parser3/src/main/pa_http.C - diff

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Diff for /parser3/src/main/pa_http.C between versions 1.97 and 1.122

version 1.97, 2020/10/14 21:35:00	version 1.122, 2024/03/11 21:12:53
Line 1	Line 1
/** @file	/** @file
Parser: http support functions.	Parser: http support functions.

Copyright (c) 2001-2017 Art. Lebedev Studio (http://www.artlebedev.com)	Copyright (c) 2001-2023 Art. Lebedev Studio (http://www.artlebedev.com)
Author: Alexandr Petrosian <paf@design.ru> (http://paf.design.ru)	Authors: Konstantin Morshnev <moko@design.ru>, Alexandr Petrosian <paf@design.ru>
*/	*/

#include "pa_http.h"	#include "pa_http.h"
Line 16	Line 16

volatile const char * IDENT_PA_HTTP_C="$Id$" IDENT_PA_HTTP_H;	volatile const char * IDENT_PA_HTTP_C="$Id$" IDENT_PA_HTTP_H;

#ifdef _MSC_VER
#include <windows.h>
#define socklen_t int
#else
#define closesocket close
#endif

// defines	// defines

#define HTTP_METHOD_NAME "method"	#define HTTP_METHOD_NAME "method"
Line 113 public:	Line 106 public:
buf=(char *)pa_realloc(buf, size + 1);	buf=(char *)pa_realloc(buf, size + 1);
}	}

bool read(int sock, size_t size){	bool read(SOCKET sock, size_t size){
if(length+size>buf_size)	if(length + size > buf_size)
resize(buf_size*2 + size);	resize(buf_size * 2 + size);
ssize_t received_size=recv(sock, buf + length, size, 0);	ssize_t received_size=recv(sock, buf + length, size, 0);
if(received_size==0)	if(received_size == 0)
return false;	return false;
if(received_size<0) {	if(received_size < 0) {
if(int no=pa_socks_errno())	if(int no = pa_socks_errno())
throw Exception("http.timeout", 0, "error receiving response body: %s (%d)", pa_socks_strerr(no), no);	throw Exception("http.timeout", 0, "error receiving response: %s (%d)", pa_socks_strerr(no), no);
return false;	return false;
}	}
length+=received_size;	length+=received_size;
Line 189 public:	Line 182 public:
}	}
}	}

int read_response(int sock, bool fail_on_status_ne_200);	int read_response(SOCKET sock, bool fail_on_status_ne_200);
};	};

enum HTTP_response_state {	enum HTTP_response_state {
Line 198 enum HTTP_response_state {	Line 191 enum HTTP_response_state {
HTTP_BODY	HTTP_BODY
};	};

int HTTP_response::read_response(int sock, bool fail_on_status_ne_200) {	int HTTP_response::read_response(SOCKET sock, bool fail_on_status_ne_200) {
HTTP_response_state state=HTTP_STATUS_CODE;	HTTP_response_state state=HTTP_STATUS_CODE;
int result=0;	int result=0;

Line 262 int HTTP_response::read_response(int soc	Line 255 int HTTP_response::read_response(int soc
#ifdef PA_USE_ALARM	#ifdef PA_USE_ALARM
static sigjmp_buf timeout_env;	static sigjmp_buf timeout_env;
static void timeout_handler(int /sig/){	static void timeout_handler(int /sig/){
siglongjmp(timeout_env, 1);	siglongjmp(timeout_env, 1);
}	}

	#define PA_NO_THREADS (HTTPD_Server::mode != HTTPD_Server::MULTITHREADED)

