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json.cpp
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json.cpp
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/*
* json.cpp
*
* Home page of code is: https://www.smartmontools.org
*
* Copyright (C) 2017-22 Christian Franke
*
* SPDX-License-Identifier: GPL-2.0-or-later
*/
#include "config.h"
#define __STDC_FORMAT_MACROS 1 // enable PRI* for C++
#include "json.h"
const char * json_cvsid = "$Id$"
JSON_H_CVSID;
#include "sg_unaligned.h"
#include "utility.h" // regular_expression, uint128_*()
#include <inttypes.h>
#include <stdexcept>
static void jassert_failed(int line, const char * expr)
{
char msg[128];
// Avoid __FILE__ as it may break reproducible builds
snprintf(msg, sizeof(msg), "json.cpp(%d): Assertion failed: %s", line, expr);
throw std::logic_error(msg);
}
#define jassert(expr) (!(expr) ? jassert_failed(__LINE__, #expr) : (void)0)
/* Convert to json "snake" format. It will contains only lower case ASCII
* alphanumeric characters with all other characters replaced with the
* underscore character. Further, all leading and trailing underscores are
* removed and repeated underscores with the name are reduced to a single
* underscore.
* For example "$Output power (mW)" becomes "output_power_mw". */
std::string json::str2key(const char * str)
{
bool prev_underscore = false;
size_t i_sz = strlen(str);
int o_ind = 0;
/* resultant string's size will be <= input string */
std::string res(i_sz, ' ');
const char * cp = str;
static const int lower_alpha_off = 'a' - 'A';
for ( ; *cp ; ++cp) {
char c = *cp;
if (('0' <= c && c <= '9') || ('a' <= c && c <= 'z')) {
res[o_ind++] = c;
prev_underscore = false;
} else if ('A' <= c && c <= 'Z') {
res[o_ind++] = c + lower_alpha_off;
prev_underscore = false;
} else {
if ((o_ind > 0) && ! prev_underscore) {
res[o_ind++] = '_';
prev_underscore = true;
}
}
}
if (o_ind == 0) /* leave single '_' in degenerate case */
res[o_ind++] = '_';
else if (res[o_ind - 1] == '_')
--o_ind; /* may be trailing underscore, remove */
res.erase(o_ind);
return res;
}
json::ref::ref(json & js)
: m_js(js)
{
}
json::ref::ref(json & js, const char * keystr)
: m_js(js)
{
jassert(keystr && *keystr);
m_path.push_back(node_info(keystr));
}
json::ref::ref(const ref & base, const char * keystr)
: m_js(base.m_js), m_path(base.m_path)
{
jassert(keystr && *keystr);
m_path.push_back(node_info(keystr));
}
json::ref::ref(const ref & base, int index)
: m_js(base.m_js), m_path(base.m_path)
{
jassert(0 <= index && index < 10000); // Limit: large arrays not supported
m_path.push_back(node_info(index));
}
json::ref::ref(const ref & base, const char * /*dummy*/, const char * key_suffix)
: m_js(base.m_js), m_path(base.m_path)
{
int n = (int)m_path.size(), i;
for (i = n; --i >= 0; ) {
std::string & base_key = m_path[i].key;
if (base_key.empty())
continue; // skip array
base_key += key_suffix;
break;
}
jassert(i >= 0); // Limit: top level element must be an object
}
json::ref::~ref()
{
}
void json::ref::operator=(bool value)
{
m_js.set_bool(m_path, value);
}
void json::ref::operator=(long long value)
{
m_js.set_int64(m_path, (int64_t)value);
}
void json::ref::operator=(unsigned long long value)
{
m_js.set_uint64(m_path, (uint64_t)value);
}
void json::ref::operator=(int value)
{
operator=((long long)value);
}
void json::ref::operator=(unsigned value)
{
operator=((unsigned long long)value);
}
void json::ref::operator=(long value)
{
operator=((long long)value);
}
void json::ref::operator=(unsigned long value)
{
operator=((unsigned long long)value);
}
void json::ref::operator=(const char * value)
