Files
bux-lang/tests/golden/strings/expected.c
T
dimgigov aaeb01e518 feat(nexus): production modular HTTP/1.1 server + compiler fixes
- Rewrite apps/nexus with modular architecture:
  Config, Http, Errors, Parser, Router, Handlers, Server, Main
- Use algebraic enums for ParseResult/FileResult/HttpError
- Thread-pool server via Channel<ConnectionTask> and spawn
- Fix C backend type ordering for generic struct instances
  (Array_T, Iter_T) and algebraic enum struct payloads
- Collect Slice_T types from struct fields and enum payloads
- Fix match lowering for simple enums (direct value compare)
- Resolve match expression return type from first arm
- Infer element type for for-in over Array<UserStruct>
- Preserve generic type args in field access resolution
- Add fflush to PrintLine/Print for immediate server logs
- Add modern_features golden regression test
- Regenerate golden expected.c files
2026-06-15 00:54:03 +03:00

4869 lines
115 KiB
C

/* Generated by Bux Compiler (LIR backend) */
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <stdbool.h>
#include <string.h>
typedef struct TaskHandle TaskHandle;
typedef struct Mutex Mutex;
typedef struct RwLock RwLock;
typedef struct JsonValue JsonValue;
typedef struct JsonParser JsonParser;
typedef struct StringBuilder StringBuilder;
typedef struct Channel_int Channel_int;
typedef struct Channel_float64 Channel_float64;
typedef struct Drop_FatPtr Drop_FatPtr;
/* Extern function declarations */
extern int bux_dir_exists(const char* path);
extern int bux_mkdir_if_needed(const char* path);
extern const char** bux_list_dir(const char* dir, const char* ext, int* out_count);
extern void PrintLine(const char* s);
extern void Print(const char* s);
extern void PrintInt(int n);
extern void PrintInt64(int64_t n);
extern void PrintFloat(double f);
extern void PrintBool(bool b);
extern const char* ReadLine(void);
extern const char* bux_read_file(const char* path);
extern int bux_write_file(const char* path, const char* content);
extern int bux_file_exists(const char* path);
extern double bux_sqrt(double x);
extern double bux_pow(double x, double y);
extern int64_t bux_abs_i64(int64_t x);
extern double bux_abs_f64(double x);
extern int64_t bux_min_i64(int64_t a, int64_t b);
extern int64_t bux_max_i64(int64_t a, int64_t b);
extern double bux_min_f64(double a, double b);
extern double bux_max_f64(double a, double b);
extern void* bux_alloc(unsigned int size);
extern void* bux_realloc(void* ptr, unsigned int size);
extern void bux_free(void* ptr);
extern int bux_mem_eq(void* a, void* b, unsigned int size);
extern const char* bux_path_join(const char* a, const char* b);
extern const char* bux_path_parent(const char* path);
extern const char* bux_path_ext(const char* path);
extern void bux_task_init(int num_workers);
extern void* bux_task_spawn(void* fn, void* arg);
extern void bux_task_join(void* handle);
extern void bux_task_sleep(int64_t ms);
extern void bux_task_yield(void);
extern int bux_task_current_id(void);
extern void bux_task_shutdown(void);
extern int bux_argc(void);
extern const char* bux_argv(int index);
extern const char* bux_getenv(const char* name);
extern int bux_setenv(const char* name, const char* value);
extern const char* bux_getcwd(void);
extern int bux_chdir(const char* path);
extern int64_t bux_time_ms(void);
extern int64_t bux_time_us(void);
extern void bux_sleep_ms(int64_t ms);
extern int bux_process_run(const char* cmd);
extern const char* bux_process_output(const char* cmd);
extern int bux_socket_create(void);
extern int bux_socket_reuse(int fd);
extern int bux_socket_bind(int fd, const char* addr, int port);
extern int bux_socket_listen(int fd, int backlog);
extern int bux_socket_accept(int fd);
extern int bux_socket_connect(int fd, const char* addr, int port);
extern int bux_socket_send(int fd, const char* data, int len);
extern const char* bux_socket_recv(int fd, int maxLen);
extern int bux_socket_close(int fd);
extern const char* bux_socket_error(void);
extern unsigned int bux_strlen(const char* s);
extern int64_t bux_str_to_int(const char* s);
extern void* bux_alloc(unsigned int size);
extern void bux_sha256(const char* data, int len, void* out);
extern void bux_hmac_sha256(const char* key, int keylen, const char* msg, int msglen, void* out);
extern int bux_random_bytes(void* buf, int len);
extern const char* bux_base64_encode(const char* data, int len);
extern const char* bux_base64_decode(const char* data, int len, int* outlen);
extern const char* bux_bytes_to_hex(void* data, int len);
extern void* bux_mutex_new(void);
extern void bux_mutex_lock(void* handle);
extern void bux_mutex_unlock(void* handle);
extern void bux_mutex_free(void* handle);
extern void* bux_rwlock_new(void);
extern void bux_rwlock_rdlock(void* handle);
extern void bux_rwlock_wrlock(void* handle);
extern void bux_rwlock_unlock(void* handle);
extern void bux_rwlock_free(void* handle);
extern void bux_exit(int code);
extern void bux_assert(int cond, const char* file, int line, const char* expr);
extern JsonValue JsonParser_ParseValue(JsonParser* p);
extern unsigned int bux_strlen(const char* s);
extern int bux_strcmp(const char* a, const char* b);
extern int bux_strncmp(const char* a, const char* b, unsigned int n);
extern char* bux_strcpy(char* dest, const char* src);
extern char* bux_strcat(char* dest, const char* src);
extern char* bux_strncpy(char* dest, const char* src, unsigned int n);
extern const char* bux_strstr(const char* haystack, const char* needle);
extern int bux_str_contains(const char* haystack, const char* needle);
extern unsigned int bux_str_offset(const char* pos, const char* base);
extern int bux_str_is_null(const char* s);
extern const char* bux_str_slice(const char* s, unsigned int start, unsigned int len);
extern const char* bux_str_trim_left(const char* s);
extern const char* bux_str_trim_right(const char* s);
extern const char* bux_str_trim(const char* s);
extern const char* bux_int_to_str(int64_t n);
extern int64_t bux_str_to_int(const char* s);
extern void* bux_sb_new(unsigned int initial_cap);
extern void bux_sb_append(void* sb, const char* s);
extern void bux_sb_append_int(void* sb, int64_t n);
extern void bux_sb_append_float(void* sb, double f);
extern void bux_sb_append_char(void* sb, char c);
extern const char* bux_sb_build(void* sb);
extern void bux_sb_free(void* sb);
extern unsigned int bux_str_split_count(const char* s, const char* delim);
extern const char* bux_str_split_part(const char* s, const char* delim, unsigned int index);
extern const char* bux_str_join2(const char* a, const char* b, const char* sep);
extern const char* bux_float_to_string(double f);
extern const char* bux_str_format(const char* pattern, const char* a0, const char* a1, const char* a2, const char* a3, const char* a4, const char* a5, const char* a6, const char* a7);
extern double bux_str_to_float(const char* s);
extern void bux_bounds_check(unsigned int index, unsigned int len);
extern void* bux_alloc(unsigned int size);
extern void* bux_realloc(void* ptr, unsigned int size);
extern void bux_free(void* ptr);
extern void bux_bounds_check(unsigned int index, unsigned int len);
extern void* bux_channel_new(int64_t capacity, int64_t elem_size);
extern void bux_channel_send(void* handle, void* elem);
extern int bux_channel_recv(void* handle, void* out);
extern void bux_channel_close(void* handle);
extern void bux_channel_free(void* handle);
extern unsigned int bux_hash_bytes(void* ptr, unsigned int size);
extern unsigned int bux_hash_string(const char* s);
extern unsigned int bux_hash_bytes(void* ptr, unsigned int size);
extern int bux_mem_eq(void* a, void* b, unsigned int size);
extern void* bux_alloc(unsigned int size);
extern void bux_free(void* ptr);
extern void bux_sha1(const char* data, int len, void* out);
extern void bux_sha256(const char* data, int len, void* out);
extern void bux_sha384(const char* data, int len, void* out);
extern void bux_sha512(const char* data, int len, void* out);
extern const char* bux_bytes_to_hex(void* data, int len);
extern const char* bux_base64_encode(const char* data, int len);
extern const char* bux_base64_decode(const char* data, int len, int* outlen);
extern const char* bux_base64url_encode(const char* data, int len);
extern const char* bux_base64url_decode(const char* data, int len, int* outlen);
extern void bux_hmac_sha256(const char* key, int keylen, const char* msg, int msglen, void* out);
extern void bux_hmac_sha384(const char* key, int keylen, const char* msg, int msglen, void* out);
extern void bux_hmac_sha512(const char* key, int keylen, const char* msg, int msglen, void* out);
extern const char* bux_bytes_to_hex(void* data, int len);
extern const char* bux_base64_encode(const char* data, int len);
extern int bux_random_bytes(void* buf, int len);
extern const char* bux_base64_encode(const char* data, int len);
extern const char* bux_bytes_to_hex(void* data, int len);
extern int bux_random_bytes(void* buf, int len);
extern const char* bux_aes_256_cbc_encrypt(const char* plain, int plainlen, const char* key, const char* iv, int* outlen);
extern const char* bux_aes_256_cbc_decrypt(const char* cipher, int cipherlen, const char* key, const char* iv, int* outlen);
extern const char* bux_aes_256_gcm_encrypt(const char* plain, int plainlen, const char* key, const char* iv, void* tag, int* outlen);
extern const char* bux_aes_256_gcm_decrypt(const char* cipher, int cipherlen, const char* key, const char* iv, const char* tag, int* outlen);
extern const char* bux_base64_encode(const char* data, int len);
extern unsigned int bux_str_split_count(const char* s, const char* delim);
extern const char* bux_str_split_part(const char* s, const char* delim, unsigned int index);
extern const char* bux_ecdsa_sign_p256(const char* key, int keylen, const char* data, int datalen, int* outlen);
extern int bux_ecdsa_verify_p256(const char* key, int keylen, const char* data, int datalen, const char* sig, int siglen);
extern const char* bux_ecdsa_sign_p384(const char* key, int keylen, const char* data, int datalen, int* outlen);
extern int bux_ecdsa_verify_p384(const char* key, int keylen, const char* data, int datalen, const char* sig, int siglen);
extern const char* bux_base64_encode(const char* data, int len);
extern const char* bux_base64_decode(const char* data, int len, int* outlen);
extern int bux_ed25519_keypair(void* pubKey, void* privKey);
extern int bux_ed25519_sign(const char* privKey, const char* data, int datalen, void* sig);
extern int bux_ed25519_verify(const char* pubKey, const char* sig, const char* data, int datalen);
extern const char* bux_base64_encode(const char* data, int len);
extern const char* bux_base64_decode(const char* data, int len, int* outlen);
extern const char* bux_rsa_sign_sha256(const char* key, int keylen, const char* data, int datalen, int* outlen);
extern const char* bux_rsa_sign_sha384(const char* key, int keylen, const char* data, int datalen, int* outlen);
extern const char* bux_rsa_sign_sha512(const char* key, int keylen, const char* data, int datalen, int* outlen);
extern int bux_rsa_verify_sha256(const char* key, int keylen, const char* data, int datalen, const char* sig, int siglen);
extern int bux_rsa_verify_sha384(const char* key, int keylen, const char* data, int datalen, const char* sig, int siglen);
extern int bux_rsa_verify_sha512(const char* key, int keylen, const char* data, int datalen, const char* sig, int siglen);
extern const char* bux_base64_encode(const char* data, int len);
extern const char* bux_base64_decode(const char* data, int len, int* outlen);
/* Constants */
#define JsonTagNull 0
#define JsonTagBool 1
#define JsonTagNumber 2
#define JsonTagString 3
#define JsonTagArray 4
#define JsonTagObject 5
#define AES_KEY_SIZE 32
#define AES_IV_SIZE 16
#define AES_GCM_TAG_SIZE 16
#define ED25519_PUBKEY_SIZE 32
#define ED25519_PRIVKEY_SIZE 32
#define ED25519_SIG_SIZE 64
typedef struct Channel_float64 {
void* handle;
} Channel_float64;
typedef struct TaskHandle {
void* handle;
} TaskHandle;
typedef struct RwLock {
void* handle;
} RwLock;
typedef struct Channel_int {
void* handle;
} Channel_int;
typedef enum {
JwtAlg_HS256,
JwtAlg_HS384,
JwtAlg_HS512,
JwtAlg_RS256,
JwtAlg_RS384,
JwtAlg_RS512,
JwtAlg_ES256,
JwtAlg_ES384,
JwtAlg_EdDSA
} JwtAlg;
typedef enum {
Result_Ok,
Result_Err
} Result_Tag;
typedef union {
int Ok_0;
const char* Err_0;
} Result_Data;
typedef struct {
Result_Tag tag;
Result_Data data;
} Result;
typedef enum {
Option_Some,
Option_None
} Option_Tag;
typedef union {
int Some_0;
} Option_Data;
typedef struct {
Option_Tag tag;
Option_Data data;
} Option;
typedef struct JsonValue {
int tag;
bool boolVal;
double numVal;
const char* strVal;
JsonValue* arrData;
unsigned int arrLen;
unsigned int arrCap;
const char** objKeys;
JsonValue* objValues;
unsigned int objLen;
unsigned int objCap;
} JsonValue;
typedef struct Mutex {
void* handle;
} Mutex;
typedef struct StringBuilder {
