winamp/Src/replicant/jnetlib/jnetlib.cpp

630 lines
16 KiB
C++
Raw Permalink Normal View History

2024-09-24 13:54:57 +01:00
#include "jnetlib.h"
#include "httpget.h"
#include "sslconnection.h"
#include "asyncdns.h"
#include "util.h"
#include "httpserv.h"
#include "httpuserv.h"
#include "listen.h"
#include "multicastlisten.h"
#include "foundation/error.h"
#include <new>
int jnl_init()
{
return JNL::open_socketlib();
}
void jnl_quit()
{
JNL::close_socketlib();
}
/* --- Connection --- */
jnl_connection_t jnl_connection_create(jnl_dns_t dns, size_t sendbufsize, size_t recvbufsize)
{
JNL_Connection *connection = new (std::nothrow) JNL_Connection((JNL_AsyncDNS *)dns, sendbufsize, recvbufsize);
return (jnl_connection_t)connection;
}
jnl_connection_t jnl_sslconnection_create(jnl_dns_t dns, size_t sendbufsize, size_t recvbufsize)
{
JNL_SSL_Connection *connection = new (std::nothrow) JNL_SSL_Connection(NULL, (JNL_AsyncDNS *)dns, sendbufsize, recvbufsize);
return (jnl_connection_t)connection;
}
void jnl_connection_run(jnl_connection_t _connection, size_t max_send_bytes, size_t max_receive_bytes, size_t *bytes_sent, size_t *bytes_received)
{
JNL_Connection *connection = (JNL_Connection *)_connection;
connection->run(max_send_bytes, max_receive_bytes, bytes_sent, bytes_received);
}
int jnl_connection_get_state(jnl_connection_t _connection)
{
JNL_Connection *connection = (JNL_Connection *)_connection;
return connection->get_state();
}
size_t jnl_connection_send_bytes_available(jnl_connection_t _connection)
{
JNL_Connection *connection = (JNL_Connection *)_connection;
return connection->send_bytes_available();
}
size_t jnl_connection_receive_bytes_available(jnl_connection_t _connection)
{
JNL_Connection *connection = (JNL_Connection *)_connection;
return connection->recv_bytes_available();
}
int jnl_connection_send(jnl_connection_t _connection, const void *bytes, size_t size)
{
JNL_Connection *connection = (JNL_Connection *)_connection;
return connection->send(bytes, size);
}
JNL_API int jnl_connection_send_string(jnl_connection_t _connection, const char *str)
{
JNL_Connection *connection = (JNL_Connection *)_connection;
return connection->send_string(str);
}
size_t jnl_connection_send_bytes_in_queue(jnl_connection_t _connection)
{
JNL_Connection *connection = (JNL_Connection *)_connection;
return connection->send_bytes_in_queue();
}
size_t jnl_connection_receive(jnl_connection_t _connection, void *bytes, size_t size)
{
JNL_Connection *connection = (JNL_Connection *)_connection;
return connection->recv_bytes(bytes, size);
}
size_t jnl_connection_peek(jnl_connection_t _connection, void *bytes, size_t size)
{
JNL_Connection *connection = (JNL_Connection *)_connection;
return connection->peek_bytes(bytes, size);
}
void jnl_connection_release(jnl_connection_t _connection)
{
JNL_Connection *connection = (JNL_Connection *)_connection;
if (connection)
connection->Release();
}
int jnl_connection_receive_line(jnl_connection_t _connection, void *bytes, size_t size)
{
JNL_Connection *connection = (JNL_Connection *)_connection;
return connection->recv_line((char *)bytes, size);
}
size_t jnl_connection_receive_lines_available(jnl_connection_t _connection)
{
JNL_Connection *connection = (JNL_Connection *)_connection;
return connection->recv_lines_available();
}
void jnl_connection_close(jnl_connection_t _connection, int fast)
{
JNL_Connection *connection = (JNL_Connection *)_connection;
connection->close(fast);
}
void jnl_connection_connect(jnl_connection_t _connection, const char *hostname, int port)
{
JNL_Connection *connection = (JNL_Connection *)_connection;
connection->connect(hostname, port);
}
const char *jnl_connection_get_error(jnl_connection_t _connection)
{
JNL_Connection *connection = (JNL_Connection *)_connection;
return connection->get_errstr();
}
/* ---- UDP ----- */
int jnl_udp_create_multicast_listener(jnl_udp_t *connection, const char *mcast_ip, unsigned short port)
{
JNL_UDPConnection *udp = 0;
JNL::open_socketlib(); // TODO: cut
int ret = CreateMulticastListener(&udp, mcast_ip, port);
