On arm64 the TCR_EL1.TBI0 bit has been set since Linux 3.x hence the userspace (EL0) is allowed to set a non-zero value in the top byte but the resulting pointers are not allowed at the user-kernel syscall ABI boundary.
With the relaxed ABI proposed through this document, it is now possible to pass tagged pointers to the syscalls, when these pointers are in memory ranges obtained by an anonymous (MAP_ANONYMOUS) mmap() or brk().
This change in the ABI requires a mechanism to inform the userspace that such an option is available.
This patch specifies and documents the way on which AT_FLAGS can be used to advertise this feature to the userspace.
Cc: Catalin Marinas catalin.marinas@arm.com Cc: Will Deacon will.deacon@arm.com CC: Andrey Konovalov andreyknvl@google.com Signed-off-by: Vincenzo Frascino vincenzo.frascino@arm.com --- Documentation/arm64/elf_at_flags.txt | 111 +++++++++++++++++++++++++++ 1 file changed, 111 insertions(+) create mode 100644 Documentation/arm64/elf_at_flags.txt
diff --git a/Documentation/arm64/elf_at_flags.txt b/Documentation/arm64/elf_at_flags.txt new file mode 100644 index 000000000000..153e657c058a --- /dev/null +++ b/Documentation/arm64/elf_at_flags.txt @@ -0,0 +1,111 @@ +ARM64 ELF AT_FLAGS +================== + +This document describes the usage and semantics of AT_FLAGS on arm64. + +1. Introduction +--------------- + +AT_FLAGS is part of the Auxiliary Vector, contains the flags and it +is currently set to zero by the kernel on arm64. + +The auxiliary vector can be accessed by the userspace using the +getauxval() API provided by the C library. +getauxval() returns an unsigned long and when a flag is present in +the AT_FLAGS, the corresponding bit in the returned value is set to 1. + +The AT_FLAGS with a "defined semantic" on arm64 are exposed to the +userspace via user API (uapi/asm/atflags.h). +The AT_FLAGS bits with "undefined semantics" are set to zero by default. +This means that the AT_FLAGS bits to which this document does not assign +an explicit meaning are to be intended reserved for future use. +The kernel will populate all such bits with zero until meanings are +assigned to them. If and when meanings are assigned, it is guaranteed +that they will not impact the functional operation of existing userspace +software. Userspace software should ignore any AT_FLAGS bit whose meaning +is not defined when the software is written. + +The userspace software can test for features by acquiring the AT_FLAGS +entry of the auxiliary vector, and testing whether a relevant flag +is set. + +Example of a userspace test function: + +bool feature_x_is_present(void) +{ + unsigned long at_flags = getauxval(AT_FLAGS); + if (at_flags & FEATURE_X) + return true; + + return false; +} + +Where the software relies on a feature advertised by AT_FLAGS, it +should check that the feature is present before attempting to +use it. + +2. Features exposed via AT_FLAGS +-------------------------------- + +bit[0]: ARM64_AT_FLAGS_SYSCALL_TBI + + On arm64 the TCR_EL1.TBI0 bit has been set since Linux 3.x hence + the userspace (EL0) is allowed to set a non-zero value in the top + byte but the resulting pointers are not allowed at the user-kernel + syscall ABI boundary. + When bit[0] is set to 1 the kernel is advertising to the userspace + that a relaxed ABI is supported hence this type of pointers are now + allowed to be passed to the syscalls, when these pointers are in + memory ranges obtained by anonymous (MAP_ANONYMOUS) mmap() or brk(). + In these cases the tag is preserved as the pointer goes through the + kernel. Only when the kernel needs to check if a pointer is coming + from userspace (i.e. access_ok()) an untag operation is required. + +3. ARM64_AT_FLAGS_SYSCALL_TBI +----------------------------- + +When ARM64_AT_FLAGS_SYSCALL_TBI is enabled every syscalls can accept tagged +pointers, when these pointers are in memory ranges obtained by an anonymous +(MAP_ANONYMOUS) mmap() or brk(). + +A definition of the meaning of tagged pointers on arm64 can be found in: +Documentation/arm64/tagged-pointers.txt. + +When a pointer does not are in a memory range obtained by an anonymous mmap() +or brk(), this can not be passed to a syscall if it is tagged. + +To be more explicit: a syscall can accept pointers whose memory range is +obtained by a non-anonymous mmap() or brk() if and only if the tag encoded in +the top-byte is 0x00. + +When a new syscall is added, this can accept tagged pointers if and only if +these pointers are in memory ranges obtained by an anonymous (MAP_ANONYMOUS) +mmap() or brk(). In all the other cases, the tag encoded in the top-byte is +expected to be 0x00. + +Example of correct usage (pseudo-code) for a userspace application: + +bool arm64_syscall_tbi_is_present(void) +{ + unsigned long at_flags = getauxval(AT_FLAGS); + if (at_flags & ARM64_AT_FLAGS_SYSCALL_TBI) + return true; + + return false; +} + +void main(void) +{ + char *addr = mmap(NULL, PAGE_SIZE, PROT_READ | PROT_WRITE, + MAP_ANONYMOUS, -1, 0); + + /* Check if the relaxed ABI is supported */ + if (arm64_syscall_tbi_is_present()) { + /* Add a tag to the pointer and to the memory */ + addr = tag_pointer_and_memory(addr); + } + + /* Write to memory */ + strcpy("Hello World\n", addr); +} +