char* pUint16 = (char*)&u16;
ie Cast the address of the uint16_t.
uint16_t ui16 = 0xdead;
memcpy( c16, ui16, 2 );
c16 now contains the 2 bytes of the u16. At the far end you can simply reverse the process.
char* pC16 = /*blah*/
memcpy( &ui16, pC16, 2 );
Interestingly though there is a call to memcpy nearly every compiler will optimise it out because its of a fixed size.
As Steven sudt points out you may get problems with big-endian-ness. to get round this you can use the htons (host-to-network short) function.
uint16_t ui16correct = htons( 0xdead );
and at the far end use ntohs (network-to-host short)
uint16_t ui16correct = ntohs( ui16 );
On a little-endian machine this will convert the short to big-endian and then at the far end convert back from big-endian. On a big-endian machine the 2 functions do nothing.
Of course if you know that the architecture of both machines on the network use the same endian-ness then you can avoid this step.
Look up ntohl and htonl for handling 32-bit integers. Most platforms also support ntohll and htonll for 64-bits as well.