Browse Source

adapt to changed byteorder.h

master
Kaspar Schleiser 6 years ago
parent
commit
cfd10c394a
  1. 12
      cpu/native/include/clang_compat.h
  2. 4
      cpu/native/netdev_tap/netdev_tap.c
  3. 2
      cpu/native/startup.c
  4. 4
      drivers/adt7310/adt7310.c
  5. 4
      drivers/at86rf2xx/at86rf2xx.c
  6. 4
      drivers/feetech/feetech.c
  7. 4
      drivers/ina220/ina220.c
  8. 2
      drivers/jc42/jc42.c
  9. 4
      drivers/kw2xrf/kw2xrf.c
  10. 4
      drivers/mrf24j40/mrf24j40.c
  11. 4
      drivers/nvram_spi/nvram-spi.c
  12. 2
      pkg/emb6/contrib/conn/udp/emb6_conn_udp.c
  13. 16
      sys/cbor/cbor.c
  14. 2
      sys/net/application_layer/dns/dns.c
  15. 60
      sys/posix/include/sys/bytes.h
  16. 68
      tests/lwip_sock_ip/main.c
  17. 16
      tests/lwip_sock_ip/stack.c
  18. 42
      tests/lwip_sock_tcp/main.c
  19. 70
      tests/lwip_sock_udp/main.c
  20. 14
      tests/lwip_sock_udp/stack.c

12
cpu/native/include/clang_compat.h

@ -15,12 +15,12 @@
extern "C" {
#endif
#undef HTONS
#undef HTONL
#undef HTONLL
#undef NTOHS
#undef NTOHL
#undef NTOHLL
#undef htons
#undef htonl
#undef htonll
#undef ntohs
#undef ntohl
#undef ntohll
#ifdef __cplusplus
}

4
cpu/native/netdev_tap/netdev_tap.c

@ -28,6 +28,9 @@
#include <sys/ioctl.h>
#include <unistd.h>
/* needs to be included before native's declarations of ntohl etc. */
#include "byteorder.h"
#ifdef __MACH__
#include <net/if.h>
#include <sys/types.h>
@ -55,7 +58,6 @@
#include "net/ethernet/hdr.h"
#include "netdev_tap.h"
#include "net/netopt.h"
#include "net/eui64.h"
#define ENABLE_DEBUG (0)
#include "debug.h"

2
cpu/native/startup.c

@ -22,7 +22,7 @@
#else
#include <dlfcn.h>
#endif
#include "byteorder.h"
#include <assert.h>
#include <getopt.h>
#include <stdbool.h>

4
drivers/adt7310/adt7310.c

@ -151,7 +151,7 @@ int adt7310_init(adt7310_t *dev, spi_t spi, spi_clk_t clk, gpio_t cs)
if (status != 0) {
printf("Error reading address 0x%02x", i);
}
dbg_reg = HTONS(dbg_reg);
dbg_reg = htons(dbg_reg);
printf("%02x: %04" PRIx16 "\n", i, dbg_reg);
}
#endif
@ -197,7 +197,7 @@ int16_t adt7310_read_raw(adt7310_t *dev)
return INT16_MIN;
}
/* The temperature value is sent big endian (network byte order) */
raw = (int16_t)NTOHS((uint16_t)raw);
raw = (int16_t)ntohs((uint16_t)raw);
return raw;
}

4
drivers/at86rf2xx/at86rf2xx.c

@ -67,8 +67,8 @@ void at86rf2xx_reset(at86rf2xx_t *dev)
addr_long.uint8[0] &= ~(0x01);
addr_long.uint8[0] |= (0x02);
/* set short and long address */
at86rf2xx_set_addr_long(dev, NTOHLL(addr_long.uint64.u64));
at86rf2xx_set_addr_short(dev, NTOHS(addr_long.uint16[0].u16));
at86rf2xx_set_addr_long(dev, ntohll(addr_long.uint64.u64));
at86rf2xx_set_addr_short(dev, ntohs(addr_long.uint16[0].u16));
/* set default PAN id */
at86rf2xx_set_pan(dev, AT86RF2XX_DEFAULT_PANID);

4
drivers/feetech/feetech.c

@ -81,7 +81,7 @@ int feetech_write8(feetech_t *device, feetech_addr_t reg, uint8_t value)
int feetech_write16(feetech_t *device, feetech_addr_t reg, uint16_t value)
{
value = HTONS(value);
value = htons(value);
return feetech_write(device, reg, (uint8_t*)&value, 2);
}
@ -127,7 +127,7 @@ int feetech_read16(feetech_t *device, feetech_addr_t reg, uint16_t *value)
{
const int ret = feetech_read(device, reg, (uint8_t*)value, 2);
if (ret == FEETECH_OK) {
*value = NTOHS(*value);
*value = ntohs(*value);
}
return ret;
}

4
drivers/ina220/ina220.c

@ -45,7 +45,7 @@ static int ina220_read_reg(ina220_t *dev, uint8_t reg, uint16_t *out)
return -1;
}
*out = NTOHS(tmp.u16);
*out = ntohs(tmp.u16);
return 0;
}
@ -58,7 +58,7 @@ static int ina220_write_reg(ina220_t *dev, uint8_t reg, uint16_t in)
} tmp = { .u16 = 0 };
int status = 0;
tmp.u16 = HTONS(in);
tmp.u16 = htons(in);
status = i2c_write_regs(dev->i2c, dev->addr, reg, &tmp.c[0], 2);

