOT
# include "proto/simple-text-io.h"
# include "util.h"
#else
# include <stdlib.h>
# include "alloc-util.h"
# define xnew(t, n) ASSERT_SE_PTR(new(t, n))
# define xmalloc(n) ASSERT_SE_PTR(malloc(n))
#endif
/* String functions for both char and char16_t that should behave the same way as their respective
* counterpart in userspace. Where it makes sense, these accept NULL and do something sensible whereas
* userspace does not allow for this (strlen8(NULL) returns 0 like strlen_ptr(NULL) for example). To make it
* easier to tell in code which kind of string they work on, we use 8/16 suffixes. This also makes is easier
* to unit test them. */
#define DEFINE_STRNLEN(type, name) \
size_t name(const type *s, size_t n) { \
if (!s) \
return 0; \
\
size_t len = 0; \
while (len < n && *s) { \
s++; \
len++; \
} \
\
return len; \
}
DEFINE_STRNLEN(char, strnlen8);
DEFINE_STRNLEN(char16_t, strnlen16);
#define TOLOWER(c) \
({ \
typeof(c) _c = (c); \
(_c >= 'A' && _c <= 'Z') ? _c + ('a' - 'A') : _c; \
})
#define DEFINE_STRTOLOWER(type, name) \
void name(type *s) { \
if (!s) \
return; \
for (; *s; s++) \
*s = TOLOWER(*s); \
}
DEFINE_STRTOLOWER(char, strtolower8);
DEFINE_STRTOLOWER(char16_t, strtolower16);
#define DEFINE_STRNCASECMP(type, name, tolower) \
int name(const type *s1, const type *s2, size_t n) { \
if (!s1 || !s2) \
return CMP(s1, s2); \
\
while (n > 0) { \
type c1 = *s1, c2 = *s2; \
if (tolower) { \
c1 = TOLOWER(c1); \
c2 = TOLOWER(c2); \
} \
if (!c1 || c1 != c2) \
return CMP(c1, c2); \
\
s1++; \
s2++; \
n--; \
} \
\
return 0; \
}
DEFINE_STRNCASECMP(char, strncmp8, false);
DEFINE_STRNCASECMP(char16_t, strncmp16, false);
DEFINE_STRNCASECMP(char, strncasecmp8, true);
DEFINE_STRNCASECMP(char16_t, strncasecmp16, true);
#define DEFINE_STRCPY(type, name) \
type *name(type * restrict dest, const type * restrict src) { \
type *ret = ASSERT_PTR(dest); \
\
if (!src) { \
*dest = '\0'; \
return ret; \
} \
\
while (*src) { \
*dest = *src; \
dest++; \
src++; \
} \
\
*dest = '\0'; \
return ret; \
}
DEFINE_STRCPY(char, strcpy8);
DEFINE_STRCPY(char16_t, strcpy16);
#define DEFINE_STRCHR(type, name) \
type *name(const type *s, type c) { \
if (!s) \
return NULL; \
\
while (*s) { \
if (*s == c) \
return (type *) s; \
s++; \
} \
\
return c ? NULL : (type *) s; \
}
DEFINE_STRCHR(char, strchr8);
DEFINE_STRCHR(char16_t, strchr16);
#define DEFINE_STRNDUP(type, name, len_func) \
type *name(const type *s, size_t n) { \
if (!s) \
return NULL; \
\
size_t len = len_func(s, n); \
size_t size = len * sizeof(type); \
\
type *dup = xmalloc(size + sizeof(type)); \
if (size > 0) \
memcpy(dup, s, size); \
dup[len] = '\0'; \
\
return dup; \
}
DEFINE_STRNDUP(char, xstrndup8, strnlen8);
DEFINE_STRNDUP(char16_t, xstrndup16, strnlen16);
static unsigned utf8_to_unichar(const char *utf8, size_t n, char32_t *c) {
char32_t unichar;
unsigned len;
assert(utf8);
assert(c);
if (!(utf8[0] & 0x80)) {
*c = utf8[0];
return 1;
} else if ((utf8[0] & 0xe0) == 0xc0) {
len = 2;
unichar = utf8[0] & 0x1f;
} else if ((utf8[0] & 0xf0) == 0xe0) {
len = 3;
unichar = utf8[0] & 0x0f;
} else if ((utf8[0] & 0xf8) == 0xf0) {
len = 4;
