/* * Copyright (c) 2020 Nordic Semiconductor ASA * * SPDX-License-Identifier: Apache-2.0 */ #ifndef ZEPHYR_INCLUDE_SYS_CBPRINTF_H_ #define ZEPHYR_INCLUDE_SYS_CBPRINTF_H_ #include #include #include #include #include #ifdef CONFIG_CBPRINTF_LIBC_SUBSTS #include #endif /* CONFIG_CBPRINTF_LIBC_SUBSTS */ /* Determine if _Generic is supported using macro from toolchain.h. * * @note Z_C_GENERIC is also set for C++ where functionality is implemented * using overloading and templates. */ #ifndef Z_C_GENERIC #if defined(__cplusplus) || TOOLCHAIN_HAS_C_GENERIC #define Z_C_GENERIC 1 #else #define Z_C_GENERIC 0 #endif #endif #ifdef __xtensa__ #define Z_PKG_HDR_EXT_XTENSA_ALIGNMENT 8 #ifdef CONFIG_CBPRINTF_PACKAGE_HEADER_STORE_CREATION_FLAGS #define Z_PKG_DESC_XTENSA_PADDING 1 #else #define Z_PKG_DESC_XTENSA_PADDING 0 #endif #endif /* __xtensa__ */ /** * @brief cbprintf package descriptor. */ struct cbprintf_package_desc { /** Package length (in 32 bit words) */ uint8_t len; /** Number of appended strings in the package. */ uint8_t str_cnt; /** Number of read-only strings, indexes appended to the package */ uint8_t ro_str_cnt; /** Number of read-write strings, indexes appended to the package */ uint8_t rw_str_cnt; #ifdef CONFIG_CBPRINTF_PACKAGE_HEADER_STORE_CREATION_FLAGS /** Flags used to create the package */ uint32_t pkg_flags; #endif #ifdef __xtensa__ /* * On Xtensa, the first argument needs to be aligned to 8-byte. * With 32-bit pointers, we need another 4 bytes padding so * that whole struct cbprintf_package_hdr_ext is of multiple of * 8 bytes. */ uint32_t xtensa_padding[Z_PKG_DESC_XTENSA_PADDING]; #endif } __packed; /** @brief cbprintf package header * * cbprintf package header, without the format string pointer. */ union cbprintf_package_hdr { /** Header description */ struct cbprintf_package_desc desc; void *raw; #if defined(CONFIG_CBPRINTF_PACKAGE_HEADER_STORE_CREATION_FLAGS) && !defined(CONFIG_64BIT) void *raw2[2]; #endif } __packed; /** @brief cbprintf package header with format string pointer. * * cbprintf package header with format string pointer. */ struct cbprintf_package_hdr_ext { /** Header of package */ union cbprintf_package_hdr hdr; /** Pointer to format string */ char *fmt; /* * When extending this struct, make sure this align * to pointer size. */ } __packed; /** * @cond INTERNAL_HIDDEN * * Assert that the package hdr does indeed align properly. */ #ifdef __xtensa__ BUILD_ASSERT(sizeof(struct cbprintf_package_hdr_ext) % Z_PKG_HDR_EXT_XTENSA_ALIGNMENT == 0, "Package header size on Xtensa must be aligned"); #endif /** * @endcond */ /* Z_C_GENERIC is used there */ #include #ifdef __cplusplus extern "C" { #endif /** * @defgroup cbprintf_apis Formatted Output APIs * @ingroup utilities * @{ */ /** @brief Required alignment of the buffer used for packaging. */ #ifdef __xtensa__ #define CBPRINTF_PACKAGE_ALIGNMENT 16 #else #define CBPRINTF_PACKAGE_ALIGNMENT \ Z_POW2_CEIL(COND_CODE_1(CONFIG_CBPRINTF_PACKAGE_LONGDOUBLE, \ (sizeof(long double)), (MAX(sizeof(double), sizeof(long long))))) #endif BUILD_ASSERT(Z_IS_POW2(CBPRINTF_PACKAGE_ALIGNMENT)); /**@defgroup CBPRINTF_PACKAGE_FLAGS Package flags * @{ */ /** @brief Assume that const char pointer is pointing to read only (constant) strings. * * Flag is valid only for @ref CBPRINTF_STATIC_PACKAGE. */ #define CBPRINTF_PACKAGE_CONST_CHAR_RO BIT(0) /** @brief Append locations (within the package) of read-only string pointers. */ #define CBPRINTF_PACKAGE_ADD_RO_STR_POS BIT(1) /** @brief Append locations (within the package) of read-write string pointers. * * When this flag is not used then read-write strings are appended to the package. */ #define CBPRINTF_PACKAGE_ADD_RW_STR_POS BIT(2) #define Z_CBPRINTF_PACKAGE_FIRST_RO_STR_BITS 3 #define Z_CBPRINTF_PACKAGE_FIRST_RO_STR_OFFSET 3 #define Z_CBPRINTF_PACKAGE_FIRST_RO_STR_MASK BIT_MASK(Z_CBPRINTF_PACKAGE_FIRST_RO_STR_BITS) /** @brief Indicate that @p n first string format arguments are char pointers to * read-only location. * * Runtime algorithm (address analysis) is skipped for those strings. * * @param n Number of string