mongoose/mongoose.c

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// Copyright (c) 2004-2013 Sergey Lyubka
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// Copyright (c) 2013-2022 Cesanta Software Limited
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// All rights reserved
//
// This software is dual-licensed: you can redistribute it and/or modify
// it under the terms of the GNU General Public License version 2 as
// published by the Free Software Foundation. For the terms of this
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// license, see http://www.gnu.org/licenses/
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//
// You are free to use this software under the terms of the GNU General
// Public License, but WITHOUT ANY WARRANTY; without even the implied
// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU General Public License for more details.
//
// Alternatively, you can license this software under a commercial
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// license, as set out in https://www.mongoose.ws/licensing/
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//
// SPDX-License-Identifier: GPL-2.0-only or commercial
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#include "mongoose.h"
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#ifdef MG_ENABLE_LINES
#line 1 "src/base64.c"
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#endif
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static int mg_b64idx(int c) {
if (c < 26) {
return c + 'A';
} else if (c < 52) {
return c - 26 + 'a';
} else if (c < 62) {
return c - 52 + '0';
} else {
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return c == 62 ? '+' : '/';
}
}
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static int mg_b64rev(int c) {
if (c >= 'A' && c <= 'Z') {
return c - 'A';
} else if (c >= 'a' && c <= 'z') {
return c + 26 - 'a';
} else if (c >= '0' && c <= '9') {
return c + 52 - '0';
} else if (c == '+') {
return 62;
} else if (c == '/') {
return 63;
} else if (c == '=') {
return 64;
} else {
return -1;
}
}
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int mg_base64_update(unsigned char ch, char *to, int n) {
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int rem = (n & 3) % 3;
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if (rem == 0) {
to[n] = (char) mg_b64idx(ch >> 2);
to[++n] = (char) ((ch & 3) << 4);
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} else if (rem == 1) {
to[n] = (char) mg_b64idx(to[n] | (ch >> 4));
to[++n] = (char) ((ch & 15) << 2);
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} else {
to[n] = (char) mg_b64idx(to[n] | (ch >> 6));
to[++n] = (char) mg_b64idx(ch & 63);
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n++;
}
return n;
}
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int mg_base64_final(char *to, int n) {
int saved = n;
// printf("---[%.*s]\n", n, to);
if (n & 3) n = mg_base64_update(0, to, n);
if ((saved & 3) == 2) n--;
// printf(" %d[%.*s]\n", n, n, to);
while (n & 3) to[n++] = '=';
to[n] = '\0';
return n;
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}
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int mg_base64_encode(const unsigned char *p, int n, char *to) {
int i, len = 0;
for (i = 0; i < n; i++) len = mg_base64_update(p[i], to, len);
len = mg_base64_final(to, len);
return len;
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}
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int mg_base64_decode(const char *src, int n, char *dst) {
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const char *end = src == NULL ? NULL : src + n; // Cannot add to NULL
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int len = 0;
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while (src != NULL && src + 3 < end) {
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int a = mg_b64rev(src[0]), b = mg_b64rev(src[1]), c = mg_b64rev(src[2]),
d = mg_b64rev(src[3]);
if (a == 64 || a < 0 || b == 64 || b < 0 || c < 0 || d < 0) return 0;
dst[len++] = (char) ((a << 2) | (b >> 4));
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if (src[2] != '=') {
dst[len++] = (char) ((b << 4) | (c >> 2));
if (src[3] != '=') dst[len++] = (char) ((c << 6) | d);
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}
src += 4;
}
dst[len] = '\0';
return len;
}
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#ifdef MG_ENABLE_LINES
#line 1 "src/dns.c"
#endif
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struct dns_data {
struct dns_data *next;
struct mg_connection *c;
uint64_t expire;
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uint16_t txnid;
};
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static void mg_sendnsreq(struct mg_connection *, struct mg_str *, int,
struct mg_dns *, bool);
static void mg_dns_free(struct mg_connection *c, struct dns_data *d) {
LIST_DELETE(struct dns_data,
(struct dns_data **) &c->mgr->active_dns_requests, d);
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free(d);
}
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void mg_resolve_cancel(struct mg_connection *c) {
struct dns_data *tmp, *d = (struct dns_data *) c->mgr->active_dns_requests;
for (; d != NULL; d = tmp) {
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tmp = d->next;
if (d->c == c) mg_dns_free(c, d);
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}
}
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static size_t mg_dns_parse_name_depth(const uint8_t *s, size_t len, size_t ofs,
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char *to, size_t tolen, size_t j,
int depth) {
size_t i = 0;
if (tolen > 0 && depth == 0) to[0] = '\0';
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if (depth > 5) return 0;
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// MG_INFO(("ofs %lx %x %x", (unsigned long) ofs, s[ofs], s[ofs + 1]));
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while (ofs + i + 1 < len) {
size_t n = s[ofs + i];
if (n == 0) {
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i++;
break;
}
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if (n & 0xc0) {
size_t ptr = (((n & 0x3f) << 8) | s[ofs + i + 1]); // 12 is hdr len
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// MG_INFO(("PTR %lx", (unsigned long) ptr));
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if (ptr + 1 < len && (s[ptr] & 0xc0) == 0 &&
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mg_dns_parse_name_depth(s, len, ptr, to, tolen, j, depth + 1) == 0)
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return 0;
i += 2;
break;
}
if (ofs + i + n + 1 >= len) return 0;
if (j > 0) {
if (j < tolen) to[j] = '.';
j++;
}
if (j + n < tolen) memcpy(&to[j], &s[ofs + i + 1], n);
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j += n;
i += n + 1;
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if (j < tolen) to[j] = '\0'; // Zero-terminate this chunk
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// MG_INFO(("--> [%s]", to));
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}
if (tolen > 0) to[tolen - 1] = '\0'; // Make sure make sure it is nul-term
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return i;
}
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static size_t mg_dns_parse_name(const uint8_t *s, size_t n, size_t ofs,
char *dst, size_t dstlen) {
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return mg_dns_parse_name_depth(s, n, ofs, dst, dstlen, 0, 0);
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}
size_t mg_dns_parse_rr(const uint8_t *buf, size_t len, size_t ofs,
bool is_question, struct mg_dns_rr *rr) {
const uint8_t *s = buf + ofs, *e = &buf[len];
memset(rr, 0, sizeof(*rr));
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if (len < sizeof(struct mg_dns_header)) return 0; // Too small
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if (len > 512) return 0; // Too large, we don't expect that
if (s >= e) return 0; // Overflow
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if ((rr->nlen = (uint16_t) mg_dns_parse_name(buf, len, ofs, NULL, 0)) == 0)
return 0;
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s += rr->nlen + 4;
if (s > e) return 0;
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rr->atype = (uint16_t) (((uint16_t) s[-4] << 8) | s[-3]);
rr->aclass = (uint16_t) (((uint16_t) s[-2] << 8) | s[-1]);
if (is_question) return (size_t) (rr->nlen + 4);
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s += 6;
if (s > e) return 0;
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rr->alen = (uint16_t) (((uint16_t) s[-2] << 8) | s[-1]);
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if (s + rr->alen > e) return 0;
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return (size_t) (rr->nlen + rr->alen + 10);
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}
bool mg_dns_parse(const uint8_t *buf, size_t len, struct mg_dns_message *dm) {
const struct mg_dns_header *h = (struct mg_dns_header *) buf;
struct mg_dns_rr rr;
size_t i, n, ofs = sizeof(*h);
memset(dm, 0, sizeof(*dm));
if (len < sizeof(*h)) return 0; // Too small, headers dont fit
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if (mg_ntohs(h->num_questions) > 1) return 0; // Sanity
if (mg_ntohs(h->num_answers) > 10) return 0; // Sanity
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dm->txnid = mg_ntohs(h->txnid);
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for (i = 0; i < mg_ntohs(h->num_questions); i++) {
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if ((n = mg_dns_parse_rr(buf, len, ofs, true, &rr)) == 0) return false;
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// MG_INFO(("Q %lu %lu %hu/%hu", ofs, n, rr.atype, rr.aclass));
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ofs += n;
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}
for (i = 0; i < mg_ntohs(h->num_answers); i++) {
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if ((n = mg_dns_parse_rr(buf, len, ofs, false, &rr)) == 0) return false;
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// MG_INFO(("A -- %lu %lu %hu/%hu %s", ofs, n, rr.atype, rr.aclass,
// dm->name));
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mg_dns_parse_name(buf, len, ofs, dm->name, sizeof(dm->name));
ofs += n;
if (rr.alen == 4 && rr.atype == 1 && rr.aclass == 1) {
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dm->addr.is_ip6 = false;
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memcpy(&dm->addr.ip, &buf[ofs - 4], 4);
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dm->resolved = true;
break; // Return success
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} else if (rr.alen == 16 && rr.atype == 28 && rr.aclass == 1) {
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dm->addr.is_ip6 = true;
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memcpy(&dm->addr.ip6, &buf[ofs - 16], 16);
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dm->resolved = true;
break; // Return success
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}
}
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return true;
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}
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static void dns_cb(struct mg_connection *c, int ev, void *ev_data,
void *fn_data) {
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struct dns_data *d, *tmp;
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if (ev == MG_EV_POLL) {
uint64_t now = *(uint64_t *) ev_data;
for (d = (struct dns_data *) c->mgr->active_dns_requests; d != NULL;
d = tmp) {
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tmp = d->next;
// MG_DEBUG ("%lu %lu dns poll", d->expire, now));
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if (now > d->expire) mg_error(d->c, "DNS timeout");
}
} else if (ev == MG_EV_READ) {
struct mg_dns_message dm;
int resolved = 0;
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if (mg_dns_parse(c->recv.buf, c->recv.len, &dm) == false) {
MG_ERROR(("Unexpected DNS response:"));
mg_hexdump(c->recv.buf, c->recv.len);
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} else {
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// MG_VERBOSE(("%s %d", dm.name, dm.resolved));
for (d = (struct dns_data *) c->mgr->active_dns_requests; d != NULL;
d = tmp) {
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tmp = d->next;
// MG_INFO(("d %p %hu %hu", d, d->txnid, dm.txnid));
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if (dm.txnid != d->txnid) continue;
if (d->c->is_resolving) {
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if (dm.resolved) {
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dm.addr.port = d->c->rem.port; // Save port
d->c->rem = dm.addr; // Copy resolved address
MG_DEBUG(
("%lu %s is %I", d->c->id, dm.name, d->c->rem.is_ip6 ? 16 : 4,
d->c->rem.is_ip6 ? &d->c->rem.ip6 : (void *) &d->c->rem.ip));
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mg_connect_resolved(d->c);
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#if MG_ENABLE_IPV6
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} else if (dm.addr.is_ip6 == false && dm.name[0] != '\0' &&
c->mgr->use_dns6 == false) {
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struct mg_str x = mg_str(dm.name);
mg_sendnsreq(d->c, &x, c->mgr->dnstimeout, &c->mgr->dns6, true);
#endif
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} else {
mg_error(d->c, "%s DNS lookup failed", dm.name);
}
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} else {
MG_ERROR(("%lu already resolved", d->c->id));
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}
mg_dns_free(c, d);
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resolved = 1;
}
}
if (!resolved) MG_ERROR(("stray DNS reply"));
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c->recv.len = 0;
} else if (ev == MG_EV_CLOSE) {
for (d = (struct dns_data *) c->mgr->active_dns_requests; d != NULL;
d = tmp) {
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tmp = d->next;
mg_error(d->c, "DNS error");
mg_dns_free(c, d);
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}
}
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(void) fn_data;
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}
static bool mg_dns_send(struct mg_connection *c, const struct mg_str *name,
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uint16_t txnid, bool ipv6) {
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struct {
struct mg_dns_header header;
uint8_t data[256];
} pkt;
size_t i, n;
memset(&pkt, 0, sizeof(pkt));
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pkt.header.txnid = mg_htons(txnid);
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pkt.header.flags = mg_htons(0x100);
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pkt.header.num_questions = mg_htons(1);
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for (i = n = 0; i < sizeof(pkt.data) - 5; i++) {
if (name->ptr[i] == '.' || i >= name->len) {
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pkt.data[n] = (uint8_t) (i - n);
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memcpy(&pkt.data[n + 1], name->ptr + n, i - n);
n = i + 1;
}
if (i >= name->len) break;
}
memcpy(&pkt.data[n], "\x00\x00\x01\x00\x01", 5); // A query
n += 5;
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if (ipv6) pkt.data[n - 3] = 0x1c; // AAAA query
// memcpy(&pkt.data[n], "\xc0\x0c\x00\x1c\x00\x01", 6); // AAAA query
// n += 6;
return mg_send(c, &pkt, sizeof(pkt.header) + n);
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}
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static void mg_sendnsreq(struct mg_connection *c, struct mg_str *name, int ms,
struct mg_dns *dnsc, bool ipv6) {
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struct dns_data *d = NULL;
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if (dnsc->url == NULL) {
mg_error(c, "DNS server URL is NULL. Call mg_mgr_init()");
} else if (dnsc->c == NULL) {
dnsc->c = mg_connect(c->mgr, dnsc->url, NULL, NULL);
if (dnsc->c != NULL) {
dnsc->c->pfn = dns_cb;
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// dnsc->c->is_hexdumping = 1;
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}
}
if (dnsc->c == NULL) {
mg_error(c, "resolver");
} else if ((d = (struct dns_data *) calloc(1, sizeof(*d))) == NULL) {
mg_error(c, "resolve OOM");
} else {
struct dns_data *reqs = (struct dns_data *) c->mgr->active_dns_requests;
d->txnid = reqs ? (uint16_t) (reqs->txnid + 1) : 1;
d->next = (struct dns_data *) c->mgr->active_dns_requests;
c->mgr->active_dns_requests = d;
d->expire = mg_millis() + (uint64_t) ms;
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d->c = c;
c->is_resolving = 1;
MG_VERBOSE(("%lu resolving %.*s @ %s, txnid %hu", c->id, (int) name->len,
name->ptr, &dnsc->url, d->txnid));
if (!mg_dns_send(dnsc->c, name, d->txnid, ipv6)) {
mg_error(dnsc->c, "DNS send");
}
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}
}
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void mg_resolve(struct mg_connection *c, const char *url) {
struct mg_str host = mg_url_host(url);
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c->rem.port = mg_htons(mg_url_port(url));
if (mg_aton(host, &c->rem)) {
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// host is an IP address, do not fire name resolution
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mg_connect_resolved(c);
} else {
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// host is not an IP, send DNS resolution request
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struct mg_dns *dns = c->mgr->use_dns6 ? &c->mgr->dns6 : &c->mgr->dns4;
mg_sendnsreq(c, &host, c->mgr->dnstimeout, dns, c->mgr->use_dns6);
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}
}
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#ifdef MG_ENABLE_LINES
#line 1 "src/event.c"
#endif
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void mg_call(struct mg_connection *c, int ev, void *ev_data) {
// Run user-defined handler first, in order to give it an ability
// to intercept processing (e.g. clean input buffer) before the
// protocol handler kicks in
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if (c->fn != NULL) c->fn(c, ev, ev_data, c->fn_data);
if (c->pfn != NULL) c->pfn(c, ev, ev_data, c->pfn_data);
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}
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void mg_error(struct mg_connection *c, const char *fmt, ...) {
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char buf[64];
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va_list ap;
va_start(ap, fmt);
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mg_vsnprintf(buf, sizeof(buf), fmt, &ap);
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va_end(ap);
MG_ERROR(("%lu %p %s", c->id, c->fd, buf));
c->is_closing = 1; // Set is_closing before sending MG_EV_CALL
mg_call(c, MG_EV_ERROR, buf); // Let user handler to override it
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}
#ifdef MG_ENABLE_LINES
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#line 1 "src/fmt.c"
#endif
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static void mg_pfn_iobuf_private(char ch, void *param, bool expand) {
struct mg_iobuf *io = (struct mg_iobuf *) param;
if (expand && io->len + 2 > io->size) mg_iobuf_resize(io, io->len + 2);
if (io->len + 2 <= io->size) {
io->buf[io->len++] = (uint8_t) ch;
io->buf[io->len] = 0;
} else if (io->len < io->size) {
io->buf[io->len++] = 0; // Guarantee to 0-terminate
}
}
static void mg_putchar_iobuf_static(char ch, void *param) {
mg_pfn_iobuf_private(ch, param, false);
}
void mg_pfn_iobuf(char ch, void *param) {
mg_pfn_iobuf_private(ch, param, true);
}
size_t mg_vsnprintf(char *buf, size_t len, const char *fmt, va_list *ap) {
struct mg_iobuf io = {(uint8_t *) buf, len, 0, 0};
size_t n = mg_vxprintf(mg_putchar_iobuf_static, &io, fmt, ap);
if (n < len) buf[n] = '\0';
return n;
}
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size_t mg_snprintf(char *buf, size_t len, const char *fmt, ...) {
va_list ap;
size_t n;
va_start(ap, fmt);
n = mg_vsnprintf(buf, len, fmt, &ap);
va_end(ap);
return n;
}
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char *mg_vmprintf(const char *fmt, va_list *ap) {
struct mg_iobuf io = {0, 0, 0, 256};
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mg_vxprintf(mg_pfn_iobuf, &io, fmt, ap);
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return (char *) io.buf;
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}
char *mg_mprintf(const char *fmt, ...) {
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char *s;
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va_list ap;
va_start(ap, fmt);
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s = mg_vmprintf(fmt, &ap);
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va_end(ap);
return s;
}
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size_t mg_xprintf(void (*out)(char, void *), void *ptr, const char *fmt, ...) {
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size_t len = 0;
va_list ap;
va_start(ap, fmt);
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len = mg_vxprintf(out, ptr, fmt, &ap);
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va_end(ap);
return len;
}
static bool is_digit(int c) {
return c >= '0' && c <= '9';
}
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static int addexp(char *buf, int e, int sign) {
int n = 0;
buf[n++] = 'e';
buf[n++] = (char) sign;
if (e > 400) return 0;
if (e < 10) buf[n++] = '0';
if (e >= 100) buf[n++] = (char) (e / 100 + '0'), e -= 100 * (e / 100);
if (e >= 10) buf[n++] = (char) (e / 10 + '0'), e -= 10 * (e / 10);
buf[n++] = (char) (e + '0');
return n;
}
static int xisinf(double x) {
union {
double f;
uint64_t u;
} ieee754 = {x};
return ((unsigned) (ieee754.u >> 32) & 0x7fffffff) == 0x7ff00000 &&
((unsigned) ieee754.u == 0);
}
static int xisnan(double x) {
union {
double f;
uint64_t u;
} ieee754 = {x};
return ((unsigned) (ieee754.u >> 32) & 0x7fffffff) +
((unsigned) ieee754.u != 0) >
0x7ff00000;
}
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static size_t mg_dtoa(char *dst, size_t dstlen, double d, int width) {
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char buf[40];
int i, s = 0, n = 0, e = 0;
double t, mul, saved;
if (d == 0.0) return mg_snprintf(dst, dstlen, "%s", "0");
if (xisinf(d)) return mg_snprintf(dst, dstlen, "%s", d > 0 ? "inf" : "-inf");
if (xisnan(d)) return mg_snprintf(dst, dstlen, "%s", "nan");
if (d < 0.0) d = -d, buf[s++] = '-';
// Round
saved = d;
mul = 1.0;
while (d >= 10.0 && d / mul >= 10.0) mul *= 10.0;
while (d <= 1.0 && d / mul <= 1.0) mul /= 10.0;
for (i = 0, t = mul * 5; i < width; i++) t /= 10.0;
d += t;
// Calculate exponent, and 'mul' for scientific representation
mul = 1.0;
while (d >= 10.0 && d / mul >= 10.0) mul *= 10.0, e++;
while (d < 1.0 && d / mul < 1.0) mul /= 10.0, e--;
// printf(" --> %g %d %g %g\n", saved, e, t, mul);
if (e >= width) {
n = (int) mg_dtoa(buf, sizeof(buf), saved / mul, width);
// printf(" --> %.*g %d [%.*s]\n", 10, d / t, e, n, buf);
n += addexp(buf + s + n, e, '+');
return mg_snprintf(dst, dstlen, "%.*s", n, buf);
} else if (e <= -width) {
n = (int) mg_dtoa(buf, sizeof(buf), saved / mul, width);
// printf(" --> %.*g %d [%.*s]\n", 10, d / mul, e, n, buf);
n += addexp(buf + s + n, -e, '-');
return mg_snprintf(dst, dstlen, "%.*s", n, buf);
} else {
for (i = 0, t = mul; t >= 1.0 && s + n < (int) sizeof(buf); i++) {
int ch = (int) (d / t);
if (n > 0 || ch > 0) buf[s + n++] = (char) (ch + '0');
d -= ch * t;
t /= 10.0;
}
// printf(" --> [%g] -> %g %g (%d) [%.*s]\n", saved, d, t, n, s + n, buf);
if (n == 0) buf[s++] = '0';
while (t >= 1.0 && n + s < (int) sizeof(buf)) buf[n++] = '0', t /= 10.0;
if (s + n < (int) sizeof(buf)) buf[n + s++] = '.';
// printf(" 1--> [%g] -> [%.*s]\n", saved, s + n, buf);
for (i = 0, t = 0.1; s + n < (int) sizeof(buf) && n < width; i++) {
int ch = (int) (d / t);
buf[s + n++] = (char) (ch + '0');
d -= ch * t;
t /= 10.0;
}
}
while (n > 0 && buf[s + n - 1] == '0') n--; // Trim trailing zeros
if (n > 0 && buf[s + n - 1] == '.') n--; // Trim trailing dot
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n += s;
if (n >= (int) sizeof(buf)) n = (int) sizeof(buf) - 1;
buf[n] = '\0';
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return mg_snprintf(dst, dstlen, "%s", buf);
}
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static size_t mg_lld(char *buf, int64_t val, bool is_signed, bool is_hex) {
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const char *letters = "0123456789abcdef";
uint64_t v = (uint64_t) val;
size_t s = 0, n, i;
if (is_signed && val < 0) buf[s++] = '-', v = (uint64_t) (-val);
// This loop prints a number in reverse order. I guess this is because we
// write numbers from right to left: least significant digit comes last.