unichar = utf8[0] & 0x07;
} else if ((utf8[0] & 0xfc) == 0xf8) {
len = 5;
unichar = utf8[0] & 0x03;
} else if ((utf8[0] & 0xfe) == 0xfc) {
len = 6;
unichar = utf8[0] & 0x01;
} else {
*c = UINT32_MAX;
return 1;
}
if (len > n) {
*c = UINT32_MAX;
return len;
}
for (unsigned i = 1; i < len; i++) {
if ((utf8[i] & 0xc0) != 0x80) {
*c = UINT32_MAX;
return len;
}
unichar <<= 6;
unichar |= utf8[i] & 0x3f;
}
*c = unichar;
return len;
}
/* Convert UTF-8 to UCS-2, skipping any invalid or short byte sequences. */
char16_t *xstrn8_to_16(const char *str8, size_t n) {
if (!str8 || n == 0)
return NULL;
size_t i = 0;
char16_t *str16 = xnew(char16_t, n + 1);
while (n > 0 && *str8 != '\0') {
char32_t unichar;
size_t utf8len = utf8_to_unichar(str8, n, &unichar);
str8 += utf8len;
n = LESS_BY(n, utf8len);
switch (unichar) {
case 0 ... 0xd7ffU:
case 0xe000U ... 0xffffU:
str16[i++] = unichar;
break;
}
}
str16[i] = '\0';
return str16;
}
char *startswith8(const char *s, const char *prefix) {
size_t l;
assert(prefix);
if (!s)
return NULL;
l = strlen8(prefix);
if (!strneq8(s, prefix, l))
return NULL;
return (char*) s + l;
}
static bool efi_fnmatch_prefix(const char16_t *p, const char16_t *h, const char16_t **ret_p, const char16_t **ret_h) {
assert(p);
assert(h);
assert(ret_p);
assert(ret_h);
for (;; p++, h++)
switch (*p) {
case '\0':
/* End of pattern. Check that haystack is now empty. */
return *h == '\0';
case '\\':
p++;
if (*p == '\0' || *p != *h)
/* Trailing escape or no match. */
return false;
break;
case '?':
if (*h == '\0')
/* Early end of haystack. */
return false;
break;
case '*':
/* Point ret_p at the remainder of the pattern. */
while (*p == '*')
p++;
*ret_p = p;
*ret_h = h;
return true;
case '[':
if (*h == '\0')
/* Early end of haystack. */
return false;
bool first = true, can_range = true, match = false;
for (;; first = false) {
p++;
if (*p == '\0')
return false;
if (*p == '\\') {
p++;
if (*p == '\0')
return false;
if (*p == *h)
match = true;
can_range = true;
continue;
}
/* End of set unless it's the first char. */
if (*p == ']' && !first)
break;
/* Range pattern if '-' is not first or last in set. */
if (*p == '-' && can_range && !first && *(p + 1) != ']') {
char16_t low = *(p - 1);
p++;
if (*p == '\\')
p++;
if (*p == '\0')
return false;
if (low <= *h && *h <= *p)
match = true;
/* Ranges cannot be chained: [a-c-f] == [-abcf] */
can_range = false;
continue;
}
if (*p == *h)
match = true;
can_range = true;
}
if (!match)
return false;
break;
default:
if (*p != *h)
/* Single char mismatch. */
return false;
}
}
/* Patterns are fnmatch-compatible (with reduced feature support). */
bool efi_fnmatch(const char16_t *pattern, const char16_t *haystack) {
/* Patterns can be considered as simple patterns (without '*') concatenated by '*'. By doing so we
* simply have to make sure the very first simple pattern matches the start of haystack. Then we just
* look for the remaining simple patterns *somewhere* within the haystack (in order) as any extra
* characters in between would be matches by the '*'. We then only have to ensure that the very last
* simple pattern matches at the actual end of the haystack.
