#ifndef SG_PR2SERR_H #define SG_PR2SERR_H /* * Copyright (c) 2004-2022 Douglas Gilbert. * All rights reserved. * Use of this source code is governed by a BSD-style * license that can be found in the BSD_LICENSE file. * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #ifdef __cplusplus extern "C" { #endif /* pr2serr and pr2ws are convenience functions that replace the somewhat * long-winded fprintf(stderr, ....). The second form (i.e. pr2ws() ) is for * internal library use and may place its output somewhere other than stderr; * it depends on the external variable sg_warnings_strm which can be set * with sg_set_warnings_strm(). By default it uses stderr. */ #if __USE_MINGW_ANSI_STDIO -0 == 1 #define __printf(a, b) __attribute__((__format__(gnu_printf, a, b))) #elif defined(__GNUC__) || defined(__clang__) #define __printf(a, b) __attribute__((__format__(printf, a, b))) #else #define __printf(a, b) #endif int pr2serr(const char * fmt, ...) __printf(1, 2); int pr2ws(const char * fmt, ...) __printf(1, 2); /* Want safe, 'n += snprintf(b + n, blen - n, ...)' style sequence of * functions that can be called multiple times. Returns number of chars * placed in cp excluding the trailing null char. So for cp_max_len > 0 the * return value is always < cp_max_len; for cp_max_len <= 1 the return value * is 0 and no chars are written to cp. Note this means that when * cp_max_len = 1, this function assumes that cp[0] is the null character * and does nothing (and returns 0). Linux kernel has a similar function * called scnprintf(). */ int sg_scnpr(char * cp, int cp_max_len, const char * fmt, ...) __printf(3, 4); /* JSON support functions and structures follow. The prefix "sgj_" is used * for sg3_utils JSON functions, types and values. */ enum sgj_separator_t { SGJ_SEP_NONE = 0, SGJ_SEP_SPACE_1, SGJ_SEP_SPACE_2, SGJ_SEP_SPACE_3, SGJ_SEP_SPACE_4, SGJ_SEP_EQUAL_NO_SPACE, SGJ_SEP_EQUAL_1_SPACE, SGJ_SEP_COLON_NO_SPACE, SGJ_SEP_COLON_1_SPACE, }; typedef void * sgj_opaque_p; /* Apart from the state information at the end of this structure, the earlier * fields are initialized from the command line argument given to the * --json= option. If there is no argument then they initialized as shown. */ typedef struct sgj_state_t { /* the following set by default, the SG3_UTILS_JSON_OPTS environment * variable or command line argument to --json option, in that order. */ bool pr_as_json; /* = false (def: is human readable output) */ bool pr_exit_status; /* 'e' (def: true) */ bool pr_hex; /* 'h' (def: false) */ bool pr_leadin; /* 'l' (def: true) */ bool pr_name_ex; /* 'n' name_extra (information) (def: false) */ bool pr_out_hr; /* 'o' (def: false) */ bool pr_packed; /* 'k' (def: false) only when !pr_pretty */ bool pr_pretty; /* 'p' (def: true) */ bool pr_string; /* 's' (def: true) */ char pr_format; /* (def: '\0') */ int pr_indent_size; /* digit (def: 4) */ int verbose; /* 'v' (def: 0) incremented each appearance */ /* the following hold state information */ int first_bad_char; /* = '\0' */ sgj_opaque_p basep; /* base JSON object pointer */ sgj_opaque_p out_hrp; /* JSON array pointer when pr_out_hr set */ sgj_opaque_p userp; /* for temporary usage */ } sgj_state; /* This function tries to convert the in_name C string to the "snake_case" * convention so the output sname only contains lower case ASCII letters, * numerals and "_" as a separator. Any leading or trailing underscores * are removed as are repeated underscores (e.g. "_Snake __ case" becomes * "snake_case"). Parentheses and the characters between them are removed. * Returns sname (i.e. the pointer to the output buffer). * Note: strlen(in_name) should be <= max_sname_len . */ char * sgj_convert_to_snake_name(const char * in_name, char * sname, int max_sname_len); bool sgj_is_snake_name(const char * in_name); /* There are many variants of JSON supporting functions below and some * abbreviations are used to shorten their function names: * sgj_ - prefix of all the functions related to (non-)JSON output * hr - human readable form (as it was before JSON) * js - JSON only output * haj - human readable and JSON output, hr goes in 'output' array * pr - has printf() like variadic arguments * _r - suffix indicating the return value should/must be used * nv - adds a name-value JSON field (or several) * o - value is the provided JSON object (or array) * i - value is a JSON integer object (int64_t or uint64_t) * b - value is a JSON boolean object * s - value is a JSON string object * str - same as s * hex - value is hexadecimal in a JSON string object * _nex - extra 'name_extra' JSON string object