	#define ALARM(value) if(PA_NO_THREADS) alarm(value)
	#else
	#define ALARM(value)
#endif	#endif

static int http_request(HTTP_response& response, const char* host, short port, const char* request, size_t request_size, int timeout_secs, bool fail_on_status_ne_200) {	static int http_request(HTTP_response& response, const char* host, short port, const char* request, size_t request_size, int timeout_secs, bool fail_on_status_ne_200) {
if(!host)	if(!host)
throw Exception("http.host", 0, "zero hostname"); //never	throw Exception("http.host", 0, "zero hostname"); //never

volatile // to prevent makeing it register variable, because it will be clobbered by longjmp [thanks gcc warning]	volatile SOCKET sock=INVALID_SOCKET; // to prevent makeing it register variable, because it will be clobbered by longjmp [thanks gcc warning]
int sock=-1;
#ifdef PA_USE_ALARM
signal(SIGALRM, timeout_handler);
#endif
#ifdef PA_USE_ALARM	#ifdef PA_USE_ALARM
if(sigsetjmp(timeout_env, 1)) {	if(PA_NO_THREADS) signal(SIGALRM, timeout_handler);
// stupid gcc [2.95.4] generated bad code	if(PA_NO_THREADS && sigsetjmp(timeout_env, 1)) {
// which failed to handle sigsetjmp+throw: crashed inside of pre-throw code.	// duplicating closesocket to make code more simple for old compilers
// rewritten simplier [athough duplicating closesocket code]	if(sock != INVALID_SOCKET)
if(sock>=0)	closesocket(sock);
closesocket(sock);	throw Exception("http.timeout", 0, "timeout occurred while retrieving document");
throw Exception("http.timeout", 0, "timeout occurred while retrieving document");
return 0; // never	return 0; // never
} else {	} else
alarm(timeout_secs);
#endif	#endif
	{
	ALARM(timeout_secs);
try {	try {
int result;	int result;
struct sockaddr_in dest;	struct sockaddr_in dest;
Line 294 static int http_request(HTTP_response& r	Line 290 static int http_request(HTTP_response& r
if(!set_addr(&dest, host, port))	if(!set_addr(&dest, host, port))
throw Exception("http.host", 0, "can not resolve hostname \"%s\"", host);	throw Exception("http.host", 0, "can not resolve hostname \"%s\"", host);

if((sock=socket(AF_INET, SOCK_STREAM, IPPROTO_TCP/0/))<0) {	if((sock=socket(AF_INET, SOCK_STREAM, IPPROTO_TCP/0/)) == INVALID_SOCKET) {
int no=pa_socks_errno();	int no=pa_socks_errno();
throw Exception("http.connect", 0, "can not make socket: %s (%d)", pa_socks_strerr(no), no);	throw Exception("http.connect", 0, "can not make socket: %s (%d)", pa_socks_strerr(no), no);
}	}
Line 325 static int http_request(HTTP_response& r	Line 321 static int http_request(HTTP_response& r

result=response.read_response(sock, fail_on_status_ne_200);	result=response.read_response(sock, fail_on_status_ne_200);
closesocket(sock);	closesocket(sock);
#ifdef PA_USE_ALARM	ALARM(0);
alarm(0);
#endif
return result;	return result;
} catch(...) {	} catch(...) {
#ifdef PA_USE_ALARM	ALARM(0);
alarm(0);	if(sock != INVALID_SOCKET)
#endif
if(sock>=0)
closesocket(sock);	closesocket(sock);
rethrow;	rethrow;
}	}
#ifdef PA_USE_ALARM
}	}
#endif
}	}

#ifndef DOXYGEN	#ifndef DOXYGEN
Line 364 char *pa_http_safe_header_name(const cha	Line 354 char *pa_http_safe_header_name(const cha
return result;	return result;
}	}

static void http_pass_header(HashStringValue::key_type aname,	static void http_pass_header(HashStringValue::key_type aname, HashStringValue::value_type avalue, Http_pass_header_info *info) {
HashStringValue::value_type avalue,
Http_pass_header_info *info) {

const char* name_cstr=aname.cstr();	const char* name_cstr=aname.cstr();