*
* This means we do not need to use backtracking which could have catastrophic runtimes with the
* right input data. */
for (bool first = true;;) {
const char16_t *pattern_tail = NULL, *haystack_tail = NULL;
bool match = efi_fnmatch_prefix(pattern, haystack, &pattern_tail, &haystack_tail);
if (first) {
if (!match)
/* Initial simple pattern must match. */
return false;
if (!pattern_tail)
/* No '*' was in pattern, we can return early. */
return true;
first = false;
}
if (pattern_tail) {
assert(match);
pattern = pattern_tail;
haystack = haystack_tail;
} else {
/* If we have a match this must be at the end of the haystack. Note that
* efi_fnmatch_prefix compares the NUL-bytes at the end, so we cannot match the end
* of pattern in the middle of haystack). */
if (match || *haystack == '\0')
return match;
/* Match one character using '*'. */
haystack++;
}
}
}
#define DEFINE_PARSE_NUMBER(type, name) \
bool name(const type *s, uint64_t *ret_u, const type **ret_tail) { \
assert(ret_u); \
\
if (!s) \
return false; \
\
/* Need at least one digit. */ \
if (*s < '0' || *s > '9') \
return false; \
\
uint64_t u = 0; \
while (*s >= '0' && *s <= '9') { \
if (__builtin_mul_overflow(u, 10, &u)) \
return false; \
if (__builtin_add_overflow(u, *s - '0', &u)) \
return false; \
s++; \
} \
\
if (!ret_tail && *s != '\0') \
return false; \
\
*ret_u = u; \
if (ret_tail) \
*ret_tail = s; \
return true; \
}
DEFINE_PARSE_NUMBER(char, parse_number8);
DEFINE_PARSE_NUMBER(char16_t, parse_number16);
static const char * const warn_table[] = {
[EFI_SUCCESS] = "Success",
[EFI_WARN_UNKNOWN_GLYPH] = "Unknown glyph",
[EFI_WARN_DELETE_FAILURE] = "Delete failure",
[EFI_WARN_WRITE_FAILURE] = "Write failure",
[EFI_WARN_BUFFER_TOO_SMALL] = "Buffer too small",
[EFI_WARN_STALE_DATA] = "Stale data",
[EFI_WARN_FILE_SYSTEM] = "File system",
[EFI_WARN_RESET_REQUIRED] = "Reset required",
};
/* Errors have MSB set, remove it to keep the table compact. */
#define NOERR(err) ((err) & ~EFI_ERROR_MASK)
static const char * const err_table[] = {
[NOERR(EFI_ERROR_MASK)] = "Error",
[NOERR(EFI_LOAD_ERROR)] = "Load error",
[NOERR(EFI_INVALID_PARAMETER)] = "Invalid parameter",
[NOERR(EFI_UNSUPPORTED)] = "Unsupported",
[NOERR(EFI_BAD_BUFFER_SIZE)] = "Bad buffer size",
[NOERR(EFI_BUFFER_TOO_SMALL)] = "Buffer too small",
[NOERR(EFI_NOT_READY)] = "Not ready",
[NOERR(EFI_DEVICE_ERROR)] = "Device error",
[NOERR(EFI_WRITE_PROTECTED)] = "Write protected",
[NOERR(EFI_OUT_OF_RESOURCES)] = "Out of resources",
[NOERR(EFI_VOLUME_CORRUPTED)] = "Volume corrupt",
[NOERR(EFI_VOLUME_FULL)] = "Volume full",
[NOERR(EFI_NO_MEDIA)] = "No media",
[NOERR(EFI_MEDIA_CHANGED)] = "Media changed",
[NOERR(EFI_NOT_FOUND)] = "Not found",
[NOERR(EFI_ACCESS_DENIED)] = "Access denied",
[NOERR(EFI_NO_RESPONSE)] = "No response",
[NOERR(EFI_NO_MAPPING)] = "No mapping",
[NOERR(EFI_TIMEOUT)] = "Time out",
[NOERR(EFI_NOT_STARTED)] = "Not started",