{
m_js.set_cstring(m_path, value);
}
void json::ref::operator=(const std::string & value)
{
m_js.set_string(m_path, value);
}
void json::ref::set_uint128(uint64_t value_hi, uint64_t value_lo)
{
if (!value_hi)
operator=((unsigned long long)value_lo);
else
m_js.set_uint128(m_path, value_hi, value_lo);
}
bool json::ref::set_if_safe_uint64(uint64_t value)
{
if (!is_safe_uint(value))
return false;
operator=((unsigned long long)value);
return true;
}
bool json::ref::set_if_safe_uint128(uint64_t value_hi, uint64_t value_lo)
{
if (value_hi)
return false;
return set_if_safe_uint64(value_lo);
}
bool json::ref::set_if_safe_le128(const void * pvalue)
{
return set_if_safe_uint128(sg_get_unaligned_le64((const uint8_t *)pvalue + 8),
sg_get_unaligned_le64( pvalue ));
}
void json::ref::set_unsafe_uint64(uint64_t value)
{
// Output as number "KEY"
operator=((unsigned long long)value);
if (!m_js.m_verbose && is_safe_uint(value))
return;
// Output as string "KEY_s"
char s[32];
snprintf(s, sizeof(s), "%" PRIu64, value);
with_suffix("_s") = s;
}
void json::ref::set_unsafe_uint128(uint64_t value_hi, uint64_t value_lo)
{
if (!m_js.m_verbose && !value_hi)
set_unsafe_uint64(value_lo);
else {
// Output as number "KEY", string "KEY_s" and LE byte array "KEY_le[]"
m_js.m_uint128_output = true;
set_uint128(value_hi, value_lo);
char s[64];
with_suffix("_s") = uint128_hilo_to_str(s, value_hi, value_lo);
ref le = with_suffix("_le");
for (int i = 0; i < 8; i++) {
uint64_t v = (value_lo >> (i << 3));
if (!v && !value_hi)
break;
le[i] = v & 0xff;
}
for (int i = 0; i < 8; i++) {
uint64_t v = value_hi >> (i << 3);
if (!v)
break;
le[8 + i] = v & 0xff;
}
}
}
void json::ref::set_unsafe_le128(const void * pvalue)
{
set_unsafe_uint128(sg_get_unaligned_le64((const uint8_t *)pvalue + 8),
sg_get_unaligned_le64( pvalue ));
}
void json::ref::operator+=(std::initializer_list<initlist_key_value_pair> ilist)
{
for (const initlist_key_value_pair & kv : ilist) {
jassert(kv.keystr && *kv.keystr);
switch (kv.value.type) {
default: operator[](kv.keystr) = kv.value; break;
case nt_object: operator[](kv.keystr) += kv.object; break;
case nt_array: operator[](kv.keystr) += kv.array; break;
}
}
}
void json::ref::operator+=(std::initializer_list<initlist_value> ilist)
{
int i = 0;
for (const initlist_value & v : ilist)
operator[](i++) = v;
}
json::node::node()
{
}
json::node::node(const std::string & key_)
: key(key_)
{
}
json::node::~node()
{
}
json::node::const_iterator::const_iterator(const json::node * node_p, bool sorted)
: m_node_p(node_p),
m_use_map(sorted && node_p->type == nt_object)
{
if (m_use_map)
m_key_iter = node_p->key2index.begin();
}
bool json::node::const_iterator::at_end() const
{
if (m_use_map)
return (m_key_iter == m_node_p->key2index.end());
else
return (m_child_idx >= m_node_p->childs.size());
}
unsigned json::node::const_iterator::array_index() const
{
jassert(m_node_p->type == nt_array);
return m_child_idx;
}
void json::node::const_iterator::operator++()
{
if (m_use_map)
++m_key_iter;
else
++m_child_idx;
}
const json::node * json::node::const_iterator::operator*() const
{
if (m_use_map)
return m_node_p->childs[m_key_iter->second].get();
else
return m_node_p->childs[m_child_idx].get();
}
json::node * json::find_or_create_node(const json::node_path & path, node_type type)
{
node * p = &m_root_node;
for (unsigned i = 0; i < path.size(); i++) {
const node_info & pi = path[i];
if (!pi.key.empty()) {
// Object
if (p->type == nt_unset)
p->type = nt_object;
else
jassert(p->type == nt_object); // Limit: type change not supported
// Existing or new object element?