Line 563 static ArrayString* parse_cookie(Request	Line 551 static ArrayString* parse_cookie(Request
if(first_pair) {	if(first_pair) {
// name + value	// name + value
name=sname;	name=sname;
value=smeaning;	if(smeaning)
	value=smeaning;
first_pair=false;	first_pair=false;
} else {	} else {
const String& slower=sname->change_case(r.charsets.source(), String::CC_LOWER);	const String& slower=sname->change_case(r.charsets.source(), String::CC_LOWER);
Line 747 File_read_http_result pa_internal_file_r	Line 736 File_read_http_result pa_internal_file_r
throw Exception(PARSER_RUNTIME, &connect_string, "does not start with http://"); //never	throw Exception(PARSER_RUNTIME, &connect_string, "does not start with http://"); //never
current+=7;	current+=7;

strncpy(host, current, sizeof(host)-1); host[sizeof(host)-1]=0;	pa_strncpy(host, current, sizeof(host));
char* host_uri=lsplit(host, '/');	char* host_uri=lsplit(host, '/');
uri=host_uri?current+(host_uri-1-host):"/";	uri=host_uri?current+(host_uri-1-host):"/";
char* port_cstr=lsplit(host, ':');	char* port_cstr=lsplit(host, ':');
Line 921 File_read_http_result pa_internal_file_r	Line 910 File_read_http_result pa_internal_file_r

/* ******************** httpd ************************* */	/* ******************** httpd ************************* */

	#ifdef HTTPD_DEBUG
	void pa_log(const char* fmt, ...);
	#define LOG(action) action
	#else
	#define LOG(action)
	#endif

	enum EscapeState {
	Initial,
	Default,
	EscapeFirst,
	EscapeSecond
	};

	static bool check_uri(const char *uri){
	EscapeState state=Initial;
	uint escapedValue=0;

	const char *pattern="/../";
	const char *pos=pattern;

	while(*uri){
	uchar c=(uchar)*(uri++);
	switch(state) {
	case Initial:
	if(c!='/')
	return false;
	state=Default;
	break;
	case Default:
	if(c=='%'){
	state=EscapeFirst;
	continue;
	}
	if(c=='?')
	return true;
	break;
	case EscapeFirst:
	if(isxdigit(c)){
	state=EscapeSecond;
	escapedValue=hex_value[c] << 4;
	continue;
	}
	return false;
	case EscapeSecond:
	if(isxdigit(c)){
	state=Default;
	c=(uchar)(escapedValue + hex_value[c]);

	// implementing Apache AllowEncodedSlashes Off just in case
	if(c=='/' \|\| c=='\\')
	return false;

	break;
	}
	return false;
	}

	if(c==pos \|\| c=='\\' && pos=='/'){
	if(!*(++pos))
	return false;
	} else {
	pos=pattern;
	}
	}
	return true;
	}

class HTTPD_request : public HTTP_response {	class HTTPD_request : public HTTP_response {
public:	public:
const char *method;	const char *method;
Line 928 public:	Line 985 public:

HTTPD_request() : HTTP_response(), method(NULL), uri(NULL){};	HTTPD_request() : HTTP_response(), method(NULL), uri(NULL){};

	ssize_t pa_recv(SOCKET sockfd, char *buf, size_t len);

	bool read(SOCKET sock, size_t size){
	if(length + size > buf_size)
	resize(buf_size * 2 + size);
	ssize_t received_size=pa_recv(sock, buf + length, size);
	if(received_size == 0)
	return false;
	if(received_size < 0) {
	if(int no = pa_socks_errno())
	throw Exception("httpd.read", 0, "error receiving request: %s (%d)", pa_socks_strerr(no), no);
	return false;
	}
	length+=received_size;
	buf[length]='\0';
	return true;
	}

const char extract_method(char method_line){	const char extract_method(char method_line){
char* uri_start = strchr(method_line, ' ');	char* uri_start = strchr(method_line, ' ');