void* handle;
} StringBuilder;
typedef struct JsonParser {
const char* src;
unsigned int pos;
unsigned int len;
const char* error;
} JsonParser;
bool DirExists(const char* path);
bool Mkdir(const char* path);
const char** ListDir(const char* dir, const char* ext, int* count);
const char* ReadFile(const char* path);
bool WriteFile(const char* path, const char* content);
bool FileExists(const char* path);
double Sqrt(double x);
double Pow(double x, double y);
int64_t Abs(int64_t n);
double AbsF(double f);
int64_t Min(int64_t a, int64_t b);
int64_t Max(int64_t a, int64_t b);
double MinF(double a, double b);
double MaxF(double a, double b);
void* Alloc(unsigned int size);
void* Realloc(void* ptr, unsigned int size);
void Free(void* ptr);
bool MemEq(void* a, void* b, unsigned int size);
const char* Path_Join(const char* a, const char* b);
const char* Path_Parent(const char* path);
const char* Path_Ext(const char* path);
void Task_Init(int num_workers);
TaskHandle Task_Spawn(void* fn, void* arg);
void Task_Wait(TaskHandle t);
void Task_Sleep(int64_t ms);
void Task_Yield(void);
int Task_CurrentId(void);
void Task_Shutdown(void);
int Os_ArgsCount(void);
const char* Os_Args(int index);
const char* Os_GetEnv(const char* name);
bool Os_SetEnv(const char* name, const char* value);
const char* Os_GetCwd(void);
bool Os_Chdir(const char* path);
int64_t Time_NowMs(void);
int64_t Time_NowUs(void);
void Time_SleepMs(int64_t ms);
int Process_Run(const char* cmd);
const char* Process_Output(const char* cmd);
int Net_Create(void);
bool Net_SetReuse(int fd);
bool Net_Bind(int fd, const char* addr, int port);
bool Net_Listen(int fd, int backlog);
int Net_Accept(int fd);
bool Net_Connect(int fd, const char* addr, int port);
int Net_Send(int fd, const char* data);
const char* Net_Recv(int fd, int maxLen);
bool Net_Close(int fd);
const char* Net_LastError(void);
const char* Fmt_Format(const char* tmpl, const char** argStrs, int argCount);
const char* Fmt_Fmt1(const char* tmpl, const char* a1);
const char* Fmt_FmtInt(const char* tmpl, int64_t val);
const char* Fmt_FmtBool(const char* tmpl, bool val);
const char* Fmt_FmtFloat(const char* tmpl, double val);
const char* Fmt_Fmt2(const char* tmpl, const char* a1, const char* a2);
const char* Fmt_Fmt3(const char* tmpl, const char* a1, const char* a2, const char* a3);
const char* Crypto_Sha256(const char* data);
const char* Crypto_HmacSha256(const char* key, const char* message);
const char* Crypto_RandomBytes(int n);
const char* Crypto_Base64Encode(const char* s);
const char* Crypto_HmacSha256Raw(const char* key, const char* message);
const char* Crypto_Base64Decode(const char* s);
Mutex Mutex_New(void);
void Mutex_Lock(Mutex* m);
void Mutex_Unlock(Mutex* m);
void Mutex_Free(Mutex* m);
RwLock RwLock_New(void);
void RwLock_ReadLock(RwLock* rw);
void RwLock_WriteLock(RwLock* rw);
void RwLock_Unlock(RwLock* rw);
void RwLock_Free(RwLock* rw);
void Test_Exit(int code);
void Test_Assert(bool cond);
void Test_AssertEqInt(int a, int b);
void Test_AssertTrue(bool cond);
void Test_AssertFalse(bool cond);
void Test_Fail(const char* msg);
Result Result_NewOk(int value);
Result Result_NewErr(const char* msg);
bool Result_IsOk(Result r);
bool Result_IsErr(Result r);
int Result_Unwrap(Result r);
int Result_UnwrapOr(Result r, int fallback);
Option Option_NewSome(int value);
Option Option_NewNone(void);
bool Option_IsSome(Option o);
bool Option_IsNone(Option o);
int Option_Unwrap(Option o);
int Option_UnwrapOr(Option o, int fallback);
JsonValue Json_Null(void);
JsonValue Json_Bool(bool b);
JsonValue Json_Number(double n);
JsonValue Json_String(const char* s);
JsonValue Json_Array(void);
JsonValue Json_Object(void);
unsigned int Json_ArrayLen(JsonValue v);
JsonValue Json_ArrayGet(JsonValue v, unsigned int index);
void Json_ArrayPush(JsonValue* self, JsonValue val);
unsigned int Json_ObjectLen(JsonValue v);
JsonValue Json_ObjectGet(JsonValue v, const char* key);
bool Json_ObjectHas(JsonValue v, const char* key);
void Json_ObjectSet(JsonValue* self, const char* key, JsonValue val);
bool Json_IsNull(JsonValue v);
bool Json_AsBool(JsonValue v);
double Json_AsNumber(JsonValue v);
const char* Json_AsString(JsonValue v);
int JsonParser_Peek(JsonParser* p);
void JsonParser_Advance(JsonParser* p);
void JsonParser_SkipWhitespace(JsonParser* p);
bool JsonParser_Match(JsonParser* p, const char* expected);
const char* JsonParser_ParseString(JsonParser* p);
JsonValue JsonParser_ParseNumber(JsonParser* p);
JsonValue JsonParser_ParseArray(JsonParser* p);
JsonValue JsonParser_ParseObject(JsonParser* p);
JsonValue JsonParser_ParseValue(JsonParser* p);
JsonValue Json_Parse(const char* s);
void Json_StringifyImpl(StringBuilder* sb, JsonValue v);
const char* Json_Stringify(JsonValue v);
unsigned int String_Len(const char* s);
bool String_IsNull(const char* s);
bool String_Eq(const char* a, const char* b);
const char* String_Concat(const char* a, const char* b);
const char* String_Copy(const char* s);
bool String_StartsWith(const char* s, const char* prefix);
bool String_EndsWith(const char* s, const char* suffix);
bool String_Contains(const char* s, const char* substr);
const char* String_Slice(const char* s, unsigned int start, unsigned int len);
const char* String_Trim(const char* s);
const char* String_TrimLeft(const char* s);
const char* String_TrimRight(const char* s);
const char* String_FromInt(int64_t n);
int64_t String_ToInt(const char* s);
StringBuilder StringBuilder_New(void);
StringBuilder StringBuilder_NewCap(unsigned int cap);
void StringBuilder_Append(StringBuilder* sb, const char* s);
void StringBuilder_AppendInt(StringBuilder* sb, int64_t n);
void StringBuilder_AppendFloat(StringBuilder* sb, double f);
void StringBuilder_AppendChar(StringBuilder* sb, char c);
const char* StringBuilder_Build(StringBuilder* sb);
void StringBuilder_Free(StringBuilder* sb);
unsigned int String_SplitCount(const char* s, const char* delim);
const char* String_SplitPart(const char* s, const char* delim, unsigned int index);
const char* String_Join2(const char* a, const char* b, const char* sep);
const char* String_Chars(const char* s, unsigned int index);
const char* String_Find(const char* haystack, const char* needle);
unsigned int String_Offset(const char* pos, const char* base);
const char* String_Replace(const char* s, const char* old, const char* new);
double String_ToFloat(const char* s);
const char* String_FromBool(bool b);
const char* String_FromFloat(double f);
const char* String_Format1(const char* pattern, const char* a0);
const char* String_Format2(const char* pattern, const char* a0, const char* a1);
const char* String_Format3(const char* pattern, const char* a0, const char* a1, const char* a2);
void Channel_SendInt(Channel_int* ch, int value);
int Channel_RecvInt(Channel_int* ch);
void Channel_SendFloat64(Channel_float64* ch, double value);
double Channel_RecvFloat64(Channel_float64* ch);
const char* Hash_Sha1(const char* data);
const char* Hash_Sha256(const char* data);
const char* Hash_Sha384(const char* data);
const char* Hash_Sha512(const char* data);
void Hash_Sha256Raw(const char* data, void* out);
void Hash_Sha384Raw(const char* data, void* out);
void Hash_Sha512Raw(const char* data, void* out);
int Hash_Sha1Size(void);
int Hash_Sha256Size(void);
int Hash_Sha384Size(void);
int Hash_Sha512Size(void);
const char* Base64_Encode(const char* s);
const char* Base64_Decode(const char* s);
const char* Base64URL_Encode(const char* s);
const char* Base64URL_Decode(const char* s);
const char* Hmac_Sha256(const char* key, const char* message);
void Hmac_Sha256Raw(const char* key, const char* message, void* out);
const char* Hmac_Sha256Base64(const char* key, const char* message);
const char* Hmac_Sha384(const char* key, const char* message);
void Hmac_Sha384Raw(const char* key, const char* message, void* out);
const char* Hmac_Sha384Base64(const char* key, const char* message);
const char* Hmac_Sha512(const char* key, const char* message);
void Hmac_Sha512Raw(const char* key, const char* message, void* out);
const char* Hmac_Sha512Base64(const char* key, const char* message);
const char* Random_Bytes(int n);
const char* Random_Hex(int n);
const char* Random_Base64(int n);
unsigned int Random_Uint32(void);
const char* Aes_GenerateKey(void);
const char* Aes_GenerateIV(void);
const char* Aes_CbcEncrypt(const char* plain, const char* key, const char* iv);
const char* Aes_CbcDecrypt(const char* cipher, const char* key, const char* iv);
const char* Aes_GcmEncrypt(const char* plain, const char* key, const char* iv, void* tag);
const char* Aes_GcmDecrypt(const char* cipher, const char* key, const char* iv, const char* tag);
const char* Jwt_MakeHeader(JwtAlg alg);
const char* Jwt_Sign(JwtAlg alg, const char* signingInput, const char* key);
bool Jwt_Verify(JwtAlg alg, const char* signingInput, const char* signatureB64, const char* key);
const char* Jwt_Encode(const char* headerJson, const char* payloadJson, JwtAlg alg, const char* key);
bool Jwt_Decode(const char* token, JwtAlg alg, const char* key, const char** headerOut, const char** payloadOut);
const char* Jwt_EncodeHS256(const char* payloadJson, const char* secret);
const char* Jwt_EncodeHS384(const char* payloadJson, const char* secret);
const char* Jwt_EncodeHS512(const char* payloadJson, const char* secret);
const char* Jwt_EncodeRS256(const char* payloadJson, const char* pemPrivateKey);
const char* Jwt_EncodeES256(const char* payloadJson, const char* pemPrivateKey);
const char* Jwt_EncodeEdDSA(const char* payloadJson, const char* rawPrivKey);
const char* Ecdsa_SignP256(const char* pemPrivateKey, const char* data);
const char* Ecdsa_SignP256Base64(const char* pemPrivateKey, const char* data);
bool Ecdsa_VerifyP256(const char* pemPublicKey, const char* data, const char* signature);
bool Ecdsa_VerifyP256Base64(const char* pemPublicKey, const char* data, const char* signatureB64);
const char* Ecdsa_SignP384(const char* pemPrivateKey, const char* data);
const char* Ecdsa_SignP384Base64(const char* pemPrivateKey, const char* data);
bool Ecdsa_VerifyP384(const char* pemPublicKey, const char* data, const char* signature);
bool Ecdsa_VerifyP384Base64(const char* pemPublicKey, const char* data, const char* signatureB64);
bool Ed25519_Keypair(void* pubKey, void* privKey);
const char* Ed25519_KeypairBase64(void);
const char* Ed25519_Sign(const char* privKey, const char* data);
const char* Ed25519_SignBase64(const char* privKey, const char* data);
bool Ed25519_Verify(const char* pubKey, const char* signature, const char* data);
bool Ed25519_VerifyBase64(const char* pubKey, const char* signatureB64, const char* data);
const char* Rsa_SignSha256(const char* pemPrivateKey, const char* data);
const char* Rsa_SignSha384(const char* pemPrivateKey, const char* data);
const char* Rsa_SignSha512(const char* pemPrivateKey, const char* data);
const char* Rsa_SignSha256Base64(const char* pemPrivateKey, const char* data);
const char* Rsa_SignSha384Base64(const char* pemPrivateKey, const char* data);
const char* Rsa_SignSha512Base64(const char* pemPrivateKey, const char* data);
bool Rsa_VerifySha256(const char* pemPublicKey, const char* data, const char* signature);
bool Rsa_VerifySha384(const char* pemPublicKey, const char* data, const char* signature);
bool Rsa_VerifySha512(const char* pemPublicKey, const char* data, const char* signature);
bool Rsa_VerifySha256Base64(const char* pemPublicKey, const char* data, const char* signatureB64);
bool Rsa_VerifySha384Base64(const char* pemPublicKey, const char* data, const char* signatureB64);
bool Rsa_VerifySha512Base64(const char* pemPublicKey, const char* data, const char* signatureB64);
int Main(void);
typedef struct Drop_VTable {
void (*Drop)(void* self);
} Drop_VTable;
typedef struct Drop_FatPtr {
void* data;
Drop_VTable* vtable;
} Drop_FatPtr;
bool DirExists(const char* path) {
int _t2;
int _t1;
_t1 = bux_dir_exists(path);
_t2 = (_t1 != 0);
return _t2;
}
bool Mkdir(const char* path) {
int _t4;
int _t3;
_t3 = bux_mkdir_if_needed(path);
_t4 = (_t3 != 0);
return _t4;
}
const char** ListDir(const char* dir, const char* ext, int* count) {
const char** _t5;
_t5 = bux_list_dir(dir, ext, count);
return _t5;
}
const char* ReadFile(const char* path) {
const char* _t6;
_t6 = bux_read_file(path);
return _t6;
}
bool WriteFile(const char* path, const char* content) {
int _t8;
int r;
int _t7;
_t7 = bux_write_file(path, content);
r = _t7;
_t8 = (r != 0);
return _t8;
}
bool FileExists(const char* path) {
int _t10;
int r;
int _t9;
_t9 = bux_file_exists(path);
r = _t9;
_t10 = (r != 0);
return _t10;
}
double Sqrt(double x) {
double _t11;
_t11 = bux_sqrt(x);
return _t11;
}
double Pow(double x, double y) {
double _t12;
_t12 = bux_pow(x, y);
return _t12;
}
int64_t Abs(int64_t n) {
int64_t _t13;
_t13 = bux_abs_i64(n);
return _t13;
}
double AbsF(double f) {
double _t14;
_t14 = bux_abs_f64(f);
return _t14;
}
int64_t Min(int64_t a, int64_t b) {
int64_t _t15;