arguments considered as read-only. */ #define CBPRINTF_PACKAGE_FIRST_RO_STR_CNT(n) \ (n << Z_CBPRINTF_PACKAGE_FIRST_RO_STR_OFFSET) /** @brief Get number of first format string arguments which are known to be read-only * string. */ #define Z_CBPRINTF_PACKAGE_FIRST_RO_STR_CNT_GET(flags) \ (((flags) >> Z_CBPRINTF_PACKAGE_FIRST_RO_STR_OFFSET) & Z_CBPRINTF_PACKAGE_FIRST_RO_STR_MASK) /** @brief Append indexes of read-only string arguments in the package. * * When used, package contains locations of read-only string arguments. Package * with that information can be converted to fully self-contain package using * @ref cbprintf_fsc_package. */ #define CBPRINTF_PACKAGE_ADD_STRING_IDXS \ (CBPRINTF_PACKAGE_ADD_RO_STR_POS | CBPRINTF_PACKAGE_CONST_CHAR_RO) /** @brief Indicate the incoming arguments are tagged. * * When set, this indicates that the incoming arguments are tagged, and * need to be processed accordingly. */ #define CBPRINTF_PACKAGE_ARGS_ARE_TAGGED BIT(6) /**@} */ /** * @defgroup CBPRINTF_PACKAGE_CONVERT_FLAGS Package convert flags * @{ */ /** @brief Append read-only strings from source package to destination package. * * If package was created with @ref CBPRINTF_PACKAGE_ADD_RO_STR_POS * or @ref CBPRINTF_PACKAGE_ADD_RW_STR_POS it contains arrays of indexes where * string address can be found in the package. When flag is set, read-only strings * are copied into destination package. Address of strings indicated as read-write * are also checked and if determined to be read-only they are also copied. */ #define CBPRINTF_PACKAGE_CONVERT_RO_STR BIT(0) /** @deprecated Use @ref CBPRINTF_PACKAGE_CONVERT_RO_STR instead. */ #define CBPRINTF_PACKAGE_COPY_RO_STR CBPRINTF_PACKAGE_CONVERT_RO_STR __DEPRECATED_MACRO /** @brief Append read-write strings from source package to destination package. * * If package was created with @ref CBPRINTF_PACKAGE_ADD_RW_STR_POS it contains * arrays of indexes where string address can be found in the package. When flag * is set, list of read-write strings is examined and if they are not determined * to be read-only, they are copied into the destination package. * If @ref CBPRINTF_PACKAGE_CONVERT_RO_STR is not set, remaining string locations * are considered as pointing to read-only location and they are copy to the * package if @ref CBPRINTF_PACKAGE_CONVERT_KEEP_RO_STR is set. */ #define CBPRINTF_PACKAGE_CONVERT_RW_STR BIT(1) /** @deprecated Use @ref CBPRINTF_PACKAGE_CONVERT_RW_STR instead. */ #define CBPRINTF_PACKAGE_COPY_RW_STR CBPRINTF_PACKAGE_CONVERT_RW_STR __DEPRECATED_MACRO /** @brief Keep read-only location indexes in the package. * * If it is set read-only string pointers are kept in the package after copy. If * not set they are discarded. */ #define CBPRINTF_PACKAGE_CONVERT_KEEP_RO_STR BIT(2) /** @deprecated Use @ref CBPRINTF_PACKAGE_CONVERT_KEEP_RO_STR instead. */ #define CBPRINTF_PACKAGE_COPY_KEEP_RO_STR CBPRINTF_PACKAGE_CONVERT_KEEP_RO_STR __DEPRECATED_MACRO /** @brief Check format string if %p argument was treated as %s in the package. * * Static packaging is done based only on types of arguments used for a format * string. Without looking into format specifiers present in the string. Because * of that if (unsigned) char pointer is used for %p it will be considered as * a string location and during conversion an attempt to append a string to a * package may be performed. This can lead to misbehavior, in the best case * package will be bigger and in the worst case memory fault or security violation * may occur. * * When this flag is set, format string will be checked to detect cases when * string candidate is a pointer used for %p and string appending from unexpected * location is avoided. Additionally, an log warning is generated to encourage * user to cast such argument to void *. It is recommended because there are * configurations where string is not accessible and inspection cannot be done. * In those cases there are no means to detect such cases. */ #define CBPRINTF_PACKAGE_CONVERT_PTR_CHECK BIT(3) /**@} */ /** * @defgroup Z_CBVPRINTF_PROCESS_FLAGS cbvprintf processing