Line 940 public:	Line 1015 public:
return NULL;	return NULL;

uri=pa_strdup(uri_start+1, uri_end-uri_start-1);	uri=pa_strdup(uri_start+1, uri_end-uri_start-1);
	if(!check_uri(uri))
	throw Exception("httpd.request", 0, "invalid uri '%s'", uri);

return str_upper(method_line, uri_start-method_line);	return str_upper(method_line, uri_start-method_line);
}	}

void read_header(int);
size_t read_post(int, char *, size_t);	bool read_header(SOCKET);
	size_t read_post(SOCKET, char *, size_t);
};	};

enum HTTPD_request_state {	enum HTTPD_request_state {
Line 952 enum HTTPD_request_state {	Line 1031 enum HTTPD_request_state {
HTTPD_HEADERS	HTTPD_HEADERS
};	};

void HTTPD_request::read_header(int sock) {	ssize_t HTTPD_request::pa_recv(SOCKET sockfd, char *buffer, size_t len){
	LOG(pa_log("httpd [%d] recv %d appending to %d ...", sockfd, len, length));

	#ifdef PA_USE_ALARM
	if(PA_NO_THREADS) signal(SIGALRM, timeout_handler);
	if(PA_NO_THREADS && sigsetjmp(timeout_env, 1)) {
	LOG(pa_log("httpd [%d] recv got %d sec timeout", sockfd, pa_httpd_timeout));
	if(length) // timeout on "void" connection is normal
	throw Exception("httpd.timeout", 0, "timeout occurred while receiving request");
	return 0;
	} else
	#endif
	{
	ALARM(pa_httpd_timeout);
	ssize_t result=recv(sockfd, buffer, len, 0);
	ALARM(0);
	LOG(pa_log("httpd [%d] recv got %d bytes", sockfd, result));
	LOG(pa_log("httpd [%d] %s", sockfd, buffer));
	return result;
	}
	}

	static bool valid_http_method(const char * method){
	return method && (
	!strcmp(method, "GET") \|\|
	!strcmp(method, "HEAD") \|\|
	!strcmp(method, "POST") \|\|
	!strcmp(method, "PUT") \|\|
	!strcmp(method, "DELETE") \|\|
	!strcmp(method, "CONNECT") \|\|
	!strcmp(method, "OPTIONS") \|\|
	!strcmp(method, "TRACE") \|\|
	!strcmp(method, "PATCH")
	);
	}

	bool HTTPD_request::read_header(SOCKET sock) {
enum HTTPD_request_state state = HTTPD_METHOD;	enum HTTPD_request_state state = HTTPD_METHOD;

size_t chunk_size = 0x400*4;	size_t chunk_size = 0x400*4;
Line 968 void HTTPD_request::read_header(int sock	Line 1083 void HTTPD_request::read_header(int sock
char *method_line = pa_strdup(buf, method_size);	char *method_line = pa_strdup(buf, method_size);
method = extract_method(method_line);	method = extract_method(method_line);

if(!method \|\|	if(!valid_http_method(method))
strcmp(method, "GET") &&
strcmp(method, "HEAD") &&
strcmp(method, "POST") &&
strcmp(method, "PUT") &&
strcmp(method, "DELETE") &&
strcmp(method, "PATCH")
)
throw Exception("httpd.method", new String(method ? method : method_line), "invalid request method");	throw Exception("httpd.method", new String(method ? method : method_line), "invalid request method");
state = HTTPD_HEADERS;	state = HTTPD_HEADERS;
}	}
Line 985 void HTTPD_request::read_header(int sock	Line 1093 void HTTPD_request::read_header(int sock
break;	break;

parse_headers();	parse_headers();
return;	return true;
}	}
}	}
}	}

	if(!length){ // browsers open connections in advance and they will be empty unless user requests more pages
	LOG(pa_log("httpd [%d] void request", sock));
	return false;
	}

if(state == HTTPD_METHOD)	if(state == HTTPD_METHOD)
throw Exception("httpd.request", 0, "bad request from host - no method found (size=%u)", length);	throw Exception("httpd.request", 0, "bad request from host - no method found (size=%u)", length);