2
drivers/jc42/jc42.c

@ -72,7 +72,7 @@ int jc42_get_temperature(jc42_t* dev, int16_t* temperature)
if (jc42_get_register(dev, JC42_REG_TEMP, &tmp) != 0) {
return JC42_NODEV;
}
tmp = NTOHS(tmp);
tmp = ntohs(tmp);
/* Convert fixed point to uint16_t */
*temperature = ((s.x = tmp)*100)>>4;
return JC42_OK;

4
drivers/kw2xrf/kw2xrf.c

@ -50,8 +50,8 @@ static void kw2xrf_set_address(kw2xrf_t *dev)
addr_long.uint8[0] &= ~(0x01);
addr_long.uint8[0] |= (0x02);
/* set short and long address */
kw2xrf_set_addr_long(dev, NTOHLL(addr_long.uint64.u64));
kw2xrf_set_addr_short(dev, NTOHS(addr_long.uint16[0].u16));
kw2xrf_set_addr_long(dev, ntohll(addr_long.uint64.u64));
kw2xrf_set_addr_short(dev, ntohs(addr_long.uint16[0].u16));
}
void kw2xrf_setup(kw2xrf_t *dev, const kw2xrf_params_t *params)

4
drivers/mrf24j40/mrf24j40.c

@ -55,8 +55,8 @@ void mrf24j40_reset(mrf24j40_t *dev)
addr_long.uint8[0] &= ~(0x01);
addr_long.uint8[0] |= (0x02);
/* set short and long address */
mrf24j40_set_addr_long(dev, NTOHLL(addr_long.uint64.u64));
mrf24j40_set_addr_short(dev, NTOHS(addr_long.uint16[0].u16));
mrf24j40_set_addr_long(dev, ntohll(addr_long.uint64.u64));
mrf24j40_set_addr_short(dev, ntohs(addr_long.uint16[0].u16));
/* set default PAN id */
mrf24j40_set_pan(dev, IEEE802154_DEFAULT_PANID);

4
drivers/nvram_spi/nvram-spi.c

@ -133,7 +133,7 @@ static int nvram_spi_write(nvram_t *dev, const uint8_t *src, uint32_t dst, size_
/* Address is expected by the device as big-endian, i.e. network byte order,
* we utilize the network byte order macros here. */
addr.u32 = HTONL(dst);
addr.u32 = htonl(dst);
/* Acquire exclusive bus access while configuring clock and mode */
spi_acquire(spi_dev->spi, spi_dev->cs, SPI_MODE_0, spi_dev->clk);
@ -163,7 +163,7 @@ static int nvram_spi_read(nvram_t *dev, uint8_t *dst, uint32_t src, size_t len)
} addr;
/* Address is expected by the device as big-endian, i.e. network byte order,
* we utilize the network byte order macros here. */
addr.u32 = HTONL(src);
addr.u32 = htonl(src);
/* Acquire exclusive bus access while configuring clock and mode */
spi_acquire(spi_dev->spi, spi_dev->cs, SPI_MODE_0, spi_dev->clk);

2
pkg/emb6/contrib/conn/udp/emb6_conn_udp.c

@ -109,7 +109,7 @@ int conn_udp_getlocaladdr(conn_udp_t *conn, void *addr, uint16_t *port)
if (conn->sock.input_callback != NULL) {
mutex_lock(&conn->mutex);
memset(addr, 0, sizeof(ipv6_addr_t));
*port = NTOHS(conn->sock.udp_conn->lport);
*port = ntohs(conn->sock.udp_conn->lport);
mutex_unlock(&conn->mutex);
return sizeof(ipv6_addr_t);
}

16
sys/cbor/cbor.c

@ -118,7 +118,7 @@ static uint32_t htonf(float x)
float f;
uint32_t i;
} u = { .f = x };
return HTONL(u.i);
return htonl(u.i);
}
/**
@ -129,7 +129,7 @@ static float ntohf(uint32_t x)
union u {
float f;
uint32_t i;
} u = { .i = NTOHL(x) };
} u = { .i = ntohl(x) };
return u.f;
}
@ -142,7 +142,7 @@ static uint64_t htond(double x)
double d;
uint64_t i;
} u = { .d = x };
return HTONLL(u.i);
return htonll(u.i);
}
/**
@ -153,7 +153,7 @@ static double ntohd(uint64_t x)
union u {
double d;
uint64_t i;
} u = { .i = HTONLL(x) };
} u = { .i = htonll(x) };
return u.d;
}
@ -358,15 +358,15 @@ static size_t decode_int(const cbor_stream_t *s, size_t offset, uint64_t *val)
break;
case 2:
*val = HTONS(((cast_align_u8_t *)in)->u.u16);
*val = htons(((cast_align_u8_t *)in)->u.u16);
break;
case 4:
*val = HTONL(((cast_align_u8_t *)in)->u.u32);
*val = htonl(((cast_align_u8_t *)in)->u.u32);
break;
default:
*val = HTONLL(((cast_align_u8_t *)in)->u.u64);
*val = htonll(((cast_align_u8_t *)in)->u.u64);
break;
}
@ -563,7 +563,7 @@ size_t cbor_serialize_float_half(cbor_stream_t *s, float val)
{
CBOR_ENSURE_SIZE(s, 3);
s->data[s->pos++] = CBOR_FLOAT16;
uint16_t encoded_val = HTONS(encode_float_half(val));
uint16_t encoded_val = htons(encode_float_half(val));
memcpy(s->data + s->pos, &encoded_val, 2);
s->pos += 2;
return 3;

