341 lines
11 KiB
C++
341 lines
11 KiB
C++
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// Tests for socket functionality.
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#include <sys/types.h>
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#include <sys/socket.h>
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#include <sys/un.h>
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#include <netinet/in.h>
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#include <arpa/inet.h>
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#include <unistd.h>
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#include <string>
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#include "capsicum.h"
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#include "syscalls.h"
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#include "capsicum-test.h"
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TEST(Socket, UnixDomain) {
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const char* socketName = TmpFile("capsicum-test.socket");
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unlink(socketName);
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cap_rights_t r_rw;
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cap_rights_init(&r_rw, CAP_READ, CAP_WRITE);
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cap_rights_t r_all;
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cap_rights_init(&r_all, CAP_READ, CAP_WRITE, CAP_SOCK_CLIENT, CAP_SOCK_SERVER);
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pid_t child = fork();
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if (child == 0) {
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// Child process: wait for server setup
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sleep(1);
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// Create sockets
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int sock = socket(AF_UNIX, SOCK_STREAM, 0);
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EXPECT_OK(sock);
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if (sock < 0) return;
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int cap_sock_rw = dup(sock);
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EXPECT_OK(cap_sock_rw);
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EXPECT_OK(cap_rights_limit(cap_sock_rw, &r_rw));
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int cap_sock_all = dup(sock);
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EXPECT_OK(cap_sock_all);
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EXPECT_OK(cap_rights_limit(cap_sock_all, &r_all));
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EXPECT_OK(close(sock));
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// Connect socket
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struct sockaddr_un un;
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memset(&un, 0, sizeof(un));
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un.sun_family = AF_UNIX;
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strcpy(un.sun_path, socketName);
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socklen_t len = sizeof(un);
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EXPECT_NOTCAPABLE(connect_(cap_sock_rw, (struct sockaddr *)&un, len));
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EXPECT_OK(connect_(cap_sock_all, (struct sockaddr *)&un, len));
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exit(HasFailure());
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}
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int sock = socket(AF_UNIX, SOCK_STREAM, 0);
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EXPECT_OK(sock);
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if (sock < 0) return;
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int cap_sock_rw = dup(sock);
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EXPECT_OK(cap_sock_rw);
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EXPECT_OK(cap_rights_limit(cap_sock_rw, &r_rw));
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int cap_sock_all = dup(sock);
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EXPECT_OK(cap_sock_all);
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EXPECT_OK(cap_rights_limit(cap_sock_all, &r_all));
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EXPECT_OK(close(sock));
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struct sockaddr_un un;
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memset(&un, 0, sizeof(un));
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un.sun_family = AF_UNIX;
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strcpy(un.sun_path, socketName);
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socklen_t len = (sizeof(un) - sizeof(un.sun_path) + strlen(un.sun_path));
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// Can only bind the fully-capable socket.
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EXPECT_NOTCAPABLE(bind_(cap_sock_rw, (struct sockaddr *)&un, len));
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EXPECT_OK(bind_(cap_sock_all, (struct sockaddr *)&un, len));
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// Can only listen on the fully-capable socket.
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EXPECT_NOTCAPABLE(listen(cap_sock_rw, 3));
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EXPECT_OK(listen(cap_sock_all, 3));
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// Can only do socket operations on the fully-capable socket.