_t15 = bux_min_i64(a, b);
return _t15;
}
int64_t Max(int64_t a, int64_t b) {
int64_t _t16;
_t16 = bux_max_i64(a, b);
return _t16;
}
double MinF(double a, double b) {
double _t17;
_t17 = bux_min_f64(a, b);
return _t17;
}
double MaxF(double a, double b) {
double _t18;
_t18 = bux_max_f64(a, b);
return _t18;
}
void* Alloc(unsigned int size) {
void* _t19;
_t19 = bux_alloc(size);
return _t19;
}
void* Realloc(void* ptr, unsigned int size) {
void* _t20;
_t20 = bux_realloc(ptr, size);
return _t20;
}
void Free(void* ptr) {
bux_free(ptr);
}
bool MemEq(void* a, void* b, unsigned int size) {
int _t22;
int _t21;
_t21 = bux_mem_eq(a, b, size);
_t22 = (_t21 != 0);
return _t22;
}
const char* Path_Join(const char* a, const char* b) {
const char* _t23;
_t23 = bux_path_join(a, b);
return _t23;
}
const char* Path_Parent(const char* path) {
const char* _t24;
_t24 = bux_path_parent(path);
return _t24;
}
const char* Path_Ext(const char* path) {
const char* _t25;
_t25 = bux_path_ext(path);
return _t25;
}
void Task_Init(int num_workers) {
bux_task_init(num_workers);
}
TaskHandle Task_Spawn(void* fn, void* arg) {
TaskHandle _t27;
void* _t26;
_t26 = bux_task_spawn(fn, arg);
_t27 = (TaskHandle){.handle = _t26};
return _t27;
}
void Task_Wait(TaskHandle t) {
void* _t28;
_t28 = t.handle;
bux_task_join(_t28);
}
void Task_Sleep(int64_t ms) {
bux_task_sleep(ms);
}
void Task_Yield(void) {
bux_task_yield();
}
int Task_CurrentId(void) {
int _t29;
_t29 = bux_task_current_id();
return _t29;
}
void Task_Shutdown(void) {
bux_task_shutdown();
}
int Os_ArgsCount(void) {
int _t30;
_t30 = bux_argc();
return _t30;
}
const char* Os_Args(int index) {
const char* _t31;
_t31 = bux_argv(index);
return _t31;
}
const char* Os_GetEnv(const char* name) {
const char* _t32;
_t32 = bux_getenv(name);
return _t32;
}
bool Os_SetEnv(const char* name, const char* value) {
int _t34;
int _t33;
_t33 = bux_setenv(name, value);
_t34 = (_t33 == 0);
return _t34;
}
const char* Os_GetCwd(void) {
const char* _t35;
_t35 = bux_getcwd();
return _t35;
}
bool Os_Chdir(const char* path) {
int _t37;
int _t36;
_t36 = bux_chdir(path);
_t37 = (_t36 == 0);
return _t37;
}
int64_t Time_NowMs(void) {
int64_t _t38;
_t38 = bux_time_ms();
return _t38;
}
int64_t Time_NowUs(void) {
int64_t _t39;
_t39 = bux_time_us();
return _t39;
}
void Time_SleepMs(int64_t ms) {
bux_sleep_ms(ms);
}
int Process_Run(const char* cmd) {
int _t40;
_t40 = bux_process_run(cmd);
return _t40;
}
const char* Process_Output(const char* cmd) {
const char* _t41;
_t41 = bux_process_output(cmd);
return _t41;
}
int Net_Create(void) {
int _t42;
_t42 = bux_socket_create();
return _t42;
}
bool Net_SetReuse(int fd) {
int _t44;
int _t43;
_t43 = bux_socket_reuse(fd);
_t44 = (_t43 == 0);
return _t44;
}
bool Net_Bind(int fd, const char* addr, int port) {
int _t46;
int _t45;
_t45 = bux_socket_bind(fd, addr, port);
_t46 = (_t45 == 0);
return _t46;
}
bool Net_Listen(int fd, int backlog) {
int _t48;
int _t47;
_t47 = bux_socket_listen(fd, backlog);
_t48 = (_t47 == 0);
return _t48;
}
int Net_Accept(int fd) {
int _t49;
_t49 = bux_socket_accept(fd);
return _t49;
}
bool Net_Connect(int fd, const char* addr, int port) {
int _t51;
int _t50;
_t50 = bux_socket_connect(fd, addr, port);
_t51 = (_t50 == 0);
return _t51;
}
int Net_Send(int fd, const char* data) {
int _t53;
unsigned int _t52;
_t52 = bux_strlen(data);
_t53 = (int)_t52;
int _t54;
_t54 = bux_socket_send(fd, data, _t53);
return _t54;
}
const char* Net_Recv(int fd, int maxLen) {
const char* _t55;
_t55 = bux_socket_recv(fd, maxLen);
return _t55;
}
bool Net_Close(int fd) {
int _t57;
int _t56;
_t56 = bux_socket_close(fd);
_t57 = (_t56 == 0);
return _t57;
}
const char* Net_LastError(void) {
const char* _t58;
_t58 = bux_socket_error();
return _t58;
}
const char* Fmt_Format(const char* tmpl, const char** argStrs, int argCount) {
int _t61;
int _t64;
int _t65;
int _t68;
int64_t _t69;
int _t70;
int _t72;
int _t73;
int _t76;
unsigned int _t77;
void* _t79;
void* _t80;
int _t81;
void* _t82;
StringBuilder sb;
StringBuilder _t59;
_t59 = StringBuilder_New();
sb = _t59;
unsigned int i;
i = 0;
unsigned int tmplLen;
unsigned int _t60;
_t60 = bux_strlen(tmpl);
tmplLen = _t60;
while1:;
_t61 = (i < tmplLen);
if (!_t61) goto wend2;
{
const char* ch;
const char* _t62;
_t62 = String_Chars(tmpl, i);
ch = _t62;
bool _t63;
_t63 = String_Eq(ch, "{");
if (!_t63) goto endif4;
{
unsigned int digitIdx;
_t64 = i + 1;
digitIdx = _t64;
_t65 = (digitIdx < tmplLen);
if (!_t65) goto endif6;
{
const char* digitCh;
const char* _t66;
_t66 = String_Chars(tmpl, digitIdx);
digitCh = _t66;
int64_t d;
int64_t _t67;
_t67 = bux_str_to_int(digitCh);
d = _t67;
bool __and_tmp_0;
_t68 = (d >= 0);
if (!_t68) goto else7;
_t69 = (int64_t)argCount;
_t70 = (d < _t69);
*(bool*)&__and_tmp_0 = _t70;
goto endif8;
else7:;
*(bool*)&__and_tmp_0 = 0;
endif8:;
bool _t71;
_t71 = *(bool*)&__and_tmp_0;
if (!_t71) goto endif10;
{
_t72 = i + 2;
i = _t72;
_t73 = (i < tmplLen);
if (!_t73) goto endif12;
{
const char* closeCh;
const char* _t74;
_t74 = String_Chars(tmpl, i);
closeCh = _t74;
bool _t75;
_t75 = String_Eq(closeCh, "}");
if (!_t75) goto endif14;
{
_t76 = i + 1;
i = _t76;
const char* argStr;
_t77 = (unsigned int)d;
const char* _t78;
_t78 = argStrs[_t77];
argStr = _t78;
_t79 = &sb;
StringBuilder_Append(_t79, argStr);
goto while1;
}
endif14:;
}
endif12:;
}
endif10:;
}
endif6:;
}
endif4:;
_t80 = &sb;
StringBuilder_Append(_t80, ch);
_t81 = i + 1;
i = _t81;
}
goto while1;
wend2:;
_t82 = &sb;
const char* _t83;
_t83 = StringBuilder_Build(_t82);
return _t83;
}
const char* Fmt_Fmt1(const char* tmpl, const char* a1) {
const char** _t85;
const char** args;
/* sizeof(const char*) */
void* _t84;
_t84 = bux_alloc(sizeof(const char*));
_t85 = (const char**)_t84;
args = _t85;
args[0] = a1;
const char* _t86;
_t86 = Fmt_Format(tmpl, args, 1);
return _t86;
}
const char* Fmt_FmtInt(const char* tmpl, int64_t val) {
const char* s;
const char* _t87;
_t87 = String_FromInt(val);
s = _t87;
const char* _t88;
_t88 = Fmt_Fmt1(tmpl, s);
return _t88;
}
const char* Fmt_FmtBool(const char* tmpl, bool val) {
const char* s;
const char* _t89;
_t89 = String_FromBool(val);
s = _t89;
const char* _t90;
_t90 = Fmt_Fmt1(tmpl, s);
return _t90;
}
const char* Fmt_FmtFloat(const char* tmpl, double val) {
const char* s;
const char* _t91;
_t91 = String_FromFloat(val);
s = _t91;
const char* _t92;
_t92 = Fmt_Fmt1(tmpl, s);
return _t92;
}
const char* Fmt_Fmt2(const char* tmpl, const char* a1, const char* a2) {
int _t93;
const char** _t95;
const char** args;
/* sizeof(const char*) */
_t93 = 2 * sizeof(const char*);
void* _t94;
_t94 = bux_alloc(_t93);
_t95 = (const char**)_t94;
args = _t95;
args[0] = a1;
args[1] = a2;
const char* _t96;
_t96 = Fmt_Format(tmpl, args, 2);
return _t96;
}
const char* Fmt_Fmt3(const char* tmpl, const char* a1, const char* a2, const char* a3) {
int _t97;
const char** _t99;
const char** args;
/* sizeof(const char*) */
_t97 = 3 * sizeof(const char*);
void* _t98;
_t98 = bux_alloc(_t97);
_t99 = (const char**)_t98;
args = _t99;
args[0] = a1;
args[1] = a2;
args[2] = a3;
const char* _t100;
_t100 = Fmt_Format(tmpl, args, 3);
return _t100;
}
const char* Crypto_Sha256(const char* data) {
int _t102;
void* _t104;
int len;
unsigned int _t101;
_t101 = String_Len(data);
_t102 = (int)_t101;
len = _t102;
void* hashBuf;
void* _t103;
_t103 = Alloc(32);
hashBuf = _t103;
bux_sha256(data, len, hashBuf);
const char* result;
_t104 = (void*)hashBuf;
const char* _t105;
_t105 = bux_bytes_to_hex(_t104, 32);
result = _t105;
Free(hashBuf);
return result;
}
const char* Crypto_HmacSha256(const char* key, const char* message) {
int _t107;
int _t109;
void* _t111;
int keylen;
unsigned int _t106;
_t106 = String_Len(key);
_t107 = (int)_t106;
keylen = _t107;
int msglen;
unsigned int _t108;
_t108 = String_Len(message);
_t109 = (int)_t108;
msglen = _t109;
void* hmacBuf;
void* _t110;
_t110 = Alloc(32);
hmacBuf = _t110;
bux_hmac_sha256(key, keylen, message, msglen, hmacBuf);
const char* result;
_t111 = (void*)hmacBuf;
const char* _t112;
_t112 = bux_bytes_to_hex(_t111, 32);
result = _t112;
Free(hmacBuf);
return result;
}
const char* Crypto_RandomBytes(int n) {
int _t113;
unsigned int _t114;
int _t117;
const char* _t118;
_t113 = (n <= 0);
if (!_t113) goto endif16;
{
return "";
}
endif16:;
void* buf;
_t114 = (unsigned int)n;
void* _t115;
_t115 = Alloc(_t114);
buf = _t115;
int _t116;
_t116 = bux_random_bytes(buf, n);
_t117 = (_t116 != 1);
if (!_t117) goto endif18;
{
Free(buf);
return "";
}
endif18:;
const char* result;
_t118 = (const char*)buf;
const char* _t119;
_t119 = bux_base64_encode(_t118, n);
result = _t119;
Free(buf);
return result;
}
const char* Crypto_Base64Encode(const char* s) {
int _t121;
unsigned int _t120;
_t120 = String_Len(s);
_t121 = (int)_t120;
const char* _t122;
_t122 = bux_base64_encode(s, _t121);
return _t122;
}
const char* Crypto_HmacSha256Raw(const char* key, const char* message) {
int _t124;
int _t126;
const char* _t128;
int keylen;
unsigned int _t123;
_t123 = String_Len(key);
_t124 = (int)_t123;
keylen = _t124;
int msglen;
unsigned int _t125;
_t125 = String_Len(message);
_t126 = (int)_t125;
msglen = _t126;
void* hmacBuf;
void* _t127;
_t127 = Alloc(32);
hmacBuf = _t127;
bux_hmac_sha256(key, keylen, message, msglen, hmacBuf);
const char* result;
_t128 = (const char*)hmacBuf;
const char* _t129;
_t129 = bux_base64_encode(_t128, 32);
result = _t129;
Free(hmacBuf);
return result;
}
const char* Crypto_Base64Decode(const char* s) {
int _t131;
void* _t132;
int outlen;
outlen = 0;
unsigned int _t130;
_t130 = String_Len(s);
_t131 = (int)_t130;
_t132 = &outlen;
const char* _t133;
_t133 = bux_base64_decode(s, _t131, _t132);
return _t133;
}
Mutex Mutex_New(void) {
Mutex _t135;
void* _t134;
_t134 = bux_mutex_new();
_t135 = (Mutex){.handle = _t134};
return _t135;
}
void Mutex_Lock(Mutex* m) {
void* _t136;
_t136 = m->handle;
bux_mutex_lock(_t136);
}
void Mutex_Unlock(Mutex* m) {
void* _t137;
_t137 = m->handle;
bux_mutex_unlock(_t137);
}
void Mutex_Free(Mutex* m) {
void* _t138;
_t138 = m->handle;
bux_mutex_free(_t138);
}
RwLock RwLock_New(void) {
RwLock _t140;
void* _t139;
_t139 = bux_rwlock_new();
_t140 = (RwLock){.handle = _t139};
return _t140;
}
void RwLock_ReadLock(RwLock* rw) {
void* _t141;
_t141 = rw->handle;
bux_rwlock_rdlock(_t141);
}
void RwLock_WriteLock(RwLock* rw) {
void* _t142;
_t142 = rw->handle;
bux_rwlock_wrlock(_t142);
}
void RwLock_Unlock(RwLock* rw) {
void* _t143;
_t143 = rw->handle;
bux_rwlock_unlock(_t143);
}
void RwLock_Free(RwLock* rw) {
void* _t144;
_t144 = rw->handle;
bux_rwlock_free(_t144);
}
void Test_Exit(int code) {
bux_exit(code);
}
void Test_Assert(bool cond) {
int _t145;
_t145 = (int)cond;
bux_assert(_t145, "", 0, "");
}
void Test_AssertEqInt(int a, int b) {
int _t146;
_t146 = (a != b);
if (!_t146) goto endif20;
{
PrintLine("ASSERT_EQ FAILED:");
PrintInt(a);
PrintLine(" != ");
PrintInt(b);
bux_exit(1);
}
endif20:;
}
void Test_AssertTrue(bool cond) {
int _t147;
_t147 = !cond;
if (!_t147) goto endif22;
{
PrintLine("ASSERT_TRUE FAILED");
bux_exit(1);
}
endif22:;
}
void Test_AssertFalse(bool cond) {
if (!cond) goto endif24;
{
PrintLine("ASSERT_FALSE FAILED");
bux_exit(1);
}
endif24:;
}
void Test_Fail(const char* msg) {
PrintLine("FAIL:");
PrintLine(msg);
bux_exit(1);
}
Result Result_NewOk(int value) {
Result _t148;
Result r;
_t148 = (Result){.tag = Result_Ok};
r = _t148;
r.data.Ok_0 = value;
return r;
}
Result Result_NewErr(const char* msg) {
Result _t149;
Result r;
_t149 = (Result){.tag = Result_Err};
r = _t149;
r.data.Err_0 = msg;
return r;
}
bool Result_IsOk(Result r) {
int _t151;
Result_Tag _t150;
_t150 = r.tag;
_t151 = (_t150 == Result_Ok);
return _t151;
}
bool Result_IsErr(Result r) {
int _t153;
Result_Tag _t152;
_t152 = r.tag;
_t153 = (_t152 == Result_Err);
return _t153;
}
int Result_Unwrap(Result r) {
int _t155;
Result_Tag _t154;
_t154 = r.tag;
_t155 = (_t154 != Result_Ok);
if (!_t155) goto endif26;
{
PrintLine("panic: unwrap on Err");
return 0;
}
endif26:;
Result_Data _t156;
_t156 = r.data;
int _t157;
_t157 = _t156.Ok_0;
return _t157;
}
int Result_UnwrapOr(Result r, int fallback) {
int _t159;
Result_Tag _t158;
_t158 = r.tag;
_t159 = (_t158 == Result_Ok);
if (!_t159) goto endif28;
{
Result_Data _t160;
_t160 = r.data;
int _t161;
_t161 = _t160.Ok_0;
return _t161;
}
endif28:;
return fallback;
}
Option Option_NewSome(int value) {
Option _t162;
Option o;
_t162 = (Option){.tag = Option_Some};
o = _t162;
o.data.Some_0 = value;
return o;
}
Option Option_NewNone(void) {
Option _t163;
_t163 = (Option){.tag = Option_None};
return _t163;
}
bool Option_IsSome(Option o) {
int _t165;
Option_Tag _t164;
_t164 = o.tag;
_t165 = (_t164 == Option_Some);
return _t165;
}
bool Option_IsNone(Option o) {
int _t167;
Option_Tag _t166;
_t166 = o.tag;
_t167 = (_t166 == Option_None);
return _t167;
}
int Option_Unwrap(Option o) {
int _t169;
Option_Tag _t168;
_t168 = o.tag;
_t169 = (_t168 != Option_Some);
if (!_t169) goto endif30;
{
PrintLine("panic: unwrap on None");
return 0;
}
endif30:;
Option_Data _t170;
