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204 lines
6.3 KiB
C++

// -*- mode: c++; c-basic-offset: 2; indent-tabs-mode: nil; -*-
#include "content-streamer.h"
#include "led-matrix.h"
#include <fcntl.h>
#include <stdio.h>
#include <string.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <unistd.h>
#include <algorithm>
#include "gpio-bits.h"
namespace rgb_matrix {
// Pre-c++11 helper
#define STATIC_ASSERT(msg, c) typedef int static_assert_##msg[(c) ? 1 : -1]
namespace {
// We write magic values as integers to automatically detect endian issues.
// Streams are stored in little-endian. This is the ARM default (running
// the Raspberry Pi, but also x86; so it is possible to create streams easily
// on a different x86 Linux PC.
static const uint32_t kFileMagicValue = 0xED0C5A48;
struct FileHeader {
uint32_t magic; // kFileMagicValue
uint32_t buf_size;
uint32_t width;
uint32_t height;
uint64_t future_use1;
uint64_t is_wide_gpio : 1;
uint64_t flags_future_use : 63;
};
STATIC_ASSERT(file_header_size_changed, sizeof(FileHeader) == 32);
static const uint32_t kFrameMagicValue = 0x12345678;
struct FrameHeader {
uint32_t magic; // kFrameMagic
uint32_t size;
uint32_t hold_time_us; // How long this frame lasts in usec.
uint32_t future_use1;
uint64_t future_use2;
uint64_t future_use3;
};
STATIC_ASSERT(file_header_size_changed, sizeof(FrameHeader) == 32);
}
FileStreamIO::FileStreamIO(int fd) : fd_(fd) {
posix_fadvise(fd_, 0, 0, POSIX_FADV_SEQUENTIAL);
}
FileStreamIO::~FileStreamIO() { close(fd_); }
void FileStreamIO::Rewind() { lseek(fd_, 0, SEEK_SET); }
ssize_t FileStreamIO::Read(void *buf, const size_t count) {
return read(fd_, buf, count);
}
ssize_t FileStreamIO::Append(const void *buf, const size_t count) {
return write(fd_, buf, count);
}
void MemStreamIO::Rewind() { pos_ = 0; }
ssize_t MemStreamIO::Read(void *buf, size_t count) {
const size_t amount = std::min(count, buffer_.size() - pos_);
memcpy(buf, buffer_.data() + pos_, amount);
pos_ += amount;
return amount;
}
ssize_t MemStreamIO::Append(const void *buf, size_t count) {
buffer_.append((const char*)buf, count);
return count;
}
// Read exactly count bytes including retries. Returns success.
static bool FullRead(StreamIO *io, void *buf, const size_t count) {
int remaining = count;
char *char_buffer = (char*)buf;
while (remaining > 0) {
int r = io->Read(char_buffer, remaining);
if (r < 0) return false;
if (r == 0) break; // EOF.
char_buffer += r; remaining -= r;
}
return remaining == 0;
}
// Write exactly count bytes including retries. Returns success.
static bool FullAppend(StreamIO *io, const void *buf, const size_t count) {
int remaining = count;
const char *char_buffer = (const char*) buf;
while (remaining > 0) {
int w = io->Append(char_buffer, remaining);
if (w < 0) return false;
char_buffer += w; remaining -= w;
}
return remaining == 0;
}
StreamWriter::StreamWriter(StreamIO *io) : io_(io), header_written_(false) {}
bool StreamWriter::Stream(const FrameCanvas &frame, uint32_t hold_time_us) {
const char *data;
size_t len;
frame.Serialize(&data, &len);
if (!header_written_) {
WriteFileHeader(frame, len);
}
FrameHeader h = {};
h.magic = kFrameMagicValue;
h.size = len;
h.hold_time_us = hold_time_us;
FullAppend(io_, &h, sizeof(h));
return FullAppend(io_, data, len) == (ssize_t)len;
}
void StreamWriter::WriteFileHeader(const FrameCanvas &frame, size_t len) {
FileHeader header = {};
header.magic = kFileMagicValue;
header.width = frame.width();
header.height = frame.height();
header.buf_size = len;
header.is_wide_gpio = (sizeof(gpio_bits_t) > 4);
FullAppend(io_, &header, sizeof(header));
header_written_ = true;
}
StreamReader::StreamReader(StreamIO *io)
: io_(io), state_(STREAM_AT_BEGIN), header_frame_buffer_(NULL) {
io_->Rewind();
}
StreamReader::~StreamReader() { delete [] header_frame_buffer_; }
void StreamReader::Rewind() {
io_->Rewind();
state_ = STREAM_AT_BEGIN;
}
bool StreamReader::GetNext(FrameCanvas *frame, uint32_t* hold_time_us) {
if (state_ == STREAM_AT_BEGIN && !ReadFileHeader(*frame)) return false;
if (state_ != STREAM_READING) return false;
// Read header and expected buffer size.
if (!FullRead(io_, header_frame_buffer_,
sizeof(FrameHeader) + frame_buf_size_)) {
return false;
}
const FrameHeader &h = *reinterpret_cast<FrameHeader*>(header_frame_buffer_);
// TODO: we might allow for this to be a kFileMagicValue, to allow people
// to just concatenate streams. In that case, we just would need to read
// ahead past this header (both headers are designed to be same size)
if (h.magic != kFrameMagicValue) {
state_ = STREAM_ERROR;
return false;
}
// In the future, we might allow larger buffers (audio?), but never smaller.
// For now, we need to make sure to exactly match the size, as our assumption
// above is that we can read the full header + frame in one FullRead().
if (h.size != frame_buf_size_)
return false;
if (hold_time_us) *hold_time_us = h.hold_time_us;
return frame->Deserialize(header_frame_buffer_ + sizeof(FrameHeader),
frame_buf_size_);
}
bool StreamReader::ReadFileHeader(const FrameCanvas &frame) {
FileHeader header;
FullRead(io_, &header, sizeof(header));
if (header.magic != kFileMagicValue) {
state_ = STREAM_ERROR;
return false;
}
if ((int)header.width != frame.width()
|| (int)header.height != frame.height()) {
fprintf(stderr, "This stream is for %dx%d, can't play on %dx%d. "
"Please use the same settings for record/replay\n",
header.width, header.height, frame.width(), frame.height());
state_ = STREAM_ERROR;
return false;
}
if (header.is_wide_gpio != (sizeof(gpio_bits_t) == 8)) {
fprintf(stderr, "This stream was written with %s GPIO width support but "
"this library is compiled with %d bit GPIO width (see "
"ENABLE_WIDE_GPIO_COMPUTE_MODULE setting in lib/Makefile)\n",
header.is_wide_gpio ? "wide (64-bit)" : "narrow (32-bit)",
int(sizeof(gpio_bits_t) * 8));
state_ = STREAM_ERROR;
return false;
}
state_ = STREAM_READING;
frame_buf_size_ = header.buf_size;
if (!header_frame_buffer_)
header_frame_buffer_ = new char [ sizeof(FrameHeader) + header.buf_size ];
return true;
}
} // namespace rgb_matrix