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len = sizeof(un);
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EXPECT_NOTCAPABLE(getsockname(cap_sock_rw, (struct sockaddr*)&un, &len));
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int value = 0;
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EXPECT_NOTCAPABLE(setsockopt(cap_sock_rw, SOL_SOCKET, SO_DEBUG, &value, sizeof(value)));
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len = sizeof(value);
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EXPECT_NOTCAPABLE(getsockopt(cap_sock_rw, SOL_SOCKET, SO_DEBUG, &value, &len));
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len = sizeof(un);
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memset(&un, 0, sizeof(un));
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EXPECT_OK(getsockname(cap_sock_all, (struct sockaddr*)&un, &len));
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EXPECT_EQ(AF_UNIX, un.sun_family);
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EXPECT_EQ(std::string(socketName), std::string(un.sun_path));
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value = 0;
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EXPECT_OK(setsockopt(cap_sock_all, SOL_SOCKET, SO_DEBUG, &value, sizeof(value)));
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len = sizeof(value);
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EXPECT_OK(getsockopt(cap_sock_all, SOL_SOCKET, SO_DEBUG, &value, &len));
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// Accept the incoming connection
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len = sizeof(un);
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memset(&un, 0, sizeof(un));
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EXPECT_NOTCAPABLE(accept(cap_sock_rw, (struct sockaddr *)&un, &len));
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int conn_fd = accept(cap_sock_all, (struct sockaddr *)&un, &len);
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EXPECT_OK(conn_fd);
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#ifdef CAP_FROM_ACCEPT
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// New connection should also be a capability.
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cap_rights_t rights;
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cap_rights_init(&rights, 0);
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EXPECT_OK(cap_rights_get(conn_fd, &rights));
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EXPECT_RIGHTS_IN(&rights, &r_all);
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#endif
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// Wait for the child.
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int status;
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EXPECT_EQ(child, waitpid(child, &status, 0));
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int rc = WIFEXITED(status) ? WEXITSTATUS(status) : -1;
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EXPECT_EQ(0, rc);
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close(conn_fd);
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close(cap_sock_rw);
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close(cap_sock_all);
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unlink(socketName);
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}
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TEST(Socket, TCP) {
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int sock = socket(AF_INET, SOCK_STREAM, 0);
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EXPECT_OK(sock);
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if (sock < 0) return;
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cap_rights_t r_rw;
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cap_rights_init(&r_rw, CAP_READ, CAP_WRITE);
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cap_rights_t r_all;
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cap_rights_init(&r_all, CAP_READ, CAP_WRITE, CAP_SOCK_CLIENT, CAP_SOCK_SERVER);
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int cap_sock_rw = dup(sock);
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EXPECT_OK(cap_sock_rw);
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EXPECT_OK(cap_rights_limit(cap_sock_rw, &r_rw));
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int cap_sock_all = dup(sock);
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EXPECT_OK(cap_sock_all);
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EXPECT_OK(cap_rights_limit(cap_sock_all, &r_all));
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close(sock);
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struct sockaddr_in addr;
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memset(&addr, 0, sizeof(addr));
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addr.sin_family = AF_INET;
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addr.sin_port = htons(0);
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addr.sin_addr.s_addr = htonl(INADDR_ANY);
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socklen_t len = sizeof(addr);
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// Can only bind the fully-capable socket.
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EXPECT_NOTCAPABLE(bind_(cap_sock_rw, (struct sockaddr *)&addr, len));
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EXPECT_OK(bind_(cap_sock_all, (struct sockaddr *)&addr, len));
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getsockname(cap_sock_all, (struct sockaddr *)&addr, &len);
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int port = ntohs(addr.sin_port);
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// Now we know the port involved, fork off a child.
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pid_t child = fork();
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if (child == 0) {
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// Child process: wait for server setup
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sleep(1);
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// Create sockets
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int sock = socket(AF_INET, SOCK_STREAM, 0);
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EXPECT_OK(sock);
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if (sock < 0) return;
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int cap_sock_rw = dup(sock);
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EXPECT_OK(cap_sock_rw);
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EXPECT_OK(cap_rights_limit(cap_sock_rw, &r_rw));
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int cap_sock_all = dup(sock);
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EXPECT_OK(cap_sock_all);
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EXPECT_OK(cap_rights_limit(cap_sock_all, &r_all));
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close(sock);
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// Connect socket
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struct sockaddr_in addr;
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memset(&addr, 0, sizeof(addr));
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addr.sin_family = AF_INET;
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addr.sin_port = htons(port); // Pick unused port
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addr.sin_addr.s_addr = inet_addr("127.0.0.1");
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socklen_t len = sizeof(addr);
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EXPECT_NOTCAPABLE(connect_(cap_sock_rw, (struct sockaddr *)&addr, len));
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EXPECT_OK(connect_(cap_sock_all, (struct sockaddr *)&addr, len));
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exit(HasFailure());
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}
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// Can only listen on the fully-capable socket.
