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/*
* upb - a minimalist implementation of protocol buffers.
*
* Copyright (c) 2014 Google Inc. See LICENSE for details.
* Author: Josh Haberman <jhaberman@gmail.com>
*
* This currently uses snprintf() to format primitives, and could be optimized
* further.
*/
#include "upb/json/printer.h"
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <stdint.h>
// StringPiece; a pointer plus a length.
typedef struct {
const char *ptr;
size_t len;
} strpc;
strpc *newstrpc(upb_handlers *h, const upb_fielddef *f) {
strpc *ret = malloc(sizeof(*ret));
ret->ptr = upb_fielddef_name(f);
ret->len = strlen(ret->ptr);
upb_handlers_addcleanup(h, ret, free);
return ret;
}
// ------------ JSON string printing: values, maps, arrays --------------------
static void print_data(
upb_json_printer *p, const char *buf, unsigned int len) {
// TODO: Will need to change if we support pushback from the sink.
size_t n = upb_bytessink_putbuf(p->output_, p->subc_, buf, len, NULL);
UPB_ASSERT_VAR(n, n == len);
}
static void print_comma(upb_json_printer *p) {
if (!p->first_elem_[p->depth_]) {
print_data(p, ",", 1);
}
p->first_elem_[p->depth_] = false;
}
// Helpers that print properly formatted elements to the JSON output stream.
// Used for escaping control chars in strings.
static const char kControlCharLimit = 0x20;
static inline bool is_json_escaped(char c) {
// See RFC 4627.
unsigned char uc = (unsigned char)c;
return uc < kControlCharLimit || uc == '"' || uc == '\\';
}
static inline char* json_nice_escape(char c) {
switch (c) {
case '"': return "\\\"";
case '\\': return "\\\\";
case '\b': return "\\b";
case '\f': return "\\f";
case '\n': return "\\n";
case '\r': return "\\r";
case '\t': return "\\t";
default: return NULL;
}
}
// Write a properly escaped string chunk. The surrounding quotes are *not*
// printed; this is so that the caller has the option of emitting the string
// content in chunks.
static void putstring(upb_json_printer *p, const char *buf, unsigned int len) {
const char* unescaped_run = NULL;
for (unsigned int i = 0; i < len; i++) {
char c = buf[i];
// Handle escaping.
if (is_json_escaped(c)) {
// Use a "nice" escape, like \n, if one exists for this character.
const char* escape = json_nice_escape(c);
// If we don't have a specific 'nice' escape code, use a \uXXXX-style
// escape.
char escape_buf[8];
if (!escape) {
unsigned char byte = (unsigned char)c;
snprintf(escape_buf, sizeof(escape_buf), "\\u%04x", (int)byte);
escape = escape_buf;
}
// N.B. that we assume that the input encoding is equal to the output
// encoding (both UTF-8 for now), so for chars >= 0x20 and != \, ", we
// can simply pass the bytes through.
// If there's a current run of unescaped chars, print that run first.
if (unescaped_run) {
print_data(p, unescaped_run, &buf[i] - unescaped_run);
unescaped_run = NULL;
}
// Then print the escape code.
print_data(p, escape, strlen(escape));
} else {
// Add to the current unescaped run of characters.
if (unescaped_run == NULL) {
unescaped_run = &buf[i];
}
}
}
// If the string ended in a run of unescaped characters, print that last run.
if (unescaped_run) {
print_data(p, unescaped_run, &buf[len] - unescaped_run);
}
}
#define CHKLENGTH(x) if (!(x)) return -1;
// Helpers that format floating point values according to our custom formats.
// Right now we use %.8g and %.17g for float/double, respectively, to match
// proto2::util::JsonFormat's defaults. May want to change this later.
static size_t fmt_double(double val, char* buf, size_t length) {
size_t n = snprintf(buf, length, "%.17g", val);
CHKLENGTH(n > 0 && n < length);
return n;
}
static size_t fmt_float(float val, char* buf, size_t length) {
size_t n = snprintf(buf, length, "%.8g", val);
CHKLENGTH(n > 0 && n < length);
return n;
}
static size_t fmt_bool(bool val, char* buf, size_t length) {
size_t n = snprintf(buf, length, "%s", (val ? "true" : "false"));
CHKLENGTH(n > 0 && n < length);
return n;
}
static size_t fmt_int64(long val, char* buf, size_t length) {
size_t n = snprintf(buf, length, "%ld", val);
CHKLENGTH(n > 0 && n < length);
return n;
}
static size_t fmt_uint64(unsigned long long val, char* buf, size_t length) {
size_t n = snprintf(buf, length, "%llu", val);
CHKLENGTH(n > 0 && n < length);
return n;
}
// Print a map key given a field name. Called by scalar field handlers and by
// startseq for repeated fields.
