/* SPDX-License-Identifier: GPL-2.0 */ /* * Lightweight buffered reading library. * * Copyright 2019 Google LLC. */ #ifndef __API_IO__ #define __API_IO__ #include #include #include #include #include #include struct io { /* File descriptor being read/ */ int fd; /* Size of the read buffer. */ unsigned int buf_len; /* Pointer to storage for buffering read. */ char *buf; /* End of the storage. */ char *end; /* Currently accessed data pointer. */ char *data; /* Read timeout, 0 implies no timeout. */ int timeout_ms; /* Set true on when the end of file on read error. */ bool eof; }; static inline void io__init(struct io *io, int fd, char *buf, unsigned int buf_len) { io->fd = fd; io->buf_len = buf_len; io->buf = buf; io->end = buf; io->data = buf; io->timeout_ms = 0; io->eof = false; } /* Read from fd filling the buffer. Called when io->data == io->end. */ static inline int io__fill_buffer(struct io *io) { ssize_t n; if (io->eof) return -1; if (io->timeout_ms != 0) { struct pollfd pfds[] = { { .fd = io->fd, .events = POLLIN, }, }; n = poll(pfds, 1, io->timeout_ms); if (n == 0) errno = ETIMEDOUT; if (n > 0 && !(pfds[0].revents & POLLIN)) { errno = EIO; n = -1; } if (n <= 0) { io->eof = true; return -1; } } n = read(io->fd, io->buf, io->buf_len); if (n <= 0) { io->eof = true; return -1; } io->data = &io->buf[0]; io->end = &io->buf[n]; return 0; } /* Reads one character from the "io" file with similar semantics to fgetc. */ static inline int io__get_char(struct io *io) { if (io->data == io->end) { int ret = io__fill_buffer(io); if (ret) return ret; } return *io->data++; } /* Read a hexadecimal value with no 0x prefix into the out argument hex. If the * first character isn't hexadecimal returns -2, io->eof returns -1, otherwise * returns the character after the hexadecimal value which may be -1 for eof. * If the read value is larger than a u64 the high-order bits will be dropped. */ static inline int io__get_hex(struct io *io, __u64 *hex) { bool first_read = true; *hex = 0; while (true) { int ch = io__get_char(io); if (ch < 0) return ch; if (ch >= '0' && ch <= '9') *hex = (*hex << 4) | (ch - '0'); else if (ch >= 'a' && ch <= 'f') *hex = (*hex << 4) | (ch - 'a' + 10); else if (ch >= 'A' && ch <= 'F') *hex = (*hex << 4) | (ch - 'A' + 10); else if (first_read) return -2; else return ch; first_read = false; } } /* Read a positive decimal value with out argument dec. If the first character * isn't a decimal returns -2, io->eof returns -1, otherwise returns the * character after the decimal value which may be -1 for eof. If the read value * is larger than a u64 the high-order bits will be dropped. */ static inline int io__get_dec(struct io *io, __u64 *dec) { bool first_read = true; *dec = 0; while (true) { int ch = io__get_char(io); if (ch < 0) return ch; if (ch >= '0' && ch <= '9') *dec = (*dec * 10) + ch - '0'; else if (first_read) return -2; else return ch; first_read = false; } } /* Read up to and including the first delim. */ static inline ssize_t io__getdelim(struct io *io, char **line_out, size_t *line_len_out, int delim) { char buf[128]; int buf_pos = 0; char *line = NULL, *temp; size_t line_len = 0; int ch = 0; /* TODO: reuse previously allocated memory. */ free(*line_out); while (ch != delim) { ch = io__get_char(io); if (ch < 0) break; if (buf_pos == sizeof(buf)) { temp = realloc(line, line_len + sizeof(buf)); if (!temp) goto err_out; line = temp; memcpy(&line[line_len], buf, sizeof(buf)); line_len += sizeof(buf); buf_pos = 0; } buf[buf_pos++] = (char)ch; } temp = realloc(line, line_len + buf_pos + 1); if (!temp) goto err_out; line = temp; memcpy(&line[line_len], buf, buf_pos); line[line_len + buf_pos] = '\0'; line_len += buf_pos; *line_out = line; *line_len_out = line_len; return line_len; err_out: free(line); *line_out = NULL; return -ENOMEM; } static inline ssize_t io__getline(struct io *io, char **line_out, size_t *line_len_out) { return io__getdelim(io, line_out, line_len_out, /*delim=*/'\n'); } #endif /* __API_IO__ */