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EXPECT_NOTCAPABLE(listen(cap_sock_rw, 3));
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EXPECT_OK(listen(cap_sock_all, 3));
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// Can only do socket operations on the fully-capable socket.
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len = sizeof(addr);
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EXPECT_NOTCAPABLE(getsockname(cap_sock_rw, (struct sockaddr*)&addr, &len));
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int value = 1;
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EXPECT_NOTCAPABLE(setsockopt(cap_sock_rw, SOL_SOCKET, SO_REUSEPORT, &value, sizeof(value)));
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len = sizeof(value);
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EXPECT_NOTCAPABLE(getsockopt(cap_sock_rw, SOL_SOCKET, SO_REUSEPORT, &value, &len));
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len = sizeof(addr);
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memset(&addr, 0, sizeof(addr));
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EXPECT_OK(getsockname(cap_sock_all, (struct sockaddr*)&addr, &len));
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EXPECT_EQ(AF_INET, addr.sin_family);
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EXPECT_EQ(htons(port), addr.sin_port);
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value = 0;
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EXPECT_OK(setsockopt(cap_sock_all, SOL_SOCKET, SO_REUSEPORT, &value, sizeof(value)));
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len = sizeof(value);
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EXPECT_OK(getsockopt(cap_sock_all, SOL_SOCKET, SO_REUSEPORT, &value, &len));
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// Accept the incoming connection
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len = sizeof(addr);
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memset(&addr, 0, sizeof(addr));
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EXPECT_NOTCAPABLE(accept(cap_sock_rw, (struct sockaddr *)&addr, &len));
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int conn_fd = accept(cap_sock_all, (struct sockaddr *)&addr, &len);
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EXPECT_OK(conn_fd);
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#ifdef CAP_FROM_ACCEPT
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// New connection should also be a capability.
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cap_rights_t rights;
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cap_rights_init(&rights, 0);
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EXPECT_OK(cap_rights_get(conn_fd, &rights));
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EXPECT_RIGHTS_IN(&rights, &r_all);
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#endif
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// Wait for the child.
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int status;
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EXPECT_EQ(child, waitpid(child, &status, 0));
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int rc = WIFEXITED(status) ? WEXITSTATUS(status) : -1;
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EXPECT_EQ(0, rc);
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close(conn_fd);
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close(cap_sock_rw);
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close(cap_sock_all);
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}
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TEST(Socket, UDP) {
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int sock = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP);
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EXPECT_OK(sock);
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if (sock < 0) return;
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cap_rights_t r_rw;
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cap_rights_init(&r_rw, CAP_READ, CAP_WRITE);
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cap_rights_t r_all;
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cap_rights_init(&r_all, CAP_READ, CAP_WRITE, CAP_SOCK_CLIENT, CAP_SOCK_SERVER);
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cap_rights_t r_connect;
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cap_rights_init(&r_connect, CAP_READ, CAP_WRITE, CAP_CONNECT);
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int cap_sock_rw = dup(sock);
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EXPECT_OK(cap_sock_rw);
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EXPECT_OK(cap_rights_limit(cap_sock_rw, &r_rw));
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int cap_sock_all = dup(sock);
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EXPECT_OK(cap_sock_all);
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EXPECT_OK(cap_rights_limit(cap_sock_all, &r_all));
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close(sock);
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struct sockaddr_in addr;
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memset(&addr, 0, sizeof(addr));
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addr.sin_family = AF_INET;
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addr.sin_port = htons(0);
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addr.sin_addr.s_addr = htonl(INADDR_ANY);
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socklen_t len = sizeof(addr);
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// Can only bind the fully-capable socket.