static bool putkey(void *closure, const void *handler_data) {
upb_json_printer *p = closure;
const strpc *key = handler_data;
print_comma(p);
print_data(p, "\"", 1);
putstring(p, key->ptr, key->len);
print_data(p, "\":", 2);
return true;
}
#define CHKFMT(val) if ((val) == -1) return false;
#define CHK(val) if (!(val)) return false;
#define TYPE_HANDLERS(type, fmt_func) \
static bool put##type(void *closure, const void *handler_data, type val) { \
upb_json_printer *p = closure; \
UPB_UNUSED(handler_data); \
char data[64]; \
size_t length = fmt_func(val, data, sizeof(data)); \
CHKFMT(length); \
print_data(p, data, length); \
return true; \
} \
static bool scalar_##type(void *closure, const void *handler_data, \
type val) { \
CHK(putkey(closure, handler_data)); \
CHK(put##type(closure, handler_data, val)); \
return true; \
} \
static bool repeated_##type(void *closure, const void *handler_data, \
type val) { \
upb_json_printer *p = closure; \
print_comma(p); \
CHK(put##type(closure, handler_data, val)); \
return true; \
}
TYPE_HANDLERS(double, fmt_double);
TYPE_HANDLERS(float, fmt_float);
TYPE_HANDLERS(bool, fmt_bool);
TYPE_HANDLERS(int32_t, fmt_int64);
TYPE_HANDLERS(uint32_t, fmt_int64);
TYPE_HANDLERS(int64_t, fmt_int64);
TYPE_HANDLERS(uint64_t, fmt_uint64);
#undef TYPE_HANDLERS
typedef struct {
void *keyname;
const upb_enumdef *enumdef;
} EnumHandlerData;
static bool scalar_enum(void *closure, const void *handler_data,
int32_t val) {
const EnumHandlerData *hd = handler_data;
upb_json_printer *p = closure;
CHK(putkey(closure, hd->keyname));
const char *symbolic_name = upb_enumdef_iton(hd->enumdef, val);
if (symbolic_name) {
print_data(p, "\"", 1);
putstring(p, symbolic_name, strlen(symbolic_name));
print_data(p, "\"", 1);
} else {
putint32_t(closure, NULL, val);
}
return true;
}
static bool repeated_enum(void *closure, const void *handler_data,
int32_t val) {
const EnumHandlerData *hd = handler_data;
upb_json_printer *p = closure;
print_comma(p);
const char *symbolic_name = upb_enumdef_iton(hd->enumdef, val);
if (symbolic_name) {
print_data(p, "\"", 1);
putstring(p, symbolic_name, strlen(symbolic_name));
print_data(p, "\"", 1);
} else {
putint32_t(closure, NULL, val);
}
return true;
}
static void *scalar_startsubmsg(void *closure, const void *handler_data) {
return putkey(closure, handler_data) ? closure : UPB_BREAK;
}
static void *repeated_startsubmsg(void *closure, const void *handler_data) {
UPB_UNUSED(handler_data);
upb_json_printer *p = closure;
print_comma(p);
return closure;
}
static bool startmap(void *closure, const void *handler_data) {
UPB_UNUSED(handler_data);
upb_json_printer *p = closure;
if (p->depth_++ == 0) {
upb_bytessink_start(p->output_, 0, &p->subc_);
}
p->first_elem_[p->depth_] = true;
print_data(p, "{", 1);
return true;
}
static bool endmap(void *closure, const void *handler_data, upb_status *s) {
UPB_UNUSED(handler_data);
UPB_UNUSED(s);
upb_json_printer *p = closure;
if (--p->depth_ == 0) {
upb_bytessink_end(p->output_);
}
print_data(p, "}", 1);
return true;
}
static void *startseq(void *closure, const void *handler_data) {
upb_json_printer *p = closure;
CHK(putkey(closure, handler_data));
p->depth_++;
p->first_elem_[p->depth_] = true;
print_data(p, "[", 1);
return closure;
}
static bool endseq(void *closure, const void *handler_data) {
UPB_UNUSED(handler_data);
upb_json_printer *p = closure;
print_data(p, "]", 1);
p->depth_--;
return true;
}
static size_t putstr(void *closure, const void *handler_data, const char *str,
size_t len, const upb_bufhandle *handle) {
UPB_UNUSED(handler_data);
UPB_UNUSED(handle);
upb_json_printer *p = closure;
putstring(p, str, len);
return len;
}
// This has to Base64 encode the bytes, because JSON has no "bytes" type.