if (ret != NErr_Success)
{
JNL::close_socketlib(); // TODO: cut
return ret;
}
*connection = (jnl_udp_t)udp;
return NErr_Success;
}
void jnl_udp_release(jnl_udp_t _connection)
{
JNL_UDPConnection *connection = (JNL_UDPConnection *)_connection;
delete connection; // TODO: reference count
JNL::close_socketlib(); // TODO: cut
}
void jnl_udp_run(jnl_udp_t _connection, size_t max_send_bytes, size_t max_recv_bytes, size_t *bytes_sent, size_t *bytes_rcvd)
{
JNL_UDPConnection *connection = (JNL_UDPConnection *)_connection;
if (connection)
{
connection->run(max_send_bytes, max_recv_bytes, bytes_sent, bytes_rcvd);
}
}
size_t jnl_udp_recv_bytes(jnl_udp_t _connection, void *buf, size_t len)
{
JNL_UDPConnection *connection = (JNL_UDPConnection *)_connection;
if (connection)
{
return connection->recv_bytes(buf, len);
}
else
return 0;
}
int jnl_udp_send(jnl_udp_t _connection, const void *bytes, size_t size)
{
JNL_UDPConnection *connection = (JNL_UDPConnection *)_connection;
return connection->send(bytes, size);
}
void jnl_udp_set_peer(jnl_udp_t _connection, const char *hostname, unsigned short port)
{
JNL_UDPConnection *connection = (JNL_UDPConnection *)_connection;
connection->setpeer(hostname, port);
}
void jnl_udp_set_peer_address(jnl_udp_t _connection, sockaddr *addr, socklen_t length)
{
JNL_UDPConnection *connection = (JNL_UDPConnection *)_connection;
connection->setpeer(addr, length);
}
int jnl_udp_get_address(jnl_udp_t _connection, sockaddr **addr, socklen_t *length)
{
JNL_UDPConnection *connection = (JNL_UDPConnection *)_connection;
connection->get_last_recv_msg_addr(addr, length);
return NErr_Success;
}
/* ---- HTTP ---- */
jnl_http_t jnl_http_create(int recvbufsize, int sendbufsize)
{
JNL_HTTPGet *http = new (std::nothrow) JNL_HTTPGet(recvbufsize, sendbufsize);
return (jnl_http_t)http;
}
int jnl_http_set_recv_buffer_size(jnl_http_t _http, size_t new_size)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
return http->set_recv_buffer_size(new_size);
}
int jnl_http_run(jnl_http_t _http)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
return http->run();
}
size_t jnl_http_get_bytes(jnl_http_t _http, void *buf, size_t len)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
return http->get_bytes(static_cast<char *>(buf), len);
}
size_t jnl_http_peek_bytes(jnl_http_t _http, void *buf, size_t len)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
return http->peek_bytes(static_cast<char *>(buf), len);
}
size_t jnl_http_bytes_available(jnl_http_t _http)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
return http->bytes_available();
}
uint64_t jnl_http_content_length(jnl_http_t _http)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
return http->content_length();
}
int jnl_http_get_status(jnl_http_t _http)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
return http->get_status();
}
int jnl_http_getreplycode(jnl_http_t _http)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
return http->getreplycode();
}
const char *jnl_http_getreply(jnl_http_t _http)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
return http->getreply();
}
const char *jnl_http_getheader(jnl_http_t _http, const char *header)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
return http->getheader(header);
}
const char *jnl_http_get_all_headers(jnl_http_t _http)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
return http->getallheaders();
}
void jnl_http_addheader(jnl_http_t _http, const char *header)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
http->addheader(header);
}
void jnl_http_addheadervalue(jnl_http_t _http, const char *header, const char *value)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
http->addheadervalue(header, value);
}
void jnl_http_connect(jnl_http_t _http, const char *url, int http_version, const char *method)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
http->connect(url, http_version, method);
}
void jnl_http_release(jnl_http_t _http)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
if (http)
http->Release();
}