[NOERR(EFI_ALREADY_STARTED)] = "Already started",
[NOERR(EFI_ABORTED)] = "Aborted",
[NOERR(EFI_ICMP_ERROR)] = "ICMP error",
[NOERR(EFI_TFTP_ERROR)] = "TFTP error",
[NOERR(EFI_PROTOCOL_ERROR)] = "Protocol error",
[NOERR(EFI_INCOMPATIBLE_VERSION)] = "Incompatible version",
[NOERR(EFI_SECURITY_VIOLATION)] = "Security violation",
[NOERR(EFI_CRC_ERROR)] = "CRC error",
[NOERR(EFI_END_OF_MEDIA)] = "End of media",
[NOERR(EFI_ERROR_RESERVED_29)] = "Reserved (29)",
[NOERR(EFI_ERROR_RESERVED_30)] = "Reserved (30)",
[NOERR(EFI_END_OF_FILE)] = "End of file",
[NOERR(EFI_INVALID_LANGUAGE)] = "Invalid language",
[NOERR(EFI_COMPROMISED_DATA)] = "Compromised data",
[NOERR(EFI_IP_ADDRESS_CONFLICT)] = "IP address conflict",
[NOERR(EFI_HTTP_ERROR)] = "HTTP error",
};
static const char *status_to_string(EFI_STATUS status) {
if (status <= ELEMENTSOF(warn_table) - 1)
return warn_table[status];
if (status >= EFI_ERROR_MASK && status <= ((ELEMENTSOF(err_table) - 1) | EFI_ERROR_MASK))
return err_table[NOERR(status)];
return NULL;
}
typedef struct {
size_t padded_len; /* Field width in printf. */
size_t len; /* Precision in printf. */
bool pad_zero;
bool align_left;
bool alternative_form;
bool long_arg;
bool longlong_arg;
bool have_field_width;
const char *str;
const wchar_t *wstr;
/* For numbers. */
bool is_signed;
bool lowercase;
int8_t base;
char sign_pad; /* For + and (space) flags. */
} SpecifierContext;
typedef struct {
char16_t stack_buf[128]; /* We use stack_buf first to avoid allocations in most cases. */
char16_t *dyn_buf; /* Allocated buf or NULL if stack_buf is used. */
char16_t *buf; /* Points to the current active buf. */
size_t n_buf; /* Len of buf (in char16_t's, not bytes!). */
size_t n; /* Used len of buf (in char16_t's). This is always <n_buf. */
EFI_STATUS status;
const char *format;
va_list ap;
} FormatContext;
static void grow_buf(FormatContext *ctx, size_t need) {
assert(ctx);
assert_se(!__builtin_add_overflow(ctx->n, need, &need));
if (need < ctx->n_buf)
return;
/* Greedily allocate if we can. */
if (__builtin_mul_overflow(need, 2, &ctx->n_buf))
ctx->n_buf = need;
/* We cannot use realloc here as ctx->buf may be ctx->stack_buf, which we cannot free. */
char16_t *new_buf = xnew(char16_t, ctx->n_buf);
memcpy(new_buf, ctx->buf, ctx->n * sizeof(*ctx->buf));
free(ctx->dyn_buf);
ctx->buf = ctx->dyn_buf = new_buf;
}
static void push_padding(FormatContext *ctx, char pad, size_t len) {
assert(ctx);
while (len > 0) {
len--;
ctx->buf[ctx->n++] = pad;
}
}
static bool push_str(FormatContext *ctx, SpecifierContext *sp) {
assert(ctx);
assert(sp);
sp->padded_len = LESS_BY(sp->padded_len, sp->len);
grow_buf(ctx, sp->padded_len + sp->len);
if (!sp->align_left)
push_padding(ctx, ' ', sp->padded_len);
/* In userspace unit tests we cannot just memcpy() the wide string. */
if (sp->wstr && sizeof(wchar_t) == sizeof(char16_t)) {
memcpy(ctx->buf + ctx->n, sp->wstr, sp->len * sizeof(*sp->wstr));
