diff --git a/libsysutils/src/NetlinkEvent.cpp b/libsysutils/src/NetlinkEvent.cpp index 3b6cfd830..515cc1047 100644 --- a/libsysutils/src/NetlinkEvent.cpp +++ b/libsysutils/src/NetlinkEvent.cpp @@ -31,14 +31,41 @@ #include #include #include +#include #include #include +#include + +#include +#include +#include + +using android::base::ParseInt; /* From kernel's net/netfilter/xt_quota2.c */ const int LOCAL_QLOG_NL_EVENT = 112; const int LOCAL_NFLOG_PACKET = NFNL_SUBSYS_ULOG << 8 | NFULNL_MSG_PACKET; -/* From deprecated ipt_ULOG.h to parse QLOG_NL_EVENT. */ +/****************************************************************************** + * WARNING: HERE BE DRAGONS! * + * * + * This is here to provide for compatibility with both 32 and 64-bit kernels * + * from 32-bit userspace. * + * * + * The kernel definition of this struct uses types (like long) that are not * + * the same across 32-bit and 64-bit builds, and there is no compatibility * + * layer to fix it up before it reaches userspace. * + * As such we need to detect the bit-ness of the kernel and deal with it. * + * * + ******************************************************************************/ + +/* + * This is the verbatim kernel declaration from net/netfilter/xt_quota2.c, + * it is *NOT* of a well defined layout and is included here for compile + * time assertions only. + * + * It got there from deprecated ipt_ULOG.h to parse QLOG_NL_EVENT. + */ #define ULOG_MAC_LEN 80 #define ULOG_PREFIX_LEN 32 typedef struct ulog_packet_msg { @@ -55,11 +82,117 @@ typedef struct ulog_packet_msg { unsigned char payload[0]; } ulog_packet_msg_t; -#include -#include -#include +// On Linux int is always 32 bits, while sizeof(long) == sizeof(void*), +// thus long on a 32-bit Linux kernel is 32-bits, like int always is +typedef int long32; +typedef unsigned int ulong32; +static_assert(sizeof(long32) == 4); +static_assert(sizeof(ulong32) == 4); -using android::base::ParseInt; +// Here's the same structure definition with the assumption the kernel +// is compiled for 32-bits. +typedef struct { + ulong32 mark; + long32 timestamp_sec; + long32 timestamp_usec; + unsigned int hook; + char indev_name[IFNAMSIZ]; + char outdev_name[IFNAMSIZ]; + ulong32 data_len; + char prefix[ULOG_PREFIX_LEN]; + unsigned char mac_len; + unsigned char mac[ULOG_MAC_LEN]; + unsigned char payload[0]; +} ulog_packet_msg32_t; + +// long on a 64-bit kernel is 64-bits with 64-bit alignment, +// while long long is 64-bit but may have 32-bit aligment. +typedef long long __attribute__((__aligned__(8))) long64; +typedef unsigned long long __attribute__((__aligned__(8))) ulong64; +static_assert(sizeof(long64) == 8); +static_assert(sizeof(ulong64) == 8); + +// Here's the same structure definition with the assumption the kernel +// is compiled for 64-bits. +typedef struct { + ulong64 mark; + long64 timestamp_sec; + long64 timestamp_usec; + unsigned int hook; + char indev_name[IFNAMSIZ]; + char outdev_name[IFNAMSIZ]; + ulong64 data_len; + char prefix[ULOG_PREFIX_LEN]; + unsigned char mac_len; + unsigned char mac[ULOG_MAC_LEN]; + unsigned char payload[0]; +} ulog_packet_msg64_t; + +// One expects the 32-bit version to be smaller than the 64-bit version. +static_assert(sizeof(ulog_packet_msg32_t) < sizeof(ulog_packet_msg64_t)); +// And either way the 'native' version should match either the 32 or 64 bit one. +static_assert(sizeof(ulog_packet_msg_t) == sizeof(ulog_packet_msg32_t) || + sizeof(ulog_packet_msg_t) == sizeof(ulog_packet_msg64_t)); + +// In practice these sizes are always simply (for both x86 and