2
sys/net/application_layer/dns/dns.c

@ -23,8 +23,6 @@
#ifdef RIOT_VERSION
#include "byteorder.h"
#define ntohs NTOHS
#define htons HTONS
#endif
/* min domain name length is 1, so minimum record length is 7 */

60
sys/posix/include/sys/bytes.h

@ -26,66 +26,6 @@
extern "C" {
#endif
/**
* @brief Convert values between host and network byte order.
*
* @see <a href="http://pubs.opengroup.org/onlinepubs/9699919799/functions/htonl.html">
* The Open Group Base Specification Issue 7, htonl
* </a>
*
* @param[in] hostlong A 32 bit number.
* @return The argument value converted from host to network byte
* order.
*/
#ifndef htonl
#define htonl(hostlong) HTONL(hostlong)
#endif
/**
* @brief Convert values between host and network byte order.
*
* @see <a href="http://pubs.opengroup.org/onlinepubs/9699919799/functions/htons.html">
* The Open Group Base Specification Issue 7, htons
* </a>
*
* @param[in] hostshort A 16 bit number.
* @return The argument value converted from host to network byte
* order.
*/
#ifndef htons
#define htons(hostshort) HTONS(hostshort)
#endif
/**
* @brief Convert values between host and network byte order.
*
* @see <a href="http://pubs.opengroup.org/onlinepubs/9699919799/functions/ntohl.html">
* The Open Group Base Specification Issue 7, ntohl
* </a>
*
* @param[in] netlong A 32-bit integer number.
* @return The argument value converted from network to host byte
* order.
*/
#ifndef ntohl
#define ntohl(netlong) NTOHL(netlong)
#endif
/**
* @brief Convert values between host and network byte order.
*
* @see <a href="http://pubs.opengroup.org/onlinepubs/9699919799/functions/ntohs.html">
* The Open Group Base Specification Issue 7, ntohs
* </a>
*
* @param[in] netshort A 16-bit integer number.
* @return The argument value converted from network to host byte
* order.
*/
#ifndef ntohs
#define ntohs(netshort) NTOHS(netshort)
#endif
typedef size_t socklen_t; /**< socket address length */
#ifdef __cplusplus