flags. * @{ */ /** @brief Indicates the arguments are tagged. * * This tells z_cbvprintf_impl() that the incoming arguments are * tagged, and should be processed accordingly. */ #define Z_CBVPRINTF_PROCESS_FLAG_TAGGED_ARGS BIT(0) /**@} */ #include /** @brief Signature for a cbprintf callback function. * * This function expects two parameters: * * * @p c a character to output. The output behavior should be as if * this was cast to an unsigned char. * * @p ctx a pointer to an object that provides context for the * output operation. * * The declaration does not specify the parameter types. This allows a * function like @c fputc to be used without requiring all context pointers to * be to a @c FILE object. * * @return the value of @p c cast to an unsigned char then back to * int, or a negative error code that will be returned from * cbprintf(). */ #ifdef __CHECKER__ typedef int (*cbprintf_cb)(int c, void *ctx); #else typedef int (*cbprintf_cb)(/* int c, void *ctx */); #endif /** @brief Signature for a cbprintf multibyte callback function. * * @param buf data. * @param len data length. * @param ctx a pointer to an object that provides context for the operation. * * return Amount of copied data or negative error code. */ typedef int (*cbprintf_convert_cb)(const void *buf, size_t len, void *ctx); /** @brief Signature for a external formatter function identical to cbvprintf. * * This function expects the following parameters: * * @param out the function used to emit each generated character. * * @param ctx a pointer to an object that provides context for the * external formatter. * * @param fmt a standard ISO C format string with characters and * conversion specifications. * * @param ap captured stack arguments corresponding to the conversion * specifications found within @p fmt. * * @return vprintf like return values: the number of characters printed, * or a negative error value returned from external formatter. */ typedef int (*cbvprintf_external_formatter_func)(cbprintf_cb out, void *ctx, const char *fmt, va_list ap); /** @brief Determine if string must be packaged in run time. * * Static packaging can be applied if size of the package can be determined * at compile time. In general, package size can be determined at compile time * if there are no string arguments which might be copied into package body if * they are considered transient. * * @note By default any char pointers are considered to be pointing at transient * strings. This can be narrowed down to non const pointers by using * @ref CBPRINTF_PACKAGE_CONST_CHAR_RO. * * @param ... String with arguments. * @param flags option flags. See @ref CBPRINTF_PACKAGE_FLAGS. * * @retval 1 if string must be packaged in run time. * @retval 0 string can be statically packaged. */ #define CBPRINTF_MUST_RUNTIME_PACKAGE(flags, ... /* fmt, ... */) \ Z_CBPRINTF_MUST_RUNTIME_PACKAGE(flags, __VA_ARGS__) /** @brief Statically package string. * * Build string package from formatted string. It assumes that formatted * string is in the read only memory. * * If _Generic is not supported then runtime packaging is performed. * * @param packaged pointer to where the packaged data can be stored. Pass a null * pointer to skip packaging but still calculate the total space required. * The data stored here is relocatable, that is it can be moved to another * contiguous block of memory. It must be aligned to the size of the longest * argument. It is recommended to use CBPRINTF_PACKAGE_ALIGNMENT for alignment. * * @param inlen set to the number of bytes available at @p packaged. If * @p packaged is NULL the value is ignored. * * @param outlen variable updated to the number of bytes required to completely * store the packed information. If input buffer was too small it is set to * -ENOSPC. * * @param align_offset input buffer alignment offset in bytes. Where offset 0 * means that buffer is aligned to CBPRINTF_PACKAGE_ALIGNMENT. Xtensa requires * that @p packaged is aligned to CBPRINTF_PACKAGE_ALIGNMENT so it must be * multiply of CBPRINTF_PACKAGE_ALIGNMENT or 0. * * @param flags option flags. See @ref CBPRINTF_PACKAGE_FLAGS. * * @param ... formatted string with arguments. Format string must be constant. */ #define CBPRINTF_STATIC_PACKAGE(packaged, inlen, outlen, align_offset, flags, \ ... /* fmt, ... */) \ Z_CBPRINTF_STATIC_PACKAGE(packaged, inlen, outlen, \ align_offset, flags, __VA_ARGS__) /** @brief Capture state required to output formatted data later. * * Like cbprintf() but instead of processing the arguments and emitting the * formatted results immediately all arguments are captured so this can be * done in a different context, e.g. when the output function can block. * * In addition to the values extracted from arguments this will ensure that * copies are made of the necessary portions of any string parameters that are * not confirmed to be stored in read-only memory (hence assumed to be safe to * refer to directly later). * * @param packaged pointer to where the packaged data can be stored. Pass a * null pointer to store nothing but still calculate the total space required. * The data stored here is relocatable, that is it can be moved to another * contiguous block of memory. However, under condition that alignment is * maintained. It must be aligned to at least the size of a pointer. * * @param len this must be set to the number of bytes available at @p packaged * if it is not null. If @p packaged is null then it indicates hypothetical * buffer alignment offset in bytes compared to CBPRINTF_PACKAGE_ALIGNMENT * alignment. Buffer alignment offset impacts returned size of the package. * Xtensa requires that buffer is always aligned to CBPRINTF_PACKAGE_ALIGNMENT * so it must be multiply of CBPRINTF_PACKAGE_ALIGNMENT or 0 when @p packaged is * null. * * @param flags option flags. See @ref CBPRINTF_PACKAGE_FLAGS. * * @param format a standard ISO C format string with characters and conversion * specifications. * * @param ... arguments corresponding to the conversion specifications found * within @p format. * * @retval nonegative the number of bytes successfully stored at @p packaged. * This will not exceed @p len. * @retval -EINVAL if @p format is not acceptable * @retval -EFAULT if @p packaged alignment is not acceptable * @retval -ENOSPC if @p packaged was not null and the space required to store * exceed @p len. */ __printf_like(4, 5) int cbprintf_package(void *packaged, size_t len, uint32_t flags, const char *format, ...); /** @brief Capture state required to output formatted data later. * * Like cbprintf() but instead of processing the arguments and emitting the * formatted results immediately all arguments are captured so this can be * done in a different context, e.g. when the output function can block. * * In addition to the values extracted from arguments this will ensure that * copies are made of the necessary portions of any string parameters that are * not confirmed to be stored in read-only memory (hence assumed to be safe to * refer to directly later). * * @param packaged pointer to where the packaged data can be stored. Pass a * null pointer to store nothing but still calculate the total space required. * The data stored here is relocatable, that is it can be moved to another * contiguous block of memory. The pointer must be aligned to a multiple of * the largest element in the argument list. * * @param len this must be set to the number of bytes available at @p packaged. * Ignored if @p packaged is NULL. * * @param flags option flags. See @ref CBPRINTF_PACKAGE_FLAGS. * * @param format a standard ISO C format string with characters and conversion * specifications. * * @param ap captured stack arguments corresponding to the conversion * specifications found within @p format. * * @retval nonegative the number of bytes successfully stored at @p packaged. * This will not exceed @p len. * @retval -EINVAL if @p format is not acceptable * @retval -ENOSPC if @p packaged was not null and the space required to store * exceed @p len. */ int cbvprintf_package(void *packaged, size_t len, uint32_t flags, const char *format, va_list ap); /** @brief Convert a package. * * Converting may include appending