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netdb.cpp
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netdb.cpp
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/*
* Copyright (c) 2018-2020, Andreas Kling <[email protected]>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Assertions.h>
#include <AK/ByteBuffer.h>
#include <AK/ByteString.h>
#include <AK/ScopeGuard.h>
#include <Kernel/Net/IP/IPv4.h>
#include <arpa/inet.h>
#include <errno.h>
#include <netdb.h>
#include <netinet/in.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
extern "C" {
__thread int h_errno;
static hostent __gethostbyname_buffer;
static in_addr_t __gethostbyname_address;
static in_addr_t* __gethostbyname_address_list_buffer[2];
static char* __gethostbyname_alias_list_buffer[1];
static hostent __gethostbyaddr_buffer;
static in_addr_t* __gethostbyaddr_address_list_buffer[2];
static char* __gethostbyaddr_alias_list_buffer[1];
// IPCCompiler depends on LibC. Because of this, it cannot be compiled
// before LibC is. However, the lookup magic can only be obtained from the
// endpoint itself if IPCCompiler has compiled the IPC file, so this creates
// a chicken-and-egg situation. Because of this, the LookupServer endpoint magic
// is hardcoded here.
// Keep the name synchronized with LookupServer/LookupServer.ipc.
static constexpr u32 lookup_server_endpoint_magic = "LookupServer"sv.hash();
// Get service entry buffers and file information for the getservent() family of functions.
static FILE* services_file = nullptr;
static char const* services_path = "/etc/services";
struct ServiceFileLine {
String name;
String protocol;
int port;
Vector<ByteBuffer> aliases;
};
static ErrorOr<Optional<ServiceFileLine>> parse_service_file_line(char const* line, ssize_t read);
static servent __getserv_buffer;
static ByteString __getserv_name_buffer;
static ByteString __getserv_protocol_buffer;
static int __getserv_port_buffer;
static Vector<ByteBuffer> __getserv_alias_list_buffer;
static Vector<char*> __getserv_alias_list;
static bool keep_service_file_open = false;
static ssize_t service_file_offset = 0;
// Get protocol entry buffers and file information for the getprotent() family of functions.
static FILE* protocols_file = nullptr;
static char const* protocols_path = "/etc/protocols";
static bool fill_getproto_buffers(char const* line, ssize_t read);
static protoent __getproto_buffer;
static ByteString __getproto_name_buffer;
static Vector<ByteBuffer> __getproto_alias_list_buffer;
static Vector<char*> __getproto_alias_list;
static int __getproto_protocol_buffer;
static bool keep_protocols_file_open = false;
static ssize_t protocol_file_offset = 0;
static int connect_to_lookup_server()
{
int fd = socket(AF_LOCAL, SOCK_STREAM | SOCK_CLOEXEC, 0);
if (fd < 0) {
perror("socket");
return -1;
}
sockaddr_un address {
AF_LOCAL,
"/tmp/portal/lookup"
};
if (connect(fd, (sockaddr const*)&address, sizeof(address)) < 0) {
perror("connect_to_lookup_server");
close(fd);
return -1;
}
return fd;
}
static ByteString gethostbyname_name_buffer;
hostent* gethostbyname(char const* name)
{
struct hostent ret = {};
struct hostent* result = nullptr;
size_t buffer_size = 1024;
char* buffer = nullptr;
auto free_buffer_on_exit = ScopeGuard([buffer] {
if (buffer != nullptr)
free(buffer);
});
while (true) {
buffer = (char*)realloc(buffer, buffer_size);
if (buffer == nullptr) {
// NOTE: Since gethostbyname usually can't fail because of memory,
// it has no way of representing OOM or allocation failure.