68
tests/lwip_sock_ip/main.c

@ -68,7 +68,7 @@ static void test_sock_ip_create4__EINVAL_netif(void)
static const sock_ip_ep_t local = { .family = AF_INET, .netif = _TEST_NETIF };
const sock_ip_ep_t remote = { .family = AF_INET,
.netif = (_TEST_NETIF + 1),
.addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) } };
.addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) } };
assert(-EINVAL == sock_ip_create(&_sock, &local, &remote, _TEST_PROTO,
SOCK_FLAGS_REUSE_EP));
@ -123,7 +123,7 @@ static void test_sock_ip_create4__only_local_reuse_ep(void)
static void test_sock_ip_create4__only_remote(void)
{
const sock_ip_ep_t remote = { .family = AF_INET,
.addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) } };
.addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) } };
sock_ip_ep_t ep;
assert(0 == sock_ip_create(&_sock, NULL, &remote, _TEST_PROTO,
@ -132,7 +132,7 @@ static void test_sock_ip_create4__only_remote(void)
assert(0 == sock_ip_get_local(&_sock, &ep));
assert(0 == sock_ip_get_remote(&_sock, &ep));
assert(AF_INET == ep.family);
assert(HTONL(_TEST_ADDR4_REMOTE) == ep.addr.ipv4_u32);
assert(htonl(_TEST_ADDR4_REMOTE) == ep.addr.ipv4_u32);
assert(SOCK_ADDR_ANY_NETIF == ep.netif);
}
@ -140,7 +140,7 @@ static void test_sock_ip_create4__full(void)
{
static const sock_ip_ep_t local = { .family = AF_INET, .netif = _TEST_NETIF };
const sock_ip_ep_t remote = { .family = AF_INET,
.addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) } };
.addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) } };
sock_ip_ep_t ep;
assert(0 == sock_ip_create(&_sock, &local, &remote, _TEST_PROTO,
@ -152,7 +152,7 @@ static void test_sock_ip_create4__full(void)
assert(_TEST_NETIF == ep.netif);
assert(0 == sock_ip_get_remote(&_sock, &ep));
assert(AF_INET == ep.family);
assert(HTONL(_TEST_ADDR4_REMOTE) == ep.addr.ipv4_u32);
assert(htonl(_TEST_ADDR4_REMOTE) == ep.addr.ipv4_u32);
assert(SOCK_ADDR_ANY_NETIF == ep.netif);
}
@ -205,7 +205,7 @@ static void test_sock_ip_recv4__ETIMEDOUT(void)
static void test_sock_ip_recv4__socketed(void)
{
static const sock_ip_ep_t local = { .family = AF_INET };
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET };
assert(0 == sock_ip_create(&_sock, &local, &remote, _TEST_PROTO,
@ -220,7 +220,7 @@ static void test_sock_ip_recv4__socketed(void)
static void test_sock_ip_recv4__socketed_with_remote(void)
{
static const sock_ip_ep_t local = { .family = AF_INET };
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET };
sock_ip_ep_t result;
@ -231,14 +231,14 @@ static void test_sock_ip_recv4__socketed_with_remote(void)
assert(sizeof("ABCD") == sock_ip_recv(&_sock, _test_buffer,
sizeof(_test_buffer), 0, &result));
assert(AF_INET == result.family);
assert(HTONL(_TEST_ADDR4_REMOTE) == result.addr.ipv4_u32);
assert(htonl(_TEST_ADDR4_REMOTE) == result.addr.ipv4_u32);
assert(_TEST_NETIF == result.netif);
assert(_check_net());
}
static void test_sock_ip_recv4__unsocketed(void)
{
const sock_ip_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_ip_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET };
assert(0 == sock_ip_create(&_sock, &local, NULL, _TEST_PROTO,
@ -262,7 +262,7 @@ static void test_sock_ip_recv4__unsocketed_with_remote(void)
assert(sizeof("ABCD") == sock_ip_recv(&_sock, _test_buffer,
sizeof(_test_buffer), 0, &result));
assert(AF_INET == result.family);
assert(HTONL(_TEST_ADDR4_REMOTE) == result.addr.ipv4_u32);
assert(htonl(_TEST_ADDR4_REMOTE) == result.addr.ipv4_u32);
assert(_TEST_NETIF == result.netif);
assert(_check_net());
}
@ -280,7 +280,7 @@ static void test_sock_ip_recv4__with_timeout(void)
sizeof(_test_buffer), _TEST_TIMEOUT,
&result));
assert(AF_INET == result.family);
assert(HTONL(_TEST_ADDR4_REMOTE) == result.addr.ipv4_u32);
assert(htonl(_TEST_ADDR4_REMOTE) == result.addr.ipv4_u32);
assert(_TEST_NETIF == result.netif);
assert(_check_net());
}
@ -297,14 +297,14 @@ static void test_sock_ip_recv4__non_blocking(void)
assert(sizeof("ABCD") == sock_ip_recv(&_sock, _test_buffer,
sizeof(_test_buffer), 0, &result));
assert(AF_INET == result.family);
assert(HTONL(_TEST_ADDR4_REMOTE) == result.addr.ipv4_u32);
assert(htonl(_TEST_ADDR4_REMOTE) == result.addr.ipv4_u32);
assert(_TEST_NETIF == result.netif);
assert(_check_net());
}
static void test_sock_ip_send4__EAFNOSUPPORT(void)
{
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_UNSPEC };
assert(-EAFNOSUPPORT == sock_ip_send(NULL, "ABCD", sizeof("ABCD"),
@ -314,7 +314,7 @@ static void test_sock_ip_send4__EAFNOSUPPORT(void)
static void test_sock_ip_send4__EINVAL_addr(void)
{