strings used in the package to the package body. * If input package was created with @ref CBPRINTF_PACKAGE_ADD_RO_STR_POS or * @ref CBPRINTF_PACKAGE_ADD_RW_STR_POS, it contains information where strings * are located within the package. This information can be used to copy strings * during the conversion. * * @p cb is called with portions of the output package. At the end of the conversion * @p cb is called with null buffer. * * @param in_packaged Input package. * * @param in_len Input package length. If 0 package length will be retrieved * from the @p in_packaged * * @param cb callback called with portions of the converted package. If null only * length of the output package is calculated. * * @param ctx Context provided to the @p cb. * * @param flags Flags. See @ref CBPRINTF_PACKAGE_CONVERT_FLAGS. * * @param[in, out] strl if @p packaged is null, it is a pointer to the array where * @p strl_len first string lengths will is stored. If @p packaged is not null, * it contains lengths of first @p strl_len strings. It can be used to optimize * copying so that string length is calculated only once (at length calculation * phase when @p packaged is null.) * * @param strl_len Number of elements in @p strl array. * * @retval Positive output package size. * @retval -ENOSPC if @p packaged was not null and the space required to store * exceed @p len. */ int cbprintf_package_convert(void *in_packaged, size_t in_len, cbprintf_convert_cb cb, void *ctx, uint32_t flags, uint16_t *strl, size_t strl_len); /* @interal Context used for package copying. */ struct z_cbprintf_buf_desc { void *buf; size_t size; size_t off; }; /* @internal Function callback used for package copying. */ static inline int z_cbprintf_cpy(const void *buf, size_t len, void *ctx) { struct z_cbprintf_buf_desc *desc = (struct z_cbprintf_buf_desc *)ctx; if ((desc->size - desc->off) < len) { return -ENOSPC; } memcpy(&((uint8_t *)desc->buf)[desc->off], buf, len); desc->off += len; return len; } /** @brief Copy package with optional appending of strings. * * @ref cbprintf_package_convert is used to convert and store converted package * in the new location. * * @param in_packaged Input package. * * @param in_len Input package length. If 0 package length will be retrieved * from the @p in_packaged * * @param[out] packaged Output package. If null only length of the output package * is calculated. * * @param len Available space in the location pointed by @p packaged. Not used when * @p packaged is null. * * @param flags Flags. See @ref CBPRINTF_PACKAGE_CONVERT_FLAGS. * * @param[in, out] strl if @p packaged is null, it is a pointer to the array where * @p strl_len first string lengths will is stored. If @p packaged is not null, * it contains lengths of first @p strl_len strings. It can be used to optimize * copying so that string length is calculated only once (at length calculation * phase when @p packaged is null.) * * @param strl_len Number of elements in @p strl array. * * @retval Positive Output package size. * @retval -ENOSPC if @p packaged was not null and the space required to store * exceed @p len. */ static inline int cbprintf_package_copy(void *in_packaged, size_t in_len, void *packaged, size_t len, uint32_t flags, uint16_t *strl, size_t strl_len) { struct z_cbprintf_buf_desc buf_desc = { .buf = packaged, .size = len, .off = 0, }; return cbprintf_package_convert(in_packaged, in_len, packaged ? z_cbprintf_cpy : NULL, &buf_desc, flags, strl, strl_len); } /** @brief Convert package to fully self-contained (fsc) package. * * Package may not be self contain since strings by default are stored by address. * Package may be partially self-contained when transient (not read only) strings * are appended to the package. Such package can be decoded only when there is an * access to read-only strings. * * Fully self-contained has (fsc) contains all strings used in the package. A package * can be converted to fsc package if it was create with @ref CBPRINTF_PACKAGE_ADD_RO_STR_POS * flag. Such package will contain necessary data to find read only strings in * the package