// NO_RECOVERY is the next best thing.
h_errno = NO_RECOVERY;
return NULL;
}
int rc = gethostbyname_r(name, &ret, buffer, buffer_size, &result, &h_errno);
if (rc == ERANGE) {
buffer_size *= 2;
continue;
}
if (rc < 0)
return nullptr;
break;
}
gethostbyname_name_buffer = name;
__gethostbyname_buffer.h_name = const_cast<char*>(gethostbyname_name_buffer.characters());
__gethostbyname_alias_list_buffer[0] = nullptr;
__gethostbyname_buffer.h_aliases = __gethostbyname_alias_list_buffer;
__gethostbyname_buffer.h_addrtype = AF_INET;
memcpy(&__gethostbyname_address, result->h_addr_list[0], sizeof(in_addr_t));
__gethostbyname_address_list_buffer[0] = &__gethostbyname_address;
__gethostbyname_address_list_buffer[1] = nullptr;
__gethostbyname_buffer.h_addr_list = (char**)__gethostbyname_address_list_buffer;
__gethostbyname_buffer.h_length = result->h_length;
return &__gethostbyname_buffer;
}
int gethostbyname_r(char const* __restrict name, struct hostent* __restrict ret, char* buffer, size_t buffer_size, struct hostent** __restrict result, int* __restrict h_errnop)
{
*h_errnop = 0;
*result = nullptr;
size_t buffer_offset = 0;
memset(buffer, 0, buffer_size);
auto add_string_to_buffer = [&](char const* data) -> Optional<char*> {
size_t data_lenth = strlen(data);
if (buffer_offset + data_lenth + 1 >= buffer_size)
return {};
auto* buffer_beginning = buffer + buffer_offset;
memcpy(buffer + buffer_offset, data, data_lenth);
buffer_offset += data_lenth;
buffer[buffer_offset++] = '\0';
buffer_offset += 8 - (buffer_offset % 8);
return buffer_beginning;
};
auto add_data_to_buffer = [&](void const* data, size_t size, size_t count = 1) -> Optional<void*> {
auto bytes = size * count;
if (buffer_offset + bytes >= buffer_size)
return {};
auto* buffer_beginning = buffer + buffer_offset;
memcpy(buffer + buffer_offset, data, bytes);
buffer_offset += bytes;
buffer_offset += 8 - (buffer_offset % 8);
return buffer_beginning;
};
auto add_ptr_to_buffer = [&](void* ptr) -> Optional<void*> {
return add_data_to_buffer(&ptr, sizeof(ptr));
};
auto populate_ret = [&](char const* name, in_addr_t address) -> int {
auto h_name = add_string_to_buffer(name);
if (!h_name.has_value())
return ERANGE;
ret->h_name = static_cast<char*>(h_name.value());
auto null_list_item = add_ptr_to_buffer(nullptr);
if (!null_list_item.has_value())
return ERANGE;
ret->h_aliases = static_cast<char**>(null_list_item.value());
auto address_item = add_data_to_buffer(&address, sizeof(address));
if (!address_item.has_value())
return ERANGE;
auto address_list = add_ptr_to_buffer(address_item.value());
if (!address_list.has_value())
return ERANGE;
if (!add_ptr_to_buffer(nullptr).has_value())
return ERANGE;
ret->h_addr_list = static_cast<char**>(address_list.value());
ret->h_addrtype = AF_INET;
ret->h_length = 4;
*result = ret;
return 0;
};
auto ipv4_address = IPv4Address::from_string({ name, strlen(name) });
if (ipv4_address.has_value()) {
return populate_ret(ipv4_address.value().to_byte_string().characters(), ipv4_address.value().to_in_addr_t());
}
int fd = connect_to_lookup_server();
if (fd < 0) {
*h_errnop = TRY_AGAIN;
return -TRY_AGAIN;
}
auto close_fd_on_exit = ScopeGuard([fd] {
close(fd);
});
auto name_length = strlen(name);
VERIFY(name_length <= NumericLimits<i32>::max());
struct [[gnu::packed]] {
u32 message_size;
u32 endpoint_magic;
i32 message_id;
u32 name_length;
} request_header = {
(u32)(sizeof(request_header) - sizeof(request_header.message_size) + name_length),
lookup_server_endpoint_magic,
1,
static_cast<u32>(name_length),
};
if (auto nsent = write(fd, &request_header, sizeof(request_header)); nsent < 0) {
*h_errnop = TRY_AGAIN;
return -TRY_AGAIN;
} else if (nsent != sizeof(request_header)) {
*h_errnop = NO_RECOVERY;
return -NO_RECOVERY;
}