Line 997 void HTTPD_request::read_header(int sock	Line 1110 void HTTPD_request::read_header(int sock
parse_headers();	parse_headers();
body_offset=length;	body_offset=length;
}	}

	return true;
}	}

size_t HTTPD_request::read_post(int sock, char *body, size_t max_bytes) {	size_t HTTPD_request::read_post(SOCKET sock, char *body, size_t max_bytes) {
size_t total_read = min(length - body_offset, max_bytes);	size_t total_read = min(length - body_offset, max_bytes);
memcpy(body, buf, total_read);	memcpy(body, buf + body_offset, total_read);

while (total_read < max_bytes){	while (total_read < max_bytes){
ssize_t received_size = recv(sock, buf + total_read, max_bytes - total_read, 0);	ssize_t received_size = pa_recv(sock, body + total_read, max_bytes - total_read);
if(received_size == 0)	if(received_size == 0)
return total_read;	return total_read;
if(received_size < 0) {	if(received_size < 0) {
if(int no = pa_socks_errno())	if(int no = pa_socks_errno())
throw Exception("httpd.timeout", new String(uri), "error receiving request body: %s (%d)", pa_socks_strerr(no), no);	throw Exception("httpd.read", new String(uri), "error receiving request body: %s (%d)", pa_socks_strerr(no), no);
return total_read;	return total_read;
}	}
total_read += received_size;	total_read += received_size;
Line 1039 uint64_t HTTPD_Connection::content_lengt	Line 1154 uint64_t HTTPD_Connection::content_lengt
return request->headers.content_length;	return request->headers.content_length;
}	}

void HTTPD_Connection::read_header(){	bool HTTPD_Connection::read_header(){
request = new HTTPD_request();	request = new HTTPD_request();
request->read_header(sock);	bool result = request->read_header(sock);
	LOG(if(result){
	pa_log("httpd [%d] got %s \"%s\"", sock, method(), uri());
	})
	return result;
}	}

size_t HTTPD_Connection::read_post(char *body, size_t max_bytes) {	size_t HTTPD_Connection::read_post(char *body, size_t max_bytes) {
Line 1049 size_t HTTPD_Connection::read_post(char	Line 1168 size_t HTTPD_Connection::read_post(char
}	}

size_t HTTPD_Connection::send_body(const void *buf, size_t size) {	size_t HTTPD_Connection::send_body(const void *buf, size_t size) {
	LOG(pa_log("httpd [%d] response %d bytes", sock, size));
	LOG(pa_log("httpd [%d] %s", sock, buf));
if(send(sock, (const char*)buf, size, 0) != (ssize_t)size) {	if(send(sock, (const char*)buf, size, 0) != (ssize_t)size) {
int no=pa_socks_errno();	int no=pa_socks_errno();
throw Exception("httpd.timeout", 0, "error sending response: %s (%d)", pa_socks_strerr(no), no);	throw Exception("httpd.write", 0, "error sending response: %s (%d)", pa_socks_strerr(no), no);
}	}
return size;	return size;
}	}

HTTPD_Connection::~HTTPD_Connection(){	HTTPD_Connection::~HTTPD_Connection(){
if(sock != -1)	if(sock != INVALID_SOCKET){
	LOG(pa_log("httpd [%d] closed", sock));
closesocket(sock);	closesocket(sock);
	}
}	}

static int sock_ready(int fd,int operation,int timeout_value){	static int sock_ready(SOCKET fd, int operation, int timeout_value){
struct timeval timeout = {0, timeout_value * 1000};	struct timeval timeout = {0, timeout_value * 1000};
fd_set fds;	fd_set fds;
FD_ZERO(&fds);	FD_ZERO(&fds);
FD_SET(fd, &fds);	FD_SET(fd, &fds);
	int nfds = (int)fd + 1; /* typecast as nfds is ignored in MSVC anyway */
switch (operation){	switch (operation){
case 0: return select(fd + 1, &fds, NULL, NULL, &timeout)>0; /* read */	case 0: return select(nfds, &fds, NULL, NULL, &timeout)>0; /* read */
case 1: return select(fd + 1, NULL, &fds, NULL, &timeout)>0; /* write */	case 1: return select(nfds, NULL, &fds, NULL, &timeout)>0; /* write */
default: return select(fd + 1, &fds, &fds, NULL, &timeout)>0; /* both */	default: return select(nfds, &fds, &fds, NULL, &timeout)>0; /* both */
}	}
}	}