about name * new - object that needs sgj_free_unattached() if not attached * * */ /* If jsp in non-NULL and jsp->pr_as_json is true then this call is ignored * unless jsp->pr_out_hrp is true. Otherwise this function prints to stdout * like printf(fmt, ...); note that no LF is added. In the jsp->pr_out_hrp is * true case, nothing is printed to stdout but instead is placed into a JSON * array (jsp->out_hrp) after some preprocessing. That preprocessing involves * removing a leading LF from 'fmt' (if present) and up to two trailing LF * characters. */ void sgj_pr_hr(sgj_state * jsp, const char * fmt, ...) __printf(2, 3); /* Initializes the state object pointed to by jsp based on the argument * given to the right of --json= pointed to by j_optarg. If it is NULL * then state object gets its default values. Returns true if argument * to --json= is decoded properly, else returns false and places the * first "bad" character in jsp->first_bad_char . Note that no JSON * in-core tree needs to exist when this function is called. */ bool sgj_init_state(sgj_state * jsp, const char * j_optarg); /* sgj_start() creates a JSON in-core tree and returns a pointer to it (or * NULL if the associated heap allocation fails). It should be paired with * sgj_finish() to clean up (i.e. remove all heap allocations) all the * elements (i.e. JSON objects and arrays) that have been placed in that * in-core tree. If jsp is NULL nothing further happens. Otherwise the pointer * to be returned is placed in jsp->basep. If jsp->pr_leadin is true and * util_name is non-NULL then a "utility_invoked" JSON object is made with * "name", and "version_date" object fields. If the jsp->pr_out_hr field is * true a named array called "output" is added to the "utility_invoked" object * (creating it in the case when jsp->pr_leadin is false) and a pointer to * that array object is placed in jsp->objectp . The returned pointer is not * usually needed but if it is NULL then a heap allocation has failed. */ sgj_opaque_p sgj_start_r(const char * util_name, const char * ver_str, int argc, char *argv[], sgj_state * jsp); /* These are low level functions returning a pointer to a newly created JSON * object or array. If jsp is NULL or jsp->pr_as_json is false nothing happens * and NULL is returned. Note that this JSON object is _not_ placed in the * in-core tree controlled by jsp (jsp->basep); it may be added later as the * fourth argument to sgj_js_nv_o(), for example. */ sgj_opaque_p sgj_new_unattached_object_r(sgj_state * jsp); sgj_opaque_p sgj_new_unattached_array_r(sgj_state * jsp); /* If jsp is NULL or jsp->pr_as_json is false nothing happens and NULL is * returned. Otherwise it creates a new named object (whose name is what * 'name' points to) at 'jop' with an empty object as its value; a pointer * to that empty object is returned. If 'jop' is NULL then jsp->basep is * used instead. The returned value should always be checked (for NULL) * and if not, used. */ sgj_opaque_p sgj_named_subobject_r(sgj_state * jsp, sgj_opaque_p jop, const char * name); sgj_opaque_p sgj_snake_named_subobject_r(sgj_state * jsp, sgj_opaque_p jop, const char * conv2sname); /* If jsp is NULL or jsp->pr_as_json is false nothing happens and NULL is * returned. Otherwise it creates a new named object (whose name is what * 'name' points to) at 'jop' with an empty array as its value; a pointer * to that empty array is returned. If 'jop' is NULL then jsp->basep is * used instead. The returned value should always * be checked (for NULL) * and if not, used. */ sgj_opaque_p sgj_named_subarray_r(sgj_state * jsp, sgj_opaque_p jop, const char * name); sgj_opaque_p sgj_snake_named_subarray_r(sgj_state * jsp, sgj_opaque_p jop, const char * conv2sname); /* If either jsp or value is NULL or jsp->pr_as_json is false then nothing * happens and NULL is returned. The insertion point is at jop but if it is * NULL jsp->basep is used. If 'name' is non-NULL a new named JSON object is * added using 'name' and the associated value is a JSON string formed from * 'value'. If 'name' is NULL then 'jop' is assumed to be a JSON array and * a JSON string formed from 'value' is added. Note that the jsp->pr_string * setting is ignored by this function. If successful returns a * a pointer * newly formed JSON string. */ sgj_opaque_p sgj_js_nv_s(sgj_state * jsp, sgj_opaque_p jop, const char * name, const char * value); sgj_opaque_p sgj_js_nv_s_len(sgj_state * jsp, sgj_opaque_p jop, const char * name, const char * value, int slen); /* If either jsp is NULL or jsp->pr_as_json is false then nothing happens and * NULL is returned. The