// Maybe because we use Arabic numbers, and Arabs write RTL?
if (is_hex) {
for (n = 0; v; v >>= 4) buf[s + n++] = letters[v & 15];
} else {
for (n = 0; v; v /= 10) buf[s + n++] = letters[v % 10];
}
// Reverse a string
for (i = 0; i < n / 2; i++) {
char t = buf[s + i];
buf[s + i] = buf[s + n - i - 1], buf[s + n - i - 1] = t;
}
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if (val == 0) buf[n++] = '0'; // Handle special case
return n + s;
}
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static size_t scpy(void (*out)(char, void *), void *ptr, char *buf,
size_t len) {
size_t i = 0;
while (i < len && buf[i] != '\0') out(buf[i++], ptr);
return i;
}
static char mg_esc(int c, bool esc) {
const char *p, *esc1 = "\b\f\n\r\t\\\"", *esc2 = "bfnrt\\\"";
for (p = esc ? esc1 : esc2; *p != '\0'; p++) {
if (*p == c) return esc ? esc2[p - esc1] : esc1[p - esc2];
}
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return 0;
}
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static char mg_escape(int c) {
return mg_esc(c, true);
}
static size_t qcpy(void (*out)(char, void *), void *ptr, char *buf,
size_t len) {
size_t i = 0, extra = 0;
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for (i = 0; i < len && buf[i] != '\0'; i++) {
char c = mg_escape(buf[i]);
if (c) {
out('\\', ptr), out(c, ptr), extra++;
} else {
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out(buf[i], ptr);
}
}
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return i + extra;
}
static size_t Qcpy(void (*out)(char, void *), void *ptr, char *buf,
size_t len) {
size_t n = 2;
out('"', ptr);
n += qcpy(out, ptr, buf, len);
out('"', ptr);
return n;
}
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static size_t bcpy(void (*out)(char, void *), void *ptr, uint8_t *buf,
size_t len) {
size_t i, n = 0;
const char *t =
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
out('"', ptr), n++;
for (i = 0; i < len; i += 3) {
uint8_t c1 = buf[i], c2 = i + 1 < len ? buf[i + 1] : 0,
c3 = i + 2 < len ? buf[i + 2] : 0;
char tmp[4] = {t[c1 >> 2], t[(c1 & 3) << 4 | (c2 >> 4)], '=', '='};
if (i + 1 < len) tmp[2] = t[(c2 & 15) << 2 | (c3 >> 6)];
if (i + 2 < len) tmp[3] = t[c3 & 63];
n += scpy(out, ptr, tmp, sizeof(tmp));
}
out('"', ptr), n++;
return n;
}
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size_t mg_vxprintf(void (*out)(char, void *), void *param, const char *fmt,
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va_list *ap) {
size_t i = 0, n = 0;
while (fmt[i] != '\0') {
if (fmt[i] == '%') {
size_t j, k, x = 0, is_long = 0, w = 0 /* width */, pr = ~0U /* prec */;
char pad = ' ', minus = 0, c = fmt[++i];
if (c == '#') x++, c = fmt[++i];
if (c == '-') minus++, c = fmt[++i];
if (c == '0') pad = '0', c = fmt[++i];
while (is_digit(c)) w *= 10, w += (size_t) (c - '0'), c = fmt[++i];
if (c == '.') {
c = fmt[++i];
if (c == '*') {
pr = (size_t) va_arg(*ap, int);
c = fmt[++i];
} else {
pr = 0;
while (is_digit(c)) pr *= 10, pr += (size_t) (c - '0'), c = fmt[++i];
}
}
while (c == 'h') c = fmt[++i]; // Treat h and hh as int
if (c == 'l') {
is_long++, c = fmt[++i];
if (c == 'l') is_long++, c = fmt[++i];
}
if (c == 'p') x = 1, is_long = 1;
if (c == 'd' || c == 'u' || c == 'x' || c == 'X' || c == 'p' ||
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c == 'g' || c == 'f') {
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bool s = (c == 'd'), h = (c == 'x' || c == 'X' || c == 'p');
char tmp[40];
size_t xl = x ? 2 : 0;
if (c == 'g' || c == 'f') {
double v = va_arg(*ap, double);
if (pr == ~0U) pr = 6;
k = mg_dtoa(tmp, sizeof(tmp), v, (int) pr);
} else if (is_long == 2) {
int64_t v = va_arg(*ap, int64_t);
k = mg_lld(tmp, v, s, h);
} else if (is_long == 1) {
long v = va_arg(*ap, long);
k = mg_lld(tmp, s ? (int64_t) v : (int64_t) (unsigned long) v, s, h);
} else {
int v = va_arg(*ap, int);
k = mg_lld(tmp, s ? (int64_t) v : (int64_t) (unsigned) v, s, h);
}
for (j = 0; j < xl && w > 0; j++) w--;
for (j = 0; pad == ' ' && !minus && k < w && j + k < w; j++)
n += scpy(out, param, &pad, 1);
n += scpy(out, param, (char *) "0x", xl);
for (j = 0; pad == '0' && k < w && j + k < w; j++)
n += scpy(out, param, &pad, 1);
n += scpy(out, param, tmp, k);
for (j = 0; pad == ' ' && minus && k < w && j + k < w; j++)
n += scpy(out, param, &pad, 1);
} else if (c == 'M') {
mg_pm_t f = va_arg(*ap, mg_pm_t);
n += f(out, param, ap);
} else if (c == 'c') {
int ch = va_arg(*ap, int);
out((char) ch, param);
n++;
} else if (c == 'H') {
// Print hex-encoded double-quoted string
size_t bl = (size_t) va_arg(*ap, int);
uint8_t *p = va_arg(*ap, uint8_t *), dquote = '"';
const char *hex = "0123456789abcdef";
n += scpy(out, param, (char *) &dquote, 1);
for (j = 0; j < bl; j++) {
n += scpy(out, param, (char *) &hex[(p[j] >> 4) & 15], 1);
n += scpy(out, param, (char *) &hex[p[j] & 15], 1);
}
n += scpy(out, param, (char *) &dquote, 1);
} else if (c == 'I') {
// Print IPv4 or IPv6 address
size_t len = (size_t) va_arg(*ap, int); // Length 16 means IPv6 address
uint8_t *buf = va_arg(*ap, uint8_t *); // Pointer to the IP address
if (len == 6) {
uint16_t *p = (uint16_t *) buf;
n += mg_xprintf(out, param, "%x:%x:%x:%x:%x:%x:%x:%x", mg_htons(p[0]),
mg_htons(p[1]), mg_htons(p[2]), mg_htons(p[3]),
mg_htons(p[4]), mg_htons(p[5]), mg_htons(p[6]),
mg_htons(p[7]));
} else {
n += mg_xprintf(out, param, "%d.%d.%d.%d", (int) buf[0], (int) buf[1],
(int) buf[2], (int) buf[3]);
}
} else if (c == 'A') {
// Print hardware addresses (currently Ethernet MAC)
uint8_t *buf = va_arg(*ap, uint8_t *); // Pointer to the hw address
n += mg_xprintf(out, param, "%02x:%02x:%02x:%02x:%02x:%02x",
(int) buf[0], (int) buf[1], (int) buf[2], (int) buf[3],
(int) buf[4], (int) buf[5]);
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} else if (c == 'V') {
// Print base64-encoded double-quoted string
size_t len = (size_t) va_arg(*ap, int);
uint8_t *buf = va_arg(*ap, uint8_t *);
n += bcpy(out, param, buf, len);
} else if (c == 's' || c == 'Q' || c == 'q') {
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char *p = va_arg(*ap, char *);
size_t (*f)(void (*)(char, void *), void *, char *, size_t) = scpy;
if (c == 'Q') f = Qcpy;
if (c == 'q') f = qcpy;
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if (pr == ~0U) pr = p == NULL ? 0 : strlen(p);
for (j = 0; !minus && pr < w && j + pr < w; j++)
n += f(out, param, &pad, 1);
n += f(out, param, p, pr);
for (j = 0; minus && pr < w && j + pr < w; j++)
n += f(out, param, &pad, 1);
} else if (c == '%') {
out('%', param);
n++;
} else {
out('%', param);
out(c, param);
n += 2;
}
i++;
} else {
out(fmt[i], param), n++, i++;
}
}
return n;
}
#ifdef MG_ENABLE_LINES
#line 1 "src/fs.c"
#endif
struct mg_fd *mg_fs_open(struct mg_fs *fs, const char *path, int flags) {
struct mg_fd *fd = (struct mg_fd *) calloc(1, sizeof(*fd));
if (fd != NULL) {
fd->fd = fs->op(path, flags);
fd->fs = fs;
if (fd->fd == NULL) {
free(fd);
fd = NULL;
}
}
return fd;
}
void mg_fs_close(struct mg_fd *fd) {
if (fd != NULL) {
fd->fs->cl(fd->fd);
free(fd);
}
}
char *mg_file_read(struct mg_fs *fs, const char *path, size_t *sizep) {
struct mg_fd *fd;
char *data = NULL;
size_t size = 0;
fs->st(path, &size, NULL);
if ((fd = mg_fs_open(fs, path, MG_FS_READ)) != NULL) {
data = (char *) calloc(1, size + 1);
if (data != NULL) {
if (fs->rd(fd->fd, data, size) != size) {
free(data);
data = NULL;
} else {
data[size] = '\0';
if (sizep != NULL) *sizep = size;
}
}
mg_fs_close(fd);
}
return data;
}
bool mg_file_write(struct mg_fs *fs, const char *path, const void *buf,
size_t len) {
bool result = false;
struct mg_fd *fd;
char tmp[MG_PATH_MAX];
mg_snprintf(tmp, sizeof(tmp), "%s..%d", path, rand());
if ((fd = mg_fs_open(fs, tmp, MG_FS_WRITE)) != NULL) {
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result = fs->wr(fd->fd, buf, len) == len;
mg_fs_close(fd);
if (result) {
fs->rm(path);
fs->mv(tmp, path);
} else {
fs->rm(tmp);
}
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}
return result;
}
bool mg_file_printf(struct mg_fs *fs, const char *path, const char *fmt, ...) {
va_list ap;
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char *data;
bool result = false;
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va_start(ap, fmt);
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data = mg_vmprintf(fmt, &ap);
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va_end(ap);
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result = mg_file_write(fs, path, data, strlen(data));
free(data);
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return result;
}
#ifdef MG_ENABLE_LINES
#line 1 "src/fs_fat.c"
#endif
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#if MG_ENABLE_FATFS
#include <ff.h>
static int mg_days_from_epoch(int y, int m, int d) {
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y -= m <= 2;
int era = y / 400;
int yoe = y - era * 400;
int doy = (153 * (m + (m > 2 ? -3 : 9)) + 2) / 5 + d - 1;
int doe = yoe * 365 + yoe / 4 - yoe / 100 + doy;
return era * 146097 + doe - 719468;
}
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static time_t mg_timegm(const struct tm *t) {
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int year = t->tm_year + 1900;
int month = t->tm_mon; // 0-11
if (month > 11) {
year += month / 12;
month %= 12;
} else if (month < 0) {
int years_diff = (11 - month) / 12;
year -= years_diff;
month += 12 * years_diff;
}
int x = mg_days_from_epoch(year, month + 1, t->tm_mday);
return 60 * (60 * (24L * x + t->tm_hour) + t->tm_min) + t->tm_sec;
}
static time_t ff_time_to_epoch(uint16_t fdate, uint16_t ftime) {
struct tm tm;
memset(&tm, 0, sizeof(struct tm));
tm.tm_sec = (ftime << 1) & 0x3e;
tm.tm_min = ((ftime >> 5) & 0x3f);
tm.tm_hour = ((ftime >> 11) & 0x1f);
tm.tm_mday = (fdate & 0x1f);
tm.tm_mon = ((fdate >> 5) & 0x0f) - 1;
tm.tm_year = ((fdate >> 9) & 0x7f) + 80;
return mg_timegm(&tm);
}
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static int ff_stat(const char *path, size_t *size, time_t *mtime) {
FILINFO fi;
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if (path[0] == '\0') {
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if (size) *size = 0;
if (mtime) *mtime = 0;
return MG_FS_DIR;
} else if (f_stat(path, &fi) == 0) {
if (size) *size = (size_t) fi.fsize;
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if (mtime) *mtime = ff_time_to_epoch(fi.fdate, fi.ftime);
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return MG_FS_READ | MG_FS_WRITE | ((fi.fattrib & AM_DIR) ? MG_FS_DIR : 0);
} else {
return 0;
}
}
static void ff_list(const char *dir, void (*fn)(const char *, void *),
void *userdata) {
DIR d;
FILINFO fi;
if (f_opendir(&d, dir) == FR_OK) {
while (f_readdir(&d, &fi) == FR_OK && fi.fname[0] != '\0') {
if (!strcmp(fi.fname, ".") || !strcmp(fi.fname, "..")) continue;
fn(fi.fname, userdata);
}
f_closedir(&d);
}
}
static void *ff_open(const char *path, int flags) {
FIL f;
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unsigned char mode = FA_READ;
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if (flags & MG_FS_WRITE) mode |= FA_WRITE | FA_OPEN_ALWAYS | FA_OPEN_APPEND;
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if (f_open(&f, path, mode) == 0) {
FIL *fp = calloc(1, sizeof(*fp));
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memcpy(fp, &f, sizeof(*fp));
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return fp;
} else {
return NULL;
}
}
static void ff_close(void *fp) {
if (fp != NULL) {
f_close((FIL *) fp);
free(fp);
}
}
static size_t ff_read(void *fp, void *buf, size_t len) {
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UINT n = 0, misalign = ((size_t) buf) & 3;
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if (misalign) {
char aligned[4];
f_read((FIL *) fp, aligned, len > misalign ? misalign : len, &n);
memcpy(buf, aligned, n);
} else {
f_read((FIL *) fp, buf, len, &n);
}
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return n;
}
static size_t ff_write(void *fp, const void *buf, size_t len) {
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UINT n = 0;
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return f_write((FIL *) fp, (char *) buf, len, &n) == FR_OK ? n : 0;
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}
static size_t ff_seek(void *fp, size_t offset) {
f_lseek((FIL *) fp, offset);
return offset;
}
static bool ff_rename(const char *from, const char *to) {
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return f_rename(from, to) == FR_OK;
}
static bool ff_remove(const char *path) {
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return f_unlink(path) == FR_OK;
}
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static bool ff_mkdir(const char *path) {
return f_mkdir(path) == FR_OK;
}
struct mg_fs mg_fs_fat = {ff_stat, ff_list, ff_open, ff_close, ff_read,
ff_write, ff_seek, ff_rename, ff_remove, ff_mkdir};
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#endif
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#ifdef MG_ENABLE_LINES
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#line 1 "src/fs_packed.c"
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#endif
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struct packed_file {
const char *data;
size_t size;
size_t pos;
};
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const char *mg_unpack(const char *path, size_t *size, time_t *mtime);
const char *mg_unlist(size_t no);
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#if MG_ENABLE_PACKED_FS
#else
const char *mg_unpack(const char *path, size_t *size, time_t *mtime) {
(void) path, (void) size, (void) mtime;
return NULL;
}
const char *mg_unlist(size_t no) {
(void) no;
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return NULL;
}
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#endif
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static int is_dir_prefix(const char *prefix, size_t n, const char *path) {
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// MG_INFO(("[%.*s] [%s] %c", (int) n, prefix, path, path[n]));
return n < strlen(path) && strncmp(prefix, path, n) == 0 &&
(n == 0 || path[n] == '/' || path[n - 1] == '/');
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}
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static int packed_stat(const char *path, size_t *size, time_t *mtime) {
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const char *p;
size_t i, n = strlen(path);
if (mg_unpack(path, size, mtime)) return MG_FS_READ; // Regular file
// Scan all files. If `path` is a dir prefix for any of them, it's a dir
for (i = 0; (p = mg_unlist(i)) != NULL; i++) {
if (is_dir_prefix(path, n, p)) return MG_FS_DIR;
}
return 0;
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}
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static void packed_list(const char *dir, void (*fn)(const char *, void *),
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void *userdata) {
char buf[MG_PATH_MAX], tmp[sizeof(buf)];
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const char *path, *begin, *end;
size_t i, n = strlen(dir);
tmp[0] = '\0'; // Previously listed entry
for (i = 0; (path = mg_unlist(i)) != NULL; i++) {
if (!is_dir_prefix(dir, n, path)) continue;
begin = &path[n + 1];
end = strchr(begin, '/');
if (end == NULL) end = begin + strlen(begin);
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mg_snprintf(buf, sizeof(buf), "%.*s", (int) (end - begin), begin);
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buf[sizeof(buf) - 1] = '\0';
// If this entry has been already listed, skip
// NOTE: we're assuming that file list is sorted alphabetically
if (strcmp(buf, tmp) == 0) continue;
fn(buf, userdata); // Not yet listed, call user function
strcpy(tmp, buf); // And save this entry as listed
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}
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}
static void *packed_open(const char *path, int flags) {
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size_t size = 0;
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const char *data = mg_unpack(path, &size, NULL);
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struct packed_file *fp = NULL;
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if (data == NULL) return NULL;
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if (flags & MG_FS_WRITE) return NULL;
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fp = (struct packed_file *) calloc(1, sizeof(*fp));
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fp->size = size;
fp->data = data;
return (void *) fp;
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}
static void packed_close(void *fp) {
if (fp != NULL) free(fp);
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}
static size_t packed_read(void *fd, void *buf, size_t len) {
struct packed_file *fp = (struct packed_file *) fd;
if (fp->pos + len > fp->size) len = fp->size - fp->pos;
memcpy(buf, &fp->data[fp->pos], len);
fp->pos += len;
return len;
}
static size_t packed_write(void *fd, const void *buf, size_t len) {
(void) fd, (void) buf, (void) len;
return 0;
}
static size_t packed_seek(void *fd, size_t offset) {
struct packed_file *fp = (struct packed_file *) fd;
fp->pos = offset;
if (fp->pos > fp->size) fp->pos = fp->size;
return fp->pos;
}
static bool packed_rename(const char *from, const char *to) {
(void) from, (void) to;
return false;
}
static bool packed_remove(const char *path) {
(void) path;
return false;
}
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static bool packed_mkdir(const char *path) {
(void) path;
return false;
}
struct mg_fs mg_fs_packed = {
packed_stat, packed_list, packed_open, packed_close, packed_read,
packed_write, packed_seek, packed_rename, packed_remove, packed_mkdir};
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#ifdef MG_ENABLE_LINES
#line 1 "src/fs_posix.c"
#endif
#if MG_ENABLE_FILE
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#ifndef MG_STAT_STRUCT
#define MG_STAT_STRUCT stat
#endif
#ifndef MG_STAT_FUNC
#define MG_STAT_FUNC stat
#endif
static int p_stat(const char *path, size_t *size, time_t *mtime) {
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#if !defined(S_ISDIR)
MG_ERROR(("stat() API is not supported. %p %p %p", path, size, mtime));
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return 0;
#else
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#if MG_ARCH == MG_ARCH_WIN32
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struct _stati64 st;
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wchar_t tmp[MG_PATH_MAX];
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MultiByteToWideChar(CP_UTF8, 0, path, -1, tmp, sizeof(tmp) / sizeof(tmp[0]));
if (_wstati64(tmp, &st) != 0) return 0;
#else
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struct MG_STAT_STRUCT st;
if (MG_STAT_FUNC(path, &st) != 0) return 0;
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#endif
if (size) *size = (size_t) st.st_size;
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if (mtime) *mtime = st.st_mtime;
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return MG_FS_READ | MG_FS_WRITE | (S_ISDIR(st.st_mode) ? MG_FS_DIR : 0);
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#endif
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}
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#if MG_ARCH == MG_ARCH_WIN32
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struct dirent {
char d_name[MAX_PATH];
};
typedef struct win32_dir {
HANDLE handle;
WIN32_FIND_DATAW info;
struct dirent result;
} DIR;
int gettimeofday(struct timeval *tv, void *tz) {
FILETIME ft;
unsigned __int64 tmpres = 0;
if (tv != NULL) {
GetSystemTimeAsFileTime(&ft);
tmpres |= ft.dwHighDateTime;
tmpres <<= 32;
tmpres |= ft.dwLowDateTime;
tmpres /= 10; // convert into microseconds
tmpres -= (int64_t) 11644473600000000;
tv->tv_sec = (long) (tmpres / 1000000UL);
tv->tv_usec = (long) (tmpres % 1000000UL);
}
(void) tz;
return 0;
}
static int to_wchar(const char *path, wchar_t *wbuf, size_t wbuf_len) {
int ret;
char buf[MAX_PATH * 2], buf2[MAX_PATH * 2], *p;
strncpy(buf, path, sizeof(buf));
buf[sizeof(buf) - 1] = '\0';
// Trim trailing slashes. Leave backslash for paths like "X:\"
p = buf + strlen(buf) - 1;
while (p > buf && p[-1] != ':' && (p[0] == '\\' || p[0] == '/')) *p-- = '\0';
memset(wbuf, 0, wbuf_len * sizeof(wchar_t));
ret = MultiByteToWideChar(CP_UTF8, 0, buf, -1, wbuf, (int) wbuf_len);
// Convert back to Unicode. If doubly-converted string does not match the
// original, something is fishy, reject.