ctx->n += sp->len;
} else
for (size_t i = 0; i < sp->len; i++)
ctx->buf[ctx->n++] = sp->str ? sp->str[i] : sp->wstr[i];
if (sp->align_left)
push_padding(ctx, ' ', sp->padded_len);
assert(ctx->n < ctx->n_buf);
return true;
}
static bool push_num(FormatContext *ctx, SpecifierContext *sp, uint64_t u) {
const char *digits = sp->lowercase ? "0123456789abcdef" : "0123456789ABCDEF";
char16_t tmp[32];
size_t n = 0;
assert(ctx);
assert(sp);
assert(IN_SET(sp->base, 10, 16));
/* "%.0u" prints nothing if value is 0. */
if (u == 0 && sp->len == 0)
return true;
if (sp->is_signed && (int64_t) u < 0) {
/* We cannot just do "u = -(int64_t)u" here because -INT64_MIN overflows. */
uint64_t rem = -((int64_t) u % sp->base);
u = (int64_t) u / -sp->base;
tmp[n++] = digits[rem];
sp->sign_pad = '-';
}
while (u > 0 || n == 0) {
uint64_t rem = u % sp->base;
u /= sp->base;
tmp[n++] = digits[rem];
}
/* Note that numbers never get truncated! */
size_t prefix = (sp->sign_pad != 0 ? 1 : 0) + (sp->alternative_form ? 2 : 0);
size_t number_len = prefix + MAX(n, sp->len);
grow_buf(ctx, MAX(sp->padded_len, number_len));
size_t padding = 0;
if (sp->pad_zero)
/* Leading zeroes go after the sign or 0x prefix. */
number_len = MAX(number_len, sp->padded_len);
else
padding = LESS_BY(sp->padded_len, number_len);
if (!sp->align_left)
push_padding(ctx, ' ', padding);
if (sp->sign_pad != 0)
ctx->buf[ctx->n++] = sp->sign_pad;
if (sp->alternative_form) {
ctx->buf[ctx->n++] = '0';
ctx->buf[ctx->n++] = sp->lowercase ? 'x' : 'X';
}
push_padding(ctx, '0', LESS_BY(number_len, n + prefix));
while (n > 0)
ctx->buf[ctx->n++] = tmp[--n];
if (sp->align_left)
push_padding(ctx, ' ', padding);
assert(ctx->n < ctx->n_buf);
return true;
}
/* This helps unit testing. */
#if SD_BOOT
# define NULLSTR "(null)"
# define wcsnlen strnlen16
#else
# define NULLSTR "(nil)"
#endif
static bool handle_format_specifier(FormatContext *ctx, SpecifierContext *sp) {
/* Parses one item from the format specifier in ctx and put the info into sp. If we are done with
* this specifier returns true, otherwise this function should be called again. */
/* This implementation assumes 32bit ints. Also note that all types smaller than int are promoted to
* int in vararg functions, which is why we fetch only ints for any such types. The compiler would
* otherwise warn about fetching smaller types. */
assert_cc(sizeof(int) == 4);
assert_cc(sizeof(wchar_t) <= sizeof(int));
assert_cc(sizeof(intmax_t) <= sizeof(long long));
assert(ctx);
assert(sp);
switch (*ctx->format) {
case '#':
sp->alternative_form = true;
return false;
case '.':
sp->have_field_width = true;
return false;
case '-':
sp->align_left = true;
return false;
case '+':
case ' ':
sp->sign_pad = *ctx->format;
return false;
case '0':
if (!sp->have_field_width) {
sp->pad_zero = true;
return false;
}
/* If field width has already been provided then 0 is part of precision (%.0s). */
_fallthrough_;
case '*':