const sock_ip_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_ip_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET,
.netif = _TEST_NETIF };
static const sock_ip_ep_t remote = { .family = AF_INET,
@ -329,10 +329,10 @@ static void test_sock_ip_send4__EINVAL_addr(void)
static void test_sock_ip_send4__EINVAL_netif(void)
{
const sock_ip_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_ip_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET,
.netif = _TEST_NETIF };
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.netif = _TEST_NETIF + 1 };
@ -345,7 +345,7 @@ static void test_sock_ip_send4__EINVAL_netif(void)
static void test_sock_ip_send4__EHOSTUNREACH(void)
{
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_WRONG) },
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_WRONG) },
.family = AF_INET };
assert(-EHOSTUNREACH == sock_ip_send(NULL, "ABCD", sizeof("ABCD"), _TEST_PROTO,
@ -363,7 +363,7 @@ static void test_sock_ip_send4__ENOTCONN(void)
static void test_sock_ip_send4__socketed_no_local_no_netif(void)
{
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET };
assert(0 == sock_ip_create(&_sock, NULL, &remote, _TEST_PROTO,
@ -378,9 +378,9 @@ static void test_sock_ip_send4__socketed_no_local_no_netif(void)
static void test_sock_ip_send4__socketed_no_netif(void)
{
const sock_ip_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_ip_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET };
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET };
assert(0 == sock_ip_create(&_sock, &local, &remote, _TEST_PROTO,
@ -395,7 +395,7 @@ static void test_sock_ip_send4__socketed_no_netif(void)
static void test_sock_ip_send4__socketed_no_local(void)
{
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.netif = _TEST_NETIF };
@ -411,10 +411,10 @@ static void test_sock_ip_send4__socketed_no_local(void)
static void test_sock_ip_send4__socketed(void)
{
const sock_ip_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_ip_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET,
.netif = _TEST_NETIF };
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET };
assert(0 == sock_ip_create(&_sock, &local, &remote, _TEST_PROTO,
@ -429,12 +429,12 @@ static void test_sock_ip_send4__socketed(void)
static void test_sock_ip_send4__socketed_other_remote(void)
{
const sock_ip_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_ip_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET,
.netif = _TEST_NETIF };
const sock_ip_ep_t sock_remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_WRONG) },
const sock_ip_ep_t sock_remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_WRONG) },
.family = AF_INET };
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET };
assert(0 == sock_ip_create(&_sock, &local, &sock_remote, _TEST_PROTO,
@ -449,7 +449,7 @@ static void test_sock_ip_send4__socketed_other_remote(void)
static void test_sock_ip_send4__unsocketed_no_local_no_netif(void)
{
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET };
assert(0 == sock_ip_create(&_sock, NULL, NULL, _TEST_PROTO,
@ -464,9 +464,9 @@ static void test_sock_ip_send4__unsocketed_no_local_no_netif(void)
static void test_sock_ip_send4__unsocketed_no_netif(void)
{
const sock_ip_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_ip_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET };
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET };
assert(0 == sock_ip_create(&_sock, &local, NULL, _TEST_PROTO,
@ -481,7 +481,7 @@ static void test_sock_ip_send4__unsocketed_no_netif(void)
static void test_sock_ip_send4__unsocketed_no_local(void)
{
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.netif = _TEST_NETIF };
@ -497,10 +497,10 @@ static void test_sock_ip_send4__unsocketed_no_local(void)
static void test_sock_ip_send4__unsocketed(void)
{
const sock_ip_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_ip_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET,
.netif = _TEST_NETIF };
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET };
assert(0 == sock_ip_create(&_sock, &local, NULL, _TEST_PROTO,
@ -515,7 +515,7 @@ static void test_sock_ip_send4__unsocketed(void)
static void test_sock_ip_send4__no_sock_no_netif(void)
{
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET };
assert(sizeof("ABCD") == sock_ip_send(NULL, "ABCD", sizeof("ABCD"),
@ -528,7 +528,7 @@ static void test_sock_ip_send4__no_sock_no_netif(void)
static void test_sock_ip_send4__no_sock(void)
{
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_ip_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.netif = _TEST_NETIF };