WideCharToMultiByte(CP_UTF8, 0, wbuf, (int) wbuf_len, buf2, sizeof(buf2),
NULL, NULL);
if (strcmp(buf, buf2) != 0) {
wbuf[0] = L'\0';
ret = 0;
}
return ret;
}
DIR *opendir(const char *name) {
DIR *d = NULL;
wchar_t wpath[MAX_PATH];
DWORD attrs;
if (name == NULL) {
SetLastError(ERROR_BAD_ARGUMENTS);
} else if ((d = (DIR *) calloc(1, sizeof(*d))) == NULL) {
SetLastError(ERROR_NOT_ENOUGH_MEMORY);
} else {
to_wchar(name, wpath, sizeof(wpath) / sizeof(wpath[0]));
attrs = GetFileAttributesW(wpath);
if (attrs != 0Xffffffff && (attrs & FILE_ATTRIBUTE_DIRECTORY)) {
(void) wcscat(wpath, L"\\*");
d->handle = FindFirstFileW(wpath, &d->info);
d->result.d_name[0] = '\0';
} else {
free(d);
d = NULL;
}
}
return d;
}
int closedir(DIR *d) {
int result = 0;
if (d != NULL) {
if (d->handle != INVALID_HANDLE_VALUE)
result = FindClose(d->handle) ? 0 : -1;
free(d);
} else {
result = -1;
SetLastError(ERROR_BAD_ARGUMENTS);
}
return result;
}
struct dirent *readdir(DIR *d) {
struct dirent *result = NULL;
if (d != NULL) {
memset(&d->result, 0, sizeof(d->result));
if (d->handle != INVALID_HANDLE_VALUE) {
result = &d->result;
WideCharToMultiByte(CP_UTF8, 0, d->info.cFileName, -1, result->d_name,
sizeof(result->d_name), NULL, NULL);
if (!FindNextFileW(d->handle, &d->info)) {
FindClose(d->handle);
d->handle = INVALID_HANDLE_VALUE;
}
} else {
SetLastError(ERROR_FILE_NOT_FOUND);
}
} else {
SetLastError(ERROR_BAD_ARGUMENTS);
}
return result;
}
#endif
static void p_list(const char *dir, void (*fn)(const char *, void *),
void *userdata) {
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#if MG_ENABLE_DIRLIST
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struct dirent *dp;
DIR *dirp;
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if ((dirp = (opendir(dir))) == NULL) return;
while ((dp = readdir(dirp)) != NULL) {
if (!strcmp(dp->d_name, ".") || !strcmp(dp->d_name, "..")) continue;
fn(dp->d_name, userdata);
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}
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closedir(dirp);
#else
(void) dir, (void) fn, (void) userdata;
#endif
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}
static void *p_open(const char *path, int flags) {
const char *mode = flags == MG_FS_READ ? "rb" : "a+b";
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#if MG_ARCH == MG_ARCH_WIN32
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wchar_t b1[MG_PATH_MAX], b2[10];
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MultiByteToWideChar(CP_UTF8, 0, path, -1, b1, sizeof(b1) / sizeof(b1[0]));
MultiByteToWideChar(CP_UTF8, 0, mode, -1, b2, sizeof(b2) / sizeof(b2[0]));
return (void *) _wfopen(b1, b2);
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#else
return (void *) fopen(path, mode);
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#endif
}
static void p_close(void *fp) {
fclose((FILE *) fp);
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}
static size_t p_read(void *fp, void *buf, size_t len) {
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return fread(buf, 1, len, (FILE *) fp);
}
static size_t p_write(void *fp, const void *buf, size_t len) {
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return fwrite(buf, 1, len, (FILE *) fp);
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}
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static size_t p_seek(void *fp, size_t offset) {
#if (defined(_FILE_OFFSET_BITS) && _FILE_OFFSET_BITS == 64) || \
(defined(_POSIX_C_SOURCE) && _POSIX_C_SOURCE >= 200112L) || \
(defined(_XOPEN_SOURCE) && _XOPEN_SOURCE >= 600)
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if (fseeko((FILE *) fp, (off_t) offset, SEEK_SET) != 0) (void) 0;
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#else
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if (fseek((FILE *) fp, (long) offset, SEEK_SET) != 0) (void) 0;
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#endif
return (size_t) ftell((FILE *) fp);
}
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static bool p_rename(const char *from, const char *to) {
return rename(from, to) == 0;
}
static bool p_remove(const char *path) {
return remove(path) == 0;
}
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static bool p_mkdir(const char *path) {
return mkdir(path, 0775) == 0;
}
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#else
static int p_stat(const char *path, size_t *size, time_t *mtime) {
(void) path, (void) size, (void) mtime;
return 0;
}
static void p_list(const char *path, void (*fn)(const char *, void *),
void *userdata) {
(void) path, (void) fn, (void) userdata;
}
static void *p_open(const char *path, int flags) {
(void) path, (void) flags;
return NULL;
}
static void p_close(void *fp) {
(void) fp;
}
static size_t p_read(void *fd, void *buf, size_t len) {
(void) fd, (void) buf, (void) len;
return 0;
}
static size_t p_write(void *fd, const void *buf, size_t len) {
(void) fd, (void) buf, (void) len;
return 0;
}
static size_t p_seek(void *fd, size_t offset) {
(void) fd, (void) offset;
return (size_t) ~0;
}
static bool p_rename(const char *from, const char *to) {
(void) from, (void) to;
return false;
}
static bool p_remove(const char *path) {
(void) path;
return false;
}
static bool p_mkdir(const char *path) {
(void) path;
return false;
}
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#endif
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struct mg_fs mg_fs_posix = {p_stat, p_list, p_open, p_close, p_read,
p_write, p_seek, p_rename, p_remove, p_mkdir};
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#ifdef MG_ENABLE_LINES
#line 1 "src/http.c"
#endif
2020-12-11 01:46:26 +08:00
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// Chunk deletion marker is the MSB in the "processed" counter
#define MG_DMARK ((size_t) 1 << (sizeof(size_t) * 8 - 1))
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// Multipart POST example:
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// --xyz
// Content-Disposition: form-data; name="val"
//
// abcdef
// --xyz
// Content-Disposition: form-data; name="foo"; filename="a.txt"
// Content-Type: text/plain
//
// hello world
//
// --xyz--
size_t mg_http_next_multipart(struct mg_str body, size_t ofs,
struct mg_http_part *part) {
struct mg_str cd = mg_str_n("Content-Disposition", 19);
const char *s = body.ptr;
size_t b = ofs, h1, h2, b1, b2, max = body.len;
// Init part params
if (part != NULL) part->name = part->filename = part->body = mg_str_n(0, 0);
// Skip boundary
while (b + 2 < max && s[b] != '\r' && s[b + 1] != '\n') b++;
if (b <= ofs || b + 2 >= max) return 0;
// MG_INFO(("B: %zu %zu [%.*s]", ofs, b - ofs, (int) (b - ofs), s));
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// Skip headers
h1 = h2 = b + 2;
for (;;) {
while (h2 + 2 < max && s[h2] != '\r' && s[h2 + 1] != '\n') h2++;
if (h2 == h1) break;
if (h2 + 2 >= max) return 0;
// MG_INFO(("Header: [%.*s]", (int) (h2 - h1), &s[h1]));
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if (part != NULL && h1 + cd.len + 2 < h2 && s[h1 + cd.len] == ':' &&
mg_ncasecmp(&s[h1], cd.ptr, cd.len) == 0) {
struct mg_str v = mg_str_n(&s[h1 + cd.len + 2], h2 - (h1 + cd.len + 2));
part->name = mg_http_get_header_var(v, mg_str_n("name", 4));
part->filename = mg_http_get_header_var(v, mg_str_n("filename", 8));
}
h1 = h2 = h2 + 2;
}
b1 = b2 = h2 + 2;
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while (b2 + 2 + (b - ofs) + 2 < max && !(s[b2] == '\r' && s[b2 + 1] == '\n' &&
memcmp(&s[b2 + 2], s, b - ofs) == 0))
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b2++;
if (b2 + 2 >= max) return 0;
if (part != NULL) part->body = mg_str_n(&s[b1], b2 - b1);
// MG_INFO(("Body: [%.*s]", (int) (b2 - b1), &s[b1]));
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return b2 + 2;
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}
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void mg_http_bauth(struct mg_connection *c, const char *user,
const char *pass) {
struct mg_str u = mg_str(user), p = mg_str(pass);
size_t need = c->send.len + 36 + (u.len + p.len) * 2;
if (c->send.size < need) mg_iobuf_resize(&c->send, need);
if (c->send.size >= need) {
int i, n = 0;
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char *buf = (char *) &c->send.buf[c->send.len];
memcpy(buf, "Authorization: Basic ", 21); // DON'T use mg_send!
for (i = 0; i < (int) u.len; i++) {
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n = mg_base64_update(((unsigned char *) u.ptr)[i], buf + 21, n);
}
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if (p.len > 0) {
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n = mg_base64_update(':', buf + 21, n);
for (i = 0; i < (int) p.len; i++) {
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n = mg_base64_update(((unsigned char *) p.ptr)[i], buf + 21, n);
}
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}
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n = mg_base64_final(buf + 21, n);
c->send.len += 21 + (size_t) n + 2;
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memcpy(&c->send.buf[c->send.len - 2], "\r\n", 2);
} else {
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MG_ERROR(("%lu oom %d->%d ", c->id, (int) c->send.size, (int) need));
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}
}
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struct mg_str mg_http_var(struct mg_str buf, struct mg_str name) {
struct mg_str k, v, result = mg_str_n(NULL, 0);
while (mg_split(&buf, &k, &v, '&')) {
if (name.len == k.len && mg_ncasecmp(name.ptr, k.ptr, k.len) == 0) {
result = v;
break;
}
}
return result;
}
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int mg_http_get_var(const struct mg_str *buf, const char *name, char *dst,
size_t dst_len) {
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int len;
if (dst == NULL || dst_len == 0) {
len = -2; // Bad destination
} else if (buf->ptr == NULL || name == NULL || buf->len == 0) {
len = -1; // Bad source
dst[0] = '\0';
} else {
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struct mg_str v = mg_http_var(*buf, mg_str(name));
if (v.ptr == NULL) {
len = -4; // Name does not exist
} else {
len = mg_url_decode(v.ptr, v.len, dst, dst_len, 1);
if (len < 0) len = -3; // Failed to decode
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}
}
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return len;
}
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static bool isx(int c) {
return (c >= '0' && c <= '9') || (c >= 'a' && c <= 'f') ||
(c >= 'A' && c <= 'F');
}
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int mg_url_decode(const char *src, size_t src_len, char *dst, size_t dst_len,
int is_form_url_encoded) {
size_t i, j;
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for (i = j = 0; i < src_len && j + 1 < dst_len; i++, j++) {
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if (src[i] == '%') {
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// Use `i + 2 < src_len`, not `i < src_len - 2`, note small src_len
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if (i + 2 < src_len && isx(src[i + 1]) && isx(src[i + 2])) {
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mg_unhex(src + i + 1, 2, (uint8_t *) &dst[j]);
i += 2;
} else {
return -1;
}
} else if (is_form_url_encoded && src[i] == '+') {
dst[j] = ' ';
} else {
dst[j] = src[i];
}
}
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if (j < dst_len) dst[j] = '\0'; // Null-terminate the destination
return i >= src_len && j < dst_len ? (int) j : -1;
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}
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static bool isok(uint8_t c) {
return c == '\n' || c == '\r' || c >= ' ';
}
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int mg_http_get_request_len(const unsigned char *buf, size_t buf_len) {
size_t i;
for (i = 0; i < buf_len; i++) {
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if (!isok(buf[i])) return -1;
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if ((i > 0 && buf[i] == '\n' && buf[i - 1] == '\n') ||
(i > 3 && buf[i] == '\n' && buf[i - 1] == '\r' && buf[i - 2] == '\n'))
return (int) i + 1;
}
return 0;
}
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static const char *skip(const char *s, const char *e, const char *d,
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struct mg_str *v) {
v->ptr = s;
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while (s < e && *s != '\n' && strchr(d, *s) == NULL) s++;
v->len = (size_t) (s - v->ptr);
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while (s < e && strchr(d, *s) != NULL) s++;
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return s;
}
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struct mg_str *mg_http_get_header(struct mg_http_message *h, const char *name) {
size_t i, n = strlen(name), max = sizeof(h->headers) / sizeof(h->headers[0]);
for (i = 0; i < max && h->headers[i].name.len > 0; i++) {
struct mg_str *k = &h->headers[i].name, *v = &h->headers[i].value;
if (n == k->len && mg_ncasecmp(k->ptr, name, n) == 0) return v;
}
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return NULL;
}
static void mg_http_parse_headers(const char *s, const char *end,
struct mg_http_header *h, int max_headers) {
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int i;
for (i = 0; i < max_headers; i++) {
struct mg_str k, v, tmp;
const char *he = skip(s, end, "\n", &tmp);
s = skip(s, he, ": \r\n", &k);
s = skip(s, he, "\r\n", &v);
if (k.len == tmp.len) continue;
while (v.len > 0 && v.ptr[v.len - 1] == ' ') v.len--; // Trim spaces
if (k.len == 0) break;
// MG_INFO(("--HH [%.*s] [%.*s] [%.*s]", (int) tmp.len - 1, tmp.ptr,
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//(int) k.len, k.ptr, (int) v.len, v.ptr));
h[i].name = k;
h[i].value = v;
}
}
int mg_http_parse(const char *s, size_t len, struct mg_http_message *hm) {
int is_response, req_len = mg_http_get_request_len((unsigned char *) s, len);
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const char *end = s == NULL ? NULL : s + req_len, *qs; // Cannot add to NULL
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struct mg_str *cl;
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memset(hm, 0, sizeof(*hm));
if (req_len <= 0) return req_len;
hm->message.ptr = hm->head.ptr = s;
hm->body.ptr = end;
hm->head.len = (size_t) req_len;
hm->chunk.ptr = end;
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hm->message.len = hm->body.len = (size_t) ~0; // Set body length to infinite
// Parse request line
s = skip(s, end, " ", &hm->method);
s = skip(s, end, " ", &hm->uri);
s = skip(s, end, "\r\n", &hm->proto);
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// Sanity check. Allow protocol/reason to be empty
if (hm->method.len == 0 || hm->uri.len == 0) return -1;
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// If URI contains '?' character, setup query string
if ((qs = (const char *) memchr(hm->uri.ptr, '?', hm->uri.len)) != NULL) {
hm->query.ptr = qs + 1;
hm->query.len = (size_t) (&hm->uri.ptr[hm->uri.len] - (qs + 1));
hm->uri.len = (size_t) (qs - hm->uri.ptr);
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}
mg_http_parse_headers(s, end, hm->headers,
sizeof(hm->headers) / sizeof(hm->headers[0]));
if ((cl = mg_http_get_header(hm, "Content-Length")) != NULL) {
hm->body.len = (size_t) mg_to64(*cl);
hm->message.len = (size_t) req_len + hm->body.len;
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}
// mg_http_parse() is used to parse both HTTP requests and HTTP
// responses. If HTTP response does not have Content-Length set, then
// body is read until socket is closed, i.e. body.len is infinite (~0).
//
// For HTTP requests though, according to
// http://tools.ietf.org/html/rfc7231#section-8.1.3,
// only POST and PUT methods have defined body semantics.
// Therefore, if Content-Length is not specified and methods are
// not one of PUT or POST, set body length to 0.
//
// So, if it is HTTP request, and Content-Length is not set,
// and method is not (PUT or POST) then reset body length to zero.
is_response = mg_ncasecmp(hm->method.ptr, "HTTP/", 5) == 0;
if (hm->body.len == (size_t) ~0 && !is_response &&
mg_vcasecmp(&hm->method, "PUT") != 0 &&
mg_vcasecmp(&hm->method, "POST") != 0) {
hm->body.len = 0;
hm->message.len = (size_t) req_len;
}
// The 204 (No content) responses also have 0 body length
if (hm->body.len == (size_t) ~0 && is_response &&
mg_vcasecmp(&hm->uri, "204") == 0) {
hm->body.len = 0;
hm->message.len = (size_t) req_len;
}
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return req_len;
}
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static void mg_http_vprintf_chunk(struct mg_connection *c, const char *fmt,
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va_list *ap) {
size_t len = c->send.len;
mg_send(c, " \r\n", 10);
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mg_vxprintf(mg_pfn_iobuf, &c->send, fmt, ap);
if (c->send.len >= len + 10) {
mg_snprintf((char *) c->send.buf + len, 9, "%08lx", c->send.len - len - 10);
c->send.buf[len + 8] = '\r';
if (c->send.len == len + 10) c->is_resp = 0; // Last chunk, reset marker
}
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mg_send(c, "\r\n", 2);
}
void mg_http_printf_chunk(struct mg_connection *c, const char *fmt, ...) {
va_list ap;
va_start(ap, fmt);
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mg_http_vprintf_chunk(c, fmt, &ap);
va_end(ap);
}
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void mg_http_write_chunk(struct mg_connection *c, const char *buf, size_t len) {
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mg_printf(c, "%lx\r\n", (unsigned long) len);
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mg_send(c, buf, len);
mg_send(c, "\r\n", 2);
if (len == 0) c->is_resp = 0;
}
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// clang-format off
static const char *mg_http_status_code_str(int status_code) {
switch (status_code) {
case 100: return "Continue";
case 201: return "Created";
case 202: return "Accepted";
case 204: return "No Content";
case 206: return "Partial Content";
case 301: return "Moved Permanently";
case 302: return "Found";
case 304: return "Not Modified";
case 400: return "Bad Request";
case 401: return "Unauthorized";
case 403: return "Forbidden";
case 404: return "Not Found";
case 418: return "I'm a teapot";
case 500: return "Internal Server Error";
case 501: return "Not Implemented";
default: return "OK";
}
}
// clang-format on
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void mg_http_reply(struct mg_connection *c, int code, const char *headers,
const char *fmt, ...) {
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va_list ap;
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size_t len;
mg_printf(c, "HTTP/1.1 %d %s\r\n%sContent-Length: \r\n\r\n", code,
mg_http_status_code_str(code), headers == NULL ? "" : headers);
len = c->send.len;
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va_start(ap, fmt);
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mg_vxprintf(mg_pfn_iobuf, &c->send, fmt, &ap);
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va_end(ap);
if (c->send.len > 15) {
mg_snprintf((char *) &c->send.buf[len - 14], 11, "%010lu",
(unsigned long) (c->send.len - len));
c->is_resp = 0;
c->send.buf[len - 4] = '\r'; // Change ending 0 to space
}
c->is_resp = 0;
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}
static void http_cb(struct mg_connection *, int, void *, void *);
static void restore_http_cb(struct mg_connection *c) {
mg_fs_close((struct mg_fd *) c->pfn_data);
c->pfn_data = NULL;
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c->pfn = http_cb;
c->is_resp = 0;
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}
char *mg_http_etag(char *buf, size_t len, size_t size, time_t mtime);
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char *mg_http_etag(char *buf, size_t len, size_t size, time_t mtime) {
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mg_snprintf(buf, len, "\"%lld.%lld\"", (int64_t) mtime, (int64_t) size);
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return buf;
}
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static void static_cb(struct mg_connection *c, int ev, void *ev_data,
void *fn_data) {
if (ev == MG_EV_WRITE || ev == MG_EV_POLL) {
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struct mg_fd *fd = (struct mg_fd *) fn_data;
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// Read to send IO buffer directly, avoid extra on-stack buffer
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size_t n, max = MG_IO_SIZE, space;
size_t *cl = (size_t *) &c->label[(sizeof(c->label) - sizeof(size_t)) /
sizeof(size_t) * sizeof(size_t)];
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if (c->send.size < max) mg_iobuf_resize(&c->send, max);
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if (c->send.len >= c->send.size) return; // Rate limit
if ((space = c->send.size - c->send.len) > *cl) space = *cl;
n = fd->fs->rd(fd->fd, c->send.buf + c->send.len, space);
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c->send.len += n;
*cl -= n;
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if (n == 0) restore_http_cb(c);
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} else if (ev == MG_EV_CLOSE) {
restore_http_cb(c);
}
(void) ev_data;
}
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// Known mime types. Keep it outside guess_content_type() function, since
// some environments don't like it defined there.
// clang-format off
static struct mg_str s_known_types[] = {
MG_C_STR("html"), MG_C_STR("text/html; charset=utf-8"),
MG_C_STR("htm"), MG_C_STR("text/html; charset=utf-8"),
MG_C_STR("css"), MG_C_STR("text/css; charset=utf-8"),
MG_C_STR("js"), MG_C_STR("text/javascript; charset=utf-8"),
MG_C_STR("gif"), MG_C_STR("image/gif"),
MG_C_STR("png"), MG_C_STR("image/png"),
MG_C_STR("jpg"), MG_C_STR("image/jpeg"),
MG_C_STR("jpeg"), MG_C_STR("image/jpeg"),
MG_C_STR("woff"), MG_C_STR("font/woff"),
MG_C_STR("ttf"), MG_C_STR("font/ttf"),
MG_C_STR("svg"), MG_C_STR("image/svg+xml"),
MG_C_STR("txt"), MG_C_STR("text/plain; charset=utf-8"),
MG_C_STR("avi"), MG_C_STR("video/x-msvideo"),
MG_C_STR("csv"), MG_C_STR("text/csv"),
MG_C_STR("doc"), MG_C_STR("application/msword"),
MG_C_STR("exe"), MG_C_STR("application/octet-stream"),
MG_C_STR("gz"), MG_C_STR("application/gzip"),
MG_C_STR("ico"), MG_C_STR("image/x-icon"),
MG_C_STR("json"), MG_C_STR("application/json"),
MG_C_STR("mov"), MG_C_STR("video/quicktime"),
MG_C_STR("mp3"), MG_C_STR("audio/mpeg"),
MG_C_STR("mp4"), MG_C_STR("video/mp4"),
MG_C_STR("mpeg"), MG_C_STR("video/mpeg"),
MG_C_STR("pdf"), MG_C_STR("application/pdf"),
MG_C_STR("shtml"), MG_C_STR("text/html; charset=utf-8"),
MG_C_STR("tgz"), MG_C_STR("application/tar-gz"),
MG_C_STR("wav"), MG_C_STR("audio/wav"),
MG_C_STR("webp"), MG_C_STR("image/webp"),
MG_C_STR("zip"), MG_C_STR("application/zip"),
MG_C_STR("3gp"), MG_C_STR("video/3gpp"),
{0, 0},
};
// clang-format on
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static struct mg_str guess_content_type(struct mg_str path, const char *extra) {
struct mg_str k, v, s = mg_str(extra);
size_t i = 0;
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// Shrink path to its extension only
while (i < path.len && path.ptr[path.len - i - 1] != '.') i++;
path.ptr += path.len - i;
path.len = i;
// Process user-provided mime type overrides, if any
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while (mg_commalist(&s, &k, &v)) {
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if (mg_strcmp(path, k) == 0) return v;
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}
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// Process built-in mime types
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for (i = 0; s_known_types[i].ptr != NULL; i += 2) {
if (mg_strcmp(path, s_known_types[i]) == 0) return s_known_types[i + 1];
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}
return mg_str("text/plain; charset=utf-8");
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}
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static int getrange(struct mg_str *s, int64_t *a, int64_t *b) {
size_t i, numparsed = 0;
// MG_INFO(("%.*s", (int) s->len, s->ptr));
for (i = 0; i + 6 < s->len; i++) {
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if (memcmp(&s->ptr[i], "bytes=", 6) == 0) {
struct mg_str p = mg_str_n(s->ptr + i + 6, s->len - i - 6);
if (p.len > 0 && p.ptr[0] >= '0' && p.ptr[0] <= '9') numparsed++;
*a = mg_to64(p);
// MG_INFO(("PPP [%.*s] %d", (int) p.len, p.ptr, numparsed));
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while (p.len && p.ptr[0] >= '0' && p.ptr[0] <= '9') p.ptr++, p.len--;
if (p.len && p.ptr[0] == '-') p.ptr++, p.len--;
*b = mg_to64(p);
if (p.len > 0 && p.ptr[0] >= '0' && p.ptr[0] <= '9') numparsed++;
// MG_INFO(("PPP [%.*s] %d", (int) p.len, p.ptr, numparsed));
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break;
}
}
return (int) numparsed;
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}
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void mg_http_serve_file(struct mg_connection *c, struct mg_http_message *hm,
const char *path,
const struct mg_http_serve_opts *opts) {
char etag[64], tmp[MG_PATH_MAX];
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struct mg_fs *fs = opts->fs == NULL ? &mg_fs_posix : opts->fs;
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struct mg_fd *fd = path == NULL ? NULL : mg_fs_open(fs, path, MG_FS_READ);
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size_t size = 0;
time_t mtime = 0;
struct mg_str *inm = NULL;
struct mg_str mime = guess_content_type(mg_str(path), opts->mime_types);
bool gzip = false;
// If file does not exist, we try to open file PATH.gz - and if such
// pre-compressed .gz file exists, serve it with the Content-Encoding: gzip
// Note - we ignore Accept-Encoding, cause we don't have a choice
if (fd == NULL) {
MG_DEBUG(("NULL [%s]", path));
mg_snprintf(tmp, sizeof(tmp), "%s.gz", path);
if ((fd = mg_fs_open(fs, tmp, MG_FS_READ)) != NULL) {
gzip = true;
path = tmp;
} else if (opts->page404 != NULL) {
// No precompressed file, serve 404
fd = mg_fs_open(fs, opts->page404, MG_FS_READ);
mime = guess_content_type(mg_str(path), opts->mime_types);
path = opts->page404;
}
}
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if (fd == NULL || fs->st(path, &size, &mtime) == 0) {
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mg_http_reply(c, 404, opts->extra_headers, "Not found\n");
mg_fs_close(fd);
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// NOTE: mg_http_etag() call should go first!