and copy them into the package body. * * @param in_packaged pointer to original package created with * @ref CBPRINTF_PACKAGE_ADD_RO_STR_POS. * * @param in_len @p in_packaged length. * * @param packaged pointer to location where fully self-contained version of the * input package will be written. Pass a null pointer to calculate space required. * * @param len must be set to the number of bytes available at @p packaged. Not * used if @p packaged is null. * * @retval nonegative the number of bytes successfully stored at @p packaged. * This will not exceed @p len. If @p packaged is null, calculated length. * @retval -ENOSPC if @p packaged was not null and the space required to store * exceed @p len. * @retval -EINVAL if @p in_packaged is null. */ static inline int cbprintf_fsc_package(void *in_packaged, size_t in_len, void *packaged, size_t len) { return cbprintf_package_copy(in_packaged, in_len, packaged, len, CBPRINTF_PACKAGE_CONVERT_RO_STR | CBPRINTF_PACKAGE_CONVERT_RW_STR, NULL, 0); } /** @brief Generate the output for a previously captured format * operation using an external formatter. * * @param out the function used to emit each generated character. * * @param formatter external formatter function. * * @param ctx a pointer to an object that provides context for the * external formatter. * * @param packaged the data required to generate the formatted output, as * captured by cbprintf_package() or cbvprintf_package(). The alignment * requirement on this data is the same as when it was initially created. * * @note Memory indicated by @p packaged will be modified in a non-destructive * way, meaning that it could still be reused with this function again. * * @return printf like return values: the number of characters printed, * or a negative error value returned from external formatter. */ int cbpprintf_external(cbprintf_cb out, cbvprintf_external_formatter_func formatter, void *ctx, void *packaged); /** @brief *printf-like output through a callback. * * This is essentially printf() except the output is generated * character-by-character using the provided @p out function. This allows * formatting text of unbounded length without incurring the cost of a * temporary buffer. * * All formatting specifiers of C99 are recognized, and most are supported if * the functionality is enabled. * * @note The functionality of this function is significantly reduced * when @kconfig{CONFIG_CBPRINTF_NANO} is selected. * * @param out the function used to emit each generated character. * * @param ctx context provided when invoking out * * @param format a standard ISO C format string with characters and conversion * specifications. * * @param ... arguments corresponding to the conversion specifications found * within @p format. * * @return the number of characters printed, or a negative error value * returned from invoking @p out. */ __printf_like(3, 4) int cbprintf(cbprintf_cb out, void *ctx, const char *format, ...); /** @brief varargs-aware *printf-like output through a callback. * * This is essentially vsprintf() except the output is generated * character-by-character using the provided @p out function. This allows * formatting text of unbounded length without incurring the cost of a * temporary buffer. * * @note This function is available only when * @kconfig{CONFIG_CBPRINTF_LIBC_SUBSTS} is selected. * * @note The functionality of this function is significantly reduced when * @kconfig{CONFIG_CBPRINTF_NANO} is selected. * * @param out the function used to emit each generated character. * * @param ctx context provided when invoking out * * @param format a standard ISO C format string with characters and conversion * specifications. * * @param ap a reference to the values to be converted. * * @param flags flags on how to process the inputs. * @see Z_CBVPRINTF_PROCESS_FLAGS. * * @return the number of characters generated, or a negative error value * returned from invoking @p out. */ int z_cbvprintf_impl(cbprintf_cb out, void *ctx, const char *format, va_list ap, uint32_t flags); /** @brief varargs-aware *printf-like output