_t170 = o.data;
int _t171;
_t171 = _t170.Some_0;
return _t171;
}
int Option_UnwrapOr(Option o, int fallback) {
int _t173;
Option_Tag _t172;
_t172 = o.tag;
_t173 = (_t172 == Option_Some);
if (!_t173) goto endif32;
{
Option_Data _t174;
_t174 = o.data;
int _t175;
_t175 = _t174.Some_0;
return _t175;
}
endif32:;
return fallback;
}
JsonValue Json_Null(void) {
JsonValue _t176;
_t176 = (JsonValue){.tag = JsonTagNull, .boolVal = 0, .numVal = 0.0, .strVal = "", .arrData = 0, .arrLen = 0, .arrCap = 0, .objKeys = 0, .objValues = 0, .objLen = 0, .objCap = 0};
return _t176;
}
JsonValue Json_Bool(bool b) {
JsonValue _t177;
_t177 = (JsonValue){.tag = JsonTagBool, .boolVal = b, .numVal = 0.0, .strVal = "", .arrData = 0, .arrLen = 0, .arrCap = 0, .objKeys = 0, .objValues = 0, .objLen = 0, .objCap = 0};
return _t177;
}
JsonValue Json_Number(double n) {
JsonValue _t178;
_t178 = (JsonValue){.tag = JsonTagNumber, .boolVal = 0, .numVal = n, .strVal = "", .arrData = 0, .arrLen = 0, .arrCap = 0, .objKeys = 0, .objValues = 0, .objLen = 0, .objCap = 0};
return _t178;
}
JsonValue Json_String(const char* s) {
JsonValue _t179;
_t179 = (JsonValue){.tag = JsonTagString, .boolVal = 0, .numVal = 0.0, .strVal = s, .arrData = 0, .arrLen = 0, .arrCap = 0, .objKeys = 0, .objValues = 0, .objLen = 0, .objCap = 0};
return _t179;
}
JsonValue Json_Array(void) {
JsonValue _t180;
_t180 = (JsonValue){.tag = JsonTagArray, .boolVal = 0, .numVal = 0.0, .strVal = "", .arrData = 0, .arrLen = 0, .arrCap = 0, .objKeys = 0, .objValues = 0, .objLen = 0, .objCap = 0};
return _t180;
}
JsonValue Json_Object(void) {
JsonValue _t181;
_t181 = (JsonValue){.tag = JsonTagObject, .boolVal = 0, .numVal = 0.0, .strVal = "", .arrData = 0, .arrLen = 0, .arrCap = 0, .objKeys = 0, .objValues = 0, .objLen = 0, .objCap = 0};
return _t181;
}
unsigned int Json_ArrayLen(JsonValue v) {
int _t183;
int _t182;
_t182 = v.tag;
_t183 = (_t182 != JsonTagArray);
if (!_t183) goto endif34;
{
return 0;
}
endif34:;
unsigned int _t184;
_t184 = v.arrLen;
return _t184;
}
JsonValue Json_ArrayGet(JsonValue v, unsigned int index) {
int _t186;
int _t189;
int _t185;
_t185 = v.tag;
_t186 = (_t185 != JsonTagArray);
if (!_t186) goto endif36;
{
JsonValue _t187;
_t187 = Json_Null();
return _t187;
}
endif36:;
unsigned int _t188;
_t188 = v.arrLen;
_t189 = (index >= _t188);
if (!_t189) goto endif38;
{
JsonValue _t190;
_t190 = Json_Null();
return _t190;
}
endif38:;
JsonValue* _t191;
_t191 = v.arrData;
JsonValue _t192;
_t192 = _t191[index];
return _t192;
}
void Json_ArrayPush(JsonValue* self, JsonValue val) {
int _t194;
int _t197;
int _t199;
int _t200;
JsonValue* _t202;
int _t203;
void* _t205;
int _t206;
JsonValue* _t208;
int _t212;
int _t193;
_t193 = self->tag;
_t194 = (_t193 != JsonTagArray);
if (!_t194) goto endif40;
{
return;
}
endif40:;
unsigned int _t195;
_t195 = self->arrLen;
unsigned int _t196;
_t196 = self->arrCap;
_t197 = (_t195 >= _t196);
if (!_t197) goto endif42;
{
unsigned int arrNewCap;
unsigned int _t198;
_t198 = self->arrCap;
arrNewCap = _t198;
_t199 = (arrNewCap == 0);
if (!_t199) goto else43;
{
self->arrCap = 4;
/* sizeof(JsonValue) */
_t200 = 4 * sizeof(JsonValue);
void* _t201;
_t201 = Alloc(_t200);
_t202 = (JsonValue*)_t201;
self->arrData = _t202;
}
goto endif44;
else43:;
{
unsigned int doubleCap;
_t203 = arrNewCap * 2;
doubleCap = _t203;
self->arrCap = doubleCap;
JsonValue* _t204;
_t204 = self->arrData;
_t205 = (void*)_t204;
/* sizeof(JsonValue) */
_t206 = doubleCap * sizeof(JsonValue);
void* _t207;
_t207 = Realloc(_t205, _t206);
_t208 = (JsonValue*)_t207;
self->arrData = _t208;
}
endif44:;
}
endif42:;
JsonValue* _t209;
_t209 = self->arrData;
unsigned int _t210;
_t210 = self->arrLen;
_t209[_t210] = val;
unsigned int _t211;
_t211 = self->arrLen;
_t212 = _t211 + 1;
self->arrLen = _t212;
}
unsigned int Json_ObjectLen(JsonValue v) {
int _t214;
int _t213;
_t213 = v.tag;
_t214 = (_t213 != JsonTagObject);
if (!_t214) goto endif46;
{
return 0;
}
endif46:;
unsigned int _t215;
_t215 = v.objLen;
return _t215;
}
JsonValue Json_ObjectGet(JsonValue v, const char* key) {
int _t217;
int _t220;
int _t226;
int _t216;
_t216 = v.tag;
_t217 = (_t216 != JsonTagObject);
if (!_t217) goto endif48;
{
JsonValue _t218;
_t218 = Json_Null();
return _t218;
}
endif48:;
unsigned int i;
i = 0;
while49:;
unsigned int _t219;
_t219 = v.objLen;
_t220 = (i < _t219);
if (!_t220) goto wend50;
{
const char** _t221;
_t221 = v.objKeys;
const char* _t222;
_t222 = _t221[i];
bool _t223;
_t223 = String_Eq(_t222, key);
if (!_t223) goto endif52;
{
JsonValue* _t224;
_t224 = v.objValues;
JsonValue _t225;
_t225 = _t224[i];
return _t225;
}
endif52:;
_t226 = i + 1;
i = _t226;
}
goto while49;
wend50:;
JsonValue _t227;
_t227 = Json_Null();
return _t227;
}
bool Json_ObjectHas(JsonValue v, const char* key) {
int _t229;
int _t231;
int _t235;
int _t228;
_t228 = v.tag;
_t229 = (_t228 != JsonTagObject);
if (!_t229) goto endif54;
{
return 0;
}
endif54:;
unsigned int i;
i = 0;
while55:;
unsigned int _t230;
_t230 = v.objLen;
_t231 = (i < _t230);
if (!_t231) goto wend56;
{
const char** _t232;
_t232 = v.objKeys;
const char* _t233;
_t233 = _t232[i];
bool _t234;
_t234 = String_Eq(_t233, key);
if (!_t234) goto endif58;
{
return 1;
}
endif58:;
_t235 = i + 1;
i = _t235;
}
goto while55;
wend56:;
return 0;
}
void Json_ObjectSet(JsonValue* self, const char* key, JsonValue val) {
int _t237;
int _t239;
int _t244;
int _t247;
int _t249;
int _t250;
const char** _t252;
int _t253;
JsonValue* _t255;
int _t256;
void* _t258;
int _t259;
const char** _t261;
void* _t263;
int _t264;
JsonValue* _t266;
int _t272;
int _t236;
_t236 = self->tag;
_t237 = (_t236 != JsonTagObject);
if (!_t237) goto endif60;
{
return;
}
endif60:;
unsigned int i;
i = 0;
while61:;
unsigned int _t238;
_t238 = self->objLen;
_t239 = (i < _t238);
if (!_t239) goto wend62;
{
const char** _t240;
_t240 = self->objKeys;
const char* _t241;
_t241 = _t240[i];
bool _t242;
_t242 = String_Eq(_t241, key);
if (!_t242) goto endif64;
{
JsonValue* _t243;
_t243 = self->objValues;
_t243[i] = val;
return;
}
endif64:;
_t244 = i + 1;
i = _t244;
}
goto while61;
wend62:;
unsigned int _t245;
_t245 = self->objLen;
unsigned int _t246;
_t246 = self->objCap;
_t247 = (_t245 >= _t246);
if (!_t247) goto endif66;
{
unsigned int objNewCap;
unsigned int _t248;
_t248 = self->objCap;
objNewCap = _t248;
_t249 = (objNewCap == 0);
if (!_t249) goto else67;
{
self->objCap = 4;
/* sizeof(const char*) */
_t250 = 4 * sizeof(const char*);
void* _t251;
_t251 = Alloc(_t250);
_t252 = (const char**)_t251;
self->objKeys = _t252;
/* sizeof(JsonValue) */
_t253 = 4 * sizeof(JsonValue);
void* _t254;
_t254 = Alloc(_t253);
_t255 = (JsonValue*)_t254;
self->objValues = _t255;
}
goto endif68;
else67:;
{
unsigned int doubleCap;
_t256 = objNewCap * 2;
doubleCap = _t256;
self->objCap = doubleCap;
const char** _t257;
_t257 = self->objKeys;
_t258 = (void*)_t257;
/* sizeof(const char*) */
_t259 = doubleCap * sizeof(const char*);
void* _t260;
_t260 = Realloc(_t258, _t259);
_t261 = (const char**)_t260;
self->objKeys = _t261;
JsonValue* _t262;
_t262 = self->objValues;
_t263 = (void*)_t262;
/* sizeof(JsonValue) */
_t264 = doubleCap * sizeof(JsonValue);
void* _t265;
_t265 = Realloc(_t263, _t264);
_t266 = (JsonValue*)_t265;
self->objValues = _t266;
}
endif68:;
}
endif66:;
const char** _t267;
_t267 = self->objKeys;
unsigned int _t268;
_t268 = self->objLen;
_t267[_t268] = key;
JsonValue* _t269;
_t269 = self->objValues;
unsigned int _t270;
_t270 = self->objLen;
_t269[_t270] = val;
unsigned int _t271;
_t271 = self->objLen;
_t272 = _t271 + 1;
self->objLen = _t272;
}
bool Json_IsNull(JsonValue v) {
int _t274;
int _t273;
_t273 = v.tag;
_t274 = (_t273 == JsonTagNull);
return _t274;
}
bool Json_AsBool(JsonValue v) {
int _t276;
int _t275;
_t275 = v.tag;
_t276 = (_t275 == JsonTagBool);
if (!_t276) goto endif70;
{
bool _t277;
_t277 = v.boolVal;
return _t277;
}
endif70:;
return 0;
}
double Json_AsNumber(JsonValue v) {
int _t279;
int _t278;
_t278 = v.tag;
_t279 = (_t278 == JsonTagNumber);
if (!_t279) goto endif72;
{
double _t280;
_t280 = v.numVal;
return _t280;
}
endif72:;
return 0.0;
}
const char* Json_AsString(JsonValue v) {
int _t282;
int _t281;
_t281 = v.tag;
_t282 = (_t281 == JsonTagString);
if (!_t282) goto endif74;
{
const char* _t283;
_t283 = v.strVal;
return _t283;
}
endif74:;
return "";
}
int JsonParser_Peek(JsonParser* p) {
int _t286;
int _t290;
unsigned int _t284;
_t284 = p->pos;
unsigned int _t285;
_t285 = p->len;
_t286 = (_t284 >= _t285);
if (!_t286) goto endif76;
{
return 0;
}
endif76:;
const char* _t287;
_t287 = p->src;
unsigned int _t288;
_t288 = p->pos;
int _t289;
_t289 = _t287[_t288];
_t290 = (int)_t289;
return _t290;
}
void JsonParser_Advance(JsonParser* p) {
int _t293;
int _t295;
unsigned int _t291;
_t291 = p->pos;
unsigned int _t292;
_t292 = p->len;
_t293 = (_t291 < _t292);
if (!_t293) goto endif78;
{
unsigned int _t294;
_t294 = p->pos;
_t295 = _t294 + 1;
p->pos = _t295;
}
endif78:;
}
void JsonParser_SkipWhitespace(JsonParser* p) {
int _t297;
int _t298;
int _t300;
int _t302;
while79:;
if (!1) goto wend80;
{
int c;
int _t296;
_t296 = JsonParser_Peek(p);
c = _t296;
bool __or_tmp_1;
bool __or_tmp_2;
bool __or_tmp_3;
_t297 = (c == 32);
if (!_t297) goto else81;
*(bool*)&__or_tmp_3 = 1;
goto endif82;
else81:;
_t298 = (c == 9);
*(bool*)&__or_tmp_3 = _t298;
endif82:;
bool _t299;
_t299 = *(bool*)&__or_tmp_3;
if (!_t299) goto else83;
*(bool*)&__or_tmp_2 = 1;
goto endif84;
else83:;
_t300 = (c == 10);
*(bool*)&__or_tmp_2 = _t300;
endif84:;
bool _t301;
_t301 = *(bool*)&__or_tmp_2;
if (!_t301) goto else85;
*(bool*)&__or_tmp_1 = 1;
goto endif86;
else85:;
_t302 = (c == 13);
*(bool*)&__or_tmp_1 = _t302;
endif86:;
bool _t303;
_t303 = *(bool*)&__or_tmp_1;
if (!_t303) goto else87;
{
JsonParser_Advance(p);
}
goto endif88;
else87:;
{
return;
}
endif88:;
}
goto while79;
wend80:;
}
bool JsonParser_Match(JsonParser* p, const char* expected) {
int _t306;
int _t308;
int _t309;
int _t312;
int _t315;
int _t316;
int _t318;
unsigned int elen;
unsigned int _t304;
_t304 = String_Len(expected);
elen = _t304;
unsigned int _t305;
_t305 = p->pos;
_t306 = _t305 + elen;
unsigned int _t307;
_t307 = p->len;
_t308 = (_t306 > _t307);
if (!_t308) goto endif90;
{
return 0;
}
endif90:;
unsigned int i;
i = 0;
while91:;
_t309 = (i < elen);
if (!_t309) goto wend92;
{
const char* _t310;
_t310 = p->src;
unsigned int _t311;
_t311 = p->pos;
_t312 = _t311 + i;
int _t313;
_t313 = _t310[_t312];
int _t314;
_t314 = expected[i];
_t315 = (_t313 != _t314);
if (!_t315) goto endif94;
{
return 0;
}
endif94:;
_t316 = i + 1;
i = _t316;
}
goto while91;
wend92:;
unsigned int _t317;
_t317 = p->pos;
_t318 = _t317 + elen;
p->pos = _t318;
return 1;
}
const char* JsonParser_ParseString(JsonParser* p) {
int _t320;
int _t323;
int _t324;
int _t326;
int _t328;
void* _t329;
int _t330;
void* _t331;
char _t332;
int _t333;
void* _t334;
char _t335;
int _t336;
void* _t337;
char _t338;
int _t339;
void* _t340;
char _t341;
int _t342;
void* _t343;
char _t344;
int _t345;
void* _t346;
char _t347;
int _t348;
void* _t349;
char _t350;
void* _t351;
char _t352;
void* _t353;
char _t354;
void* _t355;
char _t356;
int _t358;
void* _t359;
void* _t360;
void* _t362;
int _t319;
_t319 = JsonParser_Peek(p);
_t320 = (_t319 != 34);
if (!_t320) goto endif96;
{
p->error = "Expected string";
return "";
}
endif96:;
JsonParser_Advance(p);
StringBuilder sb;
StringBuilder _t321;
_t321 = StringBuilder_New();
sb = _t321;
while97:;
if (!1) goto wend98;
{
int c;
int _t322;
_t322 = JsonParser_Peek(p);
c = _t322;
bool __or_tmp_4;
_t323 = (c == 0);
if (!_t323) goto else99;
*(bool*)&__or_tmp_4 = 1;
goto endif100;
else99:;
_t324 = (c == 34);
*(bool*)&__or_tmp_4 = _t324;
endif100:;
bool _t325;
_t325 = *(bool*)&__or_tmp_4;
if (!_t325) goto endif102;
{
goto wend98;
}
endif102:;
_t326 = (c == 92);
if (!_t326) goto else103;
{
JsonParser_Advance(p);
int esc;
int _t327;
_t327 = JsonParser_Peek(p);
esc = _t327;
_t328 = (esc == 0);
if (!_t328) goto endif106;
{
p->error = "Unterminated string escape";
_t329 = &sb;
StringBuilder_Free(_t329);
return "";
}
endif106:;
_t330 = (esc == 110);
if (!_t330) goto else107;
{
_t331 = &sb;
_t332 = (char)10;
StringBuilder_AppendChar(_t331, _t332);
}
goto endif108;
else107:;
_t333 = (esc == 116);
if (!_t333) goto else109;
{
_t334 = &sb;
_t335 = (char)9;
StringBuilder_AppendChar(_t334, _t335);
}
goto endif110;
else109:;
_t336 = (esc == 114);
if (!_t336) goto else111;
{
_t337 = &sb;
_t338 = (char)13;
StringBuilder_AppendChar(_t337, _t338);
}
goto endif112;
else111:;
_t339 = (esc == 98);
if (!_t339) goto else113;
{
_t340 = &sb;
_t341 = (char)8;
StringBuilder_AppendChar(_t340, _t341);
}
goto endif114;
else113:;
_t342 = (esc == 102);
if (!_t342) goto else115;
{
_t343 = &sb;
_t344 = (char)12;
StringBuilder_AppendChar(_t343, _t344);
}
goto endif116;
else115:;
_t345 = (esc == 34);
if (!_t345) goto else117;
{
_t346 = &sb;
_t347 = (char)34;
StringBuilder_AppendChar(_t346, _t347);
}
goto endif118;
else117:;
_t348 = (esc == 92);
if (!_t348) goto else119;
{
_t349 = &sb;
