Daniel Vizcaya
/
04_RTOS_Embebidos
Entrega 3er corte - sistemas embebidos
mbed-os/features/netsocket/SocketAddress.cpp
- Committer:
- Bethory
- Date:
- 2018-05-30
- Revision:
- 1:fcdb45ee95b9
- Parent:
- 0:6ad07c9019fd
File content as of revision 1:fcdb45ee95b9:
/* Socket * Copyright (c) 2015 ARM Limited * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "SocketAddress.h" #include "NetworkInterface.h" #include "NetworkStack.h" #include <string.h> #include "mbed.h" static bool ipv4_is_valid(const char *addr) { int i = 0; // Check each digit for [0-9.] for (; addr[i]; i++) { if (!(addr[i] >= '0' && addr[i] <= '9') && addr[i] != '.') { return false; } } // Ending with '.' garuntees host if (i > 0 && addr[i-1] == '.') { return false; } return true; } static bool ipv6_is_valid(const char *addr) { // Check each digit for [0-9a-fA-F:] // Must also have at least 2 colons int colons = 0; for (int i = 0; addr[i]; i++) { if (!(addr[i] >= '0' && addr[i] <= '9') && !(addr[i] >= 'a' && addr[i] <= 'f') && !(addr[i] >= 'A' && addr[i] <= 'F') && addr[i] != ':') { return false; } if (addr[i] == ':') { colons++; } } return colons >= 2; } static void ipv4_from_address(uint8_t *bytes, const char *addr) { int count = 0; int i = 0; for (; count < NSAPI_IPv4_BYTES; count++) { unsigned d; // Not using %hh, since it might be missing in newlib-based toolchains. // See also: https://git.io/vxiw5 int scanned = sscanf(&addr[i], "%u", &d); if (scanned < 1) { return; } bytes[count] = static_cast<uint8_t>(d); for (; addr[i] != '.'; i++) { if (!addr[i]) { return; } } i++; } } static int ipv6_scan_chunk(uint16_t *shorts, const char *chunk) { int count = 0; int i = 0; for (; count < NSAPI_IPv6_BYTES/2; count++) { unsigned short s; int scanned = sscanf(&chunk[i], "%hx", &s); if (scanned < 1) { return count; } shorts[count] = s; for (; chunk[i] != ':'; i++) { if (!chunk[i]) { return count+1; } } i++; } return count; } static void ipv6_from_address(uint8_t *bytes, const char *addr) { // Start with zeroed address uint16_t shorts[NSAPI_IPv6_BYTES/2]; int suffix = 0; // Find double colons and scan suffix for (int i = 0; addr[i]; i++) { if (addr[i] == ':' && addr[i+1] == ':') { suffix = ipv6_scan_chunk(shorts, &addr[i+2]); break; } } // Move suffix to end memmove(&shorts[NSAPI_IPv6_BYTES/2-suffix], &shorts[0], suffix*sizeof(uint16_t)); memset(&shorts[0], 0, (NSAPI_IPv6_BYTES/2-suffix)*sizeof(uint16_t)); // Scan prefix ipv6_scan_chunk(shorts, &addr[0]); // Flip bytes for (int i = 0; i < NSAPI_IPv6_BYTES/2; i++) { bytes[2*i+0] = (uint8_t)(shorts[i] >> 8); bytes[2*i+1] = (uint8_t)(shorts[i] >> 0); } } static void ipv4_to_address(char *addr, const uint8_t *bytes) { sprintf(addr, "%d.%d.%d.%d", bytes[0], bytes[1], bytes[2], bytes[3]); } static void ipv6_to_address(char *addr, const uint8_t *bytes) { for (int i = 0; i < NSAPI_IPv6_BYTES/2; i++) { sprintf(&addr[5*i], "%02x%02x", bytes[2*i], bytes[2*i+1]); addr[5*i+4] = ':'; } addr[NSAPI_IPv6_SIZE-1] = '\0'; } SocketAddress::SocketAddress(nsapi_addr_t addr, uint16_t port) { _ip_address[0] = '\0'; set_addr(addr); set_port(port); } SocketAddress::SocketAddress(const char *addr, uint16_t port) { _ip_address[0] = '\0'; set_ip_address(addr); set_port(port); } SocketAddress::SocketAddress(const void *bytes, nsapi_version_t version, uint16_t port) { _ip_address[0] = '\0'; set_ip_bytes(bytes, version); set_port(port); } SocketAddress::SocketAddress(const SocketAddress &addr) { _ip_address[0] = '\0'; set_addr(addr.get_addr()); set_port(addr.get_port()); } bool SocketAddress::set_ip_address(const char *addr) { _ip_address[0] = '\0'; if (addr && ipv4_is_valid(addr)) { _addr.version = NSAPI_IPv4; ipv4_from_address(_addr.bytes, addr); return true; } else if (addr && ipv6_is_valid(addr)) { _addr.version = NSAPI_IPv6; ipv6_from_address(_addr.bytes, addr); return true; } else { _addr = nsapi_addr_t(); return false; } } void SocketAddress::set_ip_bytes(const void *bytes, nsapi_version_t version) { nsapi_addr_t addr; addr = nsapi_addr_t(); addr.version = version; if (version == NSAPI_IPv6) { memcpy(addr.bytes, bytes, NSAPI_IPv6_BYTES); } else if (version == NSAPI_IPv4) { memcpy(addr.bytes, bytes, NSAPI_IPv4_BYTES); } set_addr(addr); } void SocketAddress::set_addr(nsapi_addr_t addr) { _ip_address[0] = '\0'; _addr = addr; } void SocketAddress::set_port(uint16_t port) { _port = port; } const char *SocketAddress::get_ip_address() const { if (_addr.version == NSAPI_UNSPEC) { return NULL; } if (!_ip_address[0]) { if (_addr.version == NSAPI_IPv4) { ipv4_to_address(_ip_address, _addr.bytes); } else if (_addr.version == NSAPI_IPv6) { ipv6_to_address(_ip_address, _addr.bytes); } } return _ip_address; } const void *SocketAddress::get_ip_bytes() const { return _addr.bytes; } nsapi_version_t SocketAddress::get_ip_version() const { return _addr.version; } nsapi_addr_t SocketAddress::get_addr() const { return _addr; } uint16_t SocketAddress::get_port() const { return _port; } SocketAddress::operator bool() const { if (_addr.version == NSAPI_IPv4) { for (int i = 0; i < NSAPI_IPv4_BYTES; i++) { if (_addr.bytes[i]) { return true; } } return false; } else if (_addr.version == NSAPI_IPv6) { for (int i = 0; i < NSAPI_IPv6_BYTES; i++) { if (_addr.bytes[i]) { return true; } } return false; } else { return false; } } bool operator==(const SocketAddress &a, const SocketAddress &b) { if (!a && !b) { return true; } else if (a._addr.version != b._addr.version) { return false; } else if (a._addr.version == NSAPI_IPv4) { return memcmp(a._addr.bytes, b._addr.bytes, NSAPI_IPv4_BYTES) == 0; } else if (a._addr.version == NSAPI_IPv6) { return memcmp(a._addr.bytes, b._addr.bytes, NSAPI_IPv6_BYTES) == 0; } MBED_UNREACHABLE; } bool operator!=(const SocketAddress &a, const SocketAddress &b) { return !(a == b); } void SocketAddress::_SocketAddress(NetworkStack *iface, const char *host, uint16_t port) { _ip_address[0] = '\0'; // gethostbyname must check for literals, so can call it directly int err = iface->gethostbyname(host, this); _port = port; if (err) { _addr = nsapi_addr_t(); _port = 0; } }