node::keymap::iterator ni = p->key2index.find(pi.key);
node * p2;
if (ni != p->key2index.end()) {
// Object element exists
p2 = p->childs[ni->second].get();
}
else {
// Create new object element
p->key2index[pi.key] = (unsigned)p->childs.size();
p->childs.push_back(std::unique_ptr<node>(p2 = new node(pi.key)));
}
jassert(p2 && p2->key == pi.key);
p = p2;
}
else {
// Array
if (p->type == nt_unset)
p->type = nt_array;
else
jassert(p->type == nt_array); // Limit: type change not supported
node * p2;
// Existing or new array element?
if (pi.index < (int)p->childs.size()) {
// Array index exists
p2 = p->childs[pi.index].get();
if (!p2) // Already created ?
p->childs[pi.index].reset(p2 = new node);
}
else {
// Grow array, fill gap, create new element
p->childs.resize(pi.index + 1);
p->childs[pi.index].reset(p2 = new node);
}
jassert(p2 && p2->key.empty());
p = p2;
}
}
if ( p->type == nt_unset
|| ( nt_int <= p->type && p->type <= nt_uint128
&& nt_int <= type && type <= nt_uint128))
p->type = type;
else
jassert(p->type == type); // Limit: type change not supported
return p;
}
void json::set_bool(const node_path & path, bool value)
{
if (!m_enabled)
return;
find_or_create_node(path, nt_bool)->intval = (value ? 1 : 0);
}
void json::set_int64(const node_path & path, int64_t value)
{
if (!m_enabled)
return;
find_or_create_node(path, nt_int)->intval = (uint64_t)value;
}
void json::set_uint64(const node_path & path, uint64_t value)
{
if (!m_enabled)
return;
find_or_create_node(path, nt_uint)->intval = value;
}
void json::set_uint128(const node_path & path, uint64_t value_hi, uint64_t value_lo)
{
if (!m_enabled)
return;
node * p = find_or_create_node(path, nt_uint128);
p->intval_hi = value_hi;
p->intval = value_lo;
}
void json::set_cstring(const node_path & path, const char * value)
{
if (!m_enabled)
return;
jassert(value != nullptr); // Limit: nullptr not supported
find_or_create_node(path, nt_string)->strval = value;
}
void json::set_string(const node_path & path, const std::string & value)
{
if (!m_enabled)
return;
find_or_create_node(path, nt_string)->strval = value;
}
void json::set_initlist_value(const node_path & path, const initlist_value & val)
{
if (!m_enabled)
return;
node * p = find_or_create_node(path, val.type);
switch (p->type) {
case nt_bool: case nt_int: case nt_uint: p->intval = val.intval; break;
case nt_string: p->strval = val.strval; break;
default: jassert(false);
}
}
// Return -1 if all UTF-8 sequences are valid, else return index of first invalid char
static int check_utf8(const char * s)
{
int state = 0, i;
for (i = 0; s[i]; i++) {
unsigned char c = s[i];
// 0xb... (C++14) not used to preserve C++11 compatibility
if ((c & 0xc0) == 0x80) { // 0xb10xxxxx
if (--state < 0)
return i;
}
else {
if (state != 0)
return i;
if (!(c & 0x80)) // 0xb0xxxxxxx
;
else if ((c & 0xe0) == 0xc0 && (c & 0x1f)) // 0xb110xxxxx
state = 1;
else if ((c & 0xf0) == 0xe0 && (c & 0x0f)) // 0xb1110xxxx
state = 2;
else if ((c & 0xf8) == 0xf0 && (c & 0x07)) // 0xb11110xxx
state = 3;
else
return i;
}
}
if (state != 0)
return i;
return -1;
}
