/* * Spdylay - SPDY Library * * Copyright (c) 2012 Tatsuhiro Tsujikawa * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE * LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION * OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include "spdylay_frame.h" #include #include #include #include #include "spdylay_helper.h" static uint8_t spdylay_unpack_pri(const uint8_t *data) { return (data[0] >> 6) & 0x3; } static uint8_t* spdylay_pack_str(uint8_t *buf, const char *str, size_t len) { spdylay_put_uint16be(buf, len); buf += 2; memcpy(buf, str, len); return buf+len; } static void spdylay_frame_pack_ctrl_hd(uint8_t* buf, const spdylay_ctrl_hd *hd) { spdylay_put_uint16be(&buf[0], hd->version); buf[0] |= 1 << 7; spdylay_put_uint16be(&buf[2], hd->type); spdylay_put_uint32be(&buf[4], hd->length); printf("hd->length=%d\n", hd->length); buf[4] = hd->flags; printf("hd->flags=%d\n", hd->flags); } static void spdylay_frame_unpack_ctrl_hd(spdylay_ctrl_hd *hd, const uint8_t* buf) { hd->version = spdylay_get_uint16(buf) & SPDYLAY_VERSION_MASK; hd->type = spdylay_get_uint16(buf+2); hd->flags = buf[4]; hd->length = spdylay_get_uint32(buf+5) & SPDYLAY_LENGTH_MASK; } static ssize_t spdylay_frame_alloc_pack_nv(uint8_t **buf_ptr, char **nv, size_t nv_offset, spdylay_zlib *deflater) { size_t nvbuflen = spdylay_frame_count_nv_space(nv); uint8_t *nvbuf = malloc(nvbuflen); size_t maxframelen = nv_offset+ spdylay_zlib_deflate_hd_bound(deflater, nvbuflen); uint8_t *framebuf = malloc(maxframelen); ssize_t framelen; spdylay_frame_pack_nv(nvbuf, nv); framelen = spdylay_zlib_deflate_hd(deflater, framebuf+nv_offset, maxframelen-nv_offset, nvbuf, nvbuflen); free(nvbuf); if(framelen < 0) { free(framebuf); return framelen; } framelen += nv_offset; *buf_ptr = framebuf; return framelen; } int spdylay_frame_unpack_nv(char ***nv_ptr, const uint8_t *in, size_t inlen) { int r = 0; uint16_t n; size_t off; size_t nv_max = 126; int i, j, k; char *name = NULL, *val = NULL; if(inlen < 2) { return SPDYLAY_ERR_PROTO; } memcpy(&n, in, sizeof(uint16_t)); n = ntohs(n); if(n > nv_max) { nv_max = n; } *nv_ptr = malloc(nv_max*sizeof(char*)+1); if(*nv_ptr == NULL) { return SPDYLAY_ERR_NOMEM; } off = 2; for(i = 0, j = 0; i < n; ++i) { uint16_t nlen, vlen; size_t last, len; if(off+2 > inlen) { r = SPDYLAY_ERR_PROTO; break; } /* For NULL delimited values, they are splitted with each name */ memcpy(&nlen, &in[off], sizeof(uint16_t)); nlen = ntohs(nlen); off += 2; if(off+nlen > inlen || nlen == 0) { r = SPDYLAY_ERR_PROTO; break; } name = malloc(nlen+1); if(name == NULL) { r = SPDYLAY_ERR_NOMEM; break; } memcpy(name, &in[off], nlen); name[nlen] = '\0'; off += nlen; if(off+2 > inlen) { r = SPDYLAY_ERR_PROTO; break; } memcpy(&vlen, &in[off], sizeof(uint16_t)); vlen = ntohs(vlen); off += 2; if(off+vlen > inlen) { r = SPDYLAY_ERR_PROTO; break; } for(k = 0, last = off; k < vlen; ++k) { size_t len; if(in[off+k] == '\0') { len = off+k-last; if(len == 0) { r = SPDYLAY_ERR_PROTO; break; } val = malloc(len+1); if(val == NULL) { r = SPDYLAY_ERR_NOMEM; break; } memcpy(val, &in[last], len); val[len] = '\0'; if(j >= nv_max) { char **nnv; nv_max *= 2; nnv = realloc(*nv_ptr, nv_max+1); if(nnv == NULL) { r = SPDYLAY_ERR_NOMEM; break; } else { *nv_ptr = nnv; } } (*nv_ptr)[j] = strdup(name); (*nv_ptr)[j+1] = val; val = NULL; last = off+k+1; j += 2; } } if(r != 0) { break; } len = vlen-(last-off); if(len == 0) { r = SPDYLAY_ERR_PROTO; break; } val = malloc(len+1); if(val == NULL) { free(name); r = SPDYLAY_ERR_NOMEM; break; } memcpy(val, &in[last], len); val[len] = '\0'; if(j >= nv_max) { char **nnv; nv_max *= 2; nnv = realloc(*nv_ptr, nv_max+1); if(nnv == NULL) { r = SPDYLAY_ERR_NOMEM; break; } else { *nv_ptr = nnv; } } (*nv_ptr)[j] = name; (*nv_ptr)[j+1] = val; name = val = NULL; j += 2; off += vlen; } free(name); free(val); if(r == 0) { (*nv_ptr)[j] = NULL; } else { for(i = 0; i < j; ++i) { free((*nv_ptr)[i]); } free(*nv_ptr); } return r; } static int spdylay_frame_alloc_unpack_nv(char ***nv_ptr, const uint8_t *in, size_t inlen, spdylay_zlib *inflater) { ssize_t r; spdylay_buffer outbuffer; spdylay_buffer_init(&outbuffer, 4096); r = spdylay_zlib_inflate_hd(inflater, &outbuffer, in, inlen); if(r < 0) { spdylay_buffer_free(&outbuffer); return r; } else { uint8_t *buf = malloc(r); if(buf == NULL) { spdylay_buffer_free(&outbuffer); return SPDYLAY_ERR_NOMEM; } spdylay_buffer_serialize(&outbuffer, buf); spdylay_buffer_free(&outbuffer); r = spdylay_frame_unpack_nv(nv_ptr, buf, r); free(buf); return r; } } size_t spdylay_frame_count_nv_space(char **nv) { size_t sum = 2; int i; const char *prev = ""; size_t prevlen = 0; for(i = 0; nv[i]; i += 2) { const char *key = nv[i]; const char *val = nv[i+1]; size_t keylen = strlen(key); size_t vallen = strlen(val); if(prevlen == keylen && memcmp(prev, key, keylen) == 0) { /* Join previous value, with NULL character */ sum += vallen+1; } else { prev = key; /* SPDY NV header does not include terminating NULL byte */ sum += keylen+vallen+4; } } return sum; } ssize_t spdylay_frame_pack_nv(uint8_t *buf, char **nv) { int i; uint8_t *bufp = buf+2; uint16_t num_nv = 0; /* TODO Join values with same keys, using '\0' as a delimiter */ const char *prev = ""; uint8_t *prev_vallen_buf = NULL; uint16_t prev_vallen = 0; for(i = 0; nv[i]; i += 2) { const char *key = nv[i]; const char *val = nv[i+1]; size_t keylen = strlen(key); size_t vallen = strlen(val); if(strcmp(prev, key) == 0) { prev_vallen += vallen+1; spdylay_put_uint16be(prev_vallen_buf, prev_vallen); *bufp = '\0'; ++bufp; memcpy(bufp, val, vallen); bufp += vallen; } else { ++num_nv; bufp = spdylay_pack_str(bufp, key, keylen); prev = key; prev_vallen_buf = bufp; prev_vallen = vallen; bufp = spdylay_pack_str(bufp, val, vallen); } } spdylay_put_uint16be(buf, num_nv); return bufp-buf; } int spdylay_frame_is_ctrl_frame(uint8_t first_byte) { return first_byte & 0x80; } void spdylay_frame_nv_free(char **nv) { int i; for(i = 0; nv[i]; ++i) { free(nv[i]); } } char** spdylay_frame_nv_copy(const char **nv) { int n, i; char **nnv; for(n = 0;nv[n]; ++n); nnv = malloc((n+1)*sizeof(char*)); if(nnv == NULL) { return NULL; } for(i = 0; i < n; ++i) { nnv[i] = strdup(nv[i]); if(nnv[i] == NULL) { spdylay_frame_nv_free(nnv[i]); free(nnv); return NULL; } } nnv[n] = NULL; return nnv; } void spdylay_frame_syn_stream_init(spdylay_syn_stream *frame, uint8_t flags, int32_t stream_id, int32_t assoc_stream_id, uint8_t pri, char **nv) { memset(frame, 0, sizeof(spdylay_syn_stream)); frame->hd.version = 2; frame->hd.type = SPDYLAY_SYN_STREAM; frame->hd.flags = flags; frame->stream_id = stream_id; frame->assoc_stream_id = assoc_stream_id; frame->pri = pri; frame->nv = nv; } void spdylay_frame_syn_stream_free(spdylay_syn_stream *frame) { spdylay_frame_nv_free(frame->nv); free(frame->nv); } void spdylay_frame_syn_reply_init(spdylay_syn_reply *frame, uint8_t flags, int32_t stream_id, char **nv) { memset(frame, 0, sizeof(spdylay_syn_reply)); frame->hd.version = 2; frame->hd.type = SPDYLAY_SYN_REPLY; frame->hd.flags = flags; frame->stream_id = stream_id; frame->nv = nv; } void spdylay_frame_syn_reply_free(spdylay_syn_reply *frame) { spdylay_frame_nv_free(frame->nv); free(frame->nv); } void spdylay_frame_rst_stream_init(spdylay_rst_stream *frame, int32_t stream_id, uint32_t status_code) { memset(frame, 0, sizeof(spdylay_rst_stream)); frame->hd.version = 2; frame->hd.type = SPDYLAY_RST_STREAM; frame->hd.flags = 0; frame->hd.length = 8; frame->stream_id = stream_id; frame->status_code = status_code; } void spdylay_frame_rst_stream_free(spdylay_rst_stream *frame) {} void spdylay_frame_data_init(spdylay_data *frame, int32_t stream_id, spdylay_data_provider *data_prd) { memset(frame, 0, sizeof(spdylay_data)); frame->stream_id = stream_id; frame->data_prd = *data_prd; } void spdylay_frame_data_free(spdylay_data *frame) {} ssize_t spdylay_frame_pack_syn_stream(uint8_t **buf_ptr, spdylay_syn_stream *frame, spdylay_zlib *deflater) { uint8_t *framebuf = NULL; ssize_t framelen; framelen = spdylay_frame_alloc_pack_nv(&framebuf, frame->nv, 18, deflater); if(framelen < 0) { return framelen; } frame->hd.length = framelen-8; memset(framebuf, 0, 18); /* pack ctrl header after length is determined */ spdylay_frame_pack_ctrl_hd(framebuf, &frame->hd); spdylay_put_uint32be(&framebuf[8], frame->stream_id); spdylay_put_uint32be(&framebuf[12], frame->assoc_stream_id); framebuf[16] = (frame->pri << 6); *buf_ptr = framebuf; return framelen; } int spdylay_frame_unpack_syn_stream(spdylay_syn_stream *frame, const uint8_t *head, size_t headlen, const uint8_t *payload, size_t payloadlen, spdylay_zlib *inflater) { int r; if(payloadlen < 12) { return SPDYLAY_ERR_INVALID_FRAME; } spdylay_frame_unpack_ctrl_hd(&frame->hd, head); frame->stream_id = spdylay_get_uint32(payload) & SPDYLAY_STREAM_ID_MASK; frame->assoc_stream_id = spdylay_get_uint32(payload+4) & SPDYLAY_STREAM_ID_MASK; frame->pri = spdylay_unpack_pri(payload+8); r = spdylay_frame_alloc_unpack_nv(&frame->nv, payload+10, payloadlen-10, inflater); return r; } ssize_t spdylay_frame_pack_syn_reply(uint8_t **buf_ptr, spdylay_syn_reply *frame, spdylay_zlib *deflater) { uint8_t *framebuf = NULL; ssize_t framelen; framelen = spdylay_frame_alloc_pack_nv(&framebuf, frame->nv, 14, deflater); if(framelen < 0) { return framelen; } frame->hd.length = framelen-8; memset(framebuf, 0, 14); spdylay_frame_pack_ctrl_hd(framebuf, &frame->hd); spdylay_put_uint32be(&framebuf[8], frame->stream_id); *buf_ptr = framebuf; return framelen; } int spdylay_frame_unpack_syn_reply(spdylay_syn_reply *frame, const uint8_t *head, size_t headlen, const uint8_t *payload, size_t payloadlen, spdylay_zlib *inflater) { int r; spdylay_frame_unpack_ctrl_hd(&frame->hd, head); frame->stream_id = spdylay_get_uint32(payload) & SPDYLAY_STREAM_ID_MASK; r = spdylay_frame_alloc_unpack_nv(&frame->nv, payload+6, payloadlen-6, inflater); return r; } ssize_t spdylay_frame_pack_rst_stream(uint8_t **buf_ptr, spdylay_rst_stream *frame) { uint8_t *framebuf; ssize_t framelen = 16; framebuf = malloc(framelen); if(framebuf == NULL) { return SPDYLAY_ERR_NOMEM; } memset(framebuf, 0, framelen); spdylay_frame_pack_ctrl_hd(framebuf, &frame->hd); spdylay_put_uint32be(&framebuf[8], frame->stream_id); spdylay_put_uint32be(&framebuf[12], frame->status_code); *buf_ptr = framebuf; return framelen; } int spdylay_frame_unpack_rst_stream(spdylay_rst_stream *frame, const uint8_t *head, size_t headlen, const uint8_t *payload, size_t payloadlen) { if(payloadlen < 8) { return SPDYLAY_ERR_INVALID_FRAME; } spdylay_frame_unpack_ctrl_hd(&frame->hd, head); frame->stream_id = spdylay_get_uint32(payload) & SPDYLAY_STREAM_ID_MASK; frame->status_code = spdylay_get_uint32(payload+4); return 0; }