16
tests/lwip_sock_ip/stack.c

@ -186,9 +186,9 @@ void _net_init(void)
assert(netdev.netdev.driver);
#if LWIP_IPV4
ip4_addr_t local4, mask4, gw4;
local4.addr = HTONL(_TEST_ADDR4_LOCAL);
mask4.addr = HTONL(_TEST_ADDR4_MASK);
gw4.addr = HTONL(_TEST_ADDR4_GW);
local4.addr = htonl(_TEST_ADDR4_LOCAL);
mask4.addr = htonl(_TEST_ADDR4_MASK);
gw4.addr = htonl(_TEST_ADDR4_GW);
netif_add(&netif, &local4, &mask4, &gw4, &netdev, lwip_netdev_init, tcpip_input);
#else
netif_add(&netif, &netdev, lwip_netdev_init, tcpip_input);
@ -217,7 +217,7 @@ void _prepare_send_checks(void)
netdev_test_set_send_cb(&netdev, _netdev_send);
#if LWIP_ARP
const ip4_addr_t remote4 = { .addr = HTONL(_TEST_ADDR4_REMOTE) };
const ip4_addr_t remote4 = { .addr = htonl(_TEST_ADDR4_REMOTE) };
assert(ERR_OK == etharp_add_static_entry(&remote4, (struct eth_addr *)mac));
#endif
#if LWIP_IPV6
@ -253,11 +253,11 @@ bool _inject_4packet(uint32_t src, uint32_t dst, uint8_t proto, void *data,
eth_hdr->type = byteorder_htons(ETHERTYPE_IPV4);
IPH_VHL_SET(ip_hdr, 4, 5);
IPH_TOS_SET(ip_hdr, 0);
IPH_LEN_SET(ip_hdr, HTONS(sizeof(struct ip_hdr) + data_len));
IPH_LEN_SET(ip_hdr, htons(sizeof(struct ip_hdr) + data_len));
IPH_TTL_SET(ip_hdr, 64);
IPH_PROTO_SET(ip_hdr, proto);
ip_hdr->src.addr = HTONL(src);
ip_hdr->dest.addr = HTONL(dst);
ip_hdr->src.addr = htonl(src);
ip_hdr->dest.addr = htonl(dst);
IPH_CHKSUM_SET(ip_hdr, 0);
IPH_CHKSUM_SET(ip_hdr, inet_chksum(ip_hdr, sizeof(struct ip_hdr)));
@ -326,7 +326,7 @@ bool _check_4packet(uint32_t src, uint32_t dst, uint8_t proto,
ethernet_hdr_t *eth_hdr = (ethernet_hdr_t *)_netdev_buffer;
struct ip_hdr *ip_hdr = (struct ip_hdr *)(eth_hdr + 1);
uint8_t *payload = (uint8_t *)(ip_hdr + 1);
uint16_t payload_len = HTONS(IPH_LEN(ip_hdr)) - sizeof(struct ip_hdr);
uint16_t payload_len = htons(IPH_LEN(ip_hdr)) - sizeof(struct ip_hdr);
const bool ip_correct = ((src == 0) || (src = ip_hdr->src.addr)) &&
(dst = ip_hdr->dest.addr) &&
(IPH_PROTO(ip_hdr) == proto);