if (auto nsent = write(fd, name, name_length); nsent < 0) {
*h_errnop = TRY_AGAIN;
return -TRY_AGAIN;
} else if (static_cast<size_t>(nsent) != name_length) {
*h_errnop = NO_RECOVERY;
return -NO_RECOVERY;
}
struct [[gnu::packed]] {
u32 message_size;
u32 endpoint_magic;
i32 message_id;
i32 code;
u32 addresses_count;
} response_header;
if (auto nreceived = read(fd, &response_header, sizeof(response_header)); nreceived < 0) {
*h_errnop = TRY_AGAIN;
return -TRY_AGAIN;
} else if (nreceived != sizeof(response_header)) {
*h_errnop = NO_RECOVERY;
return -NO_RECOVERY;
}
if (response_header.endpoint_magic != lookup_server_endpoint_magic || response_header.message_id != 2) {
*h_errnop = NO_RECOVERY;
return -NO_RECOVERY;
}
if (response_header.code != 0) {
*h_errnop = NO_RECOVERY;
return -NO_RECOVERY;
}
if (response_header.addresses_count == 0) {
*h_errnop = HOST_NOT_FOUND;
return -HOST_NOT_FOUND;
}
i32 response_length;
if (auto nreceived = read(fd, &response_length, sizeof(response_length)); nreceived < 0) {
*h_errnop = TRY_AGAIN;
return -TRY_AGAIN;
} else if (nreceived != sizeof(response_length)
|| response_length != sizeof(in_addr_t)) {
*h_errnop = NO_RECOVERY;
return -NO_RECOVERY;
}
in_addr_t address;
if (auto nreceived = read(fd, &address, response_length); nreceived < 0) {
*h_errnop = TRY_AGAIN;
return -TRY_AGAIN;
} else if (nreceived != response_length) {
*h_errnop = NO_RECOVERY;
return -NO_RECOVERY;
}
return populate_ret(name, address);
}
static ByteString gethostbyaddr_name_buffer;
hostent* gethostbyaddr(void const* addr, socklen_t addr_size, int type)
{
h_errno = 0;
if (type != AF_INET) {
errno = EAFNOSUPPORT;
return nullptr;
}
if (addr_size < sizeof(in_addr)) {
errno = EINVAL;
return nullptr;
}
int fd = connect_to_lookup_server();
if (fd < 0) {
h_errno = TRY_AGAIN;
return nullptr;
}
auto close_fd_on_exit = ScopeGuard([fd] {
close(fd);
});
in_addr_t const& in_addr = ((const struct in_addr*)addr)->s_addr;
struct [[gnu::packed]] {
u32 message_size;
u32 endpoint_magic;
i32 message_id;
i32 address_length;
} request_header = {
sizeof(request_header) - sizeof(request_header.message_size) + sizeof(in_addr),
lookup_server_endpoint_magic,
3,
sizeof(in_addr),
};
if (auto nsent = write(fd, &request_header, sizeof(request_header)); nsent < 0) {
h_errno = TRY_AGAIN;
return nullptr;
} else if (nsent != sizeof(request_header)) {
h_errno = NO_RECOVERY;
return nullptr;
}
if (auto nsent = write(fd, &in_addr, sizeof(in_addr)); nsent < 0) {
h_errno = TRY_AGAIN;
return nullptr;
} else if (nsent != sizeof(in_addr)) {
h_errno = TRY_AGAIN;
return nullptr;
}
struct [[gnu::packed]] {
u32 message_size;
u32 endpoint_magic;
i32 message_id;
i32 code;
u32 name_length;
} response_header;
if (auto nreceived = read(fd, &response_header, sizeof(response_header)); nreceived < 0) {
h_errno = TRY_AGAIN;
return nullptr;
} else if (nreceived != sizeof(response_header)) {
h_errno = NO_RECOVERY;
return nullptr;
}
if (response_header.endpoint_magic != lookup_server_endpoint_magic
|| response_header.message_id != 4
|| response_header.code != 0) {
h_errno = NO_RECOVERY;
return nullptr;
}
ssize_t nreceived;
gethostbyaddr_name_buffer = ByteString::create_and_overwrite(response_header.name_length, [&](Bytes bytes) {
nreceived = read(fd, bytes.data(), bytes.size());
});
if (nreceived < 0) {
h_errno = TRY_AGAIN;
return nullptr;
} else if (static_cast<u32>(nreceived) != response_header.name_length) {
h_errno = NO_RECOVERY;
return nullptr;
}
__gethostbyaddr_buffer.h_name = const_cast<char*>(gethostbyaddr_name_buffer.characters());
__gethostbyaddr_alias_list_buffer[0] = nullptr;
__gethostbyaddr_buffer.h_aliases = __gethostbyaddr_alias_list_buffer;
__gethostbyaddr_buffer.h_addrtype = AF_INET;
// FIXME: Should we populate the hostent's address list here with a sockaddr_in for the provided host?