static void print_quoted_string(FILE * f, const char * s)
{
int utf8_rc = -2;
putc('"', f);
for (int i = 0; s[i]; i++) {
char c = s[i];
if (c == '"' || c == '\\')
putc('\\', f);
else if (c == '\t') {
putc('\\', f); c = 't';
}
// Print as UTF-8 unless the string contains any invalid sequences
// "\uXXXX" is not used because it is not valid for YAML
if ( (' ' <= c && c <= '~')
|| ((c & 0x80) && (utf8_rc >= -1 ? utf8_rc : (utf8_rc = check_utf8(s + i))) == -1))
putc(c, f);
else
// Print informal hex string for unexpected chars:
// Control chars (except TAB), DEL(0x7f), bit 7 set and no valid UTF-8
fprintf(f, "\\\\x%02x", (unsigned char)c);
}
putc('"', f);
}
static char yaml_string_needs_quotes(const char * s)
{
if (!*s)
return '\''; // empty string
bool need = false; char quotes = '\'';
for (int i = 0; s[i]; i++) {
char c = s[i];
if (!(' ' <= c && c <= '~'))
return '"'; // non-ascii char
if ( ('0' <= c && c <= '9') || ('A' <= c && c <= 'Z')
|| ('a' <= c && c <= 'z') || c == '_' )
continue;
if (c == '\'') // if string contains any single quote
quotes = '"'; // use double quotes
if (i == 0)
need = true; // space or special char except '_' at BOL
else if (c == ' ' && (s[i-1] == ':' || s[i+1] == '#'))
need = true; // ": " or " #"
else if ((c == ' ' || c == ':') && !s[i+1])
need = true; // space or : at EOL
}
if (need)
return quotes;
static const regular_expression special(
"[0-9]+[,0-9]*(\\.[0-9]*)?([eE][-+]?[0-9]+)?|" // decimal ('^[-+.]' handled above)
"0x[0-7A-Fa-f]+|" // hex
"[Ff][Aa][Ll][Ss][Ee]|[Tt][Rr][Uu][Ee]|[Nn][Oo]|[Yy][Ee][Ss]|" // boolean
"[Nn][Uu][Ll][Ll]" // null
);
if (special.full_match(s))
return quotes; // special token
return 0; // none of the above
}
void json::print_json(FILE * f, bool pretty, bool sorted, const node * p, int level)
{
bool is_obj = (p->type == nt_object);
switch (p->type) {
case nt_object:
case nt_array:
putc((is_obj ? '{' : '['), f);
if (!p->childs.empty()) {
bool first = true;
for (node::const_iterator it(p, sorted); !it.at_end(); ++it) {
if (!first)
putc(',', f);
if (pretty)
fprintf(f, "\n%*s", (level + 1) * 2, "");
const node * p2 = *it;
if (!p2) {
// Unset element of sparse array
jassert(!is_obj);
fputs("null", f);
}
else {
jassert(is_obj == !p2->key.empty());
if (is_obj)
fprintf(f, "\"%s\":%s", p2->key.c_str(), (pretty ? " " : ""));
// Recurse
print_json(f, pretty, sorted, p2, level + 1);
}
first = false;
}
if (pretty)
fprintf(f, "\n%*s", level * 2, "");
}
putc((is_obj ? '}' : ']'), f);
break;
case nt_bool:
fputs((p->intval ? "true" : "false"), f);
break;
case nt_int:
fprintf(f, "%" PRId64, (int64_t)p->intval);
break;
case nt_uint:
fprintf(f, "%" PRIu64, p->intval);
break;
case nt_uint128:
{
char buf[64];
fputs(uint128_hilo_to_str(buf, p->intval_hi, p->intval), f);
}
break;
case nt_string:
print_quoted_string(f, p->strval.c_str());
break;
default: jassert(false);
}
}
void json::print_yaml(FILE * f, bool pretty, bool sorted, const node * p, int level_o,
int level_a, bool cont)
{
bool is_obj = (p->type == nt_object);
switch (p->type) {
case nt_object:
case nt_array:
if (!p->childs.empty()) {
if (!cont)
fputs("\n", f);