} else if (mg_http_etag(etag, sizeof(etag), size, mtime) != NULL &&
(inm = mg_http_get_header(hm, "If-None-Match")) != NULL &&
mg_vcasecmp(inm, etag) == 0) {
mg_fs_close(fd);
mg_http_reply(c, 304, opts->extra_headers, "");
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} else {
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int n, status = 200;
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char range[100];
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int64_t r1 = 0, r2 = 0, cl = (int64_t) size;
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// Handle Range header
struct mg_str *rh = mg_http_get_header(hm, "Range");
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range[0] = '\0';
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if (rh != NULL && (n = getrange(rh, &r1, &r2)) > 0 && r1 >= 0 && r2 >= 0) {
// If range is specified like "400-", set second limit to content len
if (n == 1) r2 = cl - 1;
if (r1 > r2 || r2 >= cl) {
status = 416;
cl = 0;
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mg_snprintf(range, sizeof(range), "Content-Range: bytes */%lld\r\n",
(int64_t) size);
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} else {
status = 206;
cl = r2 - r1 + 1;
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mg_snprintf(range, sizeof(range),
"Content-Range: bytes %lld-%lld/%lld\r\n", r1, r1 + cl - 1,
(int64_t) size);
fs->sk(fd->fd, (size_t) r1);
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}
}
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mg_printf(c,
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"HTTP/1.1 %d %s\r\n"
"Content-Type: %.*s\r\n"
"Etag: %s\r\n"
"Content-Length: %llu\r\n"
"%s%s%s\r\n",
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status, mg_http_status_code_str(status), (int) mime.len, mime.ptr,
etag, cl, gzip ? "Content-Encoding: gzip\r\n" : "", range,
opts->extra_headers ? opts->extra_headers : "");
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if (mg_vcasecmp(&hm->method, "HEAD") == 0) {
c->is_draining = 1;
c->is_resp = 0;
mg_fs_close(fd);
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} else {
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// Track to-be-sent content length at the end of c->label, aligned
size_t *clp = (size_t *) &c->label[(sizeof(c->label) - sizeof(size_t)) /
sizeof(size_t) * sizeof(size_t)];
c->pfn = static_cb;
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c->pfn_data = fd;
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*clp = (size_t) cl;
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}
}
}
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struct printdirentrydata {
struct mg_connection *c;
struct mg_http_message *hm;
const struct mg_http_serve_opts *opts;
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const char *dir;
};
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static void printdirentry(const char *name, void *userdata) {
struct printdirentrydata *d = (struct printdirentrydata *) userdata;
struct mg_fs *fs = d->opts->fs == NULL ? &mg_fs_posix : d->opts->fs;
size_t size = 0;
time_t t = 0;
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char path[MG_PATH_MAX], sz[40], mod[40];
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int flags, n = 0;
// MG_DEBUG(("[%s] [%s]", d->dir, name));
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if (mg_snprintf(path, sizeof(path), "%s%c%s", d->dir, '/', name) >
sizeof(path)) {
MG_ERROR(("%s truncated", name));
} else if ((flags = fs->st(path, &size, &t)) == 0) {
MG_ERROR(("%lu stat(%s): %d", d->c->id, path, errno));
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} else {
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const char *slash = flags & MG_FS_DIR ? "/" : "";
if (flags & MG_FS_DIR) {
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mg_snprintf(sz, sizeof(sz), "%s", "[DIR]");
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} else {
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mg_snprintf(sz, sizeof(sz), "%lld", (uint64_t) size);
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}
#if defined(MG_HTTP_DIRLIST_TIME)
char time_str[30];
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struct tm *time_info = localtime(&t);
strftime(time_str, sizeof time_str, "%Y/%m/%d %H:%M:%S", time_info);
mg_snprintf(mod, sizeof(mod), "%s", time_str);
#elif defined(MG_HTTP_DIRLIST_TIME_UTC)
char time_str[30];
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struct tm *time_info = gmtime(&t);
strftime(time_str, sizeof time_str, "%Y/%m/%d %H:%M:%S", time_info);
mg_snprintf(mod, sizeof(mod), "%s", time_str);
#else
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mg_snprintf(mod, sizeof(mod), "%ld", (unsigned long) t);
#endif
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n = (int) mg_url_encode(name, strlen(name), path, sizeof(path));
mg_printf(d->c,
" <tr><td><a href=\"%.*s%s\">%s%s</a></td>"
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"<td name=%lu>%s</td><td name=%lld>%s</td></tr>\n",
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n, path, slash, name, slash, (unsigned long) t, mod,
flags & MG_FS_DIR ? (int64_t) -1 : (int64_t) size, sz);
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}
}
static void listdir(struct mg_connection *c, struct mg_http_message *hm,
const struct mg_http_serve_opts *opts, char *dir) {
const char *sort_js_code =
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"<script>function srt(tb, sc, so, d) {"
"var tr = Array.prototype.slice.call(tb.rows, 0),"
"tr = tr.sort(function (a, b) { var c1 = a.cells[sc], c2 = b.cells[sc],"
"n1 = c1.getAttribute('name'), n2 = c2.getAttribute('name'), "
"t1 = a.cells[2].getAttribute('name'), "
"t2 = b.cells[2].getAttribute('name'); "
"return so * (t1 < 0 && t2 >= 0 ? -1 : t2 < 0 && t1 >= 0 ? 1 : "
"n1 ? parseInt(n2) - parseInt(n1) : "
"c1.textContent.trim().localeCompare(c2.textContent.trim())); });";
const char *sort_js_code2 =
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"for (var i = 0; i < tr.length; i++) tb.appendChild(tr[i]); "
"if (!d) window.location.hash = ('sc=' + sc + '&so=' + so); "
"};"
"window.onload = function() {"
"var tb = document.getElementById('tb');"
"var m = /sc=([012]).so=(1|-1)/.exec(window.location.hash) || [0, 2, 1];"
"var sc = m[1], so = m[2]; document.onclick = function(ev) { "
"var c = ev.target.rel; if (c) {if (c == sc) so *= -1; srt(tb, c, so); "
"sc = c; ev.preventDefault();}};"
"srt(tb, sc, so, true);"
"}"
"</script>";
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struct mg_fs *fs = opts->fs == NULL ? &mg_fs_posix : opts->fs;
struct printdirentrydata d = {c, hm, opts, dir};
char tmp[10], buf[MG_PATH_MAX];
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size_t off, n;
int len = mg_url_decode(hm->uri.ptr, hm->uri.len, buf, sizeof(buf), 0);
struct mg_str uri = len > 0 ? mg_str_n(buf, (size_t) len) : hm->uri;
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mg_printf(c,
"HTTP/1.1 200 OK\r\n"
"Content-Type: text/html; charset=utf-8\r\n"
"%s"
"Content-Length: \r\n\r\n",
opts->extra_headers == NULL ? "" : opts->extra_headers);
off = c->send.len; // Start of body
mg_printf(c,
"<!DOCTYPE html><html><head><title>Index of %.*s</title>%s%s"
"<style>th,td {text-align: left; padding-right: 1em; "
"font-family: monospace; }</style></head>"
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"<body><h1>Index of %.*s</h1><table cellpadding=\"0\"><thead>"
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"<tr><th><a href=\"#\" rel=\"0\">Name</a></th><th>"
"<a href=\"#\" rel=\"1\">Modified</a></th>"
"<th><a href=\"#\" rel=\"2\">Size</a></th></tr>"
"<tr><td colspan=\"3\"><hr></td></tr>"
"</thead>"
"<tbody id=\"tb\">\n",
(int) uri.len, uri.ptr, sort_js_code, sort_js_code2, (int) uri.len,
uri.ptr);
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mg_printf(c, "%s",
" <tr><td><a href=\"..\">..</a></td>"
"<td name=-1></td><td name=-1>[DIR]</td></tr>\n");
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fs->ls(dir, printdirentry, &d);
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mg_printf(c,
"</tbody><tfoot><tr><td colspan=\"3\"><hr></td></tr></tfoot>"
"</table><address>Mongoose v.%s</address></body></html>\n",
MG_VERSION);
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n = mg_snprintf(tmp, sizeof(tmp), "%lu", (unsigned long) (c->send.len - off));
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if (n > sizeof(tmp)) n = 0;
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memcpy(c->send.buf + off - 12, tmp, n); // Set content length
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c->is_resp = 0; // Mark response end
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}
// Resolve requested file into `path` and return its fs->st() result
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static int uri_to_path2(struct mg_connection *c, struct mg_http_message *hm,
struct mg_fs *fs, struct mg_str url, struct mg_str dir,
char *path, size_t path_size) {
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int flags, tmp;
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// Append URI to the root_dir, and sanitize it
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size_t n = mg_snprintf(path, path_size, "%.*s", (int) dir.len, dir.ptr);
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if (n > path_size) n = path_size;
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path[path_size - 1] = '\0';
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if (n + 2 < path_size) path[n++] = '/', path[n] = '\0';
mg_url_decode(hm->uri.ptr + url.len, hm->uri.len - url.len, path + n,
path_size - n, 0);
path[path_size - 1] = '\0'; // Double-check
mg_remove_double_dots(path);
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n = strlen(path);
while (n > 1 && path[n - 1] == '/') path[--n] = 0; // Trim trailing slashes
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flags = mg_vcmp(&hm->uri, "/") == 0 ? MG_FS_DIR : fs->st(path, NULL, NULL);
MG_VERBOSE(("%lu %.*s -> %s %d", c->id, (int) hm->uri.len, hm->uri.ptr, path,
flags));
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if (flags == 0) {
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// Do nothing - let's caller decide
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} else if ((flags & MG_FS_DIR) && hm->uri.len > 0 &&
hm->uri.ptr[hm->uri.len - 1] != '/') {
mg_printf(c,
"HTTP/1.1 301 Moved\r\n"
"Location: %.*s/\r\n"
"Content-Length: 0\r\n"
"\r\n",
(int) hm->uri.len, hm->uri.ptr);
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c->is_resp = 0;
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flags = -1;
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} else if (flags & MG_FS_DIR) {
if (((mg_snprintf(path + n, path_size - n, "/" MG_HTTP_INDEX) > 0 &&
(tmp = fs->st(path, NULL, NULL)) != 0) ||
(mg_snprintf(path + n, path_size - n, "/index.shtml") > 0 &&
(tmp = fs->st(path, NULL, NULL)) != 0))) {
flags = tmp;
} else if ((mg_snprintf(path + n, path_size - n, "/" MG_HTTP_INDEX ".gz") >
0 &&
(tmp = fs->st(path, NULL, NULL)) !=
0)) { // check for gzipped index
flags = tmp;
path[n + 1 + strlen(MG_HTTP_INDEX)] =
'\0'; // Remove appended .gz in index file name
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} else {
path[n] = '\0'; // Remove appended index file name
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}
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}
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return flags;
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}
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static int uri_to_path(struct mg_connection *c, struct mg_http_message *hm,
const struct mg_http_serve_opts *opts, char *path,
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size_t path_size) {
struct mg_fs *fs = opts->fs == NULL ? &mg_fs_posix : opts->fs;
struct mg_str k, v, s = mg_str(opts->root_dir), u = {0, 0}, p = {0, 0};
while (mg_commalist(&s, &k, &v)) {
if (v.len == 0) v = k, k = mg_str("/");
if (hm->uri.len < k.len) continue;
if (mg_strcmp(k, mg_str_n(hm->uri.ptr, k.len)) != 0) continue;
u = k, p = v;
}
return uri_to_path2(c, hm, fs, u, p, path, path_size);
}
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void mg_http_serve_dir(struct mg_connection *c, struct mg_http_message *hm,
const struct mg_http_serve_opts *opts) {
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char path[MG_PATH_MAX];
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const char *sp = opts->ssi_pattern;
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int flags = uri_to_path(c, hm, opts, path, sizeof(path));
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if (flags < 0) {
// Do nothing: the response has already been sent by uri_to_path()
} else if (flags & MG_FS_DIR) {
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listdir(c, hm, opts, path);
} else if (flags && sp != NULL &&
mg_globmatch(sp, strlen(sp), path, strlen(path))) {
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mg_http_serve_ssi(c, opts->root_dir, path);
} else {
mg_http_serve_file(c, hm, path, opts);
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}
}
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static bool mg_is_url_safe(int c) {
return (c >= '0' && c <= '9') || (c >= 'a' && c <= 'z') ||
(c >= 'A' && c <= 'Z') || c == '.' || c == '_' || c == '-' || c == '~';
}
size_t mg_url_encode(const char *s, size_t sl, char *buf, size_t len) {
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size_t i, n = 0;
for (i = 0; i < sl; i++) {
int c = *(unsigned char *) &s[i];
if (n + 4 >= len) return 0;
if (mg_is_url_safe(c)) {
buf[n++] = s[i];
} else {
buf[n++] = '%';
mg_hex(&s[i], 1, &buf[n]);
n += 2;
}
}
return n;
}
void mg_http_creds(struct mg_http_message *hm, char *user, size_t userlen,
char *pass, size_t passlen) {
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struct mg_str *v = mg_http_get_header(hm, "Authorization");
user[0] = pass[0] = '\0';
if (v != NULL && v->len > 6 && memcmp(v->ptr, "Basic ", 6) == 0) {
char buf[256];
int n = mg_base64_decode(v->ptr + 6, (int) v->len - 6, buf);
const char *p = (const char *) memchr(buf, ':', n > 0 ? (size_t) n : 0);
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if (p != NULL) {
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mg_snprintf(user, userlen, "%.*s", (int) (p - buf), buf);
mg_snprintf(pass, passlen, "%.*s", n - (int) (p - buf) - 1, p + 1);
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}
} else if (v != NULL && v->len > 7 && memcmp(v->ptr, "Bearer ", 7) == 0) {
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mg_snprintf(pass, passlen, "%.*s", (int) v->len - 7, v->ptr + 7);
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} else if ((v = mg_http_get_header(hm, "Cookie")) != NULL) {
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struct mg_str t = mg_http_get_header_var(*v, mg_str_n("access_token", 12));
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if (t.len > 0) mg_snprintf(pass, passlen, "%.*s", (int) t.len, t.ptr);
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} else {
mg_http_get_var(&hm->query, "access_token", pass, passlen);
}
}
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static struct mg_str stripquotes(struct mg_str s) {
return s.len > 1 && s.ptr[0] == '"' && s.ptr[s.len - 1] == '"'
? mg_str_n(s.ptr + 1, s.len - 2)
: s;
}
struct mg_str mg_http_get_header_var(struct mg_str s, struct mg_str v) {
size_t i;
for (i = 0; v.len > 0 && i + v.len + 2 < s.len; i++) {
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if (s.ptr[i + v.len] == '=' && memcmp(&s.ptr[i], v.ptr, v.len) == 0) {
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const char *p = &s.ptr[i + v.len + 1], *b = p, *x = &s.ptr[s.len];
int q = p < x && *p == '"' ? 1 : 0;
while (p < x &&
(q ? p == b || *p != '"' : *p != ';' && *p != ' ' && *p != ','))
p++;
// MG_INFO(("[%.*s] [%.*s] [%.*s]", (int) s.len, s.ptr, (int) v.len,
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// v.ptr, (int) (p - b), b));
return stripquotes(mg_str_n(b, (size_t) (p - b + q)));
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}
}
return mg_str_n(NULL, 0);
}
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bool mg_http_match_uri(const struct mg_http_message *hm, const char *glob) {
return mg_match(hm->uri, mg_str(glob), NULL);
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}
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long mg_http_upload(struct mg_connection *c, struct mg_http_message *hm,
struct mg_fs *fs, const char *path, size_t max_size) {
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char buf[20] = "0";
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long res = 0, offset;
mg_http_get_var(&hm->query, "offset", buf, sizeof(buf));
offset = strtol(buf, NULL, 0);
if (hm->body.len == 0) {
mg_http_reply(c, 200, "", "%ld", res); // Nothing to write
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} else {
struct mg_fd *fd;
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size_t current_size = 0;
MG_DEBUG(("%s -> %d bytes @ %ld", path, (int) hm->body.len, offset));
if (offset == 0) fs->rm(path); // If offset if 0, truncate file
fs->st(path, &current_size, NULL);
if (offset < 0) {
mg_http_reply(c, 400, "", "offset required");
res = -1;
} else if (offset > 0 && current_size != (size_t) offset) {
mg_http_reply(c, 400, "", "%s: offset mismatch", path);
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res = -2;
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} else if ((size_t) offset + hm->body.len > max_size) {
mg_http_reply(c, 400, "", "%s: over max size of %lu", path,
(unsigned long) max_size);
res = -3;
} else if ((fd = mg_fs_open(fs, path, MG_FS_WRITE)) == NULL) {
mg_http_reply(c, 400, "", "open(%s): %d", path, errno);
res = -4;
} else {
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res = offset + (long) fs->wr(fd->fd, hm->body.ptr, hm->body.len);
mg_fs_close(fd);
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mg_http_reply(c, 200, "", "%ld", res);
}
}
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return res;
}
int mg_http_status(const struct mg_http_message *hm) {
return atoi(hm->uri.ptr);
}
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// If a server sends data to the client using chunked encoding, Mongoose strips
// off the chunking prefix (hex length and \r\n) and suffix (\r\n), appends the
// stripped data to the body, and fires the MG_EV_HTTP_CHUNK event. When zero
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// chunk is received, we fire MG_EV_HTTP_MSG, and the body already has all
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// chunking prefixes/suffixes stripped.
//
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// If a server sends data without chunked encoding, we also fire a series of
// MG_EV_HTTP_CHUNK events for every received piece of data, and then we fire
// MG_EV_HTTP_MSG event in the end.
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//
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// We track total processed length in the c->pfn_data, which is a void *
// pointer: we store a size_t value there.
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static bool getchunk(struct mg_str s, size_t *prefixlen, size_t *datalen) {
size_t i = 0, n;
while (i < s.len && s.ptr[i] != '\r' && s.ptr[i] != '\n') i++;
n = mg_unhexn(s.ptr, i);
// MG_INFO(("%d %d", (int) (i + n + 4), (int) s.len));
if (s.len < i + n + 4) return false; // Chunk not yet fully buffered
if (s.ptr[i] != '\r' || s.ptr[i + 1] != '\n') return false;
if (s.ptr[i + n + 2] != '\r' || s.ptr[i + n + 3] != '\n') return false;
*prefixlen = i + 2;
*datalen = n;
return true;
}
static bool mg_is_chunked(struct mg_http_message *hm) {
const char *needle = "chunked";
struct mg_str *te = mg_http_get_header(hm, "Transfer-Encoding");
return te != NULL && mg_vcasecmp(te, needle) == 0;
}
void mg_http_delete_chunk(struct mg_connection *c, struct mg_http_message *hm) {
size_t ofs = (size_t) (hm->chunk.ptr - (char *) c->recv.buf);
mg_iobuf_del(&c->recv, ofs, hm->chunk.len);
c->pfn_data = (void *) ((size_t) c->pfn_data | MG_DMARK);
}
static void deliver_chunked_chunks(struct mg_connection *c, size_t hlen,
struct mg_http_message *hm, bool *next) {
// | ... headers ... | HEXNUM\r\n ..data.. \r\n | ......