bool HTTPD_Connection::accept(int server_sock, int timeout_value) {	bool HTTPD_Connection::accept(SOCKET server_sock, int timeout_value) {
int ready = sock_ready(server_sock, 0, timeout_value);	int ready = sock_ready(server_sock, 0, timeout_value);
if (ready < 0) {	if (ready < 0) {
int no=pa_socks_errno();	int no=pa_socks_errno();
Line 1089 bool HTTPD_Connection::accept(int server	Line 1213 bool HTTPD_Connection::accept(int server
memset(&addr, 0, sock_addr_len);	memset(&addr, 0, sock_addr_len);

sock = ::accept(server_sock, (struct sockaddr *)&addr, &sock_addr_len);	sock = ::accept(server_sock, (struct sockaddr *)&addr, &sock_addr_len);
if(server_sock == -1){	if(sock == INVALID_SOCKET){
int no=pa_socks_errno();	int no=pa_socks_errno();
throw Exception("httpd.accept", 0, "error accepting connection: %s (%d)", pa_socks_strerr(no), no);	throw Exception("httpd.accept", 0, "error accepting connection: %s (%d)", pa_socks_strerr(no), no);
}	}

remote_addr = pa_strdup(inet_ntoa(addr.sin_addr));	remote_addr = pa_strdup(inet_ntoa(addr.sin_addr));
	LOG(pa_log("httpd [%d] accepted from %s", sock, remote_addr));
return true;	return true;
}	}

int HTTPD_Server::bind(const char *host_port){	HTTPD_Server::HTTPD_MODE HTTPD_Server::mode = HTTPD_Server::SEQUENTIAL;
	const char *HTTPD_Server::port=NULL;

	void HTTPD_Server::set_mode(const String &value){
	if(value == "sequental") mode = SEQUENTIAL;
	#ifdef HAVE_TLS
	else if (value == "threaded") mode = MULTITHREADED;
	#endif
	#ifdef _MSC_VER
	else throw Exception("httpd.mode", &value, "$MAIN:HTTPD.mode must be 'sequental' or 'threaded'");
	#else
	else if (value == "parallel") mode = PARALLEL;
	else throw Exception("httpd.mode", &value, "$MAIN:HTTPD.mode must be 'sequental', 'parallel' or 'threaded'");
	#endif
	}

	SOCKET HTTPD_Server::bind(const char *host_port){
struct sockaddr_in me;	struct sockaddr_in me;

const char *port = strchr(host_port, ':');	port = strchr(host_port, ':');
const char *host = NULL;	const char *host = NULL;
if(port && port > host_port){	if(port){
host = pa_strdup(host_port, port - host_port);	if(port > host_port)
	host = pa_strdup(host_port, port - host_port);
port += 1;	port += 1;
} else {	} else {
port = host_port;	port = host_port;
}	}

if(!set_addr(&me, host, pa_atoui(port))){	if(!set_addr(&me, host, (short)pa_atoui(port))){
if (host)	if (host)
throw Exception("httpd.bind", 0, "can not resolve hostname \"%s\"", host);	throw Exception("httpd.bind", 0, "can not resolve hostname \"%s\"", host);
me.sin_addr.s_addr=INADDR_ANY;	me.sin_addr.s_addr=INADDR_ANY;
}	}

int sock = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP/0/);	SOCKET sock = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP/0/);

if(sock < 0){	if(sock == INVALID_SOCKET){
int no=pa_socks_errno();	int no=pa_socks_errno();
throw Exception("httpd.bind", 0, "can not make socket: %s (%d)", pa_socks_strerr(no), no);	throw Exception("httpd.bind", 0, "can not make socket: %s (%d)", pa_socks_strerr(no), no);
}	}

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Removed from v.1.97
changed lines
	Added in v.1.122