__gethostbyaddr_address_list_buffer[0] = nullptr;
__gethostbyaddr_buffer.h_addr_list = (char**)__gethostbyaddr_address_list_buffer;
__gethostbyaddr_buffer.h_length = 4;
return &__gethostbyaddr_buffer;
}
struct servent* getservent()
{
// If the services file is not open, attempt to open it and return null if it fails.
if (!services_file) {
services_file = fopen(services_path, "r");
if (!services_file) {
perror("error opening services file");
return nullptr;
}
}
if (fseek(services_file, service_file_offset, SEEK_SET) != 0) {
perror("error seeking file");
fclose(services_file);
return nullptr;
}
char* line = nullptr;
size_t len = 0;
ssize_t read;
auto free_line_on_exit = ScopeGuard([line] {
if (line) {
free(line);
}
});
Optional<ServiceFileLine> service_file_line = {};
// Read lines from services file until an actual service name is found.
do {
read = getline(&line, &len, services_file);
service_file_offset += read;
auto service_file_line_or_error = parse_service_file_line(line, read);
if (service_file_line_or_error.is_error())
return nullptr;
service_file_line = service_file_line_or_error.release_value();
if (service_file_line.has_value())
break;
} while (read != -1);
if (read == -1) {
fclose(services_file);
services_file = nullptr;
service_file_offset = 0;
return nullptr;
}
if (!service_file_line.has_value())
return nullptr;
servent* service_entry = nullptr;
__getserv_name_buffer = service_file_line.value().name.to_byte_string();
__getserv_port_buffer = service_file_line.value().port;
__getserv_protocol_buffer = service_file_line.value().protocol.to_byte_string();
__getserv_alias_list_buffer = service_file_line.value().aliases;
__getserv_buffer.s_name = const_cast<char*>(__getserv_name_buffer.characters());
__getserv_buffer.s_port = htons(__getserv_port_buffer);
__getserv_buffer.s_proto = const_cast<char*>(__getserv_protocol_buffer.characters());
__getserv_alias_list.clear_with_capacity();
__getserv_alias_list.ensure_capacity(__getserv_alias_list_buffer.size() + 1);
for (auto& alias : __getserv_alias_list_buffer)
__getserv_alias_list.unchecked_append(reinterpret_cast<char*>(alias.data()));
__getserv_alias_list.unchecked_append(nullptr);
__getserv_buffer.s_aliases = __getserv_alias_list.data();
service_entry = &__getserv_buffer;
if (!keep_service_file_open) {
endservent();
}
return service_entry;
}
struct servent* getservbyname(char const* name, char const* protocol)
{
if (name == nullptr)
return nullptr;
bool previous_file_open_setting = keep_service_file_open;
setservent(1);
struct servent* current_service = nullptr;
auto service_file_handler = ScopeGuard([previous_file_open_setting] {
if (!previous_file_open_setting) {
endservent();
}
});
while (true) {
current_service = getservent();
if (current_service == nullptr)
break;
else if (!protocol && strcmp(current_service->s_name, name) == 0)
break;
else if (strcmp(current_service->s_name, name) == 0 && strcmp(current_service->s_proto, protocol) == 0)
break;
}
return current_service;
}
struct servent* getservbyport(int port, char const* protocol)
{
bool previous_file_open_setting = keep_service_file_open;
setservent(1);
struct servent* current_service = nullptr;
auto service_file_handler = ScopeGuard([previous_file_open_setting] {
if (!previous_file_open_setting) {
endservent();
}
});
while (true) {
current_service = getservent();
if (current_service == nullptr)
break;
else if (!protocol && current_service->s_port == port)
break;