arm): +static_assert(sizeof(ulog_packet_msg32_t) == 168); +static_assert(sizeof(ulog_packet_msg64_t) == 192); + +// Figure out the bitness of userspace. +// Trivial and known at compile time. +static bool isUserspace64bit(void) { + return sizeof(long) == 8; +} + +// Figure out the bitness of the kernel. +static bool isKernel64Bit(void) { + // a 64-bit userspace requires a 64-bit kernel + if (isUserspace64bit()) return true; + + static bool init = false; + static bool cache = false; + if (init) return cache; + + // Retrieve current personality - on Linux this system call *cannot* fail. + int p = personality(0xffffffff); + // But if it does just assume kernel and userspace (which is 32-bit) match... + if (p == -1) return false; + + // This will effectively mask out the bottom 8 bits, and switch to 'native' + // personality, and then return the previous personality of this thread + // (likely PER_LINUX or PER_LINUX32) with any extra options unmodified. + int q = personality((p & ~PER_MASK) | PER_LINUX); + // Per man page this theoretically could error out with EINVAL, + // but kernel code analysis suggests setting PER_LINUX cannot fail. + // Either way, assume kernel and userspace (which is 32-bit) match... + if (q != p) return false; + + struct utsname u; + (void)uname(&u); // only possible failure is EFAULT, but u is on stack. + + // Switch back to previous personality. + // Theoretically could fail with EINVAL on arm64 with no 32-bit support, + // but then we wouldn't have fetched 'p' from the kernel in the first place. + // Either way there's nothing meaningul we can do in case of error. + // Since PER_LINUX32 vs PER_LINUX only affects uname.machine it doesn't + // really hurt us either. We're really just switching back to be 'clean'. + (void)personality(p); + + // Possible values of utsname.machine observed on x86_64 desktop (arm via qemu): + // x86_64 i686 aarch64 armv7l + // additionally observed on arm device: + // armv8l + // presumably also might just be possible: + // i386 i486 i586 + // and there might be other weird arm32 cases. + // We note that the 64 is present in both 64-bit archs, + // and in general is likely to be present in only 64-bit archs. + cache = !!strstr(u.machine, "64"); + init = true; + return cache; +} + +/******************************************************************************/ NetlinkEvent::NetlinkEvent() { mAction = Action::kUnknown; @@ -280,13 +413,22 @@ bool NetlinkEvent::parseIfAddrMessage(const struct nlmsghdr *nh) { * Parse a QLOG_NL_EVENT message. */ bool NetlinkEvent::parseUlogPacketMessage(const struct nlmsghdr *nh) { - const char *devname; - ulog_packet_msg_t *pm = (ulog_packet_msg_t *) NLMSG_DATA(nh); - if (!checkRtNetlinkLength(nh, sizeof(*pm))) - return false; + const char* alert; + const char* devname; - devname = pm->indev_name[0] ? pm->indev_name : pm->outdev_name; - asprintf(&mParams[0], "ALERT_NAME=%s", pm->prefix); + if (isKernel64Bit()) { + ulog_packet_msg64_t* pm64 = (ulog_packet_msg64_t*)NLMSG_DATA(nh); + if (!checkRtNetlinkLength(nh, sizeof(*pm64))) return false; + alert = pm64->prefix; + devname = pm64->indev_name[0] ? pm64->indev_name : pm64->outdev_name; + } else { + ulog_packet_msg32_t* pm32 = (ulog_packet_msg32_t*)NLMSG_DATA(nh); + if (!checkRtNetlinkLength(nh, sizeof(*pm32))) return false; + alert = pm32->prefix; + devname = pm32->indev_name[0] ? pm32->indev_name : pm32->outdev_name; + } + + asprintf(&mParams[0], "ALERT_NAME=%s", alert); asprintf(&mParams[1], "INTERFACE=%s", devname); mSubsystem = strdup("qlog"); mAction = Action::kChange;