// +------------------+--------------------------+----
// | hlen | chunk1 | ......
char *buf = (char *) &c->recv.buf[hlen], *p = buf;
size_t len = c->recv.len - hlen;
size_t processed = ((size_t) c->pfn_data) & ~MG_DMARK;
size_t mark, pl, dl, del = 0, ofs = 0;
bool last = false;
if (processed <= len) len -= processed, buf += processed;
while (!last && getchunk(mg_str_n(buf + ofs, len - ofs), &pl, &dl)) {
size_t saved = c->recv.len;
memmove(p + processed, buf + ofs + pl, dl);
// MG_INFO(("P2 [%.*s]", (int) (processed + dl), p));
hm->chunk = mg_str_n(p + processed, dl);
mg_call(c, MG_EV_HTTP_CHUNK, hm);
ofs += pl + dl + 2, del += pl + 2; // 2 is for \r\n suffix
processed += dl;
if (c->recv.len != saved) processed -= dl, buf -= dl;
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// mg_hexdump(c->recv.buf, hlen + processed);
last = (dl == 0);
}
mg_iobuf_del(&c->recv, hlen + processed, del);
mark = ((size_t) c->pfn_data) & MG_DMARK;
c->pfn_data = (void *) (processed | mark);
if (last) {
hm->body.len = processed;
hm->message.len = hlen + processed;
c->pfn_data = NULL;
if (mark) mg_iobuf_del(&c->recv, 0, hlen), *next = true;
// MG_INFO(("LAST, mark: %lx", mark));
// mg_hexdump(c->recv.buf, c->recv.len);
}
}
static void deliver_normal_chunks(struct mg_connection *c, size_t hlen,
struct mg_http_message *hm, bool *next) {
size_t left, processed = ((size_t) c->pfn_data) & ~MG_DMARK;
size_t deleted = ((size_t) c->pfn_data) & MG_DMARK;
hm->chunk = mg_str_n((char *) &c->recv.buf[hlen], c->recv.len - hlen);
if (processed <= hm->chunk.len && !deleted) {
hm->chunk.len -= processed;
hm->chunk.ptr += processed;
}
left = hm->body.len < processed ? 0 : hm->body.len - processed;
if (hm->chunk.len > left) hm->chunk.len = left;
if (hm->chunk.len > 0) mg_call(c, MG_EV_HTTP_CHUNK, hm);
processed += hm->chunk.len;
deleted = ((size_t) c->pfn_data) & MG_DMARK; // Re-evaluate after user call
if (processed >= hm->body.len) { // Last, 0-len chunk
hm->chunk.len = 0; // Reset length
mg_call(c, MG_EV_HTTP_CHUNK, hm); // Call user handler
c->pfn_data = NULL; // Reset processed counter
if (processed && deleted) mg_iobuf_del(&c->recv, 0, hlen), *next = true;
} else {
c->pfn_data = (void *) (processed | deleted); // if it is set
}
}
static void http_cb(struct mg_connection *c, int ev, void *evd, void *fnd) {
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if (ev == MG_EV_READ || ev == MG_EV_CLOSE) {
struct mg_http_message hm;
// mg_hexdump(c->recv.buf, c->recv.len);
while (c->recv.buf != NULL && c->recv.len > 0) {
bool next = false;
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int hlen = mg_http_parse((char *) c->recv.buf, c->recv.len, &hm);
if (hlen < 0) {
mg_error(c, "HTTP parse:\n%.*s", (int) c->recv.len, c->recv.buf);
break;
}
if (c->is_resp) break; // Response is still generated
if (hlen == 0) break; // Request is not buffered yet
if (ev == MG_EV_CLOSE) { // If client did not set Content-Length
hm.message.len = c->recv.len; // and closes now, deliver a MSG
hm.body.len = hm.message.len - (size_t) (hm.body.ptr - hm.message.ptr);
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}
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if (mg_is_chunked(&hm)) {
deliver_chunked_chunks(c, (size_t) hlen, &hm, &next);
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} else {
deliver_normal_chunks(c, (size_t) hlen, &hm, &next);
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}
if (next) continue; // Chunks & request were deleted
// Chunk events are delivered. If we have full body, deliver MSG
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if (c->recv.len < hm.message.len) break;
if (c->is_accepted) c->is_resp = 1; // Start generating response
mg_call(c, MG_EV_HTTP_MSG, &hm); // User handler can clear is_resp
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mg_iobuf_del(&c->recv, 0, hm.message.len);
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}
}
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(void) evd, (void) fnd;
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}
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static void mg_hfn(struct mg_connection *c, int ev, void *ev_data, void *fnd) {
if (ev == MG_EV_HTTP_MSG) {
struct mg_http_message *hm = (struct mg_http_message *) ev_data;
if (mg_http_match_uri(hm, "/quit")) {
mg_http_reply(c, 200, "", "ok\n");
c->is_draining = 1;
c->label[0] = 'X';
} else if (mg_http_match_uri(hm, "/debug")) {
int level = (int) mg_json_get_long(hm->body, "$.level", MG_LL_DEBUG);
mg_log_set(level);
mg_http_reply(c, 200, "", "Debug level set to %d\n", level);
} else {
mg_http_reply(c, 200, "", "hi\n");
}
} else if (ev == MG_EV_CLOSE) {
if (c->label[0] == 'X') *(bool *) fnd = true;
}
}
void mg_hello(const char *url) {
struct mg_mgr mgr;
bool done = false;
mg_mgr_init(&mgr);
if (mg_http_listen(&mgr, url, mg_hfn, &done) == NULL) done = true;
while (done == false) mg_mgr_poll(&mgr, 100);
mg_mgr_free(&mgr);
}
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struct mg_connection *mg_http_connect(struct mg_mgr *mgr, const char *url,
mg_event_handler_t fn, void *fn_data) {
struct mg_connection *c = mg_connect(mgr, url, fn, fn_data);
if (c != NULL) c->pfn = http_cb;
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return c;
}
struct mg_connection *mg_http_listen(struct mg_mgr *mgr, const char *url,
mg_event_handler_t fn, void *fn_data) {
struct mg_connection *c = mg_listen(mgr, url, fn, fn_data);
if (c != NULL) c->pfn = http_cb;
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return c;
}
#ifdef MG_ENABLE_LINES
#line 1 "src/iobuf.c"
#endif
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// Not using memset for zeroing memory, cause it can be dropped by compiler
// See https://github.com/cesanta/mongoose/pull/1265
static void zeromem(volatile unsigned char *buf, size_t len) {
if (buf != NULL) {
while (len--) *buf++ = 0;
}
}
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static size_t roundup(size_t size, size_t align) {
return align == 0 ? size : (size + align - 1) / align * align;
}
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int mg_iobuf_resize(struct mg_iobuf *io, size_t new_size) {
int ok = 1;
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new_size = roundup(new_size, io->align);
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if (new_size == 0) {
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zeromem(io->buf, io->size);
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free(io->buf);
io->buf = NULL;
io->len = io->size = 0;
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} else if (new_size != io->size) {
// NOTE(lsm): do not use realloc here. Use calloc/free only, to ease the
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// porting to some obscure platforms like FreeRTOS
void *p = calloc(1, new_size);
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if (p != NULL) {
size_t len = new_size < io->len ? new_size : io->len;
if (len > 0 && io->buf != NULL) memmove(p, io->buf, len);
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zeromem(io->buf, io->size);
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free(io->buf);
io->buf = (unsigned char *) p;
io->size = new_size;
} else {
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ok = 0;
MG_ERROR(("%lld->%lld", (uint64_t) io->size, (uint64_t) new_size));
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}
}
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return ok;
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}
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int mg_iobuf_init(struct mg_iobuf *io, size_t size, size_t align) {
io->buf = NULL;
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io->align = align;
io->size = io->len = 0;
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return mg_iobuf_resize(io, size);
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}
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size_t mg_iobuf_add(struct mg_iobuf *io, size_t ofs, const void *buf,
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size_t len) {
size_t new_size = roundup(io->len + len, io->align);
mg_iobuf_resize(io, new_size); // Attempt to resize
if (new_size != io->size) len = 0; // Resize failure, append nothing
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if (ofs < io->len) memmove(io->buf + ofs + len, io->buf + ofs, io->len - ofs);
if (buf != NULL) memmove(io->buf + ofs, buf, len);
if (ofs > io->len) io->len += ofs - io->len;
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io->len += len;
return len;
}
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size_t mg_iobuf_del(struct mg_iobuf *io, size_t ofs, size_t len) {
if (ofs > io->len) ofs = io->len;
if (ofs + len > io->len) len = io->len - ofs;
if (io->buf) memmove(io->buf + ofs, io->buf + ofs + len, io->len - ofs - len);
if (io->buf) zeromem(io->buf + io->len - len, len);
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io->len -= len;
return len;
}
void mg_iobuf_free(struct mg_iobuf *io) {
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mg_iobuf_resize(io, 0);
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}
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#ifdef MG_ENABLE_LINES
#line 1 "src/json.c"
#endif
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static const char *escapeseq(int esc) {
return esc ? "\b\f\n\r\t\\\"" : "bfnrt\\\"";
}
static char json_esc(int c, int esc) {
const char *p, *esc1 = escapeseq(esc), *esc2 = escapeseq(!esc);
for (p = esc1; *p != '\0'; p++) {
if (*p == c) return esc2[p - esc1];
}
return 0;
}
static int mg_pass_string(const char *s, int len) {
int i;
for (i = 0; i < len; i++) {
if (s[i] == '\\' && i + 1 < len && json_esc(s[i + 1], 1)) {
i++;
} else if (s[i] == '\0') {
return MG_JSON_INVALID;
} else if (s[i] == '"') {
return i;
}
}
return MG_JSON_INVALID;
}
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static double mg_atod(const char *p, int len, int *numlen) {
double d = 0.0;
int i = 0, sign = 1;
// Sign
if (i < len && *p == '-') {
sign = -1, i++;
} else if (i < len && *p == '+') {
i++;
}
// Decimal
for (; i < len && p[i] >= '0' && p[i] <= '9'; i++) {
d *= 10.0;
d += p[i] - '0';
}
d *= sign;
// Fractional
if (i < len && p[i] == '.') {
double frac = 0.0, base = 0.1;
i++;
for (; i < len && p[i] >= '0' && p[i] <= '9'; i++) {
frac += base * (p[i] - '0');
base /= 10.0;
}
d += frac * sign;
}
// Exponential
if (i < len && (p[i] == 'e' || p[i] == 'E')) {
int j, exp = 0, minus = 0;
i++;
if (i < len && p[i] == '-') minus = 1, i++;
if (i < len && p[i] == '+') i++;
while (i < len && p[i] >= '0' && p[i] <= '9' && exp < 308)
exp = exp * 10 + (p[i++] - '0');
if (minus) exp = -exp;
for (j = 0; j < exp; j++) d *= 10.0;
for (j = 0; j < -exp; j++) d /= 10.0;
}
if (numlen != NULL) *numlen = i;
return d;
}
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int mg_json_get(struct mg_str json, const char *path, int *toklen) {
const char *s = json.ptr;
int len = (int) json.len;
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enum { S_VALUE, S_KEY, S_COLON, S_COMMA_OR_EOO } expecting = S_VALUE;
unsigned char nesting[MG_JSON_MAX_DEPTH];
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int i = 0; // Current offset in `s`
int j = 0; // Offset in `s` we're looking for (return value)
int depth = 0; // Current depth (nesting level)
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int ed = 0; // Expected depth
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int pos = 1; // Current position in `path`
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int ci = -1, ei = -1; // Current and expected index in array
if (toklen) *toklen = 0;
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if (path[0] != '$') return MG_JSON_INVALID;
#define MG_CHECKRET(x) \
do { \
if (depth == ed && path[pos] == '\0' && ci == ei) { \
if (toklen) *toklen = i - j + 1; \
return j; \
} \
} while (0)
// In the ascii table, the distance between `[` and `]` is 2.
// Ditto for `{` and `}`. Hence +2 in the code below.
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#define MG_EOO(x) \
do { \
if (depth == ed && ci != ei) return MG_JSON_NOT_FOUND; \
if (c != nesting[depth - 1] + 2) return MG_JSON_INVALID; \
depth--; \
MG_CHECKRET(x); \
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} while (0)
for (i = 0; i < len; i++) {
unsigned char c = ((unsigned char *) s)[i];
if (c == ' ' || c == '\t' || c == '\n' || c == '\r') continue;
switch (expecting) {
case S_VALUE:
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// p("V %s [%.*s] %d %d %d %d\n", path, pos, path, depth, ed, ci, ei);
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if (depth == ed) j = i;
if (c == '{') {
if (depth >= (int) sizeof(nesting)) return MG_JSON_TOO_DEEP;
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if (depth == ed && path[pos] == '.' && ci == ei) {
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// If we start the object, reset array indices
ed++, pos++, ci = ei = -1;
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}
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nesting[depth++] = c;
expecting = S_KEY;
break;
} else if (c == '[') {
if (depth >= (int) sizeof(nesting)) return MG_JSON_TOO_DEEP;
if (depth == ed && path[pos] == '[' && ei == ci) {
ed++, pos++, ci = 0;
for (ei = 0; path[pos] != ']' && path[pos] != '\0'; pos++) {
ei *= 10;
ei += path[pos] - '0';
}
if (path[pos] != 0) pos++;
}
nesting[depth++] = c;
break;
} else if (c == ']' && depth > 0) { // Empty array
MG_EOO(']');
} else if (c == 't' && i + 3 < len && memcmp(&s[i], "true", 4) == 0) {
i += 3;
} else if (c == 'n' && i + 3 < len && memcmp(&s[i], "null", 4) == 0) {
i += 3;
} else if (c == 'f' && i + 4 < len && memcmp(&s[i], "false", 5) == 0) {
i += 4;
} else if (c == '-' || ((c >= '0' && c <= '9'))) {
int numlen = 0;
mg_atod(&s[i], len - i, &numlen);
i += numlen - 1;
} else if (c == '"') {
int n = mg_pass_string(&s[i + 1], len - i - 1);
if (n < 0) return n;
i += n + 1;
} else {
return MG_JSON_INVALID;
}
MG_CHECKRET('V');
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if (depth == ed && ei >= 0) ci++;
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expecting = S_COMMA_OR_EOO;
break;
case S_KEY:
if (c == '"') {
int n = mg_pass_string(&s[i + 1], len - i - 1);
if (n < 0) return n;
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if (i + 1 + n >= len) return MG_JSON_NOT_FOUND;
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if (depth < ed) return MG_JSON_NOT_FOUND;
if (depth == ed && path[pos - 1] != '.') return MG_JSON_NOT_FOUND;
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// printf("K %s [%.*s] [%.*s] %d %d %d\n", path, pos, path, n,
// &s[i + 1], n, depth, ed);
// NOTE(cpq): in the check sequence below is important.
// strncmp() must go first: it fails fast if the remaining length of
// the path is smaller than `n`.
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if (depth == ed && path[pos - 1] == '.' &&
strncmp(&s[i + 1], &path[pos], (size_t) n) == 0 &&
(path[pos + n] == '\0' || path[pos + n] == '.' ||
path[pos + n] == '[')) {
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pos += n;
}
i += n + 1;
expecting = S_COLON;
} else if (c == '}') { // Empty object
MG_EOO('}');
expecting = S_COMMA_OR_EOO;
} else {
return MG_JSON_INVALID;
}
break;
case S_COLON:
if (c == ':') {
expecting = S_VALUE;
} else {
return MG_JSON_INVALID;
}
break;
case S_COMMA_OR_EOO:
if (depth <= 0) {
return MG_JSON_INVALID;
} else if (c == ',') {
expecting = (nesting[depth - 1] == '{') ? S_KEY : S_VALUE;
} else if (c == ']' || c == '}') {
MG_EOO('O');
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if (depth == ed && ei >= 0) ci++;
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} else {
return MG_JSON_INVALID;
}
break;
}
}
return MG_JSON_NOT_FOUND;
}
bool mg_json_get_num(struct mg_str json, const char *path, double *v) {
int n, toklen, found = 0;
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if ((n = mg_json_get(json, path, &toklen)) >= 0 &&
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(json.ptr[n] == '-' || (json.ptr[n] >= '0' && json.ptr[n] <= '9'))) {
if (v != NULL) *v = mg_atod(json.ptr + n, toklen, NULL);
found = 1;
}
return found;
}
bool mg_json_get_bool(struct mg_str json, const char *path, bool *v) {
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int found = 0, off = mg_json_get(json, path, NULL);
if (off >= 0 && (json.ptr[off] == 't' || json.ptr[off] == 'f')) {
if (v != NULL) *v = json.ptr[off] == 't';
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found = 1;
}
return found;
}
static bool json_unescape(const char *s, size_t len, char *to, size_t n) {
size_t i, j;
for (i = 0, j = 0; i < len && j < n; i++, j++) {
if (s[i] == '\\' && i + 5 < len && s[i + 1] == 'u') {
// \uXXXX escape. We could process a simple one-byte chars
// \u00xx from the ASCII range. More complex chars would require
// dragging in a UTF8 library, which is too much for us
if (s[i + 2] != '0' || s[i + 3] != '0') return false; // Give up
((unsigned char *) to)[j] = (unsigned char) mg_unhexn(s + i + 4, 2);
i += 5;
} else if (s[i] == '\\' && i + 1 < len) {
char c = json_esc(s[i + 1], 0);
if (c == 0) return false;
to[j] = c;
i++;
} else {
to[j] = s[i];
}
}
if (j >= n) return false;
if (n > 0) to[j] = '\0';
return true;
}
char *mg_json_get_str(struct mg_str json, const char *path) {
char *result = NULL;
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int len = 0, off = mg_json_get(json, path, &len);
if (off >= 0 && len > 1 && json.ptr[off] == '"') {
if ((result = (char *) calloc(1, (size_t) len)) != NULL &&
!json_unescape(json.ptr + off + 1, (size_t) (len - 2), result,
(size_t) len)) {
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free(result);
result = NULL;
}
}
return result;
}
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char *mg_json_get_b64(struct mg_str json, const char *path, int *slen) {
char *result = NULL;
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int len = 0, off = mg_json_get(json, path, &len);
if (off >= 0 && json.ptr[off] == '"' && len > 1 &&
(result = (char *) calloc(1, (size_t) len)) != NULL) {
int k = mg_base64_decode(json.ptr + off + 1, len - 2, result);
if (slen != NULL) *slen = k;
}
return result;
}
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char *mg_json_get_hex(struct mg_str json, const char *path, int *slen) {
char *result = NULL;
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int len = 0, off = mg_json_get(json, path, &len);
if (off >= 0 && json.ptr[off] == '"' && len > 1 &&
(result = (char *) calloc(1, (size_t) len / 2)) != NULL) {
mg_unhex(json.ptr + off + 1, (size_t) (len - 2), (uint8_t *) result);
result[len / 2 - 1] = '\0';
if (slen != NULL) *slen = len / 2 - 1;
}
return result;
}
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long mg_json_get_long(struct mg_str json, const char *path, long dflt) {
double dv;
long result = dflt;
if (mg_json_get_num(json, path, &dv)) result = (long) dv;
return result;
}
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#ifdef MG_ENABLE_LINES
#line 1 "src/log.c"
#endif
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static void default_logger(char c, void *param) {
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putchar(c);
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(void) c, (void) param;
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}
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static int s_level = MG_LL_INFO;
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static mg_pfn_t s_log_func = default_logger;
static void *s_log_func_param = NULL;
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void mg_log_set_fn(mg_pfn_t fn, void *param) {
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s_log_func = fn;
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s_log_func_param = param;
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}
static void logc(unsigned char c) {
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s_log_func((char) c, s_log_func_param);
}
static void logs(const char *buf, size_t len) {
size_t i;
for (i = 0; i < len; i++) logc(((unsigned char *) buf)[i]);
}
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void mg_log_set(int log_level) {
MG_DEBUG(("Setting log level to %d", log_level));
s_level = log_level;
}
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bool mg_log_prefix(int level, const char *file, int line, const char *fname) {
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if (level <= s_level) {
const char *p = strrchr(file, '/');
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char buf[41];
size_t n;
if (p == NULL) p = strrchr(file, '\\');
n = mg_snprintf(buf, sizeof(buf), "%llx %d %s:%d:%s", mg_millis(), level,
p == NULL ? file : p + 1, line, fname);
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if (n > sizeof(buf) - 2) n = sizeof(buf) - 2;
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while (n < sizeof(buf)) buf[n++] = ' ';
logs(buf, n - 1);
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return true;
} else {
return false;
}
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}
void mg_log(const char *fmt, ...) {
va_list ap;
va_start(ap, fmt);
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mg_vxprintf(s_log_func, s_log_func_param, fmt, &ap);
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va_end(ap);
logc((unsigned char) '\n');
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}
static unsigned char nibble(unsigned c) {
return (unsigned char) (c < 10 ? c + '0' : c + 'W');
}
#define ISPRINT(x) ((x) >= ' ' && (x) <= '~')
void mg_hexdump(const void *buf, size_t len) {
const unsigned char *p = (const unsigned char *) buf;
unsigned char ascii[16], alen = 0;
size_t i;
for (i = 0; i < len; i++) {
if ((i % 16) == 0) {
// Print buffered ascii chars
if (i > 0) logs(" ", 2), logs((char *) ascii, 16), logc('\n'), alen = 0;
// Print hex address, then \t
logc(nibble((i >> 12) & 15)), logc(nibble((i >> 8) & 15)),
logc(nibble((i >> 4) & 15)), logc('0'), logs(" ", 3);
}
logc(nibble(p[i] >> 4)), logc(nibble(p[i] & 15)); // Two nibbles, e.g. c5
logc(' '); // Space after hex number
ascii[alen++] = ISPRINT(p[i]) ? p[i] : '.'; // Add to the ascii buf
}
while (alen < 16) logs(" ", 3), ascii[alen++] = ' ';
logs(" ", 2), logs((char *) ascii, 16), logc('\n');
}
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#ifdef MG_ENABLE_LINES
#line 1 "src/md5.c"
#endif
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#if defined(MG_ENABLE_MD5) && MG_ENABLE_MD5
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static void mg_byte_reverse(unsigned char *buf, unsigned longs) {
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if (MG_BIG_ENDIAN) {
do {
uint32_t t = (uint32_t) ((unsigned) buf[3] << 8 | buf[2]) << 16 |
((unsigned) buf[1] << 8 | buf[0]);
*(uint32_t *) buf = t;
buf += 4;
} while (--longs);
} else {
(void) buf, (void) longs; // Little endian. Do nothing
}
}
#define F1(x, y, z) (z ^ (x & (y ^ z)))
#define F2(x, y, z) F1(z, x, y)
#define F3(x, y, z) (x ^ y ^ z)
#define F4(x, y, z) (y ^ (x | ~z))
#define MD5STEP(f, w, x, y, z, data, s) \
(w += f(x, y, z) + data, w = w << s | w >> (32 - s), w += x)
/*
* Start MD5 accumulation. Set bit count to 0 and buffer to mysterious
* initialization constants.