else if (current_service->s_port == port && (strcmp(current_service->s_proto, protocol) == 0))
break;
}
return current_service;
}
void setservent(int stay_open)
{
if (!services_file) {
services_file = fopen(services_path, "r");
if (!services_file) {
perror("error opening services file");
return;
}
}
rewind(services_file);
keep_service_file_open = stay_open;
service_file_offset = 0;
}
void endservent()
{
if (!services_file) {
return;
}
fclose(services_file);
services_file = nullptr;
}
static ErrorOr<Optional<ServiceFileLine>> parse_service_file_line(char const* line, ssize_t read)
{
// If the line isn't a service (eg. empty or a comment)
if (read <= 0 || line[0] < 65 || line[0] > 122)
return { Optional<ServiceFileLine> {} };
auto split_line = StringView(line, read).replace(" "sv, "\t"sv, ReplaceMode::All).split('\t');
if (split_line.size() < 2)
return Error::from_string_view("malformed service file"sv);
auto name = TRY(String::from_byte_string(split_line[0]));
auto port_protocol = TRY(String::from_byte_string(split_line[1]));
auto port_protocol_split = TRY(port_protocol.split('/'));
if (port_protocol_split.size() < 2)
return Error::from_string_view("malformed service file"sv);
auto port = port_protocol_split[0].to_number<int>();
if (!port.has_value())
return Error::from_string_view("port isn't a number"sv);
// Remove whitespace at the end of the protocol
auto protocol = TRY(port_protocol_split[1].replace(" "sv, ""sv, ReplaceMode::All));
protocol = TRY(protocol.replace("\t"sv, ""sv, ReplaceMode::All));
protocol = TRY(protocol.replace("\n"sv, ""sv, ReplaceMode::All));
Vector<ByteBuffer> aliases;
// If there are aliases for the service, we will fill the aliases list
if (split_line.size() > 2 && !split_line[2].starts_with('#')) {
for (size_t i = 2; i < split_line.size(); i++) {
if (split_line[i].starts_with('#')) {
break;
}
auto alias = split_line[i].to_byte_buffer();
if (alias.try_append("\0", sizeof(char)).is_error())
return Error::from_string_view("Failed to add null-byte to service alias"sv);
aliases.append(move(alias));
}
}
return ServiceFileLine {
name, protocol, port.value(), aliases
};
}
struct protoent* getprotoent()
{
// If protocols file isn't open, attempt to open and return null on failure.
if (!protocols_file) {
protocols_file = fopen(protocols_path, "r");
if (!protocols_file) {
perror("error opening protocols file");
return nullptr;
}
}
if (fseek(protocols_file, protocol_file_offset, SEEK_SET) != 0) {
perror("error seeking protocols file");
fclose(protocols_file);
return nullptr;
}
char* line = nullptr;
size_t len = 0;
ssize_t read;
auto free_line_on_exit = ScopeGuard([line] {
if (line) {
free(line);
}
});
do {
read = getline(&line, &len, protocols_file);
protocol_file_offset += read;
if (read > 0 && (line[0] >= 65 && line[0] <= 122)) {
break;
}
} while (read != -1);
if (read == -1) {
fclose(protocols_file);
protocols_file = nullptr;
protocol_file_offset = 0;
return nullptr;
}
struct protoent* protocol_entry = nullptr;
if (!fill_getproto_buffers(line, read))
return nullptr;
__getproto_buffer.p_name = const_cast<char*>(__getproto_name_buffer.characters());
__getproto_buffer.p_proto = __getproto_protocol_buffer;
__getproto_alias_list.clear_with_capacity();
__getproto_alias_list.ensure_capacity(__getproto_alias_list_buffer.size() + 1);
for (auto& alias : __getproto_alias_list_buffer)
__getproto_alias_list.unchecked_append(reinterpret_cast<char*>(alias.data()));
__getserv_alias_list.unchecked_append(nullptr);
__getproto_buffer.p_aliases = __getproto_alias_list.data();
protocol_entry = &__getproto_buffer;