42
tests/lwip_sock_tcp/main.c

@ -88,7 +88,7 @@ static void tear_down(void)
#ifdef SO_REUSE
static void test_tcp_connect4__EADDRINUSE(void)
{
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE,
.netif = SOCK_ADDR_ANY_NETIF };
@ -107,7 +107,7 @@ static void test_tcp_connect4__EADDRINUSE(void)
static void test_tcp_connect4__EAFNOSUPPORT(void)
{
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.port = _TEST_PORT_REMOTE,
.netif = SOCK_ADDR_ANY_NETIF };
@ -129,7 +129,7 @@ static void test_tcp_connect4__EINVAL_addr(void)
static void test_tcp_connect4__EINVAL_netif(void)
{
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE,
.netif = (_TEST_NETIF + 1) };
@ -142,7 +142,7 @@ static void test_tcp_connect4__EINVAL_netif(void)
static void test_tcp_connect4__success_without_port(void)
{
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE,
.netif = _TEST_NETIF };
@ -158,13 +158,13 @@ static void test_tcp_connect4__success_without_port(void)
assert(0 == sock_tcp_connect(&_sock, &remote, 0, SOCK_FLAGS_REUSE_EP));
assert(0 == sock_tcp_get_remote(&_sock, &ep));
assert(AF_INET == ep.family);
assert(HTONL(_TEST_ADDR4_REMOTE) == ep.addr.ipv4_u32);
assert(htonl(_TEST_ADDR4_REMOTE) == ep.addr.ipv4_u32);
assert(SOCK_ADDR_ANY_NETIF == ep.netif);
assert(_TEST_PORT_REMOTE == ep.port);
}
static void test_tcp_connect4__success_local_port(void)
{
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE,
.netif = SOCK_ADDR_ANY_NETIF };
@ -184,7 +184,7 @@ static void test_tcp_connect4__success_local_port(void)
assert(_TEST_PORT_LOCAL == ep.port);
assert(0 == sock_tcp_get_remote(&_sock, &ep));
assert(AF_INET == ep.family);
assert(HTONL(_TEST_ADDR4_REMOTE) == ep.addr.ipv4_u32);
assert(htonl(_TEST_ADDR4_REMOTE) == ep.addr.ipv4_u32);
assert(SOCK_ADDR_ANY_NETIF == ep.netif);
assert(_TEST_PORT_REMOTE == ep.port);
}
@ -192,7 +192,7 @@ static void test_tcp_connect4__success_local_port(void)
#ifdef SO_REUSE
static void test_tcp_listen4__EADDRINUSE(void)
{
const sock_tcp_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_tcp_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET,
.port = _TEST_PORT_LOCAL,
.netif = SOCK_ADDR_ANY_NETIF };
@ -211,7 +211,7 @@ static void test_tcp_listen4__EADDRINUSE(void)
static void test_tcp_listen4__EAFNOSUPPORT(void)
{
const sock_tcp_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_tcp_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.port = _TEST_PORT_LOCAL,
.netif = SOCK_ADDR_ANY_NETIF };
@ -221,7 +221,7 @@ static void test_tcp_listen4__EAFNOSUPPORT(void)
static void test_tcp_listen4__EINVAL(void)
{
const sock_tcp_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_tcp_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET,
.port = _TEST_PORT_LOCAL,
.netif = (_TEST_NETIF + 1) };
@ -232,7 +232,7 @@ static void test_tcp_listen4__EINVAL(void)
static void test_tcp_listen4__success_any_netif(void)
{
const sock_tcp_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_tcp_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET,
.port = _TEST_PORT_LOCAL,
.netif = SOCK_ADDR_ANY_NETIF };
@ -242,7 +242,7 @@ static void test_tcp_listen4__success_any_netif(void)
_QUEUE_SIZE, 0));
assert(0 == sock_tcp_queue_get_local(&_queue, &ep));
assert(AF_INET == ep.family);
assert(HTONL(_TEST_ADDR4_LOCAL) == ep.addr.ipv4_u32);
assert(htonl(_TEST_ADDR4_LOCAL) == ep.addr.ipv4_u32);
assert(SOCK_ADDR_ANY_NETIF == ep.netif);
assert(_TEST_PORT_LOCAL == ep.port);
}
@ -304,7 +304,7 @@ static void test_tcp_accept4__success(void)
sock_tcp_ep_t ep;
sock_tcp_t *sock;
_server_addr.addr.ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE); /* loopback */
_server_addr.addr.ipv4_u32 = htonl(_TEST_ADDR4_REMOTE); /* loopback */
_server_addr.family = AF_INET;
_server_addr.port = _TEST_PORT_LOCAL;
_server_addr.netif = SOCK_ADDR_ANY_NETIF;
@ -319,7 +319,7 @@ static void test_tcp_accept4__success(void)
assert(_TEST_PORT_LOCAL == ep.port);
assert(0 == sock_tcp_get_remote(sock, &ep));
assert(AF_INET == ep.family);
assert(HTONL(_TEST_ADDR4_REMOTE) == ep.addr.ipv4_u32);
assert(htonl(_TEST_ADDR4_REMOTE) == ep.addr.ipv4_u32);
assert(SOCK_ADDR_ANY_NETIF == ep.netif);
assert(_TEST_PORT_REMOTE == ep.port);
}
@ -328,7 +328,7 @@ static void test_tcp_accept4__success(void)
static void test_tcp_read4__EAGAIN(void)
{
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE,
.netif = SOCK_ADDR_ANY_NETIF };
@ -348,7 +348,7 @@ static void test_tcp_read4__EAGAIN(void)
static void test_tcp_read4__ECONNRESET(void)
{
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE,
.netif = SOCK_ADDR_ANY_NETIF };
@ -378,7 +378,7 @@ static void test_tcp_read4__ENOTCONN(void)
static void test_tcp_read4__ETIMEDOUT(void)
{
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE,
.netif = SOCK_ADDR_ANY_NETIF };
@ -401,7 +401,7 @@ static void test_tcp_read4__ETIMEDOUT(void)
static void test_tcp_read4__success(void)
{
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE,
.netif = SOCK_ADDR_ANY_NETIF };
@ -429,7 +429,7 @@ static void test_tcp_read4__success(void)
static void test_tcp_read4__success_with_timeout(void)
{
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE,
.netif = SOCK_ADDR_ANY_NETIF };
@ -457,7 +457,7 @@ static void test_tcp_read4__success_with_timeout(void)
static void test_tcp_read4__success_non_blocking(void)
{
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE,
.netif = SOCK_ADDR_ANY_NETIF };
@ -492,7 +492,7 @@ static void test_tcp_write4__ENOTCONN(void)
static void test_tcp_write4__success(void)
{
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_tcp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE,
.netif = SOCK_ADDR_ANY_NETIF };