*/
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void mg_md5_init(mg_md5_ctx *ctx) {
ctx->buf[0] = 0x67452301;
ctx->buf[1] = 0xefcdab89;
ctx->buf[2] = 0x98badcfe;
ctx->buf[3] = 0x10325476;
ctx->bits[0] = 0;
ctx->bits[1] = 0;
}
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static void mg_md5_transform(uint32_t buf[4], uint32_t const in[16]) {
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uint32_t a, b, c, d;
a = buf[0];
b = buf[1];
c = buf[2];
d = buf[3];
MD5STEP(F1, a, b, c, d, in[0] + 0xd76aa478, 7);
MD5STEP(F1, d, a, b, c, in[1] + 0xe8c7b756, 12);
MD5STEP(F1, c, d, a, b, in[2] + 0x242070db, 17);
MD5STEP(F1, b, c, d, a, in[3] + 0xc1bdceee, 22);
MD5STEP(F1, a, b, c, d, in[4] + 0xf57c0faf, 7);
MD5STEP(F1, d, a, b, c, in[5] + 0x4787c62a, 12);
MD5STEP(F1, c, d, a, b, in[6] + 0xa8304613, 17);
MD5STEP(F1, b, c, d, a, in[7] + 0xfd469501, 22);
MD5STEP(F1, a, b, c, d, in[8] + 0x698098d8, 7);
MD5STEP(F1, d, a, b, c, in[9] + 0x8b44f7af, 12);
MD5STEP(F1, c, d, a, b, in[10] + 0xffff5bb1, 17);
MD5STEP(F1, b, c, d, a, in[11] + 0x895cd7be, 22);
MD5STEP(F1, a, b, c, d, in[12] + 0x6b901122, 7);
MD5STEP(F1, d, a, b, c, in[13] + 0xfd987193, 12);
MD5STEP(F1, c, d, a, b, in[14] + 0xa679438e, 17);
MD5STEP(F1, b, c, d, a, in[15] + 0x49b40821, 22);
MD5STEP(F2, a, b, c, d, in[1] + 0xf61e2562, 5);
MD5STEP(F2, d, a, b, c, in[6] + 0xc040b340, 9);
MD5STEP(F2, c, d, a, b, in[11] + 0x265e5a51, 14);
MD5STEP(F2, b, c, d, a, in[0] + 0xe9b6c7aa, 20);
MD5STEP(F2, a, b, c, d, in[5] + 0xd62f105d, 5);
MD5STEP(F2, d, a, b, c, in[10] + 0x02441453, 9);
MD5STEP(F2, c, d, a, b, in[15] + 0xd8a1e681, 14);
MD5STEP(F2, b, c, d, a, in[4] + 0xe7d3fbc8, 20);
MD5STEP(F2, a, b, c, d, in[9] + 0x21e1cde6, 5);
MD5STEP(F2, d, a, b, c, in[14] + 0xc33707d6, 9);
MD5STEP(F2, c, d, a, b, in[3] + 0xf4d50d87, 14);
MD5STEP(F2, b, c, d, a, in[8] + 0x455a14ed, 20);
MD5STEP(F2, a, b, c, d, in[13] + 0xa9e3e905, 5);
MD5STEP(F2, d, a, b, c, in[2] + 0xfcefa3f8, 9);
MD5STEP(F2, c, d, a, b, in[7] + 0x676f02d9, 14);
MD5STEP(F2, b, c, d, a, in[12] + 0x8d2a4c8a, 20);
MD5STEP(F3, a, b, c, d, in[5] + 0xfffa3942, 4);
MD5STEP(F3, d, a, b, c, in[8] + 0x8771f681, 11);
MD5STEP(F3, c, d, a, b, in[11] + 0x6d9d6122, 16);
MD5STEP(F3, b, c, d, a, in[14] + 0xfde5380c, 23);
MD5STEP(F3, a, b, c, d, in[1] + 0xa4beea44, 4);
MD5STEP(F3, d, a, b, c, in[4] + 0x4bdecfa9, 11);
MD5STEP(F3, c, d, a, b, in[7] + 0xf6bb4b60, 16);
MD5STEP(F3, b, c, d, a, in[10] + 0xbebfbc70, 23);
MD5STEP(F3, a, b, c, d, in[13] + 0x289b7ec6, 4);
MD5STEP(F3, d, a, b, c, in[0] + 0xeaa127fa, 11);
MD5STEP(F3, c, d, a, b, in[3] + 0xd4ef3085, 16);
MD5STEP(F3, b, c, d, a, in[6] + 0x04881d05, 23);
MD5STEP(F3, a, b, c, d, in[9] + 0xd9d4d039, 4);
MD5STEP(F3, d, a, b, c, in[12] + 0xe6db99e5, 11);
MD5STEP(F3, c, d, a, b, in[15] + 0x1fa27cf8, 16);
MD5STEP(F3, b, c, d, a, in[2] + 0xc4ac5665, 23);
MD5STEP(F4, a, b, c, d, in[0] + 0xf4292244, 6);
MD5STEP(F4, d, a, b, c, in[7] + 0x432aff97, 10);
MD5STEP(F4, c, d, a, b, in[14] + 0xab9423a7, 15);
MD5STEP(F4, b, c, d, a, in[5] + 0xfc93a039, 21);
MD5STEP(F4, a, b, c, d, in[12] + 0x655b59c3, 6);
MD5STEP(F4, d, a, b, c, in[3] + 0x8f0ccc92, 10);
MD5STEP(F4, c, d, a, b, in[10] + 0xffeff47d, 15);
MD5STEP(F4, b, c, d, a, in[1] + 0x85845dd1, 21);
MD5STEP(F4, a, b, c, d, in[8] + 0x6fa87e4f, 6);
MD5STEP(F4, d, a, b, c, in[15] + 0xfe2ce6e0, 10);
MD5STEP(F4, c, d, a, b, in[6] + 0xa3014314, 15);
MD5STEP(F4, b, c, d, a, in[13] + 0x4e0811a1, 21);
MD5STEP(F4, a, b, c, d, in[4] + 0xf7537e82, 6);
MD5STEP(F4, d, a, b, c, in[11] + 0xbd3af235, 10);
MD5STEP(F4, c, d, a, b, in[2] + 0x2ad7d2bb, 15);
MD5STEP(F4, b, c, d, a, in[9] + 0xeb86d391, 21);
buf[0] += a;
buf[1] += b;
buf[2] += c;
buf[3] += d;
}
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void mg_md5_update(mg_md5_ctx *ctx, const unsigned char *buf, size_t len) {
uint32_t t;
t = ctx->bits[0];
if ((ctx->bits[0] = t + ((uint32_t) len << 3)) < t) ctx->bits[1]++;
ctx->bits[1] += (uint32_t) len >> 29;
t = (t >> 3) & 0x3f;
if (t) {
unsigned char *p = (unsigned char *) ctx->in + t;
t = 64 - t;
if (len < t) {
memcpy(p, buf, len);
return;
}
memcpy(p, buf, t);
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mg_byte_reverse(ctx->in, 16);
mg_md5_transform(ctx->buf, (uint32_t *) ctx->in);
buf += t;
len -= t;
}
while (len >= 64) {
memcpy(ctx->in, buf, 64);
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mg_byte_reverse(ctx->in, 16);
mg_md5_transform(ctx->buf, (uint32_t *) ctx->in);
buf += 64;
len -= 64;
}
memcpy(ctx->in, buf, len);
}
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void mg_md5_final(mg_md5_ctx *ctx, unsigned char digest[16]) {
unsigned count;
unsigned char *p;
uint32_t *a;
count = (ctx->bits[0] >> 3) & 0x3F;
p = ctx->in + count;
*p++ = 0x80;
count = 64 - 1 - count;
if (count < 8) {
memset(p, 0, count);
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mg_byte_reverse(ctx->in, 16);
mg_md5_transform(ctx->buf, (uint32_t *) ctx->in);
memset(ctx->in, 0, 56);
} else {
memset(p, 0, count - 8);
}
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mg_byte_reverse(ctx->in, 14);
a = (uint32_t *) ctx->in;
a[14] = ctx->bits[0];
a[15] = ctx->bits[1];
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mg_md5_transform(ctx->buf, (uint32_t *) ctx->in);
mg_byte_reverse((unsigned char *) ctx->buf, 4);
memcpy(digest, ctx->buf, 16);
memset((char *) ctx, 0, sizeof(*ctx));
}
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#endif
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#ifdef MG_ENABLE_LINES
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#line 1 "src/mqtt.c"
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#endif
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#define MQTT_CLEAN_SESSION 0x02
#define MQTT_HAS_WILL 0x04
#define MQTT_WILL_RETAIN 0x20
#define MQTT_HAS_PASSWORD 0x40
#define MQTT_HAS_USER_NAME 0x80
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void mg_mqtt_send_header(struct mg_connection *c, uint8_t cmd, uint8_t flags,
uint32_t len) {
uint8_t buf[1 + sizeof(len)], *vlen = &buf[1];
buf[0] = (uint8_t) ((cmd << 4) | flags);
do {
*vlen = len % 0x80;
len /= 0x80;
if (len > 0) *vlen |= 0x80;
vlen++;
} while (len > 0 && vlen < &buf[sizeof(buf)]);
mg_send(c, buf, (size_t) (vlen - buf));
}
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static void mg_send_u16(struct mg_connection *c, uint16_t value) {
mg_send(c, &value, sizeof(value));
}
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void mg_mqtt_login(struct mg_connection *c, const struct mg_mqtt_opts *opts) {
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char rnd[10], client_id[21], zero = 0;
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struct mg_str cid = opts->client_id;
uint32_t total_len = 7 + 1 + 2 + 2;
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uint8_t hdr[8] = {0, 4, 'M', 'Q', 'T', 'T', opts->version, 0};
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if (cid.len == 0) {
mg_random(rnd, sizeof(rnd));
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mg_hex(rnd, sizeof(rnd), client_id);
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client_id[sizeof(client_id) - 1] = '\0';
cid = mg_str(client_id);
}
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if (hdr[6] == 0) hdr[6] = 4; // If version is not set, use 4 (3.1.1)
c->is_mqtt5 = hdr[6] == 5; // Set version 5 flag
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hdr[7] = (uint8_t) ((opts->will_qos & 3) << 3); // Connection flags
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if (opts->user.len > 0) {
total_len += 2 + (uint32_t) opts->user.len;
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hdr[7] |= MQTT_HAS_USER_NAME;
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}
if (opts->pass.len > 0) {
total_len += 2 + (uint32_t) opts->pass.len;
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hdr[7] |= MQTT_HAS_PASSWORD;
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}
if (opts->will_topic.len > 0 && opts->will_message.len > 0) {
total_len +=
4 + (uint32_t) opts->will_topic.len + (uint32_t) opts->will_message.len;
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hdr[7] |= MQTT_HAS_WILL;
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}
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if (opts->clean || cid.len == 0) hdr[7] |= MQTT_CLEAN_SESSION;
if (opts->will_retain) hdr[7] |= MQTT_WILL_RETAIN;
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total_len += (uint32_t) cid.len;
if (c->is_mqtt5) total_len += 1U + (hdr[7] & MQTT_HAS_WILL ? 1U : 0);
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mg_mqtt_send_header(c, MQTT_CMD_CONNECT, 0, total_len);
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mg_send(c, hdr, sizeof(hdr));
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// keepalive == 0 means "do not disconnect us!"
mg_send_u16(c, mg_htons((uint16_t) opts->keepalive));
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if (c->is_mqtt5) mg_send(c, &zero, sizeof(zero)); // V5 properties
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mg_send_u16(c, mg_htons((uint16_t) cid.len));
mg_send(c, cid.ptr, cid.len);
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if (hdr[7] & MQTT_HAS_WILL) {
if (c->is_mqtt5) mg_send(c, &zero, sizeof(zero)); // will props
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mg_send_u16(c, mg_htons((uint16_t) opts->will_topic.len));
mg_send(c, opts->will_topic.ptr, opts->will_topic.len);
mg_send_u16(c, mg_htons((uint16_t) opts->will_message.len));
mg_send(c, opts->will_message.ptr, opts->will_message.len);
}
if (opts->user.len > 0) {
mg_send_u16(c, mg_htons((uint16_t) opts->user.len));
mg_send(c, opts->user.ptr, opts->user.len);
}
if (opts->pass.len > 0) {
mg_send_u16(c, mg_htons((uint16_t) opts->pass.len));
mg_send(c, opts->pass.ptr, opts->pass.len);
}
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}
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void mg_mqtt_pub(struct mg_connection *c, struct mg_str topic,
struct mg_str data, int qos, bool retain) {
uint8_t flags = (uint8_t) (((qos & 3) << 1) | (retain ? 1 : 0)), zero = 0;
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uint32_t len = 2 + (uint32_t) topic.len + (uint32_t) data.len;
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MG_DEBUG(("%lu [%.*s] -> [%.*s]", c->id, (int) topic.len, (char *) topic.ptr,
(int) data.len, (char *) data.ptr));
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if (qos > 0) len += 2;
if (c->is_mqtt5) len++;
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mg_mqtt_send_header(c, MQTT_CMD_PUBLISH, flags, len);
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mg_send_u16(c, mg_htons((uint16_t) topic.len));
mg_send(c, topic.ptr, topic.len);
if (qos > 0) {
if (++c->mgr->mqtt_id == 0) ++c->mgr->mqtt_id;
mg_send_u16(c, mg_htons(c->mgr->mqtt_id));
}
if (c->is_mqtt5) mg_send(c, &zero, sizeof(zero));
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mg_send(c, data.ptr, data.len);
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}
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void mg_mqtt_sub(struct mg_connection *c, struct mg_str topic, int qos) {
uint8_t qos_ = qos & 3, zero = 0;
uint32_t len = 2 + (uint32_t) topic.len + 2 + 1 + (c->is_mqtt5 ? 1 : 0);
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mg_mqtt_send_header(c, MQTT_CMD_SUBSCRIBE, 2, len);
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if (++c->mgr->mqtt_id == 0) ++c->mgr->mqtt_id;
mg_send_u16(c, mg_htons(c->mgr->mqtt_id));
if (c->is_mqtt5) mg_send(c, &zero, sizeof(zero));
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mg_send_u16(c, mg_htons((uint16_t) topic.len));
mg_send(c, topic.ptr, topic.len);
mg_send(c, &qos_, sizeof(qos_));
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}
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int mg_mqtt_parse(const uint8_t *buf, size_t len, uint8_t version,
struct mg_mqtt_message *m) {
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uint8_t lc = 0, *p, *end;
uint32_t n = 0, len_len = 0;
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memset(m, 0, sizeof(*m));
m->dgram.ptr = (char *) buf;
if (len < 2) return MQTT_INCOMPLETE;
m->cmd = (uint8_t) (buf[0] >> 4);
m->qos = (buf[0] >> 1) & 3;
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n = len_len = 0;
p = (uint8_t *) buf + 1;
while ((size_t) (p - buf) < len) {
lc = *((uint8_t *) p++);
n += (uint32_t) ((lc & 0x7f) << 7 * len_len);
len_len++;
if (!(lc & 0x80)) break;
if (len_len >= 4) return MQTT_MALFORMED;
}
end = p + n;
if ((lc & 0x80) || (end > buf + len)) return MQTT_INCOMPLETE;
m->dgram.len = (size_t) (end - buf);
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switch (m->cmd) {
case MQTT_CMD_CONNACK:
if (end - p < 2) return MQTT_MALFORMED;
m->ack = p[1];
break;
case MQTT_CMD_PUBACK:
case MQTT_CMD_PUBREC:
case MQTT_CMD_PUBREL:
case MQTT_CMD_PUBCOMP:
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case MQTT_CMD_SUBSCRIBE:
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case MQTT_CMD_SUBACK:
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case MQTT_CMD_UNSUBSCRIBE:
case MQTT_CMD_UNSUBACK:
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if (p + 2 > end) return MQTT_MALFORMED;
m->id = (uint16_t) ((((uint16_t) p[0]) << 8) | p[1]);
p += 2;
break;
case MQTT_CMD_PUBLISH: {
if (p + 2 > end) return MQTT_MALFORMED;
m->topic.len = (uint16_t) ((((uint16_t) p[0]) << 8) | p[1]);
m->topic.ptr = (char *) p + 2;
p += 2 + m->topic.len;
if (p > end) return MQTT_MALFORMED;
if (m->qos > 0) {
if (p + 2 > end) return MQTT_MALFORMED;
m->id = (uint16_t) ((((uint16_t) p[0]) << 8) | p[1]);
p += 2;
}
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if (p > end) return MQTT_MALFORMED;
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if (version == 5 && p + 2 < end) p += 1 + p[0]; // Skip options
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if (p > end) return MQTT_MALFORMED;
m->data.ptr = (char *) p;
m->data.len = (size_t) (end - p);
break;
}
default:
break;
}
return MQTT_OK;
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}
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static void mqtt_cb(struct mg_connection *c, int ev, void *ev_data,
void *fn_data) {
if (ev == MG_EV_READ) {
for (;;) {
uint8_t version = c->is_mqtt5 ? 5 : 4;
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struct mg_mqtt_message mm;
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int rc = mg_mqtt_parse(c->recv.buf, c->recv.len, version, &mm);
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if (rc == MQTT_MALFORMED) {
MG_ERROR(("%lu MQTT malformed message", c->id));
c->is_closing = 1;
break;
} else if (rc == MQTT_OK) {
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MG_VERBOSE(("%lu MQTT CMD %d len %d [%.*s]", c->id, mm.cmd,
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(int) mm.dgram.len, (int) mm.data.len, mm.data.ptr));
switch (mm.cmd) {
case MQTT_CMD_CONNACK:
mg_call(c, MG_EV_MQTT_OPEN, &mm.ack);
if (mm.ack == 0) {
MG_DEBUG(("%lu Connected", c->id));
} else {
MG_ERROR(("%lu MQTT auth failed, code %d", c->id, mm.ack));
c->is_closing = 1;
}
break;
case MQTT_CMD_PUBLISH: {
MG_DEBUG(("%lu [%.*s] -> [%.*s]", c->id, (int) mm.topic.len,
mm.topic.ptr, (int) mm.data.len, mm.data.ptr));
if (mm.qos > 0) {
uint16_t id = mg_htons(mm.id);
mg_mqtt_send_header(c, MQTT_CMD_PUBACK, 0, sizeof(id));
mg_send(c, &id, sizeof(id));
}
mg_call(c, MG_EV_MQTT_MSG, &mm);
break;
}
}
mg_call(c, MG_EV_MQTT_CMD, &mm);
mg_iobuf_del(&c->recv, 0, mm.dgram.len);
} else {
break;
}
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}
}
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(void) ev_data;
(void) fn_data;
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}
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void mg_mqtt_ping(struct mg_connection *nc) {
mg_mqtt_send_header(nc, MQTT_CMD_PINGREQ, 0, 0);
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}
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void mg_mqtt_pong(struct mg_connection *nc) {
mg_mqtt_send_header(nc, MQTT_CMD_PINGRESP, 0, 0);
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}
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void mg_mqtt_disconnect(struct mg_connection *nc) {
mg_mqtt_send_header(nc, MQTT_CMD_DISCONNECT, 0, 0);
}
struct mg_connection *mg_mqtt_connect(struct mg_mgr *mgr, const char *url,
const struct mg_mqtt_opts *opts,
mg_event_handler_t fn, void *fn_data) {
struct mg_connection *c = mg_connect(mgr, url, fn, fn_data);
if (c != NULL) {
struct mg_mqtt_opts empty;
memset(&empty, 0, sizeof(empty));
mg_mqtt_login(c, opts == NULL ? &empty : opts);
c->pfn = mqtt_cb;
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}
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return c;
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}
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struct mg_connection *mg_mqtt_listen(struct mg_mgr *mgr, const char *url,
mg_event_handler_t fn, void *fn_data) {
struct mg_connection *c = mg_listen(mgr, url, fn, fn_data);
if (c != NULL) c->pfn = mqtt_cb, c->pfn_data = mgr;
return c;
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}
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#ifdef MG_ENABLE_LINES
#line 1 "src/net.c"
#endif
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size_t mg_vprintf(struct mg_connection *c, const char *fmt, va_list *ap) {
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size_t old = c->send.len;
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mg_vxprintf(mg_pfn_iobuf, &c->send, fmt, ap);
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return c->send.len - old;
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}
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size_t mg_printf(struct mg_connection *c, const char *fmt, ...) {
size_t len = 0;
va_list ap;
va_start(ap, fmt);
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len = mg_vprintf(c, fmt, &ap);
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va_end(ap);
return len;
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}
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static bool mg_atonl(struct mg_str str, struct mg_addr *addr) {
if (mg_vcasecmp(&str, "localhost") != 0) return false;
addr->ip = mg_htonl(0x7f000001);
addr->is_ip6 = false;
return true;
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}
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static bool mg_atone(struct mg_str str, struct mg_addr *addr) {
if (str.len > 0) return false;
addr->ip = 0;
addr->is_ip6 = false;
return true;
}
static bool mg_aton4(struct mg_str str, struct mg_addr *addr) {
uint8_t data[4] = {0, 0, 0, 0};
size_t i, num_dots = 0;
for (i = 0; i < str.len; i++) {
if (str.ptr[i] >= '0' && str.ptr[i] <= '9') {
int octet = data[num_dots] * 10 + (str.ptr[i] - '0');
if (octet > 255) return false;
data[num_dots] = (uint8_t) octet;
} else if (str.ptr[i] == '.') {
if (num_dots >= 3 || i == 0 || str.ptr[i - 1] == '.') return false;
num_dots++;
} else {
return false;
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}
}
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if (num_dots != 3 || str.ptr[i - 1] == '.') return false;
memcpy(&addr->ip, data, sizeof(data));
addr->is_ip6 = false;
return true;
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}
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static bool mg_v4mapped(struct mg_str str, struct mg_addr *addr) {
int i;
if (str.len < 14) return false;
if (str.ptr[0] != ':' || str.ptr[1] != ':' || str.ptr[6] != ':') return false;
for (i = 2; i < 6; i++) {
if (str.ptr[i] != 'f' && str.ptr[i] != 'F') return false;
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}
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if (!mg_aton4(mg_str_n(&str.ptr[7], str.len - 7), addr)) return false;
memset(addr->ip6, 0, sizeof(addr->ip6));
addr->ip6[10] = addr->ip6[11] = 255;
memcpy(&addr->ip6[12], &addr->ip, 4);
addr->is_ip6 = true;
return true;
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}
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static bool mg_aton6(struct mg_str str, struct mg_addr *addr) {
size_t i, j = 0, n = 0, dc = 42;
if (str.len > 2 && str.ptr[0] == '[') str.ptr++, str.len -= 2;
if (mg_v4mapped(str, addr)) return true;
for (i = 0; i < str.len; i++) {
if ((str.ptr[i] >= '0' && str.ptr[i] <= '9') ||
(str.ptr[i] >= 'a' && str.ptr[i] <= 'f') ||
(str.ptr[i] >= 'A' && str.ptr[i] <= 'F')) {
unsigned long val;
if (i > j + 3) return false;
// MG_DEBUG(("%zu %zu [%.*s]", i, j, (int) (i - j + 1), &str.ptr[j]));
val = mg_unhexn(&str.ptr[j], i - j + 1);
addr->ip6[n] = (uint8_t) ((val >> 8) & 255);
addr->ip6[n + 1] = (uint8_t) (val & 255);
} else if (str.ptr[i] == ':') {
j = i + 1;
if (i > 0 && str.ptr[i - 1] == ':') {
dc = n; // Double colon
if (i > 1 && str.ptr[i - 2] == ':') return false;
} else if (i > 0) {
n += 2;
}
if (n > 14) return false;
addr->ip6[n] = addr->ip6[n + 1] = 0; // For trailing ::
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} else {
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return false;
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}
}
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if (n < 14 && dc == 42) return false;
if (n < 14) {
memmove(&addr->ip6[dc + (14 - n)], &addr->ip6[dc], n - dc + 2);
memset(&addr->ip6[dc], 0, 14 - n);
}
addr->is_ip6 = true;
return true;
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}