through a callback. * * This is essentially vsprintf() except the output is generated * character-by-character using the provided @p out function. This allows * formatting text of unbounded length without incurring the cost of a * temporary buffer. * * @note This function is available only when * @kconfig{CONFIG_CBPRINTF_LIBC_SUBSTS} is selected. * * @note The functionality of this function is significantly reduced when * @kconfig{CONFIG_CBPRINTF_NANO} is selected. * * @param out the function used to emit each generated character. * * @param ctx context provided when invoking out * * @param format a standard ISO C format string with characters and conversion * specifications. * * @param ap a reference to the values to be converted. * * @return the number of characters generated, or a negative error value * returned from invoking @p out. */ #ifdef CONFIG_PICOLIBC int cbvprintf(cbprintf_cb out, void *ctx, const char *format, va_list ap); #else static inline int cbvprintf(cbprintf_cb out, void *ctx, const char *format, va_list ap) { return z_cbvprintf_impl(out, ctx, format, ap, 0); } #endif /** @brief varargs-aware *printf-like output through a callback with tagged arguments. * * This is essentially vsprintf() except the output is generated * character-by-character using the provided @p out function. This allows * formatting text of unbounded length without incurring the cost of a * temporary buffer. * * Note that the argument list @p ap are tagged. * * @note This function is available only when * @kconfig{CONFIG_CBPRINTF_LIBC_SUBSTS} is selected. * * @note The functionality of this function is significantly reduced when * @kconfig{CONFIG_CBPRINTF_NANO} is selected. * * @param out the function used to emit each generated character. * * @param ctx context provided when invoking out * * @param format a standard ISO C format string with characters and conversion * specifications. * * @param ap a reference to the values to be converted. * * @return the number of characters generated, or a negative error value * returned from invoking @p out. */ static inline int cbvprintf_tagged_args(cbprintf_cb out, void *ctx, const char *format, va_list ap) { return z_cbvprintf_impl(out, ctx, format, ap, Z_CBVPRINTF_PROCESS_FLAG_TAGGED_ARGS); } /** @brief Generate the output for a previously captured format * operation. * * @param out the function used to emit each generated character. * * @param ctx context provided when invoking out * * @param packaged the data required to generate the formatted output, as * captured by cbprintf_package() or cbvprintf_package(). The alignment * requirement on this data is the same as when it was initially created. * * @note Memory indicated by @p packaged will be modified in a non-destructive * way, meaning that it could still be reused with this function again. * * @return the number of characters printed, or a negative error value * returned from invoking @p out. */ static inline int cbpprintf(cbprintf_cb out, void *ctx, void *packaged) { #if defined(CONFIG_CBPRINTF_PACKAGE_SUPPORT_TAGGED_ARGUMENTS) union cbprintf_package_hdr *hdr = (union cbprintf_package_hdr *)packaged; if ((hdr->desc.pkg_flags & CBPRINTF_PACKAGE_ARGS_ARE_TAGGED) == CBPRINTF_PACKAGE_ARGS_ARE_TAGGED) { return cbpprintf_external(out, cbvprintf_tagged_args, ctx, packaged); } #endif return cbpprintf_external(out, cbvprintf, ctx, packaged); } #ifdef CONFIG_CBPRINTF_LIBC_SUBSTS #ifdef CONFIG_PICOLIBC #define fprintfcb(stream, ...) fprintf(stream, __VA_ARGS__) #define vfprintfcb(stream, format, ap) vfprintf(stream, format, ap) #define printfcb(format, ...) printf(format, __VA_ARGS__) #define vprintfcb(format, ap) vprintf(format, ap) #define snprintfcb(str, size, ...) snprintf(str, size, __VA_ARGS__) #define vsnprintfcb(str, size, format, ap) vsnprintf(str, size, format, ap) #else /** @brief fprintf using Zephyrs cbprintf infrastructure. * * @note This function is available only when * @kconfig{CONFIG_CBPRINTF_LIBC_SUBSTS} is selected. * * @note The functionality of this function is significantly reduced * when @kconfig{CONFIG_CBPRINTF_NANO} is