_t350 = (char)92;
StringBuilder_AppendChar(_t349, _t350);
}
goto endif120;
else119:;
{
_t351 = &sb;
_t352 = (char)92;
StringBuilder_AppendChar(_t351, _t352);
_t353 = &sb;
_t354 = (char)esc;
StringBuilder_AppendChar(_t353, _t354);
}
endif120:;
endif118:;
endif116:;
endif114:;
endif112:;
endif110:;
endif108:;
JsonParser_Advance(p);
}
goto endif104;
else103:;
{
_t355 = &sb;
_t356 = (char)c;
StringBuilder_AppendChar(_t355, _t356);
JsonParser_Advance(p);
}
endif104:;
}
goto while97;
wend98:;
int _t357;
_t357 = JsonParser_Peek(p);
_t358 = (_t357 != 34);
if (!_t358) goto endif122;
{
p->error = "Unterminated string";
_t359 = &sb;
StringBuilder_Free(_t359);
return "";
}
endif122:;
JsonParser_Advance(p);
const char* result;
_t360 = &sb;
const char* _t361;
_t361 = StringBuilder_Build(_t360);
result = _t361;
_t362 = &sb;
StringBuilder_Free(_t362);
return result;
}
JsonValue JsonParser_ParseNumber(JsonParser* p) {
int _t365;
int _t367;
int _t368;
int _t371;
int _t373;
int _t374;
int _t378;
unsigned int start;
unsigned int _t363;
_t363 = p->pos;
start = _t363;
int c0;
int _t364;
_t364 = JsonParser_Peek(p);
c0 = _t364;
_t365 = (c0 == 45);
if (!_t365) goto endif124;
{
JsonParser_Advance(p);
}
endif124:;
while125:;
if (!1) goto wend126;
{
int c;
int _t366;
_t366 = JsonParser_Peek(p);
c = _t366;
bool __and_tmp_5;
_t367 = (c >= 48);
if (!_t367) goto else127;
_t368 = (c <= 57);
*(bool*)&__and_tmp_5 = _t368;
goto endif128;
else127:;
*(bool*)&__and_tmp_5 = 0;
endif128:;
bool _t369;
_t369 = *(bool*)&__and_tmp_5;
if (!_t369) goto else129;
{
JsonParser_Advance(p);
}
goto endif130;
else129:;
{
goto wend126;
}
endif130:;
}
goto while125;
wend126:;
int _t370;
_t370 = JsonParser_Peek(p);
_t371 = (_t370 == 46);
if (!_t371) goto endif132;
{
JsonParser_Advance(p);
while133:;
if (!1) goto wend134;
{
int c;
int _t372;
_t372 = JsonParser_Peek(p);
c = _t372;
bool __and_tmp_6;
_t373 = (c >= 48);
if (!_t373) goto else135;
_t374 = (c <= 57);
*(bool*)&__and_tmp_6 = _t374;
goto endif136;
else135:;
*(bool*)&__and_tmp_6 = 0;
endif136:;
bool _t375;
_t375 = *(bool*)&__and_tmp_6;
if (!_t375) goto else137;
{
JsonParser_Advance(p);
}
goto endif138;
else137:;
{
goto wend134;
}
endif138:;
}
goto while133;
wend134:;
}
endif132:;
const char* numStr;
const char* _t376;
_t376 = p->src;
unsigned int _t377;
_t377 = p->pos;
_t378 = _t377 - start;
const char* _t379;
_t379 = String_Slice(_t376, start, _t378);
numStr = _t379;
double n;
double _t380;
_t380 = String_ToFloat(numStr);
n = _t380;
JsonValue _t381;
_t381 = Json_Number(n);
return _t381;
}
JsonValue JsonParser_ParseArray(JsonParser* p) {
int _t384;
int _t387;
void* _t389;
int _t391;
int _t392;
JsonParser_Advance(p);
JsonValue arr;
JsonValue _t382;
_t382 = Json_Array();
arr = _t382;
JsonParser_SkipWhitespace(p);
int _t383;
_t383 = JsonParser_Peek(p);
_t384 = (_t383 == 93);
if (!_t384) goto endif140;
{
JsonParser_Advance(p);
return arr;
}
endif140:;
while141:;
if (!1) goto wend142;
{
JsonParser_SkipWhitespace(p);
JsonValue val;
JsonValue _t385;
_t385 = JsonParser_ParseValue(p);
val = _t385;
const char* _t386;
_t386 = p->error;
_t387 = (_t386 != "");
if (!_t387) goto endif144;
{
JsonValue _t388;
_t388 = Json_Null();
return _t388;
}
endif144:;
_t389 = &arr;
Json_ArrayPush(_t389, val);
JsonParser_SkipWhitespace(p);
int c;
int _t390;
_t390 = JsonParser_Peek(p);
c = _t390;
_t391 = (c == 93);
if (!_t391) goto endif146;
{
JsonParser_Advance(p);
return arr;
}
endif146:;
_t392 = (c == 44);
if (!_t392) goto else147;
{
JsonParser_Advance(p);
}
goto endif148;
else147:;
{
p->error = "Expected ',' or ']' in array";
JsonValue _t393;
_t393 = Json_Null();
return _t393;
}
endif148:;
}
goto while141;
wend142:;
}
JsonValue JsonParser_ParseObject(JsonParser* p) {
int _t396;
int _t399;
int _t402;
int _t406;
void* _t408;
int _t410;
int _t411;
JsonParser_Advance(p);
JsonValue obj;
JsonValue _t394;
_t394 = Json_Object();
obj = _t394;
JsonParser_SkipWhitespace(p);
int _t395;
_t395 = JsonParser_Peek(p);
_t396 = (_t395 == 125);
if (!_t396) goto endif150;
{
JsonParser_Advance(p);
return obj;
}
endif150:;
while151:;
if (!1) goto wend152;
{
JsonParser_SkipWhitespace(p);
const char* key;
const char* _t397;
_t397 = JsonParser_ParseString(p);
key = _t397;
const char* _t398;
_t398 = p->error;
_t399 = (_t398 != "");
if (!_t399) goto endif154;
{
JsonValue _t400;
_t400 = Json_Null();
return _t400;
}
endif154:;
JsonParser_SkipWhitespace(p);
int _t401;
_t401 = JsonParser_Peek(p);
_t402 = (_t401 != 58);
if (!_t402) goto endif156;
{
p->error = "Expected ':' after object key";
JsonValue _t403;
_t403 = Json_Null();
return _t403;
}
endif156:;
JsonParser_Advance(p);
JsonParser_SkipWhitespace(p);
JsonValue val;
JsonValue _t404;
_t404 = JsonParser_ParseValue(p);
val = _t404;
const char* _t405;
_t405 = p->error;
_t406 = (_t405 != "");
if (!_t406) goto endif158;
{
JsonValue _t407;
_t407 = Json_Null();
return _t407;
}
endif158:;
_t408 = &obj;
Json_ObjectSet(_t408, key, val);
JsonParser_SkipWhitespace(p);
int c;
int _t409;
_t409 = JsonParser_Peek(p);
c = _t409;
_t410 = (c == 125);
if (!_t410) goto endif160;
{
JsonParser_Advance(p);
return obj;
}
endif160:;
_t411 = (c == 44);
if (!_t411) goto else161;
{
JsonParser_Advance(p);
}
goto endif162;
else161:;
{
p->error = "Expected ',' or '}' in object";
JsonValue _t412;
_t412 = Json_Null();
return _t412;
}
endif162:;
}
goto while151;
wend152:;
}
JsonValue JsonParser_ParseValue(JsonParser* p) {
int _t414;
int _t416;
int _t419;
int _t421;
int _t423;
int _t427;
int _t431;
int _t435;
int _t436;
int _t438;
JsonParser_SkipWhitespace(p);
int c;
int _t413;
_t413 = JsonParser_Peek(p);
c = _t413;
_t414 = (c == 0);
if (!_t414) goto endif164;
{
p->error = "Unexpected end of input";
JsonValue _t415;
_t415 = Json_Null();
return _t415;
}
endif164:;
_t416 = (c == 34);
if (!_t416) goto endif166;
{
const char* _t417;
_t417 = JsonParser_ParseString(p);
JsonValue _t418;
_t418 = Json_String(_t417);
return _t418;
}
endif166:;
_t419 = (c == 123);
if (!_t419) goto endif168;
{
JsonValue _t420;
_t420 = JsonParser_ParseObject(p);
return _t420;
}
endif168:;
_t421 = (c == 91);
if (!_t421) goto endif170;
{
JsonValue _t422;
_t422 = JsonParser_ParseArray(p);
return _t422;
}
endif170:;
_t423 = (c == 116);
if (!_t423) goto endif172;
{
bool _t424;
_t424 = JsonParser_Match(p, "true");
if (!_t424) goto endif174;
{
JsonValue _t425;
_t425 = Json_Bool(1);
return _t425;
}
endif174:;
p->error = "Expected 'true'";
JsonValue _t426;
_t426 = Json_Null();
return _t426;
}
endif172:;
_t427 = (c == 102);
if (!_t427) goto endif176;
{
bool _t428;
_t428 = JsonParser_Match(p, "false");
if (!_t428) goto endif178;
{
JsonValue _t429;
_t429 = Json_Bool(0);
return _t429;
}
endif178:;
p->error = "Expected 'false'";
JsonValue _t430;
_t430 = Json_Null();
return _t430;
}
endif176:;
_t431 = (c == 110);
if (!_t431) goto endif180;
{
bool _t432;
_t432 = JsonParser_Match(p, "null");
if (!_t432) goto endif182;
{
JsonValue _t433;
_t433 = Json_Null();
return _t433;
}
endif182:;
p->error = "Expected 'null'";
JsonValue _t434;
_t434 = Json_Null();
return _t434;
}
endif180:;
bool __or_tmp_7;
bool __and_tmp_8;
_t435 = (c >= 48);
if (!_t435) goto else183;
_t436 = (c <= 57);
*(bool*)&__and_tmp_8 = _t436;
goto endif184;
else183:;
*(bool*)&__and_tmp_8 = 0;
endif184:;
bool _t437;
_t437 = *(bool*)&__and_tmp_8;
if (!_t437) goto else185;
*(bool*)&__or_tmp_7 = 1;
goto endif186;
else185:;
_t438 = (c == 45);
*(bool*)&__or_tmp_7 = _t438;
endif186:;
bool _t439;
_t439 = *(bool*)&__or_tmp_7;
if (!_t439) goto endif188;
{
JsonValue _t440;
_t440 = JsonParser_ParseNumber(p);
return _t440;
}
endif188:;
p->error = "Unexpected character";
JsonValue _t441;
_t441 = Json_Null();
return _t441;
}
JsonValue Json_Parse(const char* s) {
JsonParser _t443;
void* _t444;
void* _t446;
int _t448;
int _t451;
JsonParser p;
unsigned int _t442;
_t442 = String_Len(s);
_t443 = (JsonParser){.src = s, .pos = 0, .len = _t442, .error = ""};
p = _t443;
JsonValue result;
_t444 = &p;
JsonValue _t445;
_t445 = JsonParser_ParseValue(_t444);
result = _t445;
_t446 = &p;
JsonParser_SkipWhitespace(_t446);
bool __and_tmp_9;
const char* _t447;
_t447 = p.error;
_t448 = (_t447 == "");
if (!_t448) goto else189;
unsigned int _t449;
_t449 = p.pos;
unsigned int _t450;
_t450 = p.len;
_t451 = (_t449 != _t450);
*(bool*)&__and_tmp_9 = _t451;
goto endif190;
else189:;
*(bool*)&__and_tmp_9 = 0;
endif190:;
bool _t452;
_t452 = *(bool*)&__and_tmp_9;
if (!_t452) goto endif192;
{
p.error = "Trailing data after JSON value";
JsonValue _t453;
_t453 = Json_Null();
return _t453;
}
endif192:;
return result;
}
void Json_StringifyImpl(StringBuilder* sb, JsonValue v) {
int _t455;
int _t457;
int _t460;
int _t463;
char _t464;
char _t466;
int _t468;
char _t469;
int _t471;
int _t472;
char _t473;
int _t476;
char _t477;
int _t479;
char _t480;
int _t482;
int _t483;
char _t484;
char _t485;
char _t488;
char _t489;
int _t492;
char _t493;
int _t454;
_t454 = v.tag;
_t455 = (_t454 == JsonTagNull);
if (!_t455) goto endif194;
{
StringBuilder_Append(sb, "null");
return;
}
endif194:;
int _t456;
_t456 = v.tag;
_t457 = (_t456 == JsonTagBool);
if (!_t457) goto endif196;
{
bool _t458;
_t458 = v.boolVal;
if (!_t458) goto else197;
{
StringBuilder_Append(sb, "true");
}
goto endif198;
else197:;
{
StringBuilder_Append(sb, "false");
}
endif198:;
return;
}
endif196:;
int _t459;
_t459 = v.tag;
_t460 = (_t459 == JsonTagNumber);
if (!_t460) goto endif200;
{
double _t461;
_t461 = v.numVal;
StringBuilder_AppendFloat(sb, _t461);
return;
}
endif200:;
int _t462;
_t462 = v.tag;
_t463 = (_t462 == JsonTagString);
if (!_t463) goto endif202;
{
_t464 = (char)34;
StringBuilder_AppendChar(sb, _t464);
const char* _t465;
_t465 = v.strVal;
StringBuilder_Append(sb, _t465);
_t466 = (char)34;
StringBuilder_AppendChar(sb, _t466);
return;
}
endif202:;
int _t467;
_t467 = v.tag;
_t468 = (_t467 == JsonTagArray);
if (!_t468) goto endif204;
{
_t469 = (char)91;
StringBuilder_AppendChar(sb, _t469);
unsigned int i;
i = 0;
while205:;
unsigned int _t470;
_t470 = v.arrLen;
_t471 = (i < _t470);
if (!_t471) goto wend206;
{
_t472 = (i > 0);
if (!_t472) goto endif208;
{
_t473 = (char)44;
StringBuilder_AppendChar(sb, _t473);
}
endif208:;
JsonValue* _t474;
_t474 = v.arrData;
JsonValue _t475;
_t475 = _t474[i];
Json_StringifyImpl(sb, _t475);
_t476 = i + 1;
i = _t476;
}
goto while205;
wend206:;
_t477 = (char)93;
StringBuilder_AppendChar(sb, _t477);
return;
}
endif204:;
int _t478;
_t478 = v.tag;
_t479 = (_t478 == JsonTagObject);
if (!_t479) goto endif210;
{
_t480 = (char)123;
StringBuilder_AppendChar(sb, _t480);
unsigned int i;
i = 0;
while211:;
unsigned int _t481;
_t481 = v.objLen;
_t482 = (i < _t481);
if (!_t482) goto wend212;
{
_t483 = (i > 0);
if (!_t483) goto endif214;
{
_t484 = (char)44;
StringBuilder_AppendChar(sb, _t484);
}
endif214:;
_t485 = (char)34;
StringBuilder_AppendChar(sb, _t485);
const char** _t486;
_t486 = v.objKeys;
const char* _t487;
_t487 = _t486[i];
StringBuilder_Append(sb, _t487);
_t488 = (char)34;
StringBuilder_AppendChar(sb, _t488);
_t489 = (char)58;
StringBuilder_AppendChar(sb, _t489);
JsonValue* _t490;
_t490 = v.objValues;
JsonValue _t491;
_t491 = _t490[i];
Json_StringifyImpl(sb, _t491);
_t492 = i + 1;
i = _t492;
}
goto while211;
wend212:;
_t493 = (char)125;
StringBuilder_AppendChar(sb, _t493);
return;
}
endif210:;
}
const char* Json_Stringify(JsonValue v) {
void* _t495;
void* _t496;
StringBuilder sb;
StringBuilder _t494;
_t494 = StringBuilder_New();
sb = _t494;
_t495 = &sb;
Json_StringifyImpl(_t495, v);
_t496 = &sb;
const char* _t497;
_t497 = StringBuilder_Build(_t496);
return _t497;
}
unsigned int String_Len(const char* s) {
unsigned int _t498;
_t498 = bux_strlen(s);
return _t498;
}
bool String_IsNull(const char* s) {
int _t500;
int _t499;
_t499 = bux_str_is_null(s);
_t500 = (_t499 != 0);
return _t500;
}
bool String_Eq(const char* a, const char* b) {
int _t502;
int _t501;
_t501 = bux_strcmp(a, b);
_t502 = (_t501 == 0);
return _t502;
}
const char* String_Concat(const char* a, const char* b) {
int _t505;
int _t506;
char* _t508;
unsigned int len_a;
unsigned int _t503;
_t503 = bux_strlen(a);
len_a = _t503;
unsigned int len_b;
unsigned int _t504;
_t504 = bux_strlen(b);
len_b = _t504;
unsigned int total;
_t505 = len_a + len_b;
_t506 = _t505 + 1;
total = _t506;
char* buf;
void* _t507;
_t507 = bux_alloc(total);
_t508 = (char*)_t507;
buf = _t508;
bux_strcpy(buf, a);
bux_strcat(buf, b);
return buf;
}
const char* String_Copy(const char* s) {
int _t510;
char* _t512;
unsigned int len;
unsigned int _t509;
_t509 = bux_strlen(s);
len = _t509;
char* buf;
_t510 = len + 1;
void* _t511;
_t511 = bux_alloc(_t510);
_t512 = (char*)_t511;
buf = _t512;
bux_strcpy(buf, s);
return buf;
}
bool String_StartsWith(const char* s, const char* prefix) {
int _t515;
int _t517;
unsigned int s_len;
unsigned int _t513;
_t513 = bux_strlen(s);
s_len = _t513;
unsigned int p_len;
unsigned int _t514;
_t514 = bux_strlen(prefix);
p_len = _t514;
_t515 = (p_len > s_len);
if (!_t515) goto endif216;
{
return 0;
}
endif216:;
int r;
int _t516;