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bool mg_aton(struct mg_str str, struct mg_addr *addr) {
// MG_INFO(("[%.*s]", (int) str.len, str.ptr));
return mg_atone(str, addr) || mg_atonl(str, addr) || mg_aton4(str, addr) ||
mg_aton6(str, addr);
}
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struct mg_connection *mg_alloc_conn(struct mg_mgr *mgr) {
struct mg_connection *c =
(struct mg_connection *) calloc(1, sizeof(*c) + mgr->extraconnsize);
if (c != NULL) {
c->mgr = mgr;
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c->send.align = c->recv.align = MG_IO_SIZE;
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c->id = ++mgr->nextid;
}
return c;
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}
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void mg_close_conn(struct mg_connection *c) {
mg_resolve_cancel(c); // Close any pending DNS query
LIST_DELETE(struct mg_connection, &c->mgr->conns, c);
if (c == c->mgr->dns4.c) c->mgr->dns4.c = NULL;
if (c == c->mgr->dns6.c) c->mgr->dns6.c = NULL;
// Order of operations is important. `MG_EV_CLOSE` event must be fired
// before we deallocate received data, see #1331
mg_call(c, MG_EV_CLOSE, NULL);
MG_DEBUG(("%lu %p closed", c->id, c->fd));
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mg_tls_free(c);
mg_iobuf_free(&c->recv);
mg_iobuf_free(&c->send);
memset(c, 0, sizeof(*c));
free(c);
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}
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struct mg_connection *mg_connect(struct mg_mgr *mgr, const char *url,
mg_event_handler_t fn, void *fn_data) {
struct mg_connection *c = NULL;
if (url == NULL || url[0] == '\0') {
MG_ERROR(("null url"));
} else if ((c = mg_alloc_conn(mgr)) == NULL) {
MG_ERROR(("OOM"));
} else {
LIST_ADD_HEAD(struct mg_connection, &mgr->conns, c);
c->is_udp = (strncmp(url, "udp:", 4) == 0);
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c->fd = (void *) (size_t) MG_INVALID_SOCKET;
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c->fn = fn;
c->is_client = true;
c->fn_data = fn_data;
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MG_DEBUG(("%lu %p %s", c->id, c->fd, url));
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mg_call(c, MG_EV_OPEN, NULL);
mg_resolve(c, url);
}
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return c;
}
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struct mg_connection *mg_listen(struct mg_mgr *mgr, const char *url,
mg_event_handler_t fn, void *fn_data) {
struct mg_connection *c = NULL;
if ((c = mg_alloc_conn(mgr)) == NULL) {
MG_ERROR(("OOM %s", url));
} else if (!mg_open_listener(c, url)) {
MG_ERROR(("Failed: %s, errno %d", url, errno));
free(c);
c = NULL;
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} else {
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c->is_listening = 1;
c->is_udp = strncmp(url, "udp:", 4) == 0;
LIST_ADD_HEAD(struct mg_connection, &mgr->conns, c);
c->fn = fn;
c->fn_data = fn_data;
mg_call(c, MG_EV_OPEN, NULL);
MG_DEBUG(("%lu %p %s", c->id, c->fd, url));
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}
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return c;
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}
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struct mg_connection *mg_wrapfd(struct mg_mgr *mgr, int fd,
mg_event_handler_t fn, void *fn_data) {
struct mg_connection *c = mg_alloc_conn(mgr);
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if (c != NULL) {
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c->fd = (void *) (size_t) fd;
c->fn = fn;
c->fn_data = fn_data;
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MG_EPOLL_ADD(c);
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mg_call(c, MG_EV_OPEN, NULL);
LIST_ADD_HEAD(struct mg_connection, &mgr->conns, c);
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}
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return c;
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}
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struct mg_timer *mg_timer_add(struct mg_mgr *mgr, uint64_t milliseconds,
unsigned flags, void (*fn)(void *), void *arg) {
struct mg_timer *t = (struct mg_timer *) calloc(1, sizeof(*t));
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if (t != NULL) {
mg_timer_init(&mgr->timers, t, milliseconds, flags, fn, arg);
t->id = mgr->timerid++;
}
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return t;
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}
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void mg_mgr_free(struct mg_mgr *mgr) {
struct mg_connection *c;
struct mg_timer *tmp, *t = mgr->timers;
while (t != NULL) tmp = t->next, free(t), t = tmp;
mgr->timers = NULL; // Important. Next call to poll won't touch timers
for (c = mgr->conns; c != NULL; c = c->next) c->is_closing = 1;
mg_mgr_poll(mgr, 0);
#if MG_ENABLE_FREERTOS_TCP
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FreeRTOS_DeleteSocketSet(mgr->ss);
#endif
MG_DEBUG(("All connections closed"));
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#if MG_ENABLE_EPOLL
if (mgr->epoll_fd >= 0) close(mgr->epoll_fd), mgr->epoll_fd = -1;
#endif
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}
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void mg_mgr_init(struct mg_mgr *mgr) {
memset(mgr, 0, sizeof(*mgr));
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#if MG_ENABLE_EPOLL
if ((mgr->epoll_fd = epoll_create1(0)) < 0) MG_ERROR(("epoll: %d", errno));
#else
mgr->epoll_fd = -1;
#endif
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#if MG_ARCH == MG_ARCH_WIN32 && MG_ENABLE_WINSOCK
// clang-format off
{ WSADATA data; WSAStartup(MAKEWORD(2, 2), &data); }
// clang-format on
#elif MG_ENABLE_FREERTOS_TCP
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mgr->ss = FreeRTOS_CreateSocketSet();
#elif defined(__unix) || defined(__unix__) || defined(__APPLE__)
// Ignore SIGPIPE signal, so if client cancels the request, it
// won't kill the whole process.
signal(SIGPIPE, SIG_IGN);
#endif
mgr->dnstimeout = 3000;
mgr->dns4.url = "udp://8.8.8.8:53";
mgr->dns6.url = "udp://[2001:4860:4860::8888]:53";
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}
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#ifdef MG_ENABLE_LINES
#line 1 "src/rpc.c"
#endif
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void mg_rpc_add(struct mg_rpc **head, struct mg_str method,
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void (*fn)(struct mg_rpc_req *), void *fn_data) {
struct mg_rpc *rpc = (struct mg_rpc *) calloc(1, sizeof(*rpc));
if (rpc != NULL) {
rpc->method = mg_strdup(method), rpc->fn = fn, rpc->fn_data = fn_data;
rpc->next = *head, *head = rpc;
}
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}
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void mg_rpc_del(struct mg_rpc **head, void (*fn)(struct mg_rpc_req *)) {
struct mg_rpc *r;
while ((r = *head) != NULL) {
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if (r->fn == fn || fn == NULL) {
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*head = r->next;
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free((void *) r->method.ptr);
free(r);
} else {
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head = &(*head)->next;
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}
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}
}
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static void mg_rpc_call(struct mg_rpc_req *r, struct mg_str method) {
struct mg_rpc *h = r->head == NULL ? NULL : *r->head;
while (h != NULL && !mg_match(method, h->method, NULL)) h = h->next;
if (h != NULL) {
r->rpc = h;
h->fn(r);
} else {
mg_rpc_err(r, -32601, "\"%.*s not found\"", (int) method.len, method.ptr);
}
}
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void mg_rpc_process(struct mg_rpc_req *r) {
int len, off = mg_json_get(r->frame, "$.method", &len);
if (off > 0 && r->frame.ptr[off] == '"') {
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struct mg_str method = mg_str_n(&r->frame.ptr[off + 1], (size_t) len - 2);
mg_rpc_call(r, method);
} else if ((off = mg_json_get(r->frame, "$.result", &len)) > 0 ||
(off = mg_json_get(r->frame, "$.error", &len)) > 0) {
mg_rpc_call(r, mg_str("")); // JSON response! call "" method handler
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} else {
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mg_rpc_err(r, -32700, "%.*Q", (int) r->frame.len, r->frame.ptr); // Invalid
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}
}
void mg_rpc_vok(struct mg_rpc_req *r, const char *fmt, va_list *ap) {
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int len, off = mg_json_get(r->frame, "$.id", &len);
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if (off > 0) {
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mg_xprintf(r->pfn, r->pfn_data, "{%Q:%.*s,%Q:", "id", len,
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&r->frame.ptr[off], "result");
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mg_vxprintf(r->pfn, r->pfn_data, fmt == NULL ? "null" : fmt, ap);
mg_xprintf(r->pfn, r->pfn_data, "}");
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}
}
void mg_rpc_ok(struct mg_rpc_req *r, const char *fmt, ...) {
va_list ap;
va_start(ap, fmt);
mg_rpc_vok(r, fmt, &ap);
va_end(ap);
}
void mg_rpc_verr(struct mg_rpc_req *r, int code, const char *fmt, va_list *ap) {
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int len, off = mg_json_get(r->frame, "$.id", &len);
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mg_xprintf(r->pfn, r->pfn_data, "{");
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if (off > 0) {
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mg_xprintf(r->pfn, r->pfn_data, "%Q:%.*s,", "id", len, &r->frame.ptr[off]);
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}
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mg_xprintf(r->pfn, r->pfn_data, "%Q:{%Q:%d,%Q:", "error", "code", code,
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"message");
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mg_vxprintf(r->pfn, r->pfn_data, fmt == NULL ? "null" : fmt, ap);
mg_xprintf(r->pfn, r->pfn_data, "}}");
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}
void mg_rpc_err(struct mg_rpc_req *r, int code, const char *fmt, ...) {
va_list ap;
va_start(ap, fmt);
mg_rpc_verr(r, code, fmt, &ap);
va_end(ap);
}
static size_t print_methods(mg_pfn_t pfn, void *pfn_data, va_list *ap) {
struct mg_rpc *h, **head = (struct mg_rpc **) va_arg(*ap, void **);
size_t len = 0;
for (h = *head; h != NULL; h = h->next) {
if (h->method.len == 0) continue; // Ignore response handler
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len += mg_xprintf(pfn, pfn_data, "%s%.*Q", h == *head ? "" : ",",
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(int) h->method.len, h->method.ptr);
}
return len;
}
void mg_rpc_list(struct mg_rpc_req *r) {
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mg_rpc_ok(r, "[%M]", print_methods, r->head);
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}
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#ifdef MG_ENABLE_LINES
#line 1 "src/sha1.c"
#endif
/* Copyright(c) By Steve Reid <steve@edmweb.com> */
/* 100% Public Domain */
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union char64long16 {
unsigned char c[64];
uint32_t l[16];
};
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#define rol(value, bits) (((value) << (bits)) | ((value) >> (32 - (bits))))
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static uint32_t blk0(union char64long16 *block, int i) {
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if (MG_BIG_ENDIAN) {
} else {
block->l[i] = (rol(block->l[i], 24) & 0xFF00FF00) |
(rol(block->l[i], 8) & 0x00FF00FF);
}
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return block->l[i];
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}
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/* Avoid redefine warning (ARM /usr/include/sys/ucontext.h define R0~R4) */
#undef blk
#undef R0
#undef R1
#undef R2
#undef R3
#undef R4
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#define blk(i) \
(block->l[i & 15] = rol(block->l[(i + 13) & 15] ^ block->l[(i + 8) & 15] ^ \
block->l[(i + 2) & 15] ^ block->l[i & 15], \
1))
#define R0(v, w, x, y, z, i) \
z += ((w & (x ^ y)) ^ y) + blk0(block, i) + 0x5A827999 + rol(v, 5); \
w = rol(w, 30);
#define R1(v, w, x, y, z, i) \
z += ((w & (x ^ y)) ^ y) + blk(i) + 0x5A827999 + rol(v, 5); \
w = rol(w, 30);
#define R2(v, w, x, y, z, i) \
z += (w ^ x ^ y) + blk(i) + 0x6ED9EBA1 + rol(v, 5); \
w = rol(w, 30);
#define R3(v, w, x, y, z, i) \
z += (((w | x) & y) | (w & x)) + blk(i) + 0x8F1BBCDC + rol(v, 5); \
w = rol(w, 30);
#define R4(v, w, x, y, z, i) \
z += (w ^ x ^ y) + blk(i) + 0xCA62C1D6 + rol(v, 5); \
w = rol(w, 30);
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static void mg_sha1_transform(uint32_t state[5],
const unsigned char buffer[64]) {
uint32_t a, b, c, d, e;
union char64long16 block[1];
memcpy(block, buffer, 64);
a = state[0];
b = state[1];
c = state[2];
d = state[3];
e = state[4];
R0(a, b, c, d, e, 0);
R0(e, a, b, c, d, 1);
R0(d, e, a, b, c, 2);
R0(c, d, e, a, b, 3);
R0(b, c, d, e, a, 4);
R0(a, b, c, d, e, 5);
R0(e, a, b, c, d, 6);
R0(d, e, a, b, c, 7);
R0(c, d, e, a, b, 8);
R0(b, c, d, e, a, 9);
R0(a, b, c, d, e, 10);
R0(e, a, b, c, d, 11);
R0(d, e, a, b, c, 12);
R0(c, d, e, a, b, 13);
R0(b, c, d, e, a, 14);
R0(a, b, c, d, e, 15);
R1(e, a, b, c, d, 16);
R1(d, e, a, b, c, 17);
R1(c, d, e, a, b, 18);
R1(b, c, d, e, a, 19);
R2(a, b, c, d, e, 20);
R2(e, a, b, c, d, 21);
R2(d, e, a, b, c, 22);
R2(c, d, e, a, b, 23);
R2(b, c, d, e, a, 24);
R2(a, b, c, d, e, 25);
R2(e, a, b, c, d, 26);
R2(d, e, a, b, c, 27);
R2(c, d, e, a, b, 28);
R2(b, c, d, e, a, 29);
R2(a, b, c, d, e, 30);
R2(e, a, b, c, d, 31);
R2(d, e, a, b, c, 32);
R2(c, d, e, a, b, 33);
R2(b, c, d, e, a, 34);
R2(a, b, c, d, e, 35);
R2(e, a, b, c, d, 36);
R2(d, e, a, b, c, 37);
R2(c, d, e, a, b, 38);
R2(b, c, d, e, a, 39);
R3(a, b, c, d, e, 40);
R3(e, a, b, c, d, 41);
R3(d, e, a, b, c, 42);
R3(c, d, e, a, b, 43);
R3(b, c, d, e, a, 44);
R3(a, b, c, d, e, 45);
R3(e, a, b, c, d, 46);
R3(d, e, a, b, c, 47);
R3(c, d, e, a, b, 48);
R3(b, c, d, e, a, 49);
R3(a, b, c, d, e, 50);
R3(e, a, b, c, d, 51);
R3(d, e, a, b, c, 52);
R3(c, d, e, a, b, 53);
R3(b, c, d, e, a, 54);
R3(a, b, c, d, e, 55);
R3(e, a, b, c, d, 56);
R3(d, e, a, b, c, 57);
R3(c, d, e, a, b, 58);
R3(b, c, d, e, a, 59);
R4(a, b, c, d, e, 60);
R4(e, a, b, c, d, 61);
R4(d, e, a, b, c, 62);
R4(c, d, e, a, b, 63);
R4(b, c, d, e, a, 64);
R4(a, b, c, d, e, 65);
R4(e, a, b, c, d, 66);
R4(d, e, a, b, c, 67);
R4(c, d, e, a, b, 68);
R4(b, c, d, e, a, 69);
R4(a, b, c, d, e, 70);
R4(e, a, b, c, d, 71);
R4(d, e, a, b, c, 72);
R4(c, d, e, a, b, 73);
R4(b, c, d, e, a, 74);
R4(a, b, c, d, e, 75);
R4(e, a, b, c, d, 76);
R4(d, e, a, b, c, 77);
R4(c, d, e, a, b, 78);
R4(b, c, d, e, a, 79);
state[0] += a;
state[1] += b;
state[2] += c;
state[3] += d;
state[4] += e;
/* Erase working structures. The order of operations is important,
* used to ensure that compiler doesn't optimize those out. */
memset(block, 0, sizeof(block));
a = b = c = d = e = 0;
(void) a;
(void) b;
(void) c;
(void) d;
(void) e;
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}
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void mg_sha1_init(mg_sha1_ctx *context) {
context->state[0] = 0x67452301;
context->state[1] = 0xEFCDAB89;
context->state[2] = 0x98BADCFE;
context->state[3] = 0x10325476;
context->state[4] = 0xC3D2E1F0;
context->count[0] = context->count[1] = 0;
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}
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void mg_sha1_update(mg_sha1_ctx *context, const unsigned char *data,
size_t len) {
size_t i, j;
j = context->count[0];
if ((context->count[0] += (uint32_t) len << 3) < j) context->count[1]++;
context->count[1] += (uint32_t) (len >> 29);
j = (j >> 3) & 63;
if ((j + len) > 63) {
memcpy(&context->buffer[j], data, (i = 64 - j));
mg_sha1_transform(context->state, context->buffer);
for (; i + 63 < len; i += 64) {
mg_sha1_transform(context->state, &data[i]);
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}
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j = 0;
} else
i = 0;
memcpy(&context->buffer[j], &data[i], len - i);
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}
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void mg_sha1_final(unsigned char digest[20], mg_sha1_ctx *context) {
unsigned i;
unsigned char finalcount[8], c;
for (i = 0; i < 8; i++) {
finalcount[i] = (unsigned char) ((context->count[(i >= 4 ? 0 : 1)] >>
((3 - (i & 3)) * 8)) &
255);
}
c = 0200;
mg_sha1_update(context, &c, 1);
while ((context->count[0] & 504) != 448) {
c = 0000;
mg_sha1_update(context, &c, 1);
}
mg_sha1_update(context, finalcount, 8);
for (i = 0; i < 20; i++) {
digest[i] =
(unsigned char) ((context->state[i >> 2] >> ((3 - (i & 3)) * 8)) & 255);
}
memset(context, '\0', sizeof(*context));
memset(&finalcount, '\0', sizeof(finalcount));
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}
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#ifdef MG_ENABLE_LINES
#line 1 "src/sntp.c"
#endif
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#define SNTP_TIME_OFFSET 2208988800U // (1970 - 1900) in seconds
#define SNTP_MAX_FRAC 4294967295.0 // 2 ** 32 - 1
static int64_t gettimestamp(const uint32_t *data) {
uint32_t sec = mg_ntohl(data[0]), frac = mg_ntohl(data[1]);
if (sec) sec -= SNTP_TIME_OFFSET;
return ((int64_t) sec) * 1000 + (int64_t) (frac / SNTP_MAX_FRAC * 1000.0);
}
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int64_t mg_sntp_parse(const unsigned char *buf, size_t len) {
int64_t res = -1;
int mode = len > 0 ? buf[0] & 7 : 0;
int version = len > 0 ? (buf[0] >> 3) & 7 : 0;
if (len < 48) {
MG_ERROR(("%s", "corrupt packet"));
} else if (mode != 4 && mode != 5) {
MG_ERROR(("%s", "not a server reply"));
} else if (buf[1] == 0) {
MG_ERROR(("%s", "server sent a kiss of death"));
} else if (version == 4 || version == 3) {
// int64_t ref = gettimestamp((uint32_t *) &buf[16]);
int64_t t0 = gettimestamp((uint32_t *) &buf[24]);
int64_t t1 = gettimestamp((uint32_t *) &buf[32]);
int64_t t2 = gettimestamp((uint32_t *) &buf[40]);
int64_t t3 = (int64_t) mg_millis();
int64_t delta = (t3 - t0) - (t2 - t1);
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MG_VERBOSE(("%lld %lld %lld %lld delta:%lld", t0, t1, t2, t3, delta));
res = t2 + delta / 2;
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} else {
MG_ERROR(("unexpected version: %d", version));
}
return res;
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}
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static void sntp_cb(struct mg_connection *c, int ev, void *evd, void *fnd) {
if (ev == MG_EV_READ) {
int64_t milliseconds = mg_sntp_parse(c->recv.buf, c->recv.len);
if (milliseconds > 0) {
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MG_INFO(("%lu got time: %lld ms from epoch", c->id, milliseconds));
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mg_call(c, MG_EV_SNTP_TIME, (uint64_t *) &milliseconds);
MG_VERBOSE(("%u.%u", (unsigned) (milliseconds / 1000),
(unsigned) (milliseconds % 1000)));
}
mg_iobuf_del(&c->recv, 0, c->recv.len); // Free receive buffer
} else if (ev == MG_EV_CONNECT) {
mg_sntp_request(c);
} else if (ev == MG_EV_CLOSE) {
}
(void) fnd;
(void) evd;
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}
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void mg_sntp_request(struct mg_connection *c) {
if (c->is_resolving) {
MG_ERROR(("%lu wait until resolved", c->id));
} else {
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int64_t now = (int64_t) mg_millis(); // Use int64_t, for vc98
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uint8_t buf[48] = {0};
uint32_t *t = (uint32_t *) &buf[40];
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double frac = ((double) (now % 1000)) / 1000.0 * SNTP_MAX_FRAC;
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buf[0] = (0 << 6) | (4 << 3) | 3;
t[0] = mg_htonl((uint32_t) (now / 1000) + SNTP_TIME_OFFSET);
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t[1] = mg_htonl((uint32_t) frac);
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mg_send(c, buf, sizeof(buf));
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}
}
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struct mg_connection *mg_sntp_connect(struct mg_mgr *mgr, const char *url,
mg_event_handler_t fn, void *fnd) {
struct mg_connection *c = NULL;
if (url == NULL) url = "udp://time.google.com:123";
if ((c = mg_connect(mgr, url, fn, fnd)) != NULL) c->pfn = sntp_cb;
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return c;
}
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#ifdef MG_ENABLE_LINES
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#line 1 "src/sock.c"
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#endif
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#if MG_ENABLE_SOCKET
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#ifndef closesocket
#define closesocket(x) close(x)
#endif
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#define FD(c_) ((MG_SOCKET_TYPE) (size_t) (c_)->fd)
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#define S2PTR(s_) ((void *) (size_t) (s_))
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#ifndef MSG_NONBLOCKING
#define MSG_NONBLOCKING 0
#endif
#ifndef AF_INET6
