diff options
author | Ian Moffett <ian@osmora.org> | 2024-03-07 17:28:00 -0500 |
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committer | Ian Moffett <ian@osmora.org> | 2024-03-07 17:28:32 -0500 |
commit | bd5969fc876a10b18613302db7087ef3c40f18e1 (patch) | |
tree | 7c2b8619afe902abf99570df2873fbdf40a4d1a1 /lib/mlibc/sysdeps/managarm/rtdl-generic | |
parent | a95b38b1b92b172e6cc4e8e56a88a30cc65907b0 (diff) |
lib: Add mlibc
Signed-off-by: Ian Moffett <ian@osmora.org>
Diffstat (limited to 'lib/mlibc/sysdeps/managarm/rtdl-generic')
-rw-r--r-- | lib/mlibc/sysdeps/managarm/rtdl-generic/support.cpp | 444 |
1 files changed, 444 insertions, 0 deletions
diff --git a/lib/mlibc/sysdeps/managarm/rtdl-generic/support.cpp b/lib/mlibc/sysdeps/managarm/rtdl-generic/support.cpp new file mode 100644 index 0000000..ee8ecbb --- /dev/null +++ b/lib/mlibc/sysdeps/managarm/rtdl-generic/support.cpp @@ -0,0 +1,444 @@ +#include <fcntl.h> +#include <stdint.h> +#include <string.h> +#include <cstddef> + +#include <frg/manual_box.hpp> +#include <frg/string.hpp> +#include <hel.h> +#include <hel-syscalls.h> + +#include <mlibc/allocator.hpp> +#include <mlibc/all-sysdeps.hpp> +#include <posix.frigg_bragi.hpp> +#include <fs.frigg_bragi.hpp> + +#include <protocols/posix/data.hpp> +#include <protocols/posix/supercalls.hpp> + +// -------------------------------------------------------- +// POSIX I/O functions. +// -------------------------------------------------------- + +HelHandle posixLane; +HelHandle *fileTable; + +void cacheFileTable() { + if(fileTable) + return; + + posix::ManagarmProcessData data; + HEL_CHECK(helSyscall1(kHelCallSuper + posix::superGetProcessData, reinterpret_cast<HelWord>(&data))); + posixLane = data.posixLane; + fileTable = data.fileTable; +} + +template<typename T> +T load(void *ptr) { + T result; + memcpy(&result, ptr, sizeof(T)); + return result; +} + +// This Queue implementation is more simplistic than the ones in mlibc and helix. +// In fact, we only manage a single chunk; this minimizes the memory usage of the queue. +struct Queue { + Queue() + : _handle{kHelNullHandle}, _lastProgress(0) { + HelQueueParameters params { + .flags = 0, + .ringShift = 0, + .numChunks = 1, + .chunkSize = 4096 + }; + HEL_CHECK(helCreateQueue(¶ms, &_handle)); + + auto chunksOffset = (sizeof(HelQueue) + (sizeof(int) << 0) + 63) & ~size_t(63); + auto reservedPerChunk = (sizeof(HelChunk) + params.chunkSize + 63) & ~size_t(63); + auto overallSize = chunksOffset + params.numChunks * reservedPerChunk; + + void *mapping; + HEL_CHECK(helMapMemory(_handle, kHelNullHandle, nullptr, + 0, (overallSize + 0xFFF) & ~size_t(0xFFF), + kHelMapProtRead | kHelMapProtWrite, &mapping)); + + _queue = reinterpret_cast<HelQueue *>(mapping); + _chunk = reinterpret_cast<HelChunk *>( + reinterpret_cast<std::byte *>(mapping) + chunksOffset); + + // Reset and enqueue the first chunk. + _chunk->progressFutex = 0; + + _queue->indexQueue[0] = 0; + _queue->headFutex = 1; + _nextIndex = 1; + _wakeHeadFutex(); + } + + Queue(const Queue &) = delete; + + Queue &operator= (const Queue &) = delete; + + HelHandle getHandle() { + return _handle; + } + + void *dequeueSingle() { + while(true) { + bool done; + _waitProgressFutex(&done); + if(done) { + // Reset and enqueue the chunk again. + _chunk->progressFutex = 0; + + _queue->indexQueue[0] = 0; + _nextIndex = ((_nextIndex + 1) & kHelHeadMask); + _wakeHeadFutex(); + + _lastProgress = 0; + continue; + } + + // Dequeue the next element. + auto ptr = (char *)_chunk + sizeof(HelChunk) + _lastProgress; + auto element = load<HelElement>(ptr); + _lastProgress += sizeof(HelElement) + element.length; + return ptr + sizeof(HelElement); + } + } + +private: + void _wakeHeadFutex() { + auto futex = __atomic_exchange_n(&_queue->headFutex, _nextIndex, __ATOMIC_RELEASE); + if(futex & kHelHeadWaiters) + HEL_CHECK(helFutexWake(&_queue->headFutex)); + } + + void _waitProgressFutex(bool *done) { + while(true) { + auto futex = __atomic_load_n(&_chunk->progressFutex, __ATOMIC_ACQUIRE); + __ensure(!(futex & ~(kHelProgressMask | kHelProgressWaiters | kHelProgressDone))); + do { + if(_lastProgress != (futex & kHelProgressMask)) { + *done = false; + return; + }else if(futex & kHelProgressDone) { + *done = true; + return; + } + + if(futex & kHelProgressWaiters) + break; // Waiters bit is already set (in a previous iteration). + } while(!__atomic_compare_exchange_n(&_chunk->progressFutex, &futex, + _lastProgress | kHelProgressWaiters, + false, __ATOMIC_ACQUIRE, __ATOMIC_ACQUIRE)); + + HEL_CHECK(helFutexWait(&_chunk->progressFutex, + _lastProgress | kHelProgressWaiters, -1)); + } + } + +private: + HelHandle _handle; + HelQueue *_queue; + HelChunk *_chunk; + int _nextIndex; + int _lastProgress; +}; + +frg::manual_box<Queue> globalQueue; + +HelSimpleResult *parseSimple(void *&element) { + auto result = reinterpret_cast<HelSimpleResult *>(element); + element = (char *)element + sizeof(HelSimpleResult); + return result; +} + +HelInlineResult *parseInline(void *&element) { + auto result = reinterpret_cast<HelInlineResult *>(element); + element = (char *)element + sizeof(HelInlineResult) + + ((result->length + 7) & ~size_t(7)); + return result; +} + +HelLengthResult *parseLength(void *&element) { + auto result = reinterpret_cast<HelLengthResult *>(element); + element = (char *)element + sizeof(HelLengthResult); + return result; +} + +HelHandleResult *parseHandle(void *&element) { + auto result = reinterpret_cast<HelHandleResult *>(element); + element = (char *)element + sizeof(HelHandleResult); + return result; +} + +namespace mlibc { + +int sys_tcb_set(void *pointer) { +#if defined(__aarch64__) + asm volatile ("msr tpidr_el0, %0" :: "r"(pointer)); +#else + HEL_CHECK(helWriteFsBase(pointer)); +#endif + return 0; +} + +int sys_open(const char *path, int flags, mode_t mode, int *fd) { + cacheFileTable(); + HelAction actions[4]; + + managarm::posix::OpenAtRequest<MemoryAllocator> req(getAllocator()); + req.set_fd(AT_FDCWD); + req.set_flags(flags); + req.set_mode(mode); + req.set_path(frg::string<MemoryAllocator>(getAllocator(), path)); + + if(!globalQueue.valid()) + globalQueue.initialize(); + + frg::string<MemoryAllocator> head(getAllocator()); + frg::string<MemoryAllocator> tail(getAllocator()); + head.resize(req.size_of_head()); + tail.resize(req.size_of_tail()); + bragi::limited_writer headWriter{head.data(), head.size()}; + bragi::limited_writer tailWriter{tail.data(), tail.size()}; + auto headOk = req.encode_head(headWriter); + auto tailOk = req.encode_tail(tailWriter); + __ensure(headOk); + __ensure(tailOk); + + actions[0].type = kHelActionOffer; + actions[0].flags = kHelItemAncillary; + actions[1].type = kHelActionSendFromBuffer; + actions[1].flags = kHelItemChain; + actions[1].buffer = head.data(); + actions[1].length = head.size(); + actions[2].type = kHelActionSendFromBuffer; + actions[2].flags = kHelItemChain; + actions[2].buffer = tail.data(); + actions[2].length = tail.size(); + actions[3].type = kHelActionRecvInline; + actions[3].flags = 0; + HEL_CHECK(helSubmitAsync(posixLane, actions, 4, globalQueue->getHandle(), 0, 0)); + + auto element = globalQueue->dequeueSingle(); + auto offer = parseHandle(element); + auto send_head = parseSimple(element); + auto send_tail = parseSimple(element); + auto recv_resp = parseInline(element); + HEL_CHECK(offer->error); + HEL_CHECK(send_head->error); + HEL_CHECK(send_tail->error); + HEL_CHECK(recv_resp->error); + + managarm::posix::SvrResponse<MemoryAllocator> resp(getAllocator()); + resp.ParseFromArray(recv_resp->data, recv_resp->length); + + if(resp.error() == managarm::posix::Errors::FILE_NOT_FOUND) + return -1; + __ensure(resp.error() == managarm::posix::Errors::SUCCESS); + *fd = resp.fd(); + return 0; +} + +int sys_seek(int fd, off_t offset, int whence, off_t *new_offset) { + __ensure(whence == SEEK_SET); + + cacheFileTable(); + auto lane = fileTable[fd]; + HelAction actions[3]; + + managarm::fs::CntRequest<MemoryAllocator> req(getAllocator()); + req.set_req_type(managarm::fs::CntReqType::SEEK_ABS); + req.set_rel_offset(offset); + + if(!globalQueue.valid()) + globalQueue.initialize(); + + frg::string<MemoryAllocator> ser(getAllocator()); + req.SerializeToString(&ser); + actions[0].type = kHelActionOffer; + actions[0].flags = kHelItemAncillary; + actions[1].type = kHelActionSendFromBuffer; + actions[1].flags = kHelItemChain; + actions[1].buffer = ser.data(); + actions[1].length = ser.size(); + actions[2].type = kHelActionRecvInline; + actions[2].flags = 0; + HEL_CHECK(helSubmitAsync(lane, actions, 3, globalQueue->getHandle(), 0, 0)); + + auto element = globalQueue->dequeueSingle(); + auto offer = parseHandle(element); + auto send_req = parseSimple(element); + auto recv_resp = parseInline(element); + HEL_CHECK(offer->error); + HEL_CHECK(send_req->error); + HEL_CHECK(recv_resp->error); + + managarm::fs::SvrResponse<MemoryAllocator> resp(getAllocator()); + resp.ParseFromArray(recv_resp->data, recv_resp->length); + __ensure(resp.error() == managarm::fs::Errors::SUCCESS); + *new_offset = offset; + return 0; +} + +int sys_read(int fd, void *data, size_t length, ssize_t *bytes_read) { + cacheFileTable(); + auto lane = fileTable[fd]; + HelAction actions[5]; + + managarm::fs::CntRequest<MemoryAllocator> req(getAllocator()); + req.set_req_type(managarm::fs::CntReqType::READ); + req.set_size(length); + + if(!globalQueue.valid()) + globalQueue.initialize(); + + frg::string<MemoryAllocator> ser(getAllocator()); + req.SerializeToString(&ser); + actions[0].type = kHelActionOffer; + actions[0].flags = kHelItemAncillary; + actions[1].type = kHelActionSendFromBuffer; + actions[1].flags = kHelItemChain; + actions[1].buffer = ser.data(); + actions[1].length = ser.size(); + actions[2].type = kHelActionImbueCredentials; + actions[2].handle = kHelThisThread; + actions[2].flags = kHelItemChain; + actions[3].type = kHelActionRecvInline; + actions[3].flags = kHelItemChain; + actions[4].type = kHelActionRecvToBuffer; + actions[4].flags = 0; + actions[4].buffer = data; + actions[4].length = length; + HEL_CHECK(helSubmitAsync(lane, actions, 5, globalQueue->getHandle(), 0, 0)); + + auto element = globalQueue->dequeueSingle(); + auto offer = parseHandle(element); + auto send_req = parseSimple(element); + auto imbue_creds = parseSimple(element); + auto recv_resp = parseInline(element); + auto recv_data = parseLength(element); + HEL_CHECK(offer->error); + HEL_CHECK(send_req->error); + HEL_CHECK(imbue_creds->error); + HEL_CHECK(recv_resp->error); + HEL_CHECK(recv_data->error); + + managarm::fs::SvrResponse<MemoryAllocator> resp(getAllocator()); + resp.ParseFromArray(recv_resp->data, recv_resp->length); + __ensure(resp.error() == managarm::fs::Errors::SUCCESS); + *bytes_read = recv_data->length; + return 0; +} + +int sys_vm_map(void *hint, size_t size, int prot, int flags, int fd, off_t offset, void **window) { + cacheFileTable(); + HelAction actions[3]; + + managarm::posix::VmMapRequest<MemoryAllocator> req(getAllocator()); + req.set_address_hint(reinterpret_cast<uintptr_t>(hint)); + req.set_size(size); + req.set_mode(prot); + req.set_flags(flags); + req.set_fd(fd); + req.set_rel_offset(offset); + + if(!globalQueue.valid()) + globalQueue.initialize(); + + frg::string<MemoryAllocator> ser(getAllocator()); + req.SerializeToString(&ser); + actions[0].type = kHelActionOffer; + actions[0].flags = kHelItemAncillary; + actions[1].type = kHelActionSendFromBuffer; + actions[1].flags = kHelItemChain; + actions[1].buffer = ser.data(); + actions[1].length = ser.size(); + actions[2].type = kHelActionRecvInline; + actions[2].flags = 0; + HEL_CHECK(helSubmitAsync(posixLane, actions, 3, + globalQueue->getHandle(), 0, 0)); + + auto element = globalQueue->dequeueSingle(); + auto offer = parseHandle(element); + auto send_req = parseSimple(element); + auto recv_resp = parseInline(element); + + HEL_CHECK(offer->error); + HEL_CHECK(send_req->error); + HEL_CHECK(recv_resp->error); + + managarm::posix::SvrResponse<MemoryAllocator> resp(getAllocator()); + resp.ParseFromArray(recv_resp->data, recv_resp->length); + __ensure(resp.error() == managarm::posix::Errors::SUCCESS); + *window = reinterpret_cast<void *>(resp.offset()); + return 0; +} + +int sys_close(int fd) { + cacheFileTable(); + HelAction actions[3]; + + managarm::posix::CloseRequest<MemoryAllocator> req(getAllocator()); + req.set_fd(fd); + + if(!globalQueue.valid()) + globalQueue.initialize(); + + frg::string<MemoryAllocator> ser(getAllocator()); + req.SerializeToString(&ser); + actions[0].type = kHelActionOffer; + actions[0].flags = kHelItemAncillary; + actions[1].type = kHelActionSendFromBuffer; + actions[1].flags = kHelItemChain; + actions[1].buffer = ser.data(); + actions[1].length = ser.size(); + actions[2].type = kHelActionRecvInline; + actions[2].flags = 0; + HEL_CHECK(helSubmitAsync(posixLane, actions, 3, globalQueue->getHandle(), 0, 0)); + + auto element = globalQueue->dequeueSingle(); + auto offer = parseHandle(element); + auto send_req = parseSimple(element); + auto recv_resp = parseInline(element); + HEL_CHECK(offer->error); + HEL_CHECK(send_req->error); + HEL_CHECK(recv_resp->error); + + managarm::posix::SvrResponse<MemoryAllocator> resp(getAllocator()); + resp.ParseFromArray(recv_resp->data, recv_resp->length); + __ensure(resp.error() == managarm::posix::Errors::SUCCESS); + return 0; +} + +int sys_futex_tid() { + HelWord tid = 0; + HEL_CHECK(helSyscall0_1(kHelCallSuper + posix::superGetTid, + &tid)); + + return tid; +} + +int sys_futex_wait(int *pointer, int expected, const struct timespec *time) { + // This implementation is inherently signal-safe. + if(time) { + if(helFutexWait(pointer, expected, time->tv_nsec + time->tv_sec * 1000000000)) + return -1; + return 0; + } + if(helFutexWait(pointer, expected, -1)) + return -1; + return 0; +} + +int sys_futex_wake(int *pointer) { + // This implementation is inherently signal-safe. + if(helFutexWake(pointer)) + return -1; + return 0; +} + + +} // namespace mlibc |