jnl_http_t jnl_http_retain(jnl_http_t _http)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
if (http)
http->Retain();
return _http;
}
const char *jnl_http_get_url(jnl_http_t _http)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
return http->get_url();
}
void jnl_http_reset_headers(jnl_http_t _http)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
http->reset_headers();
}
void jnl_http_set_persistent(jnl_http_t _http)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
http->set_persistent();
}
void jnl_http_allow_compression(jnl_http_t _http)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
http->AllowCompression();
}
void jnl_http_allow_accept_all_reply_codes(jnl_http_t _http)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
http->set_accept_all_reply_codes();
}
jnl_connection_t jnl_http_get_connection(jnl_http_t _http)
{
JNL_HTTPGet *http = (JNL_HTTPGet *)_http;
return (jnl_connection_t)http->get_con();
}
void jnl_http_set_proxy(const char *proxy)
{
JNL_HTTPGet::set_proxy(proxy);
}
/* ------- HTTP Request Parser ------- */
int jnl_http_request_create(jnl_http_request_t *_http, jnl_connection_t _connection)
{
JNL_HTTPServ *http = new (std::nothrow) JNL_HTTPServ((JNL_Connection *)_connection);;
if (!http)
return NErr_OutOfMemory;
*_http = (jnl_http_request_t) http;
return NErr_Success;
}
void jnl_http_request_release(jnl_http_request_t _http)
{
JNL_HTTPServ *http = (JNL_HTTPServ *)_http;
if (http)
http->Release();
}
int jnl_http_request_run(jnl_http_request_t _http)
{
JNL_HTTPServ *http = (JNL_HTTPServ *)_http;
return http->run();
}
int jnl_htt_request_get_keep_alive(jnl_http_request_t _http)
{
JNL_HTTPServ *http = (JNL_HTTPServ *)_http;
return http->get_keep_alive();
}
const char *jnl_http_request_get_header(jnl_http_request_t _http, const char *header)
{
JNL_HTTPServ *http = (JNL_HTTPServ *)_http;
return http->getheader(header);
}
void jnl_http_request_reset(jnl_http_request_t _http)
{
JNL_HTTPServ *http = (JNL_HTTPServ *)_http;
http->reset();
}
void jnl_http_request_addheader(jnl_http_request_t _http, const char *header)
{
JNL_HTTPServ *http = (JNL_HTTPServ *)_http;
http->add_reply_header(header);
}
void jnl_http_request_set_reply_string(jnl_http_request_t _http, const char *reply)
{
JNL_HTTPServ *http = (JNL_HTTPServ *)_http;
http->set_reply_string(reply);
}
void jnl_http_request_send_reply(jnl_http_request_t _http)
{
JNL_HTTPServ *http = (JNL_HTTPServ *)_http;
http->send_reply();
}
const char *jnl_http_request_get_uri(jnl_http_request_t _http)
{
JNL_HTTPServ *http = (JNL_HTTPServ *)_http;
return http->get_request_file();
}
const char *jnl_http_request_get_parameter(jnl_http_request_t _http, const char *parameter)
{
JNL_HTTPServ *http = (JNL_HTTPServ *)_http;
return http->get_request_parm(parameter);
}
jnl_connection_t jnl_http_request_get_connection(jnl_http_request_t _http)
{
JNL_HTTPServ *http = (JNL_HTTPServ *)_http;
JNL_Connection *connection = http->get_con();
if (connection)
{
connection->Retain();
return (jnl_connection_t)connection;
}
else
return 0;
}
const char *jnl_http_request_get_method(jnl_http_request_t _http)
{
JNL_HTTPServ *http = (JNL_HTTPServ *)_http;
return http->get_method();
}
/* ------- HTTPU Request Parser ------- */
int jnl_httpu_request_create(jnl_httpu_request_t *_httpu)
{
JNL_HTTPUServ *httpu = new (std::nothrow) JNL_HTTPUServ;
if (!httpu)
return NErr_OutOfMemory;
*_httpu = (jnl_httpu_request_t) httpu;
return NErr_Success;
}
void jnl_httpu_request_release(jnl_httpu_request_t _httpu)
{
JNL_HTTPUServ *httpu = (JNL_HTTPUServ *)_httpu;
delete httpu; // TODO: reference count
}
int jnl_httpu_request_process(jnl_httpu_request_t _httpu, jnl_udp_t _udp)
{
JNL_HTTPUServ *httpu = (JNL_HTTPUServ *)_httpu;
return httpu->process((JNL_UDPConnection *)_udp);
}
const char *jnl_httpu_request_get_method(jnl_httpu_request_t _httpu)
{
JNL_HTTPUServ *httpu = (JNL_HTTPUServ *)_httpu;
return httpu->get_method();
}
const char *jnl_httpu_request_get_uri(jnl_httpu_request_t _httpu)
{
JNL_HTTPUServ *httpu = (JNL_HTTPUServ *)_httpu;
return httpu->get_request_uri();
}