case '1' ... '9': {
int64_t i;
if (*ctx->format == '*')
i = va_arg(ctx->ap, int);
else {
uint64_t u;
if (!parse_number8(ctx->format, &u, &ctx->format) || u > INT_MAX)
assert_not_reached();
ctx->format--; /* Point it back to the last digit. */
i = u;
}
if (sp->have_field_width) {
/* Negative precision is ignored. */
if (i >= 0)
sp->len = (size_t) i;
} else {
/* Negative field width is treated as positive field width with '-' flag. */
if (i < 0) {
i *= -1;
sp->align_left = true;
}
sp->padded_len = i;
}
return false;
}
case 'h':
if (*(ctx->format + 1) == 'h')
ctx->format++;
/* char/short gets promoted to int, nothing to do here. */
return false;
case 'l':
if (*(ctx->format + 1) == 'l') {
ctx->format++;
sp->longlong_arg = true;
} else
sp->long_arg = true;
return false;
case 'z':
sp->long_arg = sizeof(size_t) == sizeof(long);
sp->longlong_arg = !sp->long_arg && sizeof(size_t) == sizeof(long long);
return false;
case 'j':
sp->long_arg = sizeof(intmax_t) == sizeof(long);
sp->longlong_arg = !sp->long_arg && sizeof(intmax_t) == sizeof(long long);
return false;
case 't':
sp->long_arg = sizeof(ptrdiff_t) == sizeof(long);
sp->longlong_arg = !sp->long_arg && sizeof(ptrdiff_t) == sizeof(long long);
return false;
case '%':
sp->str = "%";
sp->len = 1;
return push_str(ctx, sp);
case 'c':
sp->wstr = &(wchar_t){ va_arg(ctx->ap, int) };
sp->len = 1;
return push_str(ctx, sp);
case 's':
if (sp->long_arg) {
sp->wstr = va_arg(ctx->ap, const wchar_t *) ?: L"(null)";
sp->len = wcsnlen(sp->wstr, sp->len);
} else {
sp->str = va_arg(ctx->ap, const char *) ?: "(null)";
sp->len = strnlen8(sp->str, sp->len);
}
return push_str(ctx, sp);
case 'd':
case 'i':
case 'u':
case 'x':
case 'X':
sp->lowercase = *ctx->format == 'x';
sp->is_signed = IN_SET(*ctx->format, 'd', 'i');
sp->base = IN_SET(*ctx->format, 'x', 'X') ? 16 : 10;
if (sp->len == SIZE_MAX)
sp->len = 1;
uint64_t v;
if (sp->longlong_arg)
v = sp->is_signed ? (uint64_t) va_arg(ctx->ap, long long) :
va_arg(ctx->ap, unsigned long long);
else if (sp->long_arg)
v = sp->is_signed ? (uint64_t) va_arg(ctx->ap, long) : va_arg(ctx->ap, unsigned long);
else
v = sp->is_signed ? (uint64_t) va_arg(ctx->ap, int) : va_arg(ctx->ap, unsigned);
return push_num(ctx, sp, v);
case 'p': {
const void *ptr = va_arg(ctx->ap, const void *);
if (!ptr) {
sp->str = NULLSTR;
sp->len = STRLEN(NULLSTR);
return push_str(ctx, sp);
}
sp->base = 16;
sp->lowercase = true;
sp->alternative_form = true;
sp->len = 0; /* Precision is ignored for %p. */
return push_num(ctx, sp, (uintptr_t) ptr);
}
case 'm': {
sp->str = status_to_string(ctx->status);
if (sp->str) {
sp->len = strlen8(sp->str);
return push_str(ctx, sp);
}
sp->base = 16;
sp->lowercase = true;
sp->alternative_form = true;
sp->len = 0;
return push_num(ctx, sp, ctx->status);
}
default:
assert_not_reached();
}
}
/* printf_internal is largely compatible to userspace vasprintf. Any features omitted should trigger asserts.