for (node::const_iterator it(p, sorted); !it.at_end(); ++it) {
int spaces = (cont ? 1 : (is_obj ? level_o : level_a) * 2);
if (spaces > 0)
fprintf(f, "%*s", spaces, "");
const node * p2 = *it;
if (!p2) {
// Unset element of sparse array
jassert(!is_obj);
fputs("-" /*" null"*/ "\n", f);
}
else {
jassert(is_obj == !p2->key.empty());
if (is_obj)
fprintf(f, "%s:", p2->key.c_str());
else
putc('-', f);
// Recurse
print_yaml(f, pretty, sorted, p2, (is_obj ? level_o : level_a) + 1,
(is_obj ? level_o + (pretty ? 1 : 0) : level_a + 1), !is_obj);
}
cont = false;
}
}
else {
fputs((is_obj ? "{}\n" : "[]\n"), f);
}
break;
case nt_bool:
fputs((p->intval ? " true\n" : " false\n"), f);
break;
case nt_int:
fprintf(f, " %" PRId64 "\n", (int64_t)p->intval);
break;
case nt_uint:
fprintf(f, " %" PRIu64 "\n", p->intval);
break;
case nt_uint128:
{
char buf[64];
fprintf(f, " %s\n", uint128_hilo_to_str(buf, p->intval_hi, p->intval));
}
break;
case nt_string:
putc(' ', f);
switch (yaml_string_needs_quotes(p->strval.c_str())) {
default: print_quoted_string(f, p->strval.c_str()); break;
case '\'': fprintf(f, "'%s'", p->strval.c_str()); break;
case 0: fputs(p->strval.c_str(), f); break;
}
putc('\n', f);
break;
default: jassert(false);
}
}
void json::print_flat(FILE * f, const char * assign, bool sorted, const node * p,
std::string & path)
{
bool is_obj = (p->type == nt_object);
switch (p->type) {
case nt_object:
case nt_array:
fprintf(f, "%s%s%s;\n", path.c_str(), assign, (is_obj ? "{}" : "[]"));
if (!p->childs.empty()) {
unsigned len = path.size();
for (node::const_iterator it(p, sorted); !it.at_end(); ++it) {
const node * p2 = *it;
if (!is_obj) {
char buf[10]; snprintf(buf, sizeof(buf), "[%u]", it.array_index());
path += buf;
}
else {
path += '.'; path += p2->key;
}
if (!p2) {
// Unset element of sparse array
jassert(!is_obj);
fprintf(f, "%s%snull;\n", path.c_str(), assign);
}
else {
// Recurse
print_flat(f, assign, sorted, p2, path);
}
path.erase(len);
}
}
break;
case nt_bool:
fprintf(f, "%s%s%s;\n", path.c_str(), assign, (p->intval ? "true" : "false"));
break;
case nt_int:
fprintf(f, "%s%s%" PRId64 ";\n", path.c_str(), assign, (int64_t)p->intval);
break;
case nt_uint:
fprintf(f, "%s%s%" PRIu64 ";\n", path.c_str(), assign, p->intval);
break;
case nt_uint128:
{
char buf[64];
fprintf(f, "%s%s%s;\n", path.c_str(), assign,
uint128_hilo_to_str(buf, p->intval_hi, p->intval));
}
break;
case nt_string:
fprintf(f, "%s%s", path.c_str(), assign);
print_quoted_string(f, p->strval.c_str());
fputs(";\n", f);
break;
default: jassert(false);
}
}
void json::print(FILE * f, const print_options & options) const
{
if (m_root_node.type == nt_unset)
return;
jassert(m_root_node.type == nt_object);
switch (options.format) {
default:
print_json(f, options.pretty, options.sorted, &m_root_node, 0);
if (options.pretty)
putc('\n', f);
break;
case 'y':
fputs("---", f);
print_yaml(f, options.pretty, options.sorted, &m_root_node, 0, 0, false);
break;
case 'g': {
std::string path("json");
print_flat(f, (options.pretty ? " = " : "="), options.sorted, &m_root_node, path);
}
break;
}
}