static size_t putbytes(void *closure, const void *handler_data, const char *str,
size_t len, const upb_bufhandle *handle) {
UPB_UNUSED(handler_data);
UPB_UNUSED(handle);
upb_json_printer *p = closure;
// This is the regular base64, not the "web-safe" version.
static const char base64[] =
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
// Base64-encode.
char data[16000];
const char *limit = data + sizeof(data);
const unsigned char *from = (const unsigned char*)str;
char *to = data;
size_t remaining = len;
while (remaining > 2) {
// TODO(haberman): handle encoded lengths > sizeof(data)
UPB_ASSERT_VAR(limit, (limit - to) >= 4);
to[0] = base64[from[0] >> 2];
to[1] = base64[((from[0] & 0x3) << 4) | (from[1] >> 4)];
to[2] = base64[((from[1] & 0xf) << 2) | (from[2] >> 6)];
to[3] = base64[from[2] & 0x3f];
remaining -= 3;
to += 4;
from += 3;
}
switch (remaining) {
case 2:
to[0] = base64[from[0] >> 2];
to[1] = base64[((from[0] & 0x3) << 4) | (from[1] >> 4)];
to[2] = base64[(from[1] & 0xf) << 2];
to[3] = '=';
to += 4;
from += 2;
break;
case 1:
to[0] = base64[from[0] >> 2];
to[1] = base64[((from[0] & 0x3) << 4)];
to[2] = '=';
to[3] = '=';
to += 4;
from += 1;
break;
}
size_t bytes = to - data;
print_data(p, "\"", 1);
putstring(p, data, bytes);
print_data(p, "\"", 1);
return len;
}
static void *scalar_startstr(void *closure, const void *handler_data,
size_t size_hint) {
UPB_UNUSED(handler_data);
UPB_UNUSED(size_hint);
upb_json_printer *p = closure;
CHK(putkey(closure, handler_data));
print_data(p, "\"", 1);
return p;
}
static size_t scalar_str(void *closure, const void *handler_data,
const char *str, size_t len,
const upb_bufhandle *handle) {
CHK(putstr(closure, handler_data, str, len, handle));
return len;
}
static bool scalar_endstr(void *closure, const void *handler_data) {
UPB_UNUSED(handler_data);
upb_json_printer *p = closure;
print_data(p, "\"", 1);
return true;
}
static void *repeated_startstr(void *closure, const void *handler_data,
size_t size_hint) {
UPB_UNUSED(handler_data);
UPB_UNUSED(size_hint);
upb_json_printer *p = closure;
print_comma(p);
print_data(p, "\"", 1);
return p;
}
static size_t repeated_str(void *closure, const void *handler_data,
const char *str, size_t len,
const upb_bufhandle *handle) {
CHK(putstr(closure, handler_data, str, len, handle));
return len;
}
static bool repeated_endstr(void *closure, const void *handler_data) {
UPB_UNUSED(handler_data);
upb_json_printer *p = closure;
print_data(p, "\"", 1);
return true;
}
static size_t scalar_bytes(void *closure, const void *handler_data,
const char *str, size_t len,
const upb_bufhandle *handle) {
CHK(putkey(closure, handler_data));
CHK(putbytes(closure, handler_data, str, len, handle));
return len;
}
static size_t repeated_bytes(void *closure, const void *handler_data,
const char *str, size_t len,
const upb_bufhandle *handle) {
upb_json_printer *p = closure;
print_comma(p);
CHK(putbytes(closure, handler_data, str, len, handle));
return len;
}
void printer_sethandlers(const void *closure, upb_handlers *h) {
UPB_UNUSED(closure);
upb_handlerattr empty_attr = UPB_HANDLERATTR_INITIALIZER;
upb_handlers_setstartmsg(h, startmap, &empty_attr);
upb_handlers_setendmsg(h, endmap, &empty_attr);
#define TYPE(type, name, ctype) \
case type: \
if (upb_fielddef_isseq(f)) { \
upb_handlers_set##name(h, f, repeated_##ctype, &empty_attr); \