const char *jnl_httpu_request_get_header(jnl_httpu_request_t _httpu, const char *header)
{
JNL_HTTPUServ *httpu = (JNL_HTTPUServ *)_httpu;
return httpu->getheader(header);
}
/* ----- DNS ----- */
int jnl_dns_create(jnl_dns_t *out_dns)
{
JNL_AsyncDNS *dns = new (std::nothrow)JNL_AsyncDNS;
if (!dns)
return NErr_OutOfMemory;
*out_dns = (jnl_dns_t)dns;
return NErr_Success;
}
void jnl_dns_release(jnl_dns_t _dns)
{
JNL_AsyncDNS *dns = (JNL_AsyncDNS *)_dns;
delete dns; // TODO: reference counting
}
int jnl_dns_resolve(jnl_dns_t _dns, const char *hostname, unsigned short port, addrinfo **addr, int sockettype)
{
JNL_AsyncDNS *dns = (JNL_AsyncDNS *)_dns;
int ret = dns->resolve(hostname, port, addr, sockettype);
if (ret == 0)
return NErr_Success;
else if (ret == -1)
return NErr_TryAgain;
else
return NErr_Unknown;
}
int jnl_dns_resolve_now(const char *hostname, unsigned short port, addrinfo **addr, int sockettype)
{
int ret = JNL_AsyncDNS::resolvenow(hostname, port, addr, sockettype);
if (ret == 0)
return NErr_Success;
else
return NErr_Unknown;
}
void jnl_dns_freeaddrinfo(addrinfo *addr)
{
freeaddrinfo(addr);
}
void jnl_dns_gethostname(char *name, size_t cch)
{
gethostname(name, (int)cch);
}
#ifdef _WIN32
PCSTR WSAAPI inet_ntop_xp(INT af, PVOID src, PSTR dst, size_t cnt)
{
struct sockaddr_in srcaddr;
memset(&srcaddr, 0, sizeof(struct sockaddr_in));
memcpy(&(srcaddr.sin_addr), src, sizeof(srcaddr.sin_addr));
srcaddr.sin_family = af;
if (WSAAddressToStringA((struct sockaddr*) &srcaddr, sizeof(struct sockaddr_in), 0, dst, (LPDWORD) &cnt) != 0) {
return NULL;
}
return dst;
}
PCSTR WSAAPI inet_ntop_win32(INT Family, PVOID pAddr, PSTR pStringBuf, size_t StringBufSize) {
typedef PCSTR (WSAAPI * win32_inet_ntop)(INT, PVOID, PSTR, size_t);
static win32_inet_ntop pwin32_inet_ntop = NULL;
if (!pwin32_inet_ntop){
HMODULE hlib = LoadLibrary(L"WS2_32.DLL");
pwin32_inet_ntop = (win32_inet_ntop)GetProcAddress(hlib, "inet_ntop");
if (!pwin32_inet_ntop) {
pwin32_inet_ntop = inet_ntop_xp;
}
}
return (*pwin32_inet_ntop)(Family, pAddr, pStringBuf, StringBufSize);
}
#endif
void jnl_dns_ntop(int af, const void *src, char *dst, socklen_t size)
{
#ifdef _WIN32
// TODO need to revist this at a later date
// [22:01:08] audiodsp: i will make a tweak for IPv6 compatability at some point
// [22:01:49] audiodsp: just change references from sockaddr_in to sockaddr_storage
// [22:02:24] audiodsp: keep it as is
// [22:02:32] audiodsp: we're only using it in IPv4 mode at the moment
// [22:02:40] audiodsp: i will fix when we need IPv6 server support
// [22:03:58] audiodsp: the memcpy is what makes it non-trivial
// [22:04:05] audiodsp: i have to switch on family and do different memcpy's accordingly
// [22:04:16] audiodsp: or change the method to require a length
// [22:04:19] audiodsp: which makes more sense
// [22:04:29] audiodsp: and just not pass it to the linux function
// [22:05:08] audiodsp: anyway not important.
inet_ntop_win32(af, (PVOID)src, dst, size);
#else
inet_ntop(af, src, dst, size);
#endif
}
/* Listen */
int jnl_listen_create(jnl_listen_t *_listen, unsigned short port)
{
JNL_Listen *l = new (std::nothrow) JNL_Listen();
if (!l)
return NErr_OutOfMemory;
int ret = l->Initialize(port);
if (ret != NErr_Success)
{
delete l;
return ret;
}
*_listen = (jnl_listen_t)l;
return NErr_Success;
}
int jnl_listen_create_from_address(jnl_listen_t *_listen, struct addrinfo *addr, size_t index)
{
JNL_Listen *l = new (std::nothrow) JNL_Listen();
if (!l)
return NErr_OutOfMemory;
int ret = l->Initialize(addr, index);
if (ret != NErr_Success)
{
delete l;
return ret;
}
*_listen = (jnl_listen_t)l;
return NErr_Success;
}
jnl_connection_t jnl_listen_get_connection(jnl_listen_t _listen)
{
JNL_Listen *listen = (JNL_Listen *)_listen;
JNL_Connection *connection = listen->get_connect();
return (jnl_connection_t)connection;
}
unsigned short jnl_listen_get_port(jnl_listen_t _listen)
{
JNL_Listen *listen = (JNL_Listen *)_listen;
return listen->get_port();
}
void jnl_listen_release(jnl_listen_t _listen)
{
JNL_Listen *listen = (JNL_Listen *)_listen;
if (listen)
listen->Release();
}