insertion point is at jop but if it is NULL * jsp->basep is used. If 'name' is non-NULL a new named JSON object is * added using 'name' and the associated value is a JSON integer formed from * 'value'. If 'name' is NULL then 'jop' is assumed to be a JSON array and * a JSON integer formed from 'value' is added. If successful returns a * a pointer newly formed JSON integer. */ sgj_opaque_p sgj_js_nv_i(sgj_state * jsp, sgj_opaque_p jop, const char * name, int64_t value); /* If either jsp is NULL or jsp->pr_as_json is false then nothing happens and * NULL is returned. The insertion point is at jop but if it is NULL * jsp->basep is used. If 'name' is non-NULL a new named JSON object is * added using 'name' and the associated value is a JSON boolean formed from * 'value'. If 'name' is NULL then 'jop' is assumed to be a JSON array and * a JSON boolean formed from 'value' is added. If successful returns a * a pointer newly formed JSON boolean. */ sgj_opaque_p sgj_js_nv_b(sgj_state * jsp, sgj_opaque_p jop, const char * name, bool value); /* If jsp is NULL, jsp->pr_as_json is false or ua_jop is NULL nothing then * happens and NULL is returned. 'jop' is the insertion point but if it is * NULL jsp->basep is used instead. If 'name' is non-NULL a new named JSON * object is added using 'name' and the associated value is ua_jop. If 'name' * is NULL then 'jop' is assumed to be a JSON array and ua_jop is added to * it. If successful returns ua_jop . The "ua_" prefix stands for unattached. * That should be the case before invocation and it will be attached to jop * after a successful invocation. This means that ua_jop must have been * created by sgj_new_unattached_object_r() or similar. */ sgj_opaque_p sgj_js_nv_o(sgj_state * jsp, sgj_opaque_p jop, const char * name, sgj_opaque_p ua_jop); /* This function only produces JSON output if jsp is non-NULL and * jsp->pr_as_json is true. It adds a named object at 'jop' (or jop->basep * if jop is NULL) along with a value. If jsp->pr_hex is true then that * value is two sub-objects, one named 'i' with a 'value' as a JSON integer, * the other one named 'hex' with 'value' rendered as hex in a JSON string. * If jsp->pr_hex is false then there are no sub-objects and the 'value' is * rendered as JSON integer. */ void sgj_js_nv_ihex(sgj_state * jsp, sgj_opaque_p jop, const char * name, uint64_t value); /* This function only produces JSON output if jsp is non-NULL and * jsp->pr_as_json is true. It adds a named object at 'jop' (or jop->basep * if jop is NULL) along with a value. If jsp->pr_string is true then that * value is two sub-objects, one named 'i' with a 'val_i' as a JSON integer, * the other one named str_name with val_s rendered as a JSON string. If * str_name is NULL then "meaning" will be used. If jsp->pr_string is false * then there are no sub-objects and the 'val_i' is rendered as a JSON * integer. */ void sgj_js_nv_istr(sgj_state * jsp, sgj_opaque_p jop, const char * name, int64_t val_i, const char * str_name, const char * val_s); /* Similar to sgj_js_nv_istr(). The hex output is conditional jsp->pr_hex . */ void sgj_js_nv_ihexstr(sgj_state * jsp, sgj_opaque_p jop, const char * name, int64_t val_i, const char * str_name, const char * val_s); /* This function only produces JSON output if jsp is non-NULL and * jsp->pr_as_json is true. It adds a named object at 'jop' (or jop->basep * if jop is NULL) along with a value. If jsp->pr_name_ex is true then that * value is two sub-objects, one named 'i' with a 'val_i' as a JSON integer, * the other one named "abbreviated_name_expansion" with value nex_s rendered * as a JSON string. If jsp->pr_hex and 'hex_as_well' are true, then a * sub-object named 'hex' with a value rendered as a hex string equal to * val_i. If jsp->pr_name_ex is false and either jsp->pr_hex or hex_as_well are * false then there are no sub-objects and the 'val_i' is rendered as a JSON * integer. */ void sgj_js_nv_ihex_nex(sgj_state * jsp, sgj_opaque_p jop, const char * name, int64_t val_i, bool hex_as_well, const char * nex_s); void sgj_js_nv_ihexstr_nex(sgj_state * jsp, sgj_opaque_p jop, const char * name, int64_t val_i, bool hex_as_well, const char * str_name, const char * val_s, const char * nex_s); /* Add named field whose value is a (large) JSON string made up of num_bytes * ASCII hexadecimal bytes (each two hex digits separated by a space) starting * at byte_arr. The heap is used for intermediate storage so num_bytes can * be arbitrarily large. */ void sgj_js_nv_hex_bytes(sgj_state * jsp, sgj_opaque_p jop, const char * name, const uint8_t * byte_arr, int num_bytes); /* The '_haj_' refers to generating output both for human readable and/or * JSON with a single invocation. If jsp is non-NULL and jsp->pr_out_hr is * true then both JSON and human readable output is formed (and the latter is * placed in the jsp->out_hrp JSON array). The human readable form will have * leadin_sp spaces followed by 'name' then a separator, then 'value' with a * trailing LF. If 'name' is NULL then it and the separator are ignored. If * there is JSON output, then leadin_sp and sep are ignored. If 'jop' is NULL * then basep->basep is used. If 'name' is NULL then a JSON string object, * made from 'value' is added to the JSON array pointed to by 'jop'. * Otherwise a 'name'-d JSON object whose value is a JSON string object made * from 'value' is added at 'jop'. */ void sgj_haj_vs(sgj_state * jsp, sgj_opaque_p jop, int leadin_sp, const char * name, enum sgj_separator_t sep, const char * value); /* Similar to sgj_haj_vs()'s description with 'JSON string object' * replaced by 'JSON integer object'. */ void sgj_haj_vi(sgj_state * jsp, sgj_opaque_p jop, int leadin_sp, const char * name, enum sgj_separator_t sep, int64_t value, bool hex_as_well); void sgj_haj_vistr(sgj_state * jsp, sgj_opaque_p jop, int leadin_sp, const char * name, enum sgj_separator_t sep, int64_t value, bool hex_as_well, const char * val_s); /* The '_nex' refers to a "name_extra" (information) sub-object (a JSON * string) which explains a bit more about the 'name' entry. This is useful * when T10 specifies the name as an abbreviation (e.g. SYSV). Whether this * sub-object is shown in the JSON output is controlled by the 'n' control * character. */ void sgj_haj_vi_nex(sgj_state * jsp, sgj_opaque_p jop, int leadin_sp, const char * name, enum sgj_separator_t sep, int64_t value, bool hex_as_well, const char * nex_s); void sgj_haj_vistr_nex(sgj_state * jsp, sgj_opaque_p jop, int leadin_sp, const char * name, enum sgj_separator_t sep, int64_t value, bool hex_as_well, const char * val_s, const char * nex_s); /* Similar to above '_haj_' calls but a named sub-object is always formed * containing a JSON integer object named "i" whose value is 'value'. The * returned pointer is to that sub-object. */ sgj_opaque_p sgj_haj_subo_r(sgj_state * jsp, sgj_opaque_p jop, int leadin_sp, const char * name, enum sgj_separator_t sep, int64_t value, bool hex_as_well); /* Similar to sgj_haj_vs()'s description with 'JSON string object' replaced * by 'JSON boolean object'. */ void sgj_haj_vb(sgj_state * jsp, sgj_opaque_p jop, int leadin_sp, const char * name, enum sgj_separator_t sep, bool value); /* Breaks up the string pointed to by 'sp' into lines and adds them to the * jsp->out_hrp array. Treat '\n' in sp as line breaks. Consumes characters * from sp until either a '\0' is found or slen is exhausted. Add each line * to jsp->out_hrp JSON array (if conditions met). */ void sgj_js_str_out(sgj_state * jsp, const char * sp, int slen); /* This function only produces JSON output if jsp is non-NULL and * jsp->pr_as_json is true. 'sbp' is assumed to point to sense data as * defined by T10 with a length of 'sb_len' bytes. Returns false if an * issue is detected, else it returns true. */ bool sgj_js_sense(sgj_state * jsp, sgj_opaque_p jop, const uint8_t * sbp, int sb_len); bool sgj_js_designation_descriptor(sgj_state * jsp, sgj_opaque_p jop, const uint8_t * ddp, int dd_len); /* Nothing in the in-core JSON tree is actually printed to 'fp' (typically * stdout) until this call is made. If jsp is NULL, jsp->pr_as_json is false * or jsp->basep is NULL then this function does nothing. If jsp->exit_status * is true then a new JSON object named "exit_status" and the 'exit_status' * value rendered as a JSON integer is appended to jsp->basep. The in-core * JSON tree with jsp->basep as its root is streamed to 'fp'. */ void sgj_js2file(sgj_state * jsp, sgj_opaque_p jop, int exit_status, FILE * fp); /* This function is only needed if the pointer returned from either * sgj_new_unattached_object_r() or sgj_new_unattached_array_r() has not * been attached into the in-core JSON tree whose root is jsp->basep . */ void sgj_free_unattached(sgj_opaque_p jop); /* If jsp is NULL or jsp->basep is NULL then this function does nothing. * This function does bottom up, heap freeing of all the in-core JSON * objects and arrays attached to the root JSON object assumed to be * found at jsp->basep . After this call jsp->basep, jsp->out_hrp and * jsp->userp will all be set to NULL. */ void sgj_finish(sgj_state * jsp); char * sg_json_usage(int char_if_not_j, char * b, int blen); #ifdef __cplusplus } #endif #endif