*
* Supported:
* - Flags: #, 0, +, -, space
* - Lengths: h, hh, l, ll, z, j, t
* - Specifiers: %, c, s, u, i, d, x, X, p, m
* - Precision and width (inline or as int arg using *)
*
* Notable differences:
* - Passing NULL to %s is permitted and will print "(null)"
* - %p will also use "(null)"
* - The provided EFI_STATUS is used for %m instead of errno
* - "\n" is translated to "\r\n" */
_printf_(2, 0) static char16_t *printf_internal(EFI_STATUS status, const char *format, va_list ap, bool ret) {
assert(format);
FormatContext ctx = {
.buf = ctx.stack_buf,
.n_buf = ELEMENTSOF(ctx.stack_buf),
.format = format,
.status = status,
};
/* We cannot put this into the struct without making a copy. */
va_copy(ctx.ap, ap);
while (*ctx.format != '\0') {
SpecifierContext sp = { .len = SIZE_MAX };
switch (*ctx.format) {
case '%':
ctx.format++;
while (!handle_format_specifier(&ctx, &sp))
ctx.format++;
ctx.format++;
break;
case '\n':
ctx.format++;
sp.str = "\r\n";
sp.len = 2;
push_str(&ctx, &sp);
break;
default:
sp.str = ctx.format++;
while (!IN_SET(*ctx.format, '%', '\n', '\0'))
ctx.format++;
sp.len = ctx.format - sp.str;
push_str(&ctx, &sp);
}
}
va_end(ctx.ap);
assert(ctx.n < ctx.n_buf);
ctx.buf[ctx.n++] = '\0';
if (ret) {
if (ctx.dyn_buf)
return TAKE_PTR(ctx.dyn_buf);
char16_t *ret_buf = xnew(char16_t, ctx.n);
memcpy(ret_buf, ctx.buf, ctx.n * sizeof(*ctx.buf));
return ret_buf;
}
#if SD_BOOT
ST->ConOut->OutputString(ST->ConOut, ctx.buf);
#endif
return mfree(ctx.dyn_buf);
}
void printf_status(EFI_STATUS status, const char *format, ...) {
va_list ap;
va_start(ap, format);
printf_internal(status, format, ap, false);
va_end(ap);
}
void vprintf_status(EFI_STATUS status, const char *format, va_list ap) {
printf_internal(status, format, ap, false);
}
char16_t *xasprintf_status(EFI_STATUS status, const char *format, ...) {
va_list ap;
va_start(ap, format);
char16_t *ret = printf_internal(status, format, ap, true);
va_end(ap);
return ret;
}
char16_t *xvasprintf_status(EFI_STATUS status, const char *format, va_list ap) {
return printf_internal(status, format, ap, true);
}
#if SD_BOOT
/* To provide the actual implementation for these we need to remove the redirection to the builtins. */
# undef memcmp
# undef memcpy
# undef memset
#else
/* And for userspace unit testing we need to give them an efi_ prefix. */
# define memcmp efi_memcmp
# define memcpy efi_memcpy
# define memset efi_memset
#endif
_used_ int memcmp(const void *p1, const void *p2, size_t n) {
const uint8_t *up1 = p1, *up2 = p2;
int r;
if (!p1 || !p2)
return CMP(p1, p2);
while (n > 0) {
r = CMP(*up1, *up2);
if (r != 0)
return r;
up1++;
up2++;
n--;
}
return 0;
}
_used_ void *memcpy(void * restrict dest, const void * restrict src, size_t n) {
if (!dest || !src || n == 0)
return dest;
#if SD_BOOT
/* The firmware-provided memcpy is likely optimized, so use that. The function is guaranteed to be
* available by the UEFI spec. We still make it depend on the boot services pointer being set just in
* case the compiler emits a call before it is available. */
if (_likely_(BS)) {
BS->CopyMem(dest, (void *) src, n);
return dest;
}
#endif
uint8_t *d = dest;
const uint8_t *s = src;
while (n > 0) {
*d = *s;
d++;
s++;
n--;
}
return dest;
}
_used_ void *memset(void *p, int c, size_t n) {
if (!p || n == 0)
return p;
#if SD_BOOT
/* See comment in efi_memcpy. Note that the signature has c and n swapped! */
if (_likely_(BS)) {
BS->SetMem(p, n, c);
return p;
}
#endif
uint8_t *q = p;
while (n > 0) {
*q = c;
q++;
n--;
}
return p;
}
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