70
tests/lwip_sock_udp/main.c

@ -88,7 +88,7 @@ static void test_sock_udp_create4__EINVAL_netif(void)
const sock_udp_ep_t remote = { .family = AF_INET,
.netif = (_TEST_NETIF + 1),
.port = _TEST_PORT_REMOTE,
.addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) } };
.addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) } };
assert(-EINVAL == sock_udp_create(&_sock, &local, &remote, SOCK_FLAGS_REUSE_EP));
}
@ -144,7 +144,7 @@ static void test_sock_udp_create4__only_remote(void)
{
const sock_udp_ep_t remote = { .family = AF_INET,
.port = _TEST_PORT_REMOTE,
.addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) } };
.addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) } };
sock_udp_ep_t ep;
assert(0 == sock_udp_create(&_sock, NULL, &remote, SOCK_FLAGS_REUSE_EP));
@ -152,7 +152,7 @@ static void test_sock_udp_create4__only_remote(void)
assert(0 == sock_udp_get_local(&_sock, &ep));
assert(0 == sock_udp_get_remote(&_sock, &ep));
assert(AF_INET == ep.family);
assert(HTONL(_TEST_ADDR4_REMOTE) == ep.addr.ipv4_u32);
assert(htonl(_TEST_ADDR4_REMOTE) == ep.addr.ipv4_u32);
assert(SOCK_ADDR_ANY_NETIF == ep.netif);
assert(_TEST_PORT_REMOTE == ep.port);
}
@ -163,7 +163,7 @@ static void test_sock_udp_create4__full(void)
.port = _TEST_PORT_LOCAL };
const sock_udp_ep_t remote = { .family = AF_INET,
.port = _TEST_PORT_REMOTE,
.addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) } };
.addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) } };
sock_udp_ep_t ep;
assert(0 == sock_udp_create(&_sock, &local, &remote, SOCK_FLAGS_REUSE_EP));
@ -175,7 +175,7 @@ static void test_sock_udp_create4__full(void)
assert(_TEST_PORT_LOCAL == ep.port);
assert(0 == sock_udp_get_remote(&_sock, &ep));
assert(AF_INET == ep.family);
assert(HTONL(_TEST_ADDR4_REMOTE) == ep.addr.ipv4_u32);
assert(htonl(_TEST_ADDR4_REMOTE) == ep.addr.ipv4_u32);
assert(SOCK_ADDR_ANY_NETIF == ep.netif);
assert(_TEST_PORT_REMOTE == ep.port);
}
@ -231,7 +231,7 @@ static void test_sock_udp_recv4__socketed(void)
{
static const sock_udp_ep_t local = { .family = AF_INET,
.port = _TEST_PORT_LOCAL };
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE };
@ -249,7 +249,7 @@ static void test_sock_udp_recv4__socketed_with_remote(void)
{
static const sock_udp_ep_t local = { .family = AF_INET,
.port = _TEST_PORT_LOCAL };
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE };
sock_udp_ep_t result;
@ -262,7 +262,7 @@ static void test_sock_udp_recv4__socketed_with_remote(void)
sizeof(_test_buffer),
SOCK_NO_TIMEOUT, &result));
assert(AF_INET == result.family);
assert(HTONL(_TEST_ADDR4_REMOTE) == result.addr.ipv4_u32);
assert(htonl(_TEST_ADDR4_REMOTE) == result.addr.ipv4_u32);
assert(_TEST_PORT_REMOTE == result.port);
#if LWIP_NETBUF_RECVINFO
assert(_TEST_NETIF == result.netif);
@ -272,7 +272,7 @@ static void test_sock_udp_recv4__socketed_with_remote(void)
static void test_sock_udp_recv4__unsocketed(void)
{
const sock_udp_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_udp_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET,
.port = _TEST_PORT_LOCAL };
@ -300,7 +300,7 @@ static void test_sock_udp_recv4__unsocketed_with_remote(void)
sizeof(_test_buffer),
SOCK_NO_TIMEOUT, &result));
assert(AF_INET == result.family);
assert(HTONL(_TEST_ADDR4_REMOTE) == result.addr.ipv4_u32);
assert(htonl(_TEST_ADDR4_REMOTE) == result.addr.ipv4_u32);
assert(_TEST_PORT_REMOTE == result.port);
#if LWIP_NETBUF_RECVINFO
assert(_TEST_NETIF == result.netif);
@ -322,7 +322,7 @@ static void test_sock_udp_recv4__with_timeout(void)
sizeof(_test_buffer), _TEST_TIMEOUT,
&result));
assert(AF_INET == result.family);
assert(HTONL(_TEST_ADDR4_REMOTE) == result.addr.ipv4_u32);
assert(htonl(_TEST_ADDR4_REMOTE) == result.addr.ipv4_u32);
assert(_TEST_PORT_REMOTE == result.port);
#if LWIP_NETBUF_RECVINFO
assert(_TEST_NETIF == result.netif);
@ -343,7 +343,7 @@ static void test_sock_udp_recv4__non_blocking(void)
assert(sizeof("ABCD") == sock_udp_recv(&_sock, _test_buffer,
sizeof(_test_buffer), 0, &result));
assert(AF_INET == result.family);
assert(HTONL(_TEST_ADDR4_REMOTE) == result.addr.ipv4_u32);
assert(htonl(_TEST_ADDR4_REMOTE) == result.addr.ipv4_u32);
assert(_TEST_PORT_REMOTE == result.port);
#if LWIP_NETBUF_RECVINFO
assert(_TEST_NETIF == result.netif);
@ -353,7 +353,7 @@ static void test_sock_udp_recv4__non_blocking(void)
static void test_sock_udp_send4__EAFNOSUPPORT(void)
{
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_UNSPEC,
.port = _TEST_PORT_REMOTE };
@ -364,7 +364,7 @@ static void test_sock_udp_send4__EAFNOSUPPORT(void)
static void test_sock_udp_send4__EINVAL_addr(void)
{
const sock_udp_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_udp_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE,
.netif = _TEST_NETIF };
@ -379,11 +379,11 @@ static void test_sock_udp_send4__EINVAL_addr(void)
static void test_sock_udp_send4__EINVAL_netif(void)
{
const sock_udp_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_udp_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE,
.netif = _TEST_NETIF };
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE,
.netif = _TEST_NETIF + 1 };
@ -395,7 +395,7 @@ static void test_sock_udp_send4__EINVAL_netif(void)
static void test_sock_udp_send4__EHOSTUNREACH(void)
{
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_WRONG) },
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_WRONG) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE };
@ -405,7 +405,7 @@ static void test_sock_udp_send4__EHOSTUNREACH(void)
static void test_sock_udp_send4__EINVAL_port(void)
{
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET };
assert(-EINVAL == sock_udp_send(NULL, "ABCD", sizeof("ABCD"), &remote));
@ -421,7 +421,7 @@ static void test_sock_udp_send4__ENOTCONN(void)
static void test_sock_udp_send4__socketed_no_local_no_netif(void)
{
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE };
@ -436,10 +436,10 @@ static void test_sock_udp_send4__socketed_no_local_no_netif(void)
static void test_sock_udp_send4__socketed_no_netif(void)
{
const sock_udp_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_udp_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET,
.port = _TEST_PORT_LOCAL };
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE };
@ -455,7 +455,7 @@ static void test_sock_udp_send4__socketed_no_netif(void)
static void test_sock_udp_send4__socketed_no_local(void)
{
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.netif = _TEST_NETIF,
.port = _TEST_PORT_REMOTE };
@ -472,11 +472,11 @@ static void test_sock_udp_send4__socketed_no_local(void)
static void test_sock_udp_send4__socketed(void)
{
const sock_udp_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_udp_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET,
.netif = _TEST_NETIF,
.port = _TEST_PORT_LOCAL };
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE };
@ -492,14 +492,14 @@ static void test_sock_udp_send4__socketed(void)
static void test_sock_udp_send4__socketed_other_remote(void)
{
const sock_udp_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_udp_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET,
.netif = _TEST_NETIF,
.port = _TEST_PORT_LOCAL };
const sock_udp_ep_t sock_remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_WRONG) },
const sock_udp_ep_t sock_remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_WRONG) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE + _TEST_PORT_LOCAL };
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE };
@ -515,7 +515,7 @@ static void test_sock_udp_send4__socketed_other_remote(void)
static void test_sock_udp_send4__unsocketed_no_local_no_netif(void)
{
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE };
@ -531,10 +531,10 @@ static void test_sock_udp_send4__unsocketed_no_local_no_netif(void)
static void test_sock_udp_send4__unsocketed_no_netif(void)
{
const sock_udp_ep_t local = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_LOCAL) },
const sock_udp_ep_t local = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_LOCAL) },
.family = AF_INET,
.port = _TEST_PORT_LOCAL };
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.port = _TEST_PORT_REMOTE };
@ -550,7 +550,7 @@ static void test_sock_udp_send4__unsocketed_no_netif(void)
static void test_sock_udp_send4__unsocketed_no_local(void)
{
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = HTONL(_TEST_ADDR4_REMOTE) },
const sock_udp_ep_t remote = { .addr = { .ipv4_u32 = htonl(_TEST_ADDR4_REMOTE) },
.family = AF_INET,
.netif = _TEST_NETIF,
.port = _TEST_PORT_REMOTE };