} else { \
upb_handlers_set##name(h, f, scalar_##ctype, &name_attr); \
} \
break;
upb_msg_field_iter i;
upb_msg_field_begin(&i, upb_handlers_msgdef(h));
for(; !upb_msg_field_done(&i); upb_msg_field_next(&i)) {
const upb_fielddef *f = upb_msg_iter_field(&i);
upb_handlerattr name_attr = UPB_HANDLERATTR_INITIALIZER;
upb_handlerattr_sethandlerdata(&name_attr, newstrpc(h, f));
if (upb_fielddef_isseq(f)) {
upb_handlers_setstartseq(h, f, startseq, &name_attr);
upb_handlers_setendseq(h, f, endseq, &empty_attr);
}
switch (upb_fielddef_type(f)) {
TYPE(UPB_TYPE_FLOAT, float, float);
TYPE(UPB_TYPE_DOUBLE, double, double);
TYPE(UPB_TYPE_BOOL, bool, bool);
TYPE(UPB_TYPE_INT32, int32, int32_t);
TYPE(UPB_TYPE_UINT32, uint32, uint32_t);
TYPE(UPB_TYPE_INT64, int64, int64_t);
TYPE(UPB_TYPE_UINT64, uint64, uint64_t);
case UPB_TYPE_ENUM: {
// For now, we always emit symbolic names for enums. We may want an
// option later to control this behavior, but we will wait for a real
// need first.
EnumHandlerData *hd = malloc(sizeof(EnumHandlerData));
hd->enumdef = (const upb_enumdef *)upb_fielddef_subdef(f);
hd->keyname = newstrpc(h, f);
upb_handlers_addcleanup(h, hd, free);
upb_handlerattr enum_attr = UPB_HANDLERATTR_INITIALIZER;
upb_handlerattr_sethandlerdata(&enum_attr, hd);
if (upb_fielddef_isseq(f)) {
upb_handlers_setint32(h, f, repeated_enum, &enum_attr);
} else {
upb_handlers_setint32(h, f, scalar_enum, &enum_attr);
}
upb_handlerattr_uninit(&enum_attr);
break;
}
case UPB_TYPE_STRING:
if (upb_fielddef_isseq(f)) {
upb_handlers_setstartstr(h, f, repeated_startstr, &empty_attr);
upb_handlers_setstring(h, f, repeated_str, &empty_attr);
upb_handlers_setendstr(h, f, repeated_endstr, &empty_attr);
} else {
upb_handlers_setstartstr(h, f, scalar_startstr, &name_attr);
upb_handlers_setstring(h, f, scalar_str, &empty_attr);
upb_handlers_setendstr(h, f, scalar_endstr, &empty_attr);
}
break;
case UPB_TYPE_BYTES:
// XXX: this doesn't support strings that span buffers yet. The base64
// encoder will need to be made resumable for this to work properly.
if (upb_fielddef_isseq(f)) {
upb_handlers_setstring(h, f, repeated_bytes, &empty_attr);
} else {
upb_handlers_setstring(h, f, scalar_bytes, &name_attr);
}
break;
case UPB_TYPE_MESSAGE:
if (upb_fielddef_isseq(f)) {
upb_handlers_setstartsubmsg(h, f, repeated_startsubmsg, &name_attr);
} else {
upb_handlers_setstartsubmsg(h, f, scalar_startsubmsg, &name_attr);
}
break;
}
upb_handlerattr_uninit(&name_attr);
}
upb_handlerattr_uninit(&empty_attr);
#undef TYPE
}
/* Public API *****************************************************************/
void upb_json_printer_init(upb_json_printer *p, const upb_handlers *h) {
p->output_ = NULL;
p->depth_ = 0;
upb_sink_reset(&p->input_, h, p);
}
void upb_json_printer_uninit(upb_json_printer *p) {
UPB_UNUSED(p);
}
void upb_json_printer_reset(upb_json_printer *p) {
p->depth_ = 0;
}
void upb_json_printer_resetoutput(upb_json_printer *p, upb_bytessink *output) {
upb_json_printer_reset(p);
p->output_ = output;
}
upb_sink *upb_json_printer_input(upb_json_printer *p) {
return &p->input_;
}
const upb_handlers *upb_json_printer_newhandlers(const upb_msgdef *md,
const void *owner) {
return upb_handlers_newfrozen(md, owner, printer_sethandlers, NULL);
}
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