/* * * buffer.c * * Author: Tatu Ylonen * * Copyright (c) 1995 Tatu Ylonen , Espoo, Finland * All rights reserved * * Created: Sat Mar 18 04:15:33 1995 ylo * * Functions for manipulating fifo buffers (that can grow if needed). * */ #include "includes.h" RCSID("$Id: buffer.c,v 1.5 2000/04/12 10:22:38 markus Exp $"); #include "xmalloc.h" #include "buffer.h" #include "ssh.h" /* Initializes the buffer structure. */ void buffer_init(Buffer *buffer) { buffer->alloc = 4096; buffer->buf = xmalloc(buffer->alloc); buffer->offset = 0; buffer->end = 0; } /* Frees any memory used for the buffer. */ void buffer_free(Buffer *buffer) { memset(buffer->buf, 0, buffer->alloc); xfree(buffer->buf); } /* * Clears any data from the buffer, making it empty. This does not actually * zero the memory. */ void buffer_clear(Buffer *buffer) { buffer->offset = 0; buffer->end = 0; } /* Appends data to the buffer, expanding it if necessary. */ void buffer_append(Buffer *buffer, const char *data, unsigned int len) { char *cp; buffer_append_space(buffer, &cp, len); memcpy(cp, data, len); } /* * Appends space to the buffer, expanding the buffer if necessary. This does * not actually copy the data into the buffer, but instead returns a pointer * to the allocated region. */ void buffer_append_space(Buffer *buffer, char **datap, unsigned int len) { /* If the buffer is empty, start using it from the beginning. */ if (buffer->offset == buffer->end) { buffer->offset = 0; buffer->end = 0; } restart: /* If there is enough space to store all data, store it now. */ if (buffer->end + len < buffer->alloc) { *datap = buffer->buf + buffer->end; buffer->end += len; return; } /* * If the buffer is quite empty, but all data is at the end, move the * data to the beginning and retry. */ if (buffer->offset > buffer->alloc / 2) { memmove(buffer->buf, buffer->buf + buffer->offset, buffer->end - buffer->offset); buffer->end -= buffer->offset; buffer->offset = 0; goto restart; } /* Increase the size of the buffer and retry. */ buffer->alloc += len + 32768; buffer->buf = xrealloc(buffer->buf, buffer->alloc); goto restart; } /* Returns the number of bytes of data in the buffer. */ unsigned int buffer_len(Buffer *buffer) { return buffer->end - buffer->offset; } /* Gets data from the beginning of the buffer. */ void buffer_get(Buffer *buffer, char *buf, unsigned int len) { if (len > buffer->end - buffer->offset) fatal("buffer_get: trying to get more bytes than in buffer"); memcpy(buf, buffer->buf + buffer->offset, len); buffer->offset += len; } /* Consumes the given number of bytes from the beginning of the buffer. */ void buffer_consume(Buffer *buffer, unsigned int bytes) { if (bytes > buffer->end - buffer->offset) fatal("buffer_consume: trying to get more bytes than in buffer"); buffer->offset += bytes; } /* Consumes the given number of bytes from the end of the buffer. */ void buffer_consume_end(Buffer *buffer, unsigned int bytes) { if (bytes > buffer->end - buffer->offset) fatal("buffer_consume_end: trying to get more bytes than in buffer"); buffer->end -= bytes; } /* Returns a pointer to the first used byte in the buffer. */ char * buffer_ptr(Buffer *buffer) { return buffer->buf + buffer->offset; } /* Dumps the contents of the buffer to stderr. */ void buffer_dump(Buffer *buffer) { int i; unsigned char *ucp = (unsigned char *) buffer->buf; for (i = buffer->offset; i < buffer->end; i++) fprintf(stderr, " %02x", ucp[i]); fprintf(stderr, "\n"); }