if (!keep_protocols_file_open)
endprotoent();
return protocol_entry;
}
struct protoent* getprotobyname(char const* name)
{
bool previous_file_open_setting = keep_protocols_file_open;
setprotoent(1);
struct protoent* current_protocol = nullptr;
auto protocol_file_handler = ScopeGuard([previous_file_open_setting] {
if (!previous_file_open_setting) {
endprotoent();
}
});
while (true) {
current_protocol = getprotoent();
if (current_protocol == nullptr)
break;
else if (strcmp(current_protocol->p_name, name) == 0)
break;
}
return current_protocol;
}
struct protoent* getprotobynumber(int proto)
{
bool previous_file_open_setting = keep_protocols_file_open;
setprotoent(1);
struct protoent* current_protocol = nullptr;
auto protocol_file_handler = ScopeGuard([previous_file_open_setting] {
if (!previous_file_open_setting) {
endprotoent();
}
});
while (true) {
current_protocol = getprotoent();
if (current_protocol == nullptr)
break;
else if (current_protocol->p_proto == proto)
break;
}
return current_protocol;
}
void setprotoent(int stay_open)
{
if (!protocols_file) {
protocols_file = fopen(protocols_path, "r");
if (!protocols_file) {
perror("setprotoent(): error opening protocols file");
return;
}
}
rewind(protocols_file);
keep_protocols_file_open = stay_open;
protocol_file_offset = 0;
}
void endprotoent()
{
if (!protocols_file) {
return;
}
fclose(protocols_file);
protocols_file = nullptr;
}
static bool fill_getproto_buffers(char const* line, ssize_t read)
{
ByteString string_line = ByteString(line, read);
auto split_line = string_line.replace(" "sv, "\t"sv, ReplaceMode::All).split('\t');
// This indicates an incorrect file format. Protocols file entries should
// always have at least a name and a protocol.
if (split_line.size() < 2) {
warnln("getprotoent(): malformed protocols file");
return false;
}
__getproto_name_buffer = split_line[0];
auto number = split_line[1].to_number<int>();
if (!number.has_value())
return false;
__getproto_protocol_buffer = number.value();
__getproto_alias_list_buffer.clear();
// If there are aliases for the protocol, we will fill the alias list buffer.
if (split_line.size() > 2 && !split_line[2].starts_with('#')) {
for (size_t i = 2; i < split_line.size(); i++) {
if (split_line[i].starts_with('#'))
break;
auto alias = split_line[i].to_byte_buffer();
if (alias.try_append("\0", sizeof(char)).is_error())
return false;
__getproto_alias_list_buffer.append(move(alias));
}
}
return true;
}
int getaddrinfo(char const* __restrict node, char const* __restrict service, const struct addrinfo* __restrict hints, struct addrinfo** __restrict res)
{
*res = nullptr;
if (hints && hints->ai_family != AF_INET && hints->ai_family != AF_UNSPEC)
return EAI_FAMILY;
if (!node) {
if (hints && hints->ai_flags & AI_PASSIVE)
node = "0.0.0.0";
else
node = "127.0.0.1";
}
size_t buffer_size = 1024;
char* buffer = nullptr;
int gethostbyname_errno = 0;
struct hostent ret = {};
struct hostent* host_ent = nullptr;
while (true) {
buffer = (char*)realloc(buffer, buffer_size);
if (buffer == nullptr)
return EAI_MEMORY;
int rc = gethostbyname_r(node, &ret, buffer, buffer_size, &host_ent, &gethostbyname_errno);
if (rc == ERANGE) {
buffer_size *= 2;
continue;
}
if (!host_ent)
return EAI_FAIL;
break;
}
char const* proto = nullptr;
if (hints && hints->ai_socktype) {
switch (hints->ai_socktype) {
case SOCK_STREAM:
proto = "tcp";
break;
case SOCK_DGRAM:
proto = "udp";
break;
default:
return EAI_SOCKTYPE;
}
}
long port;
int socktype;
Optional<ServiceFileLine> service_file_line = {};
if ((!hints || (hints->ai_flags & AI_NUMERICSERV) == 0) && service) {
services_file = fopen(services_path, "r");
if (!services_file) {
return EAI_FAIL;
}
auto close_services_file_handler = ScopeGuard([&] {
fclose(services_file);
});
char* line = nullptr;
size_t length = 0;
ssize_t read;
while (true) {
do {
read = getline(&line, &length, services_file);
auto service_file_line_or_error = parse_service_file_line(line, read);
if (service_file_line_or_error.is_error())
return EAI_SYSTEM;
service_file_line = service_file_line_or_error.release_value();
if (service_file_line.has_value())
break;
} while (read != -1);
if (read == -1 || !service_file_line.has_value())
break;
if (service_file_line.value().name != service)
continue;
if (service_file_line.value().protocol != proto)
continue;
break;
}
}
if (!service_file_line.has_value()) {
if (service) {
char* end;
port = strtol(service, &end, 10);
if (*end)
return EAI_FAIL;
} else {
port = 0;
}
if (hints && hints->ai_socktype != 0)
socktype = hints->ai_socktype;
else
socktype = SOCK_STREAM;
} else {
port = service_file_line.value().port;
socktype = service_file_line.value().protocol == "tcp" ? SOCK_STREAM : SOCK_DGRAM;
}
addrinfo* first_info = nullptr;
addrinfo* prev_info = nullptr;
for (int host_index = 0; host_ent->h_addr_list[host_index]; host_index++) {
sockaddr_in* sin = new sockaddr_in;
sin->sin_family = AF_INET;
sin->sin_port = htons(port);
memcpy(&sin->sin_addr.s_addr, host_ent->h_addr_list[host_index], host_ent->h_length);
addrinfo* info = new addrinfo;
info->ai_flags = 0;
info->ai_family = AF_INET;
info->ai_socktype = socktype;
info->ai_protocol = PF_INET;
info->ai_addrlen = sizeof(*sin);
info->ai_addr = reinterpret_cast<sockaddr*>(sin);
if (hints && hints->ai_flags & AI_CANONNAME)
info->ai_canonname = strdup(host_ent->h_name);
else
info->ai_canonname = nullptr;
info->ai_next = nullptr;
if (!first_info)
first_info = info;
if (prev_info)
prev_info->ai_next = info;
prev_info = info;
}
if (first_info) {
*res = first_info;
return 0;
} else
return EAI_NONAME;
}
void freeaddrinfo(struct addrinfo* res)
{
if (res) {
delete reinterpret_cast<sockaddr_in*>(res->ai_addr);
free(res->ai_canonname);
freeaddrinfo(res->ai_next);
delete res;
}
}
char const* gai_strerror(int errcode)
{
switch (errcode) {
case EAI_ADDRFAMILY:
return "no address for this address family available";
case EAI_AGAIN:
return "name server returned temporary failure";
case EAI_BADFLAGS:
return "invalid flags";
case EAI_FAIL:
return "name server returned permanent failure";
case EAI_FAMILY:
return "unsupported address family";
case EAI_MEMORY:
return "out of memory";
case EAI_NODATA:
return "no address available";
case EAI_NONAME:
return "node or service is not known";
case EAI_SERVICE:
return "service not available";
case EAI_SOCKTYPE:
return "unsupported socket type";
case EAI_SYSTEM:
return "system error";
case EAI_OVERFLOW:
return "buffer too small";
default:
return "invalid error code";
}
}
int getnameinfo(const struct sockaddr* __restrict addr, socklen_t addrlen, char* __restrict host, socklen_t hostlen, char* __restrict serv, socklen_t servlen, int flags)
{
if (addr->sa_family != AF_INET || addrlen < sizeof(sockaddr_in))
return EAI_FAMILY;
sockaddr_in const* sin = reinterpret_cast<sockaddr_in const*>(addr);
if (host && hostlen > 0) {
if (flags != 0)
dbgln("getnameinfo flags are not implemented: {:#x}", flags);