/* * Copyright (c) 2010, 2013-2014 Wind River Systems, Inc. * * SPDX-License-Identifier: Apache-2.0 */ /** * @file * @brief Low-level debug output * * Low-level debugging output. Platform installs a character output routine at * init time. If no routine is installed, a nop routine is called. */ #include #include #include #include #include #include #include #include typedef int (*out_func_t)(int c, void *ctx); enum pad_type { PAD_NONE, PAD_ZERO_BEFORE, PAD_SPACE_BEFORE, PAD_SPACE_AFTER, }; #ifdef CONFIG_PRINTK64 typedef uint64_t printk_val_t; #else typedef uint32_t printk_val_t; #endif /* Maximum number of digits in a printed decimal value (hex is always * less, obviously). Funny formula produces 10 max digits for 32 bit, * 21 for 64. */ #define DIGITS_BUFLEN (11 * (sizeof(printk_val_t) / 4) - 1) #ifdef CONFIG_PRINTK_SYNC static struct k_spinlock lock; #endif #ifdef CONFIG_PRINTK /** * @brief Default character output routine that does nothing * @param c Character to swallow * * Note this is defined as a weak symbol, allowing architecture code * to override it where possible to enable very early logging. * * @return 0 */ /* LCOV_EXCL_START */ __attribute__((weak)) int arch_printk_char_out(int c) { ARG_UNUSED(c); /* do nothing */ return 0; } /* LCOV_EXCL_STOP */ int (*_char_out)(int) = arch_printk_char_out; /** * @brief Install the character output routine for printk * * To be called by the platform's console driver at init time. Installs a * routine that outputs one ASCII character at a time. * @param fn putc routine to install * * @return N/A */ void __printk_hook_install(int (*fn)(int)) { _char_out = fn; } /** * @brief Get the current character output routine for printk * * To be called by any console driver that would like to save * current hook - if any - for later re-installation. * * @return a function pointer or NULL if no hook is set */ void *__printk_get_hook(void) { return _char_out; } #endif /* CONFIG_PRINTK */ static void print_digits(out_func_t out, void *ctx, printk_val_t num, int base, bool pad_before, char pad_char, int min_width) { char buf[DIGITS_BUFLEN]; int i; /* Print it backwards into the end of the buffer, low digits first */ for (i = DIGITS_BUFLEN - 1; num != 0; i--) { buf[i] = "0123456789abcdef"[num % base]; num /= base; } if (i == DIGITS_BUFLEN - 1) { buf[i] = '0'; } else { i++; } int pad = MAX(min_width - (DIGITS_BUFLEN - i), 0); for (/**/; pad > 0 && pad_before; pad--) { out(pad_char, ctx); } for (/**/; i < DIGITS_BUFLEN; i++) { out(buf[i], ctx); } for (/**/; pad > 0; pad--) { out(pad_char, ctx); } } static void print_hex(out_func_t out, void *ctx, printk_val_t num, enum pad_type padding, int min_width) { print_digits(out, ctx, num, 16, padding != PAD_SPACE_AFTER, padding == PAD_ZERO_BEFORE ? '0' : ' ', min_width); } static void print_dec(out_func_t out, void *ctx, printk_val_t num, enum pad_type padding, int min_width) { print_digits(out, ctx, num, 10, padding != PAD_SPACE_AFTER, padding == PAD_ZERO_BEFORE ? '0' : ' ', min_width); } static bool ok64(out_func_t out, void *ctx, long long val) { if (sizeof(printk_val_t) < 8 && val != (long) val) { out('E', ctx); out('R', ctx); out('R', ctx); return false; } return true; } static bool negative(printk_val_t val) { const printk_val_t hibit = ~(((printk_val_t) ~1) >> 1); return (val & hibit) != 0; } /** * @brief Printk internals * * See printk() for description. * @param fmt Format string * @param ap Variable parameters * * @return N/A */ void z_vprintk(out_func_t out, void *ctx, const char *fmt, va_list ap) { int might_format = 0; /* 1 if encountered a '%' */ enum pad_type padding = PAD_NONE; int min_width = -1; char length_mod = 0; /* fmt has already been adjusted if needed */ while (*fmt) { if (!might_format) { if (*fmt != '%') { out((int)*fmt, ctx); } else { might_format = 1; min_width = -1; padding = PAD_NONE; length_mod = 0; } } else { switch (*fmt) { case '-': padding = PAD_SPACE_AFTER; goto still_might_format; case '0': if (min_width < 0 && padding == PAD_NONE) { padding = PAD_ZERO_BEFORE; goto still_might_format; } /* Fall through */ case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': /* Fall through */ case '9': if (min_width < 0) { min_width = *fmt - '0'; } else { min_width = 10 * min_width + *fmt - '0'; } if (padding == PAD_NONE) { padding = PAD_SPACE_BEFORE; } goto still_might_format; case 'h': case 'l': case 'z': if (*fmt == 'h' && length_mod == 'h') { length_mod = 'H'; } else if (*fmt == 'l' && length_mod == 'l') { length_mod = 'L'; } else if (length_mod == 0) { length_mod = *fmt; } else { out((int)'%', ctx); out((int)*fmt, ctx); break; } goto still_might_format; case 'd': case 'i': case 'u': { printk_val_t d; if (length_mod == 'z') { d = va_arg(ap, ssize_t); } else if (length_mod == 'l') { d = va_arg(ap, long); } else if (length_mod == 'L') { long long lld = va_arg(ap, long long); if (!ok64(out, ctx, lld)) { break; } d = (printk_val_t) lld; } else { d = va_arg(ap, int); } if (*fmt != 'u' && negative(d)) { out((int)'-', ctx); d = -d; min_width--; } print_dec(out, ctx, d, padding, min_width); break; } case 'p': out('0', ctx); out('x', ctx); /* left-pad pointers with zeros */ padding = PAD_ZERO_BEFORE; min_width = sizeof(void *) * 2; /* Fall through */ case 'x': case 'X': { printk_val_t x; if (*fmt == 'p') { x = (uintptr_t)va_arg(ap, void *); } else if (length_mod == 'l') { x = va_arg(ap, unsigned long); } else if (length_mod == 'L') { x = va_arg(ap, unsigned long long); } else { x = va_arg(ap, unsigned int); } print_hex(out, ctx, x, padding, min_width); break; } case 's': { char *s = va_arg(ap, char *); char *start = s; while (*s) { out((int)(*s++), ctx); } if (padding == PAD_SPACE_AFTER) { int remaining = min_width - (s - start); while (remaining-- > 0) { out(' ', ctx); } } break; } case 'c': { int c = va_arg(ap, int); out(c, ctx); break; } case '%': { out((int)'%', ctx); break; } default: out((int)'%', ctx); out((int)*fmt, ctx); break; } might_format = 0; } still_might_format: ++fmt; } } #ifdef CONFIG_PRINTK #ifdef CONFIG_USERSPACE struct buf_out_context { int count; unsigned int buf_count; char buf[CONFIG_PRINTK_BUFFER_SIZE]; }; static void buf_flush(struct buf_out_context *ctx) { k_str_out(ctx->buf, ctx->buf_count); ctx->buf_count = 0U; } static int buf_char_out(int c, void *ctx_p) { struct buf_out_context *ctx = ctx_p; ctx->count++; ctx->buf[ctx->buf_count++] = c; if (ctx->buf_count == CONFIG_PRINTK_BUFFER_SIZE) { buf_flush(ctx); } return c; } #endif /* CONFIG_USERSPACE */ struct out_context { int count; }; static int char_out(int c, void *ctx_p) { struct out_context *ctx = ctx_p; ctx->count++; return _char_out(c); } #ifdef CONFIG_USERSPACE void vprintk(const char *fmt, va_list ap) { if (_is_user_context()) { struct buf_out_context ctx = { 0 }; z_vprintk(buf_char_out, &ctx, fmt, ap); if (ctx.buf_count) { buf_flush(&ctx); } } else { struct out_context ctx = { 0 }; #ifdef CONFIG_PRINTK_SYNC k_spinlock_key_t key = k_spin_lock(&lock); #endif z_vprintk(char_out, &ctx, fmt, ap); #ifdef CONFIG_PRINTK_SYNC k_spin_unlock(&lock, key); #endif } } #else void vprintk(const char *fmt, va_list ap) { struct out_context ctx = { 0 }; #ifdef CONFIG_PRINTK_SYNC k_spinlock_key_t key = k_spin_lock(&lock); #endif z_vprintk(char_out, &ctx, fmt, ap); #ifdef CONFIG_PRINTK_SYNC k_spin_unlock(&lock, key); #endif } #endif /* CONFIG_USERSPACE */ void z_impl_k_str_out(char *c, size_t n) { size_t i; #ifdef CONFIG_PRINTK_SYNC k_spinlock_key_t key = k_spin_lock(&lock); #endif for (i = 0; i < n; i++) { _char_out(c[i]); } #ifdef CONFIG_PRINTK_SYNC k_spin_unlock(&lock, key); #endif } #ifdef CONFIG_USERSPACE static inline void z_vrfy_k_str_out(char *c, size_t n) { Z_OOPS(Z_SYSCALL_MEMORY_READ(c, n)); z_impl_k_str_out((char *)c, n); } #include #endif /* CONFIG_USERSPACE */ /** * @brief Output a string * * Output a string on output installed by platform at init time. Some * printf-like formatting is available. * * Available formatting: * - %x/%X: outputs a number in hexadecimal format * - %s: outputs a null-terminated string * - %p: pointer, same as %x with a 0x prefix * - %u: outputs a number in unsigned decimal format * - %d/%i: outputs a number in signed decimal format * * Field width (with or without leading zeroes) is supported. * Length attributes h, hh, l, ll and z are supported. However, integral * values with %lld and %lli are only printed if they fit in a long * otherwise 'ERR' is printed. Full 64-bit values may be printed with %llx. * * @param fmt formatted string to output * * @return N/A */ void printk(const char *fmt, ...) { va_list ap; va_start(ap, fmt); if (IS_ENABLED(CONFIG_LOG_PRINTK)) { log_printk(fmt, ap); } else { vprintk(fmt, ap); } va_end(ap); } #endif /* CONFIG_PRINTK */ struct str_context { char *str; int max; int count; }; static int str_out(int c, struct str_context *ctx) { if (ctx->str == NULL || ctx->count >= ctx->max) { ctx->count++; return c; } if (ctx->count == ctx->max - 1) { ctx->str[ctx->count++] = '\0'; } else { ctx->str[ctx->count++] = c; } return c; } int snprintk(char *str, size_t size, const char *fmt, ...) { va_list ap; int ret; va_start(ap, fmt); ret = vsnprintk(str, size, fmt, ap); va_end(ap); return ret; } int vsnprintk(char *str, size_t size, const char *fmt, va_list ap) { struct str_context ctx = { str, size, 0 }; z_vprintk((out_func_t)str_out, &ctx, fmt, ap); if (ctx.count < ctx.max) { str[ctx.count] = '\0'; } return ctx.count; }