_t516 = bux_strncmp(s, prefix, p_len);
r = _t516;
_t517 = (r == 0);
return _t517;
}
bool String_EndsWith(const char* s, const char* suffix) {
int _t520;
int _t521;
int _t524;
unsigned int s_len;
unsigned int _t518;
_t518 = bux_strlen(s);
s_len = _t518;
unsigned int suf_len;
unsigned int _t519;
_t519 = bux_strlen(suffix);
suf_len = _t519;
_t520 = (suf_len > s_len);
if (!_t520) goto endif218;
{
return 0;
}
endif218:;
unsigned int start;
_t521 = s_len - suf_len;
start = _t521;
const char* tail;
const char* _t522;
_t522 = bux_str_slice(s, start, suf_len);
tail = _t522;
bool eq;
int _t523;
_t523 = bux_strcmp(tail, suffix);
_t524 = (_t523 == 0);
eq = _t524;
return eq;
}
bool String_Contains(const char* s, const char* substr) {
int _t526;
int r;
int _t525;
_t525 = bux_str_contains(s, substr);
r = _t525;
_t526 = (r != 0);
return _t526;
}
const char* String_Slice(const char* s, unsigned int start, unsigned int len) {
const char* _t527;
_t527 = bux_str_slice(s, start, len);
return _t527;
}
const char* String_Trim(const char* s) {
const char* _t528;
_t528 = bux_str_trim(s);
return _t528;
}
const char* String_TrimLeft(const char* s) {
const char* _t529;
_t529 = bux_str_trim_left(s);
return _t529;
}
const char* String_TrimRight(const char* s) {
const char* _t530;
_t530 = bux_str_trim_right(s);
return _t530;
}
const char* String_FromInt(int64_t n) {
const char* _t531;
_t531 = bux_int_to_str(n);
return _t531;
}
int64_t String_ToInt(const char* s) {
int64_t _t532;
_t532 = bux_str_to_int(s);
return _t532;
}
StringBuilder StringBuilder_New(void) {
StringBuilder _t534;
void* _t533;
_t533 = bux_sb_new(64);
_t534 = (StringBuilder){.handle = _t533};
return _t534;
}
StringBuilder StringBuilder_NewCap(unsigned int cap) {
StringBuilder _t536;
void* _t535;
_t535 = bux_sb_new(cap);
_t536 = (StringBuilder){.handle = _t535};
return _t536;
}
void StringBuilder_Append(StringBuilder* sb, const char* s) {
void* _t537;
_t537 = sb->handle;
bux_sb_append(_t537, s);
}
void StringBuilder_AppendInt(StringBuilder* sb, int64_t n) {
void* _t538;
_t538 = sb->handle;
bux_sb_append_int(_t538, n);
}
void StringBuilder_AppendFloat(StringBuilder* sb, double f) {
void* _t539;
_t539 = sb->handle;
bux_sb_append_float(_t539, f);
}
void StringBuilder_AppendChar(StringBuilder* sb, char c) {
void* _t540;
_t540 = sb->handle;
bux_sb_append_char(_t540, c);
}
const char* StringBuilder_Build(StringBuilder* sb) {
void* _t541;
_t541 = sb->handle;
const char* _t542;
_t542 = bux_sb_build(_t541);
return _t542;
}
void StringBuilder_Free(StringBuilder* sb) {
void* _t543;
_t543 = sb->handle;
bux_sb_free(_t543);
}
unsigned int String_SplitCount(const char* s, const char* delim) {
unsigned int _t544;
_t544 = bux_str_split_count(s, delim);
return _t544;
}
const char* String_SplitPart(const char* s, const char* delim, unsigned int index) {
const char* _t545;
_t545 = bux_str_split_part(s, delim, index);
return _t545;
}
const char* String_Join2(const char* a, const char* b, const char* sep) {
const char* _t546;
_t546 = bux_str_join2(a, b, sep);
return _t546;
}
const char* String_Chars(const char* s, unsigned int index) {
const char* _t547;
_t547 = bux_str_slice(s, index, 1);
return _t547;
}
const char* String_Find(const char* haystack, const char* needle) {
const char* _t548;
_t548 = bux_strstr(haystack, needle);
return _t548;
}
unsigned int String_Offset(const char* pos, const char* base) {
unsigned int _t549;
_t549 = bux_str_offset(pos, base);
return _t549;
}
const char* String_Replace(const char* s, const char* old, const char* new) {
int _t555;
int _t557;
int _t558;
const char* pos;
const char* _t550;
_t550 = bux_strstr(s, old);
pos = _t550;
bool _t551;
_t551 = String_IsNull(pos);
if (!_t551) goto endif220;
{
return s;
}
endif220:;
unsigned int oldLen;
unsigned int _t552;
_t552 = bux_strlen(old);
oldLen = _t552;
unsigned int prefixLen;
unsigned int _t553;
_t553 = String_Offset(pos, s);
prefixLen = _t553;
const char* prefix;
const char* _t554;
_t554 = bux_str_slice(s, 0, prefixLen);
prefix = _t554;
const char* suffix;
_t555 = prefixLen + oldLen;
unsigned int _t556;
_t556 = bux_strlen(s);
_t557 = _t556 - prefixLen;
_t558 = _t557 - oldLen;
const char* _t559;
_t559 = bux_str_slice(s, _t555, _t558);
suffix = _t559;
const char* temp;
const char* _t560;
_t560 = String_Concat(prefix, new);
temp = _t560;
const char* result;
const char* _t561;
_t561 = String_Concat(temp, suffix);
result = _t561;
return result;
}
double String_ToFloat(const char* s) {
double _t562;
_t562 = bux_str_to_float(s);
return _t562;
}
const char* String_FromBool(bool b) {
if (!b) goto endif222;
{
return "true";
}
endif222:;
return "false";
}
const char* String_FromFloat(double f) {
const char* _t563;
_t563 = bux_float_to_string(f);
return _t563;
}
const char* String_Format1(const char* pattern, const char* a0) {
const char* _t564;
_t564 = bux_str_format(pattern, a0, "", "", "", "", "", "", "");
return _t564;
}
const char* String_Format2(const char* pattern, const char* a0, const char* a1) {
const char* _t565;
_t565 = bux_str_format(pattern, a0, a1, "", "", "", "", "", "");
return _t565;
}
const char* String_Format3(const char* pattern, const char* a0, const char* a1, const char* a2) {
const char* _t566;
_t566 = bux_str_format(pattern, a0, a1, a2, "", "", "", "", "");
return _t566;
}
void Channel_SendInt(Channel_int* ch, int value) {
void* _t568;
void* _t569;
void* _t567;
_t567 = ch->handle;
_t568 = &value;
_t569 = (void*)_t568;
bux_channel_send(_t567, _t569);
}
int Channel_RecvInt(Channel_int* ch) {
void* _t571;
void* _t572;
int result;
result = 0;
void* _t570;
_t570 = ch->handle;
_t571 = &result;
_t572 = (void*)_t571;
bux_channel_recv(_t570, _t572);
return result;
}
void Channel_SendFloat64(Channel_float64* ch, double value) {
void* _t574;
void* _t575;
void* _t573;
_t573 = ch->handle;
_t574 = &value;
_t575 = (void*)_t574;
bux_channel_send(_t573, _t575);
}
double Channel_RecvFloat64(Channel_float64* ch) {
void* _t577;
void* _t578;
double result;
result = 0.0;
void* _t576;
_t576 = ch->handle;
_t577 = &result;
_t578 = (void*)_t577;
bux_channel_recv(_t576, _t578);
return result;
}
const char* Hash_Sha1(const char* data) {
int _t580;
int len;
unsigned int _t579;
_t579 = String_Len(data);
_t580 = (int)_t579;
len = _t580;
void* buf;
void* _t581;
_t581 = Alloc(20);
buf = _t581;
bux_sha1(data, len, buf);
const char* result;
const char* _t582;
_t582 = bux_bytes_to_hex(buf, 20);
result = _t582;
Free(buf);
return result;
}
const char* Hash_Sha256(const char* data) {
int _t584;
int len;
unsigned int _t583;
_t583 = String_Len(data);
_t584 = (int)_t583;
len = _t584;
void* buf;
void* _t585;
_t585 = Alloc(32);
buf = _t585;
bux_sha256(data, len, buf);
const char* result;
const char* _t586;
_t586 = bux_bytes_to_hex(buf, 32);
result = _t586;
Free(buf);
return result;
}
const char* Hash_Sha384(const char* data) {
int _t588;
int len;
unsigned int _t587;
_t587 = String_Len(data);
_t588 = (int)_t587;
len = _t588;
void* buf;
void* _t589;
_t589 = Alloc(48);
buf = _t589;
bux_sha384(data, len, buf);
const char* result;
const char* _t590;
_t590 = bux_bytes_to_hex(buf, 48);
result = _t590;
Free(buf);
return result;
}
const char* Hash_Sha512(const char* data) {
int _t592;
int len;
unsigned int _t591;
_t591 = String_Len(data);
_t592 = (int)_t591;
len = _t592;
void* buf;
void* _t593;
_t593 = Alloc(64);
buf = _t593;
bux_sha512(data, len, buf);
const char* result;
const char* _t594;
_t594 = bux_bytes_to_hex(buf, 64);
result = _t594;
Free(buf);
return result;
}
void Hash_Sha256Raw(const char* data, void* out) {
int _t596;
unsigned int _t595;
_t595 = String_Len(data);
_t596 = (int)_t595;
bux_sha256(data, _t596, out);
}
void Hash_Sha384Raw(const char* data, void* out) {
int _t598;
unsigned int _t597;
_t597 = String_Len(data);
_t598 = (int)_t597;
bux_sha384(data, _t598, out);
}
void Hash_Sha512Raw(const char* data, void* out) {
int _t600;
unsigned int _t599;
_t599 = String_Len(data);
_t600 = (int)_t599;
bux_sha512(data, _t600, out);
}
int Hash_Sha1Size(void) {
return 20;
}
int Hash_Sha256Size(void) {
return 32;
}
int Hash_Sha384Size(void) {
return 48;
}
int Hash_Sha512Size(void) {
return 64;
}
const char* Base64_Encode(const char* s) {
int _t602;
unsigned int _t601;
_t601 = String_Len(s);
_t602 = (int)_t601;
const char* _t603;
_t603 = bux_base64_encode(s, _t602);
return _t603;
}
const char* Base64_Decode(const char* s) {
int _t605;
void* _t606;
int outlen;
outlen = 0;
unsigned int _t604;
_t604 = String_Len(s);
_t605 = (int)_t604;
_t606 = &outlen;
const char* _t607;
_t607 = bux_base64_decode(s, _t605, _t606);
return _t607;
}
const char* Base64URL_Encode(const char* s) {
int _t609;
unsigned int _t608;
_t608 = String_Len(s);
_t609 = (int)_t608;
const char* _t610;
_t610 = bux_base64url_encode(s, _t609);
return _t610;
}
const char* Base64URL_Decode(const char* s) {
int _t612;
void* _t613;
int outlen;
outlen = 0;
unsigned int _t611;
_t611 = String_Len(s);
_t612 = (int)_t611;
_t613 = &outlen;
const char* _t614;
_t614 = bux_base64url_decode(s, _t612, _t613);
return _t614;
}
const char* Hmac_Sha256(const char* key, const char* message) {
int _t616;
int _t618;
int kl;
unsigned int _t615;
_t615 = String_Len(key);
_t616 = (int)_t615;
kl = _t616;
int ml;
unsigned int _t617;
_t617 = String_Len(message);
_t618 = (int)_t617;
ml = _t618;
void* buf;
void* _t619;
_t619 = Alloc(32);
buf = _t619;
bux_hmac_sha256(key, kl, message, ml, buf);
const char* result;
const char* _t620;
_t620 = bux_bytes_to_hex(buf, 32);
result = _t620;
Free(buf);
return result;
}
void Hmac_Sha256Raw(const char* key, const char* message, void* out) {
int _t622;
int _t624;
unsigned int _t621;
_t621 = String_Len(key);
_t622 = (int)_t621;
unsigned int _t623;
_t623 = String_Len(message);
_t624 = (int)_t623;
bux_hmac_sha256(key, _t622, message, _t624, out);
}
const char* Hmac_Sha256Base64(const char* key, const char* message) {
int _t626;
int _t628;
const char* _t630;
int kl;
unsigned int _t625;
_t625 = String_Len(key);
_t626 = (int)_t625;
kl = _t626;
int ml;
unsigned int _t627;
_t627 = String_Len(message);
_t628 = (int)_t627;
ml = _t628;
void* buf;
void* _t629;
_t629 = Alloc(32);
buf = _t629;
bux_hmac_sha256(key, kl, message, ml, buf);
const char* result;
_t630 = (const char*)buf;
const char* _t631;
_t631 = bux_base64_encode(_t630, 32);
result = _t631;
Free(buf);
return result;
}
const char* Hmac_Sha384(const char* key, const char* message) {
int _t633;
int _t635;
int kl;
unsigned int _t632;
_t632 = String_Len(key);
_t633 = (int)_t632;
kl = _t633;
int ml;
unsigned int _t634;
_t634 = String_Len(message);
_t635 = (int)_t634;
ml = _t635;
void* buf;
void* _t636;
_t636 = Alloc(48);
buf = _t636;
bux_hmac_sha384(key, kl, message, ml, buf);
const char* result;
const char* _t637;
_t637 = bux_bytes_to_hex(buf, 48);
result = _t637;
Free(buf);
return result;
}
void Hmac_Sha384Raw(const char* key, const char* message, void* out) {
int _t639;
int _t641;
unsigned int _t638;
_t638 = String_Len(key);
_t639 = (int)_t638;
unsigned int _t640;
_t640 = String_Len(message);
_t641 = (int)_t640;
bux_hmac_sha384(key, _t639, message, _t641, out);
}
const char* Hmac_Sha384Base64(const char* key, const char* message) {
int _t643;
int _t645;
const char* _t647;
int kl;
unsigned int _t642;
_t642 = String_Len(key);
_t643 = (int)_t642;
kl = _t643;
int ml;
unsigned int _t644;
_t644 = String_Len(message);
_t645 = (int)_t644;
ml = _t645;
void* buf;
void* _t646;
_t646 = Alloc(48);
buf = _t646;
bux_hmac_sha384(key, kl, message, ml, buf);
const char* result;
_t647 = (const char*)buf;
const char* _t648;
_t648 = bux_base64_encode(_t647, 48);
result = _t648;
Free(buf);
return result;
}
const char* Hmac_Sha512(const char* key, const char* message) {
int _t650;
int _t652;
int kl;
unsigned int _t649;
_t649 = String_Len(key);
_t650 = (int)_t649;
kl = _t650;
int ml;
unsigned int _t651;
_t651 = String_Len(message);
_t652 = (int)_t651;
ml = _t652;
void* buf;
void* _t653;
_t653 = Alloc(64);
buf = _t653;
bux_hmac_sha512(key, kl, message, ml, buf);
const char* result;
const char* _t654;
_t654 = bux_bytes_to_hex(buf, 64);
result = _t654;
Free(buf);
return result;
}
void Hmac_Sha512Raw(const char* key, const char* message, void* out) {
int _t656;
int _t658;
unsigned int _t655;
_t655 = String_Len(key);
_t656 = (int)_t655;
unsigned int _t657;
_t657 = String_Len(message);
_t658 = (int)_t657;
bux_hmac_sha512(key, _t656, message, _t658, out);
}
const char* Hmac_Sha512Base64(const char* key, const char* message) {
int _t660;
int _t662;
const char* _t664;
int kl;
unsigned int _t659;
_t659 = String_Len(key);
_t660 = (int)_t659;
kl = _t660;
int ml;
unsigned int _t661;
_t661 = String_Len(message);
_t662 = (int)_t661;
ml = _t662;
void* buf;
void* _t663;
_t663 = Alloc(64);
buf = _t663;
bux_hmac_sha512(key, kl, message, ml, buf);
const char* result;
_t664 = (const char*)buf;
const char* _t665;
_t665 = bux_base64_encode(_t664, 64);
result = _t665;
Free(buf);
return result;
}
const char* Random_Bytes(int n) {
int _t666;
unsigned int _t667;
int _t670;
const char* _t671;