selected. * * @param stream the stream to which the output should be written. * * @param format a standard ISO C format string with characters and * conversion specifications. * * @param ... arguments corresponding to the conversion specifications found * within @p format. * * return The number of characters printed. */ __printf_like(2, 3) int fprintfcb(FILE * stream, const char *format, ...); /** @brief vfprintf using Zephyrs cbprintf infrastructure. * * @note This function is available only when * @kconfig{CONFIG_CBPRINTF_LIBC_SUBSTS} is selected. * * @note The functionality of this function is significantly reduced when * @kconfig{CONFIG_CBPRINTF_NANO} is selected. * * @param stream the stream to which the output should be written. * * @param format a standard ISO C format string with characters and conversion * specifications. * * @param ap a reference to the values to be converted. * * @return The number of characters printed. */ int vfprintfcb(FILE *stream, const char *format, va_list ap); /** @brief printf using Zephyrs cbprintf infrastructure. * * @note This function is available only when * @kconfig{CONFIG_CBPRINTF_LIBC_SUBSTS} is selected. * * @note The functionality of this function is significantly reduced * when @kconfig{CONFIG_CBPRINTF_NANO} is selected. * * @param format a standard ISO C format string with characters and * conversion specifications. * * @param ... arguments corresponding to the conversion specifications found * within @p format. * * @return The number of characters printed. */ __printf_like(1, 2) int printfcb(const char *format, ...); /** @brief vprintf using Zephyrs cbprintf infrastructure. * * @note This function is available only when * @kconfig{CONFIG_CBPRINTF_LIBC_SUBSTS} is selected. * * @note The functionality of this function is significantly reduced when * @kconfig{CONFIG_CBPRINTF_NANO} is selected. * * @param format a standard ISO C format string with characters and conversion * specifications. * * @param ap a reference to the values to be converted. * * @return The number of characters printed. */ int vprintfcb(const char *format, va_list ap); /** @brief snprintf using Zephyrs cbprintf infrastructure. * * @note This function is available only when * @kconfig{CONFIG_CBPRINTF_LIBC_SUBSTS} is selected. * * @note The functionality of this function is significantly reduced * when @kconfig{CONFIG_CBPRINTF_NANO} is selected. * * @param str where the formatted content should be written * * @param size maximum number of chaacters for the formatted output, * including the terminating null byte. * * @param format a standard ISO C format string with characters and * conversion specifications. * * @param ... arguments corresponding to the conversion specifications found * within @p format. * * @return The number of characters that would have been written to @p * str, excluding the terminating null byte. This is greater than the * number actually written if @p size is too small. */ __printf_like(3, 4) int snprintfcb(char *str, size_t size, const char *format, ...); /** @brief vsnprintf using Zephyrs cbprintf infrastructure. * * @note This function is available only when * @kconfig{CONFIG_CBPRINTF_LIBC_SUBSTS} is selected. * * @note The functionality of this function is significantly reduced when * @kconfig{CONFIG_CBPRINTF_NANO} is selected. * * @param str where the formatted content should be written * * @param size maximum number of chaacters for the formatted output, including * the terminating null byte. * * @param format a standard ISO C format string with characters and conversion * specifications. * * @param ap a reference to the values to be converted. * * @return The number of characters that would have been written to @p * str, excluding the terminating null byte. This is greater than the * number actually written if @p size is too small. */ int vsnprintfcb(char *str, size_t size, const char *format, va_list ap); #endif /* CONFIG_PICOLIBC */ #endif /* CONFIG_CBPRINTF_LIBC_SUBSTS */ /** * @} */ #ifdef __cplusplus } #endif #endif /* ZEPHYR_INCLUDE_SYS_CBPRINTF_H_ */