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EXPECT_NOTCAPABLE(bind_(cap_sock_rw, (struct sockaddr *)&addr, len));
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EXPECT_OK(bind_(cap_sock_all, (struct sockaddr *)&addr, len));
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getsockname(cap_sock_all, (struct sockaddr *)&addr, &len);
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int port = ntohs(addr.sin_port);
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// Can only do socket operations on the fully-capable socket.
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len = sizeof(addr);
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EXPECT_NOTCAPABLE(getsockname(cap_sock_rw, (struct sockaddr*)&addr, &len));
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int value = 1;
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EXPECT_NOTCAPABLE(setsockopt(cap_sock_rw, SOL_SOCKET, SO_REUSEPORT, &value, sizeof(value)));
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len = sizeof(value);
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EXPECT_NOTCAPABLE(getsockopt(cap_sock_rw, SOL_SOCKET, SO_REUSEPORT, &value, &len));
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len = sizeof(addr);
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memset(&addr, 0, sizeof(addr));
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EXPECT_OK(getsockname(cap_sock_all, (struct sockaddr*)&addr, &len));
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EXPECT_EQ(AF_INET, addr.sin_family);
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EXPECT_EQ(htons(port), addr.sin_port);
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value = 1;
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EXPECT_OK(setsockopt(cap_sock_all, SOL_SOCKET, SO_REUSEPORT, &value, sizeof(value)));
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len = sizeof(value);
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EXPECT_OK(getsockopt(cap_sock_all, SOL_SOCKET, SO_REUSEPORT, &value, &len));
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pid_t child = fork();
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if (child == 0) {
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int sock = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP);
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EXPECT_OK(sock);
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int cap_sock_rw = dup(sock);
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EXPECT_OK(cap_sock_rw);
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EXPECT_OK(cap_rights_limit(cap_sock_rw, &r_rw));
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int cap_sock_connect = dup(sock);
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EXPECT_OK(cap_sock_connect);
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EXPECT_OK(cap_rights_limit(cap_sock_connect, &r_connect));
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close(sock);
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// Can only sendmsg(2) to an address over a socket with CAP_CONNECT.
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unsigned char buffer[256];
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struct iovec iov;
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memset(&iov, 0, sizeof(iov));
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iov.iov_base = buffer;
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iov.iov_len = sizeof(buffer);
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struct msghdr mh;
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memset(&mh, 0, sizeof(mh));
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mh.msg_iov = &iov;
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mh.msg_iovlen = 1;
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struct sockaddr_in addr;
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memset(&addr, 0, sizeof(addr));
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addr.sin_family = AF_INET;
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addr.sin_port = htons(port);
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addr.sin_addr.s_addr = inet_addr("127.0.0.1");
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mh.msg_name = &addr;
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mh.msg_namelen = sizeof(addr);
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EXPECT_NOTCAPABLE(sendmsg(cap_sock_rw, &mh, 0));
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EXPECT_OK(sendmsg(cap_sock_connect, &mh, 0));
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#ifdef HAVE_SEND_RECV_MMSG
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struct mmsghdr mv;
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memset(&mv, 0, sizeof(mv));
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memcpy(&mv.msg_hdr, &mh, sizeof(struct msghdr));
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EXPECT_NOTCAPABLE(sendmmsg(cap_sock_rw, &mv, 1, 0));
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EXPECT_OK(sendmmsg(cap_sock_connect, &mv, 1, 0));
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#endif
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close(cap_sock_rw);
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close(cap_sock_connect);
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exit(HasFailure());
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}
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// Wait for the child.
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int status;
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EXPECT_EQ(child, waitpid(child, &status, 0));
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int rc = WIFEXITED(status) ? WEXITSTATUS(status) : -1;
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EXPECT_EQ(0, rc);
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close(cap_sock_rw);
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close(cap_sock_all);
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}
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