_t666 = (n <= 0);
if (!_t666) goto endif224;
{
return "";
}
endif224:;
void* buf;
_t667 = (unsigned int)n;
void* _t668;
_t668 = Alloc(_t667);
buf = _t668;
int _t669;
_t669 = bux_random_bytes(buf, n);
_t670 = (_t669 != 1);
if (!_t670) goto endif226;
{
Free(buf);
return "";
}
endif226:;
_t671 = (const char*)buf;
return _t671;
}
const char* Random_Hex(int n) {
int _t672;
unsigned int _t673;
int _t676;
_t672 = (n <= 0);
if (!_t672) goto endif228;
{
return "";
}
endif228:;
void* buf;
_t673 = (unsigned int)n;
void* _t674;
_t674 = Alloc(_t673);
buf = _t674;
int _t675;
_t675 = bux_random_bytes(buf, n);
_t676 = (_t675 != 1);
if (!_t676) goto endif230;
{
Free(buf);
return "";
}
endif230:;
const char* result;
const char* _t677;
_t677 = bux_bytes_to_hex(buf, n);
result = _t677;
Free(buf);
return result;
}
const char* Random_Base64(int n) {
int _t678;
unsigned int _t679;
int _t682;
const char* _t683;
_t678 = (n <= 0);
if (!_t678) goto endif232;
{
return "";
}
endif232:;
void* buf;
_t679 = (unsigned int)n;
void* _t680;
_t680 = Alloc(_t679);
buf = _t680;
int _t681;
_t681 = bux_random_bytes(buf, n);
_t682 = (_t681 != 1);
if (!_t682) goto endif234;
{
Free(buf);
return "";
}
endif234:;
const char* result;
_t683 = (const char*)buf;
const char* _t684;
_t684 = bux_base64_encode(_t683, n);
result = _t684;
Free(buf);
return result;
}
unsigned int Random_Uint32(void) {
int _t687;
unsigned int* _t688;
unsigned int _t689;
void* buf;
void* _t685;
_t685 = Alloc(4);
buf = _t685;
int _t686;
_t686 = bux_random_bytes(buf, 4);
_t687 = (_t686 != 1);
if (!_t687) goto endif236;
{
Free(buf);
return 0;
}
endif236:;
unsigned int* ptr;
_t688 = (unsigned int*)buf;
ptr = _t688;
unsigned int val;
_t689 = *ptr;
val = _t689;
Free(buf);
return val;
}
const char* Aes_GenerateKey(void) {
unsigned int _t690;
int _t693;
const char* _t694;
void* buf;
_t690 = (unsigned int)AES_KEY_SIZE;
void* _t691;
_t691 = Alloc(_t690);
buf = _t691;
int _t692;
_t692 = bux_random_bytes(buf, AES_KEY_SIZE);
_t693 = (_t692 != 1);
if (!_t693) goto endif238;
{
Free(buf);
return "";
}
endif238:;
_t694 = (const char*)buf;
return _t694;
}
const char* Aes_GenerateIV(void) {
unsigned int _t695;
int _t698;
const char* _t699;
void* buf;
_t695 = (unsigned int)AES_IV_SIZE;
void* _t696;
_t696 = Alloc(_t695);
buf = _t696;
int _t697;
_t697 = bux_random_bytes(buf, AES_IV_SIZE);
_t698 = (_t697 != 1);
if (!_t698) goto endif240;
{
Free(buf);
return "";
}
endif240:;
_t699 = (const char*)buf;
return _t699;
}
const char* Aes_CbcEncrypt(const char* plain, const char* key, const char* iv) {
int _t701;
void* _t702;
int outlen;
outlen = 0;
unsigned int _t700;
_t700 = String_Len(plain);
_t701 = (int)_t700;
_t702 = &outlen;
const char* _t703;
_t703 = bux_aes_256_cbc_encrypt(plain, _t701, key, iv, _t702);
return _t703;
}
const char* Aes_CbcDecrypt(const char* cipher, const char* key, const char* iv) {
int _t705;
void* _t706;
int outlen;
outlen = 0;
unsigned int _t704;
_t704 = String_Len(cipher);
_t705 = (int)_t704;
_t706 = &outlen;
const char* _t707;
_t707 = bux_aes_256_cbc_decrypt(cipher, _t705, key, iv, _t706);
return _t707;
}
const char* Aes_GcmEncrypt(const char* plain, const char* key, const char* iv, void* tag) {
int _t709;
void* _t710;
int outlen;
outlen = 0;
unsigned int _t708;
_t708 = String_Len(plain);
_t709 = (int)_t708;
_t710 = &outlen;
const char* _t711;
_t711 = bux_aes_256_gcm_encrypt(plain, _t709, key, iv, tag, _t710);
return _t711;
}
const char* Aes_GcmDecrypt(const char* cipher, const char* key, const char* iv, const char* tag) {
int _t713;
void* _t714;
int outlen;
outlen = 0;
unsigned int _t712;
_t712 = String_Len(cipher);
_t713 = (int)_t712;
_t714 = &outlen;
const char* _t715;
_t715 = bux_aes_256_gcm_decrypt(cipher, _t713, key, iv, tag, _t714);
return _t715;
}
const char* Jwt_MakeHeader(JwtAlg alg) {
int _t716;
int _t717;
int _t718;
int _t719;
int _t720;
int _t721;
int _t722;
int _t723;
int _t724;
_t716 = (alg == JwtAlg_HS256);
if (!_t716) goto endif242;
{
return "{\"alg\":\"HS256\",\"typ\":\"JWT\"}";
}
endif242:;
_t717 = (alg == JwtAlg_HS384);
if (!_t717) goto endif244;
{
return "{\"alg\":\"HS384\",\"typ\":\"JWT\"}";
}
endif244:;
_t718 = (alg == JwtAlg_HS512);
if (!_t718) goto endif246;
{
return "{\"alg\":\"HS512\",\"typ\":\"JWT\"}";
}
endif246:;
_t719 = (alg == JwtAlg_RS256);
if (!_t719) goto endif248;
{
return "{\"alg\":\"RS256\",\"typ\":\"JWT\"}";
}
endif248:;
_t720 = (alg == JwtAlg_RS384);
if (!_t720) goto endif250;
{
return "{\"alg\":\"RS384\",\"typ\":\"JWT\"}";
}
endif250:;
_t721 = (alg == JwtAlg_RS512);
if (!_t721) goto endif252;
{
return "{\"alg\":\"RS512\",\"typ\":\"JWT\"}";
}
endif252:;
_t722 = (alg == JwtAlg_ES256);
if (!_t722) goto endif254;
{
return "{\"alg\":\"ES256\",\"typ\":\"JWT\"}";
}
endif254:;
_t723 = (alg == JwtAlg_ES384);
if (!_t723) goto endif256;
{
return "{\"alg\":\"ES384\",\"typ\":\"JWT\"}";
}
endif256:;
_t724 = (alg == JwtAlg_EdDSA);
if (!_t724) goto endif258;
{
return "{\"alg\":\"EdDSA\",\"typ\":\"JWT\"}";
}
endif258:;
return "{\"alg\":\"none\",\"typ\":\"JWT\"}";
}
const char* Jwt_Sign(JwtAlg alg, const char* signingInput, const char* key) {
int _t725;
const char* _t727;
int _t729;
const char* _t731;
int _t733;
const char* _t735;
int _t737;
int _t740;
int _t742;
int _t745;
int _t747;
int _t750;
int _t752;
int _t755;
int _t757;
int _t760;
int _t762;
_t725 = (alg == JwtAlg_HS256);
if (!_t725) goto endif260;
{
void* buf;
void* _t726;
_t726 = Alloc(32);
buf = _t726;
Hmac_Sha256Raw(key, signingInput, buf);
const char* result;
_t727 = (const char*)buf;
const char* _t728;
_t728 = bux_base64_encode(_t727, 32);
result = _t728;
Free(buf);
return result;
}
endif260:;
_t729 = (alg == JwtAlg_HS384);
if (!_t729) goto endif262;
{
void* buf;
void* _t730;
_t730 = Alloc(48);
buf = _t730;
Hmac_Sha384Raw(key, signingInput, buf);
const char* result;
_t731 = (const char*)buf;
const char* _t732;
_t732 = bux_base64_encode(_t731, 48);
result = _t732;
Free(buf);
return result;
}
endif262:;
_t733 = (alg == JwtAlg_HS512);
if (!_t733) goto endif264;
{
void* buf;
void* _t734;
_t734 = Alloc(64);
buf = _t734;
Hmac_Sha512Raw(key, signingInput, buf);
const char* result;
_t735 = (const char*)buf;
const char* _t736;
_t736 = bux_base64_encode(_t735, 64);
result = _t736;
Free(buf);
return result;
}
endif264:;
_t737 = (alg == JwtAlg_RS256);
if (!_t737) goto endif266;
{
const char* raw;
const char* _t738;
_t738 = Rsa_SignSha256(key, signingInput);
raw = _t738;
unsigned int _t739;
_t739 = String_Len(raw);
_t740 = (int)_t739;
const char* _t741;
_t741 = bux_base64_encode(raw, _t740);
return _t741;
}
endif266:;
_t742 = (alg == JwtAlg_RS384);
if (!_t742) goto endif268;
{
const char* raw;
const char* _t743;
_t743 = Rsa_SignSha384(key, signingInput);
raw = _t743;
unsigned int _t744;
_t744 = String_Len(raw);
_t745 = (int)_t744;
const char* _t746;
_t746 = bux_base64_encode(raw, _t745);
return _t746;
}
endif268:;
_t747 = (alg == JwtAlg_RS512);
if (!_t747) goto endif270;
{
const char* raw;
const char* _t748;
_t748 = Rsa_SignSha512(key, signingInput);
raw = _t748;
unsigned int _t749;
_t749 = String_Len(raw);
_t750 = (int)_t749;
const char* _t751;
_t751 = bux_base64_encode(raw, _t750);
return _t751;
}
endif270:;
_t752 = (alg == JwtAlg_ES256);
if (!_t752) goto endif272;
{
const char* raw;
const char* _t753;
_t753 = Ecdsa_SignP256(key, signingInput);
raw = _t753;
unsigned int _t754;
_t754 = String_Len(raw);
_t755 = (int)_t754;
const char* _t756;
_t756 = bux_base64_encode(raw, _t755);
return _t756;
}
endif272:;
_t757 = (alg == JwtAlg_ES384);
if (!_t757) goto endif274;
{
const char* raw;
const char* _t758;
_t758 = Ecdsa_SignP384(key, signingInput);
raw = _t758;
unsigned int _t759;
_t759 = String_Len(raw);
_t760 = (int)_t759;
const char* _t761;
_t761 = bux_base64_encode(raw, _t760);
return _t761;
}
endif274:;
_t762 = (alg == JwtAlg_EdDSA);
if (!_t762) goto endif276;
{
const char* _t763;
_t763 = Ed25519_Sign(key, signingInput);
return _t763;
}
endif276:;
return "";
}
bool Jwt_Verify(JwtAlg alg, const char* signingInput, const char* signatureB64, const char* key) {
int _t764;
const char* _t766;
int _t769;
const char* _t771;
int _t774;
const char* _t776;
int _t779;
int _t781;
int _t783;
int _t785;
int _t787;
int _t789;
_t764 = (alg == JwtAlg_HS256);
if (!_t764) goto endif278;
{
void* expectBuf;
void* _t765;
_t765 = Alloc(32);
expectBuf = _t765;
Hmac_Sha256Raw(key, signingInput, expectBuf);
const char* expectB64;
_t766 = (const char*)expectBuf;
const char* _t767;
_t767 = bux_base64_encode(_t766, 32);
expectB64 = _t767;
Free(expectBuf);
bool _t768;
_t768 = String_Eq(expectB64, signatureB64);
return _t768;
}
endif278:;
_t769 = (alg == JwtAlg_HS384);
if (!_t769) goto endif280;
{
void* expectBuf;
void* _t770;
_t770 = Alloc(48);
expectBuf = _t770;
Hmac_Sha384Raw(key, signingInput, expectBuf);
const char* expectB64;
_t771 = (const char*)expectBuf;
const char* _t772;
_t772 = bux_base64_encode(_t771, 48);
expectB64 = _t772;
Free(expectBuf);
bool _t773;
_t773 = String_Eq(expectB64, signatureB64);
return _t773;
}
endif280:;
_t774 = (alg == JwtAlg_HS512);
if (!_t774) goto endif282;
{
void* expectBuf;
void* _t775;
_t775 = Alloc(64);
expectBuf = _t775;
Hmac_Sha512Raw(key, signingInput, expectBuf);
const char* expectB64;
_t776 = (const char*)expectBuf;
const char* _t777;
_t777 = bux_base64_encode(_t776, 64);
expectB64 = _t777;
Free(expectBuf);
bool _t778;
_t778 = String_Eq(expectB64, signatureB64);
return _t778;
}
endif282:;
_t779 = (alg == JwtAlg_RS256);
if (!_t779) goto endif284;
{
bool _t780;
_t780 = Rsa_VerifySha256(key, signingInput, signatureB64);
return _t780;
}
endif284:;
_t781 = (alg == JwtAlg_RS384);
if (!_t781) goto endif286;
{
bool _t782;
_t782 = Rsa_VerifySha384(key, signingInput, signatureB64);
return _t782;
}
endif286:;
_t783 = (alg == JwtAlg_RS512);
if (!_t783) goto endif288;
{
bool _t784;
_t784 = Rsa_VerifySha512(key, signingInput, signatureB64);
return _t784;
}
endif288:;
_t785 = (alg == JwtAlg_ES256);
if (!_t785) goto endif290;
{
bool _t786;
_t786 = Ecdsa_VerifyP256(key, signingInput, signatureB64);
return _t786;
}
endif290:;
_t787 = (alg == JwtAlg_ES384);
if (!_t787) goto endif292;
{
bool _t788;
_t788 = Ecdsa_VerifyP384(key, signingInput, signatureB64);
return _t788;
}
endif292:;
_t789 = (alg == JwtAlg_EdDSA);
if (!_t789) goto endif294;
{
bool _t790;
_t790 = Ed25519_Verify(key, signatureB64, signingInput);
return _t790;
}
endif294:;
return 0;
}
const char* Jwt_Encode(const char* headerJson, const char* payloadJson, JwtAlg alg, const char* key) {
const char* headerB64;
const char* _t791;
_t791 = Base64URL_Encode(headerJson);
headerB64 = _t791;
const char* payloadB64;
const char* _t792;
_t792 = Base64URL_Encode(payloadJson);
payloadB64 = _t792;
const char* signingInput;
const char* _t793;
_t793 = String_Concat(headerB64, ".");
signingInput = _t793;
const char* signingInputFull;
const char* _t794;
_t794 = String_Concat(signingInput, payloadB64);
signingInputFull = _t794;
const char* sigB64;
const char* _t795;
_t795 = Jwt_Sign(alg, signingInputFull, key);
sigB64 = _t795;
const char* part1;
const char* _t796;
_t796 = String_Concat(signingInputFull, ".");
part1 = _t796;
const char* _t797;
_t797 = String_Concat(part1, sigB64);
return _t797;
}
bool Jwt_Decode(const char* token, JwtAlg alg, const char* key, const char** headerOut, const char** payloadOut) {
int _t799;
int _t806;
unsigned int partCount;
unsigned int _t798;
_t798 = bux_str_split_count(token, ".");
partCount = _t798;
_t799 = (partCount != 3);
if (!_t799) goto endif296;
{
return 0;
}
endif296:;
const char* headerB64;
const char* _t800;
_t800 = bux_str_split_part(token, ".", 0);
headerB64 = _t800;
const char* payloadB64;
const char* _t801;
_t801 = bux_str_split_part(token, ".", 1);
payloadB64 = _t801;
const char* sigB64;
const char* _t802;
_t802 = bux_str_split_part(token, ".", 2);
sigB64 = _t802;
const char* input;
const char* _t803;
_t803 = String_Concat(headerB64, ".");
input = _t803;
const char* signingInput;
const char* _t804;
_t804 = String_Concat(input, payloadB64);
signingInput = _t804;
bool _t805;
_t805 = Jwt_Verify(alg, signingInput, sigB64, key);
_t806 = !_t805;
if (!_t806) goto endif298;
{
return 0;
}
endif298:;
const char* _t807;
_t807 = Base64URL_Decode(headerB64);
headerOut[0] = _t807;
const char* _t808;
_t808 = Base64URL_Decode(payloadB64);
payloadOut[0] = _t808;
return 1;
}
const char* Jwt_EncodeHS256(const char* payloadJson, const char* secret) {
const char* header;
const char* _t809;
_t809 = Jwt_MakeHeader(JwtAlg_HS256);
header = _t809;
const char* _t810;
_t810 = Jwt_Encode(header, payloadJson, JwtAlg_HS256, secret);
return _t810;
}
const char* Jwt_EncodeHS384(const char* payloadJson, const char* secret) {
const char* header;
const char* _t811;
_t811 = Jwt_MakeHeader(JwtAlg_HS384);
header = _t811;
const char* _t812;
_t812 = Jwt_Encode(header, payloadJson, JwtAlg_HS384, secret);
return _t812;
}
const char* Jwt_EncodeHS512(const char* payloadJson, const char* secret) {
const char* header;
const char* _t813;
_t813 = Jwt_MakeHeader(JwtAlg_HS512);
header = _t813;
const char* _t814;
_t814 = Jwt_Encode(header, payloadJson, JwtAlg_HS512, secret);
return _t814;
}
const char* Jwt_EncodeRS256(const char* payloadJson, const char* pemPrivateKey) {
const char* header;
const char* _t815;
_t815 = Jwt_MakeHeader(JwtAlg_RS256);
header = _t815;
const char* _t816;
_t816 = Jwt_Encode(header, payloadJson, JwtAlg_RS256, pemPrivateKey);
return _t816;
}
const char* Jwt_EncodeES256(const char* payloadJson, const char* pemPrivateKey) {
const char* header;
const char* _t817;
_t817 = Jwt_MakeHeader(JwtAlg_ES256);
header = _t817;
const char* _t818;
_t818 = Jwt_Encode(header, payloadJson, JwtAlg_ES256, pemPrivateKey);
return _t818;
}
const char* Jwt_EncodeEdDSA(const char* payloadJson, const char* rawPrivKey) {
const char* header;
const char* _t819;
_t819 = Jwt_MakeHeader(JwtAlg_EdDSA);
header = _t819;
const char* _t820;
_t820 = Jwt_Encode(header, payloadJson, JwtAlg_EdDSA, rawPrivKey);
return _t820;
}
const char* Ecdsa_SignP256(const char* pemPrivateKey, const char* data) {
int _t822;
int _t824;
void* _t825;
int siglen;
siglen = 0;
unsigned int _t821;
_t821 = String_Len(pemPrivateKey);
_t822 = (int)_t821;
unsigned int _t823;
_t823 = String_Len(data);
_t824 = (int)_t823;
_t825 = &siglen;
const char* _t826;
_t826 = bux_ecdsa_sign_p256(pemPrivateKey, _t822, data, _t824, _t825);
return _t826;
}
const char* Ecdsa_SignP256Base64(const char* pemPrivateKey, const char* data) {
int _t829;
const char* raw;
const char* _t827;
_t827 = Ecdsa_SignP256(pemPrivateKey, data);
raw = _t827;
unsigned int _t828;
_t828 = String_Len(raw);
_t829 = (int)_t828;
const char* _t830;
_t830 = bux_base64_encode(raw, _t829);
return _t830;
}
bool Ecdsa_VerifyP256(const char* pemPublicKey, const char* data, const char* signature) {
int _t832;
int _t834;
int _t836;
int _t838;
int r;
unsigned int _t831;
_t831 = String_Len(pemPublicKey);
_t832 = (int)_t831;
unsigned int _t833;
_t833 = String_Len(data);
_t834 = (int)_t833;
unsigned int _t835;
_t835 = String_Len(signature);
_t836 = (int)_t835;
int _t837;
_t837 = bux_ecdsa_verify_p256(pemPublicKey, _t832, data, _t834, signature, _t836);
r = _t837;
_t838 = (r == 1);
return _t838;
}
bool Ecdsa_VerifyP256Base64(const char* pemPublicKey, const char* data, const char* signatureB64) {
int _t840;
void* _t841;
int outlen;
outlen = 0;
const char* sig;
unsigned int _t839;
_t839 = String_Len(signatureB64);
_t840 = (int)_t839;
_t841 = &outlen;
const char* _t842;
_t842 = bux_base64_decode(signatureB64, _t840, _t841);
sig = _t842;
bool _t843;
_t843 = Ecdsa_VerifyP256(pemPublicKey, data, sig);
return _t843;
}
const char* Ecdsa_SignP384(const char* pemPrivateKey, const char* data) {
int _t845;
int _t847;
void* _t848;
int siglen;
siglen = 0;
unsigned int _t844;
_t844 = String_Len(pemPrivateKey);
_t845 = (int)_t844;
unsigned int _t846;
_t846 = String_Len(data);
_t847 = (int)_t846;
_t848 = &siglen;
const char* _t849;
_t849 = bux_ecdsa_sign_p384(pemPrivateKey, _t845, data, _t847, _t848);
return _t849;
}
const char* Ecdsa_SignP384Base64(const char* pemPrivateKey, const char* data) {
int _t852;
const char* raw;
const char* _t850;
_t850 = Ecdsa_SignP384(pemPrivateKey, data);
raw = _t850;
unsigned int _t851;
_t851 = String_Len(raw);
_t852 = (int)_t851;
const char* _t853;
_t853 = bux_base64_encode(raw, _t852);
return _t853;
}
bool Ecdsa_VerifyP384(const char* pemPublicKey, const char* data, const char* signature) {
int _t855;
int _t857;
int _t859;
int _t861;
int r;
unsigned int _t854;
_t854 = String_Len(pemPublicKey);
_t855 = (int)_t854;
unsigned int _t856;
_t856 = String_Len(data);
_t857 = (int)_t856;
unsigned int _t858;
_t858 = String_Len(signature);
_t859 = (int)_t858;
int _t860;
_t860 = bux_ecdsa_verify_p384(pemPublicKey, _t855, data, _t857, signature, _t859);
r = _t860;
_t861 = (r == 1);
return _t861;
}
bool Ecdsa_VerifyP384Base64(const char* pemPublicKey, const char* data, const char* signatureB64) {
int _t863;
void* _t864;
int outlen;
outlen = 0;
const char* sig;
unsigned int _t862;
_t862 = String_Len(signatureB64);
_t863 = (int)_t862;
_t864 = &outlen;
const char* _t865;
_t865 = bux_base64_decode(signatureB64, _t863, _t864);
sig = _t865;
bool _t866;
_t866 = Ecdsa_VerifyP384(pemPublicKey, data, sig);
return _t866;
}
bool Ed25519_Keypair(void* pubKey, void* privKey) {
int _t868;
int r;
int _t867;
_t867 = bux_ed25519_keypair(pubKey, privKey);
r = _t867;
_t868 = (r == 1);
return _t868;
}
const char* Ed25519_KeypairBase64(void) {
unsigned int _t869;
unsigned int _t871;
int _t874;
const char* _t875;
const char* _t877;
void* pubBuf;
_t869 = (unsigned int)ED25519_PUBKEY_SIZE;
void* _t870;
_t870 = Alloc(_t869);
pubBuf = _t870;
void* priv;
_t871 = (unsigned int)ED25519_PRIVKEY_SIZE;
void* _t872;
_t872 = Alloc(_t871);
priv = _t872;
int _t873;
_t873 = bux_ed25519_keypair(pubBuf, priv);
_t874 = (_t873 != 1);
if (!_t874) goto endif300;
{
Free(pubBuf);
Free(priv);
return "";
}
endif300:;
const char* pubB64;
_t875 = (const char*)pubBuf;
const char* _t876;
_t876 = bux_base64_encode(_t875, ED25519_PUBKEY_SIZE);
pubB64 = _t876;
const char* privB64;
_t877 = (const char*)priv;
const char* _t878;
_t878 = bux_base64_encode(_t877, ED25519_PRIVKEY_SIZE);
privB64 = _t878;
Free(pubBuf);
Free(priv);
const char* pair;
const char* _t879;
_t879 = String_Concat(pubB64, ":");
pair = _t879;
const char* _t880;
_t880 = String_Concat(pair, privB64);
return _t880;
}
const char* Ed25519_Sign(const char* privKey, const char* data) {
unsigned int _t881;
int _t884;
int _t886;
const char* _t887;
void* sig;
_t881 = (unsigned int)ED25519_SIG_SIZE;
void* _t882;
_t882 = Alloc(_t881);
sig = _t882;
unsigned int _t883;
_t883 = String_Len(data);
_t884 = (int)_t883;
int _t885;
_t885 = bux_ed25519_sign(privKey, data, _t884, sig);
_t886 = (_t885 != 1);
if (!_t886) goto endif302;
{
Free(sig);
return "";
}
endif302:;
_t887 = (const char*)sig;
return _t887;
}
const char* Ed25519_SignBase64(const char* privKey, const char* data) {
int _t890;
const char* sig;
const char* _t888;
_t888 = Ed25519_Sign(privKey, data);
sig = _t888;
unsigned int _t889;
_t889 = String_Len(sig);
_t890 = (_t889 == 0);
if (!_t890) goto endif304;
{
return "";
}
endif304:;
const char* _t891;
_t891 = bux_base64_encode(sig, ED25519_SIG_SIZE);
return _t891;
}
bool Ed25519_Verify(const char* pubKey, const char* signature, const char* data) {
int _t893;
int _t895;
int r;
unsigned int _t892;
_t892 = String_Len(data);
_t893 = (int)_t892;
int _t894;
_t894 = bux_ed25519_verify(pubKey, signature, data, _t893);
r = _t894;
_t895 = (r == 1);
return _t895;
}
bool Ed25519_VerifyBase64(const char* pubKey, const char* signatureB64, const char* data) {
int _t897;
void* _t898;
int _t900;
int outlen;
outlen = 0;
const char* sig;
unsigned int _t896;
_t896 = String_Len(signatureB64);
_t897 = (int)_t896;
_t898 = &outlen;
const char* _t899;
_t899 = bux_base64_decode(signatureB64, _t897, _t898);
sig = _t899;
_t900 = (outlen != ED25519_SIG_SIZE);
if (!_t900) goto endif306;
{
return 0;
}
endif306:;
bool _t901;
_t901 = Ed25519_Verify(pubKey, sig, data);
return _t901;
}
const char* Rsa_SignSha256(const char* pemPrivateKey, const char* data) {
int _t903;
int _t905;
void* _t906;
int siglen;
siglen = 0;
unsigned int _t902;
_t902 = String_Len(pemPrivateKey);
_t903 = (int)_t902;
unsigned int _t904;
_t904 = String_Len(data);
_t905 = (int)_t904;
_t906 = &siglen;
const char* _t907;
_t907 = bux_rsa_sign_sha256(pemPrivateKey, _t903, data, _t905, _t906);
return _t907;
}
const char* Rsa_SignSha384(const char* pemPrivateKey, const char* data) {
int _t909;
int _t911;
void* _t912;
int siglen;
siglen = 0;
unsigned int _t908;
_t908 = String_Len(pemPrivateKey);
_t909 = (int)_t908;
unsigned int _t910;
_t910 = String_Len(data);
_t911 = (int)_t910;
_t912 = &siglen;
const char* _t913;
_t913 = bux_rsa_sign_sha384(pemPrivateKey, _t909, data, _t911, _t912);
return _t913;
}
const char* Rsa_SignSha512(const char* pemPrivateKey, const char* data) {
int _t915;
int _t917;
void* _t918;
int siglen;
siglen = 0;
unsigned int _t914;
_t914 = String_Len(pemPrivateKey);
_t915 = (int)_t914;
unsigned int _t916;
_t916 = String_Len(data);
_t917 = (int)_t916;
_t918 = &siglen;
const char* _t919;
_t919 = bux_rsa_sign_sha512(pemPrivateKey, _t915, data, _t917, _t918);
return _t919;
}
const char* Rsa_SignSha256Base64(const char* pemPrivateKey, const char* data) {
int _t922;
const char* raw;
const char* _t920;
_t920 = Rsa_SignSha256(pemPrivateKey, data);
raw = _t920;
unsigned int _t921;
_t921 = String_Len(raw);
_t922 = (int)_t921;
const char* _t923;
_t923 = bux_base64_encode(raw, _t922);
return _t923;
}
const char* Rsa_SignSha384Base64(const char* pemPrivateKey, const char* data) {
int _t926;
const char* raw;
const char* _t924;
_t924 = Rsa_SignSha384(pemPrivateKey, data);
raw = _t924;
unsigned int _t925;
_t925 = String_Len(raw);
_t926 = (int)_t925;
const char* _t927;
_t927 = bux_base64_encode(raw, _t926);
return _t927;
}
const char* Rsa_SignSha512Base64(const char* pemPrivateKey, const char* data) {
int _t930;
const char* raw;
const char* _t928;
_t928 = Rsa_SignSha512(pemPrivateKey, data);
raw = _t928;
unsigned int _t929;
_t929 = String_Len(raw);
_t930 = (int)_t929;
const char* _t931;
_t931 = bux_base64_encode(raw, _t930);
return _t931;
}
bool Rsa_VerifySha256(const char* pemPublicKey, const char* data, const char* signature) {
int _t933;
int _t935;
int _t937;
int _t939;
int r;
unsigned int _t932;
_t932 = String_Len(pemPublicKey);
_t933 = (int)_t932;
unsigned int _t934;
_t934 = String_Len(data);
_t935 = (int)_t934;
unsigned int _t936;
_t936 = String_Len(signature);
_t937 = (int)_t936;
int _t938;
_t938 = bux_rsa_verify_sha256(pemPublicKey, _t933, data, _t935, signature, _t937);
r = _t938;
_t939 = (r == 1);
return _t939;
}
bool Rsa_VerifySha384(const char* pemPublicKey, const char* data, const char* signature) {
int _t941;
int _t943;
int _t945;
int _t947;
int r;
unsigned int _t940;
_t940 = String_Len(pemPublicKey);
_t941 = (int)_t940;
unsigned int _t942;
_t942 = String_Len(data);
_t943 = (int)_t942;
unsigned int _t944;
_t944 = String_Len(signature);
_t945 = (int)_t944;
int _t946;
_t946 = bux_rsa_verify_sha384(pemPublicKey, _t941, data, _t943, signature, _t945);
r = _t946;
_t947 = (r == 1);
return _t947;
}
bool Rsa_VerifySha512(const char* pemPublicKey, const char* data, const char* signature) {
int _t949;
int _t951;
int _t953;
int _t955;
int r;
unsigned int _t948;
_t948 = String_Len(pemPublicKey);
_t949 = (int)_t948;
unsigned int _t950;
_t950 = String_Len(data);
_t951 = (int)_t950;
unsigned int _t952;
_t952 = String_Len(signature);
_t953 = (int)_t952;
int _t954;
_t954 = bux_rsa_verify_sha512(pemPublicKey, _t949, data, _t951, signature, _t953);
r = _t954;
_t955 = (r == 1);
return _t955;
}
bool Rsa_VerifySha256Base64(const char* pemPublicKey, const char* data, const char* signatureB64) {
int _t957;
void* _t958;
int outlen;
outlen = 0;
const char* sig;
unsigned int _t956;
_t956 = String_Len(signatureB64);
_t957 = (int)_t956;
_t958 = &outlen;
const char* _t959;
_t959 = bux_base64_decode(signatureB64, _t957, _t958);
sig = _t959;
bool _t960;
_t960 = Rsa_VerifySha256(pemPublicKey, data, sig);
return _t960;
}
bool Rsa_VerifySha384Base64(const char* pemPublicKey, const char* data, const char* signatureB64) {
int _t962;
void* _t963;
int outlen;
outlen = 0;
const char* sig;
unsigned int _t961;
_t961 = String_Len(signatureB64);
_t962 = (int)_t961;
_t963 = &outlen;
const char* _t964;
_t964 = bux_base64_decode(signatureB64, _t962, _t963);
sig = _t964;
bool _t965;
_t965 = Rsa_VerifySha384(pemPublicKey, data, sig);
return _t965;
}
bool Rsa_VerifySha512Base64(const char* pemPublicKey, const char* data, const char* signatureB64) {
int _t967;
void* _t968;
int outlen;
outlen = 0;
const char* sig;
unsigned int _t966;
_t966 = String_Len(signatureB64);
_t967 = (int)_t966;
_t968 = &outlen;
const char* _t969;
_t969 = bux_base64_decode(signatureB64, _t967, _t968);
sig = _t969;
bool _t970;
_t970 = Rsa_VerifySha512(pemPublicKey, data, sig);
return _t970;
}
int Main(void) {
int _t977;
const char* hello;
hello = "Hello";
const char* world;
world = "World";
PrintLine("String operations:");
PrintLine("Length of 'Hello':");
unsigned int _t971;
_t971 = String_Len(hello);
PrintInt(_t971);
PrintLine("");
const char* greeting;
const char* _t972;
_t972 = String_Concat(hello, ", ");
greeting = _t972;
const char* greeting2;
const char* _t973;
_t973 = String_Concat(greeting, world);
greeting2 = _t973;
const char* full;
const char* _t974;
_t974 = String_Concat(greeting2, "!");
full = _t974;
PrintLine("Concatenated:");
PrintLine(full);
bool _t975;
_t975 = String_Eq(hello, "Hello");
if (!_t975) goto endif308;
{
PrintLine("'Hello' equals 'Hello'");
}
endif308:;
bool _t976;
_t976 = String_Eq(hello, world);
_t977 = !_t976;
if (!_t977) goto endif310;
{
PrintLine("'Hello' does not equal 'World'");
}
endif310:;
return 0;
}
/* C entry point wrapper */
extern int g_argc;
extern char** g_argv;
int main(int argc, char** argv) {
g_argc = argc;
g_argv = argv;
return Main();
}