#define AF_INET6 10
#endif
union usa {
struct sockaddr sa;
struct sockaddr_in sin;
#if MG_ENABLE_IPV6
struct sockaddr_in6 sin6;
#endif
};
static socklen_t tousa(struct mg_addr *a, union usa *usa) {
socklen_t len = sizeof(usa->sin);
memset(usa, 0, sizeof(*usa));
usa->sin.sin_family = AF_INET;
usa->sin.sin_port = a->port;
*(uint32_t *) &usa->sin.sin_addr = a->ip;
#if MG_ENABLE_IPV6
if (a->is_ip6) {
usa->sin.sin_family = AF_INET6;
usa->sin6.sin6_port = a->port;
memcpy(&usa->sin6.sin6_addr, a->ip6, sizeof(a->ip6));
len = sizeof(usa->sin6);
}
#endif
return len;
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}
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static void tomgaddr(union usa *usa, struct mg_addr *a, bool is_ip6) {
a->is_ip6 = is_ip6;
a->port = usa->sin.sin_port;
memcpy(&a->ip, &usa->sin.sin_addr, sizeof(a->ip));
#if MG_ENABLE_IPV6
if (is_ip6) {
memcpy(a->ip6, &usa->sin6.sin6_addr, sizeof(a->ip6));
a->port = usa->sin6.sin6_port;
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}
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#endif
}
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static bool mg_sock_would_block(void) {
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int err = MG_SOCKET_ERRNO;
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return err == EINPROGRESS || err == EWOULDBLOCK
#ifndef WINCE
|| err == EAGAIN || err == EINTR
#endif
#if MG_ARCH == MG_ARCH_WIN32 && MG_ENABLE_WINSOCK
|| err == WSAEINTR || err == WSAEWOULDBLOCK
#endif
;
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}
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static bool mg_sock_conn_reset(void) {
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int err = MG_SOCKET_ERRNO;
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#if MG_ARCH == MG_ARCH_WIN32 && MG_ENABLE_WINSOCK
return err == WSAECONNRESET;
#else
return err == EPIPE || err == ECONNRESET;
#endif
}
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static void setlocaddr(MG_SOCKET_TYPE fd, struct mg_addr *addr) {
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union usa usa;
socklen_t n = sizeof(usa);
if (getsockname(fd, &usa.sa, &n) == 0) {
tomgaddr(&usa, addr, n != sizeof(usa.sin));
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}
}
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static void iolog(struct mg_connection *c, char *buf, long n, bool r) {
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if (n == MG_IO_WAIT) {
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// Do nothing
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} else if (n <= 0) {
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c->is_closing = 1; // Termination. Don't call mg_error(): #1529
} else if (n > 0) {
if (c->is_hexdumping) {
union usa usa;
socklen_t slen = sizeof(usa.sin);
if (getsockname(FD(c), &usa.sa, &slen) < 0) (void) 0; // Ignore result
MG_INFO(("\n-- %lu %I %s %I %s %ld", c->id, 4, &usa.sin.sin_addr,
r ? "<-" : "->", 4, &c->rem.ip, c->label, n));
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mg_hexdump(buf, (size_t) n);
}
if (r) {
c->recv.len += (size_t) n;
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mg_call(c, MG_EV_READ, &n);
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} else {
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mg_iobuf_del(&c->send, 0, (size_t) n);
// if (c->send.len == 0) mg_iobuf_resize(&c->send, 0);
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if (c->send.len == 0) {
MG_EPOLL_MOD(c, 0);
}
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mg_call(c, MG_EV_WRITE, &n);
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}
}
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}
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long mg_io_send(struct mg_connection *c, const void *buf, size_t len) {
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long n;
if (c->is_udp) {
union usa usa;
socklen_t slen = tousa(&c->rem, &usa);
n = sendto(FD(c), (char *) buf, len, 0, &usa.sa, slen);
if (n > 0) setlocaddr(FD(c), &c->loc);
} else {
n = send(FD(c), (char *) buf, len, MSG_NONBLOCKING);
#if MG_ARCH == MG_ARCH_RTX
if (n == EWOULDBLOCK) return MG_IO_WAIT;
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#endif
}
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if (n < 0 && mg_sock_would_block()) return MG_IO_WAIT;
if (n < 0 && mg_sock_conn_reset()) return MG_IO_RESET;
if (n <= 0) return MG_IO_ERR;
return n;
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}
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bool mg_send(struct mg_connection *c, const void *buf, size_t len) {
if (c->is_udp) {
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long n = mg_io_send(c, buf, len);
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MG_DEBUG(("%lu %p %d:%d %ld err %d", c->id, c->fd, (int) c->send.len,
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(int) c->recv.len, n, MG_SOCKET_ERRNO));
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iolog(c, (char *) buf, n, false);
return n > 0;
} else {
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return mg_iobuf_add(&c->send, c->send.len, buf, len);
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}
}
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static void mg_set_non_blocking_mode(MG_SOCKET_TYPE fd) {
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#if defined(MG_CUSTOM_NONBLOCK)
MG_CUSTOM_NONBLOCK(fd);
#elif MG_ARCH == MG_ARCH_WIN32 && MG_ENABLE_WINSOCK
unsigned long on = 1;
ioctlsocket(fd, FIONBIO, &on);
#elif MG_ARCH == MG_ARCH_RTX
unsigned long on = 1;
ioctlsocket(fd, FIONBIO, &on);
#elif MG_ENABLE_FREERTOS_TCP
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const BaseType_t off = 0;
if (setsockopt(fd, 0, FREERTOS_SO_RCVTIMEO, &off, sizeof(off)) != 0) (void) 0;
if (setsockopt(fd, 0, FREERTOS_SO_SNDTIMEO, &off, sizeof(off)) != 0) (void) 0;
#elif MG_ENABLE_LWIP
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lwip_fcntl(fd, F_SETFL, O_NONBLOCK);
#elif MG_ARCH == MG_ARCH_AZURERTOS
fcntl(fd, F_SETFL, O_NONBLOCK);
#elif MG_ARCH == MG_ARCH_TIRTOS
int val = 0;
setsockopt(fd, SOL_SOCKET, SO_BLOCKING, &val, sizeof(val));
// SPRU524J section 3.3.3 page 63, SO_SNDLOWAT
int sz = sizeof(val);
getsockopt(fd, SOL_SOCKET, SO_SNDBUF, &val, &sz);
val /= 2; // set send low-water mark at half send buffer size
setsockopt(fd, SOL_SOCKET, SO_SNDLOWAT, &val, sizeof(val));
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#else
fcntl(fd, F_SETFL, fcntl(fd, F_GETFL, 0) | O_NONBLOCK); // Non-blocking mode
fcntl(fd, F_SETFD, FD_CLOEXEC); // Set close-on-exec
#endif
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}
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bool mg_open_listener(struct mg_connection *c, const char *url) {
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MG_SOCKET_TYPE fd = MG_INVALID_SOCKET;
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bool success = false;
c->loc.port = mg_htons(mg_url_port(url));
if (!mg_aton(mg_url_host(url), &c->loc)) {
MG_ERROR(("invalid listening URL: %s", url));
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} else {
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union usa usa;
socklen_t slen = tousa(&c->loc, &usa);
int on = 1, af = c->loc.is_ip6 ? AF_INET6 : AF_INET;
int type = strncmp(url, "udp:", 4) == 0 ? SOCK_DGRAM : SOCK_STREAM;
int proto = type == SOCK_DGRAM ? IPPROTO_UDP : IPPROTO_TCP;
(void) on;
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if ((fd = socket(af, type, proto)) == MG_INVALID_SOCKET) {
MG_ERROR(("socket: %d", MG_SOCKET_ERRNO));
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#if ((MG_ARCH == MG_ARCH_WIN32) || (MG_ARCH == MG_ARCH_UNIX) || \
(defined(LWIP_SOCKET) && SO_REUSE == 1))
} else if (setsockopt(fd, SOL_SOCKET, SO_REUSEADDR, (char *) &on,
sizeof(on)) != 0) {
// 1. SO_RESUSEADDR is not enabled on Windows because the semantics of
// SO_REUSEADDR on UNIX and Windows is different. On Windows,
// SO_REUSEADDR allows to bind a socket to a port without error even
// if the port is already open by another program. This is not the
// behavior SO_REUSEADDR was designed for, and leads to hard-to-track
// failure scenarios. Therefore, SO_REUSEADDR was disabled on Windows
// unless SO_EXCLUSIVEADDRUSE is supported and set on a socket.
// 2. In case of LWIP, SO_REUSEADDR should be explicitly enabled, by
// defining
// SO_REUSE (in lwipopts.h), otherwise the code below will compile
// but won't work! (setsockopt will return EINVAL)
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MG_ERROR(("reuseaddr: %d", MG_SOCKET_ERRNO));
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#endif
#if MG_ARCH == MG_ARCH_WIN32 && !defined(SO_EXCLUSIVEADDRUSE) && !defined(WINCE)
} else if (setsockopt(fd, SOL_SOCKET, SO_EXCLUSIVEADDRUSE, (char *) &on,
sizeof(on)) != 0) {
// "Using SO_REUSEADDR and SO_EXCLUSIVEADDRUSE"
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MG_ERROR(("exclusiveaddruse: %d", MG_SOCKET_ERRNO));
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#endif
} else if (bind(fd, &usa.sa, slen) != 0) {
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MG_ERROR(("bind: %d", MG_SOCKET_ERRNO));
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} else if ((type == SOCK_STREAM &&
listen(fd, MG_SOCK_LISTEN_BACKLOG_SIZE) != 0)) {
// NOTE(lsm): FreeRTOS uses backlog value as a connection limit
// In case port was set to 0, get the real port number
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MG_ERROR(("listen: %d", MG_SOCKET_ERRNO));
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} else {
setlocaddr(fd, &c->loc);
mg_set_non_blocking_mode(fd);
c->fd = S2PTR(fd);
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MG_EPOLL_ADD(c);
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success = true;
}
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}
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if (success == false && fd != MG_INVALID_SOCKET) closesocket(fd);
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return success;
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}
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long mg_io_recv(struct mg_connection *c, void *buf, size_t len) {
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long n = 0;
if (c->is_udp) {
union usa usa;
socklen_t slen = tousa(&c->rem, &usa);
n = recvfrom(FD(c), (char *) buf, len, 0, &usa.sa, &slen);
if (n > 0) tomgaddr(&usa, &c->rem, slen != sizeof(usa.sin));
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} else {
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n = recv(FD(c), (char *) buf, len, MSG_NONBLOCKING);
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}
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if (n < 0 && mg_sock_would_block()) return MG_IO_WAIT;
if (n < 0 && mg_sock_conn_reset()) return MG_IO_RESET;
if (n <= 0) return MG_IO_ERR;
return n;
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}
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// NOTE(lsm): do only one iteration of reads, cause some systems
// (e.g. FreeRTOS stack) return 0 instead of -1/EWOULDBLOCK when no data
static void read_conn(struct mg_connection *c) {
long n = -1;
if (c->recv.len >= MG_MAX_RECV_SIZE) {
mg_error(c, "max_recv_buf_size reached");
} else if (c->recv.size <= c->recv.len &&
!mg_iobuf_resize(&c->recv, c->recv.size + MG_IO_SIZE)) {
mg_error(c, "oom");
} else {
char *buf = (char *) &c->recv.buf[c->recv.len];
size_t len = c->recv.size - c->recv.len;
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n = c->is_tls ? mg_tls_recv(c, buf, len) : mg_io_recv(c, buf, len);
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MG_DEBUG(("%lu %p snd %ld/%ld rcv %ld/%ld n=%ld err=%d", c->id, c->fd,
(long) c->send.len, (long) c->send.size, (long) c->recv.len,
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(long) c->recv.size, n, MG_SOCKET_ERRNO));
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iolog(c, buf, n, true);
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}
}
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static void write_conn(struct mg_connection *c) {
char *buf = (char *) c->send.buf;
size_t len = c->send.len;
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long n = c->is_tls ? mg_tls_send(c, buf, len) : mg_io_send(c, buf, len);
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MG_DEBUG(("%lu %p snd %ld/%ld rcv %ld/%ld n=%ld err=%d", c->id, c->fd,
(long) c->send.len, (long) c->send.size, (long) c->recv.len,
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(long) c->recv.size, n, MG_SOCKET_ERRNO));
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iolog(c, buf, n, false);
}
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static void close_conn(struct mg_connection *c) {
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if (FD(c) != MG_INVALID_SOCKET) {
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#if MG_ENABLE_EPOLL
epoll_ctl(c->mgr->epoll_fd, EPOLL_CTL_DEL, FD(c), NULL);
#endif
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closesocket(FD(c));
#if MG_ENABLE_FREERTOS_TCP
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FreeRTOS_FD_CLR(c->fd, c->mgr->ss, eSELECT_ALL);
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#endif
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}
mg_close_conn(c);
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}
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static void connect_conn(struct mg_connection *c) {
union usa usa;
socklen_t n = sizeof(usa);
// Use getpeername() to test whether we have connected
if (getpeername(FD(c), &usa.sa, &n) == 0) {
c->is_connecting = 0;
mg_call(c, MG_EV_CONNECT, NULL);
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MG_EPOLL_MOD(c, 0);
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if (c->is_tls_hs) mg_tls_handshake(c);
} else {
mg_error(c, "socket error");
}
}
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static void setsockopts(struct mg_connection *c) {
#if MG_ENABLE_FREERTOS_TCP || MG_ARCH == MG_ARCH_AZURERTOS || \
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MG_ARCH == MG_ARCH_TIRTOS
(void) c;
#else
int on = 1;
#if !defined(SOL_TCP)
#define SOL_TCP IPPROTO_TCP
#endif
if (setsockopt(FD(c), SOL_TCP, TCP_NODELAY, (char *) &on, sizeof(on)) != 0)
(void) 0;
if (setsockopt(FD(c), SOL_SOCKET, SO_KEEPALIVE, (char *) &on, sizeof(on)) !=
0)
(void) 0;
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#endif
}
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void mg_connect_resolved(struct mg_connection *c) {
int type = c->is_udp ? SOCK_DGRAM : SOCK_STREAM;
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int rc, af = c->rem.is_ip6 ? AF_INET6 : AF_INET; // c->rem has resolved IP
c->fd = S2PTR(socket(af, type, 0)); // Create outbound socket
c->is_resolving = 0; // Clear resolving flag
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if (FD(c) == MG_INVALID_SOCKET) {
mg_error(c, "socket(): %d", MG_SOCKET_ERRNO);
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} else if (c->is_udp) {
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MG_EPOLL_ADD(c);
#if MG_ARCH == MG_ARCH_TIRTOS
union usa usa; // TI-RTOS NDK requires binding to receive on UDP sockets
socklen_t slen = tousa(&c->loc, &usa);
if (bind(c->fd, &usa.sa, slen) != 0)
MG_ERROR(("bind: %d", MG_SOCKET_ERRNO));
#endif
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mg_call(c, MG_EV_RESOLVE, NULL);
mg_call(c, MG_EV_CONNECT, NULL);
} else {
union usa usa;
socklen_t slen = tousa(&c->rem, &usa);
mg_set_non_blocking_mode(FD(c));
setsockopts(c);
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MG_EPOLL_ADD(c);
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mg_call(c, MG_EV_RESOLVE, NULL);
if ((rc = connect(FD(c), &usa.sa, slen)) == 0) {
mg_call(c, MG_EV_CONNECT, NULL);
} else if (mg_sock_would_block()) {
MG_DEBUG(("%lu %p -> %I:%hu pend", c->id, c->fd, 4, &c->rem.ip,
mg_ntohs(c->rem.port)));
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c->is_connecting = 1;
} else {
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mg_error(c, "connect: %d", MG_SOCKET_ERRNO);
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}
}
(void) rc;
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}
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static MG_SOCKET_TYPE raccept(MG_SOCKET_TYPE sock, union usa *usa,
socklen_t *len) {
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MG_SOCKET_TYPE s = MG_INVALID_SOCKET;
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do {
memset(usa, 0, sizeof(*usa));
s = accept(sock, &usa->sa, len);
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} while (s == MG_INVALID_SOCKET && errno == EINTR);
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return s;
}
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static void accept_conn(struct mg_mgr *mgr, struct mg_connection *lsn) {
struct mg_connection *c = NULL;
union usa usa;
socklen_t sa_len = sizeof(usa);
MG_SOCKET_TYPE fd = raccept(FD(lsn), &usa, &sa_len);
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if (fd == MG_INVALID_SOCKET) {
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#if MG_ARCH == MG_ARCH_AZURERTOS
// AzureRTOS, in non-block socket mode can mark listening socket readable
// even it is not. See comment for 'select' func implementation in
// nx_bsd.c That's not an error, just should try later
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if (MG_SOCKET_ERRNO != EAGAIN)
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#endif
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MG_ERROR(("%lu accept failed, errno %d", lsn->id, MG_SOCKET_ERRNO));
#if (MG_ARCH != MG_ARCH_WIN32) && !MG_ENABLE_FREERTOS_TCP && \
(MG_ARCH != MG_ARCH_TIRTOS) && !MG_ENABLE_POLL
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} else if ((long) fd >= FD_SETSIZE) {
MG_ERROR(("%ld > %ld", (long) fd, (long) FD_SETSIZE));
closesocket(fd);
#endif
} else if ((c = mg_alloc_conn(mgr)) == NULL) {
MG_ERROR(("%lu OOM", lsn->id));
closesocket(fd);
} else {
tomgaddr(&usa, &c->rem, sa_len != sizeof(usa.sin));
LIST_ADD_HEAD(struct mg_connection, &mgr->conns, c);
c->fd = S2PTR(fd);
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MG_EPOLL_ADD(c);
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mg_set_non_blocking_mode(FD(c));
setsockopts(c);
c->is_accepted = 1;
c->is_hexdumping = lsn->is_hexdumping;
c->loc = lsn->loc;
c->pfn = lsn->pfn;
c->pfn_data = lsn->pfn_data;
c->fn = lsn->fn;
c->fn_data = lsn->fn_data;
MG_DEBUG(("%lu %p accepted %I.%hu -> %I.%hu", c->id, c->fd, 4, &c->rem.ip,
mg_ntohs(c->rem.port), 4, &c->loc.ip, mg_ntohs(c->loc.port)));
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mg_call(c, MG_EV_OPEN, NULL);
mg_call(c, MG_EV_ACCEPT, NULL);
}
}
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static bool mg_socketpair(MG_SOCKET_TYPE sp[2], union usa usa[2], bool udp) {
MG_SOCKET_TYPE sock;
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socklen_t n = sizeof(usa[0].sin);
bool success = false;
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sock = sp[0] = sp[1] = MG_INVALID_SOCKET;
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(void) memset(&usa[0], 0, sizeof(usa[0]));
usa[0].sin.sin_family = AF_INET;
*(uint32_t *) &usa->sin.sin_addr = mg_htonl(0x7f000001U); // 127.0.0.1
usa[1] = usa[0];
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if (udp && (sp[0] = socket(AF_INET, SOCK_DGRAM, 0)) != MG_INVALID_SOCKET &&
(sp[1] = socket(AF_INET, SOCK_DGRAM, 0)) != MG_INVALID_SOCKET &&
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bind(sp[0], &usa[0].sa, n) == 0 && bind(sp[1], &usa[1].sa, n) == 0 &&
getsockname(sp[0], &usa[0].sa, &n) == 0 &&
getsockname(sp[1], &usa[1].sa, &n) == 0 &&
connect(sp[0], &usa[1].sa, n) == 0 &&
connect(sp[1], &usa[0].sa, n) == 0) {
success = true;
} else if (!udp &&
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(sock = socket(AF_INET, SOCK_STREAM, 0)) != MG_INVALID_SOCKET &&
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bind(sock, &usa[0].sa, n) == 0 &&
listen(sock, MG_SOCK_LISTEN_BACKLOG_SIZE) == 0 &&
getsockname(sock, &usa[0].sa, &n) == 0 &&
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(sp[0] = socket(AF_INET, SOCK_STREAM, 0)) != MG_INVALID_SOCKET &&
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connect(sp[0], &usa[0].sa, n) == 0 &&
(sp[1] = raccept(sock, &usa[1], &n)) != MG_INVALID_SOCKET) {
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success = true;
}
if (success) {
mg_set_non_blocking_mode(sp[1]);
} else {
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if (sp[0] != MG_INVALID_SOCKET) closesocket(sp[0]);
if (sp[1] != MG_INVALID_SOCKET) closesocket(sp[1]);
sp[0] = sp[1] = MG_INVALID_SOCKET;
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}
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if (sock != MG_INVALID_SOCKET) closesocket(sock);
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return success;
}
int mg_mkpipe(struct mg_mgr *mgr, mg_event_handler_t fn, void *fn_data,
bool udp) {
union usa usa[2];
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MG_SOCKET_TYPE sp[2] = {MG_INVALID_SOCKET, MG_INVALID_SOCKET};
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struct mg_connection *c = NULL;
if (!mg_socketpair(sp, usa, udp)) {
MG_ERROR(("Cannot create socket pair"));
} else if ((c = mg_wrapfd(mgr, (int) sp[1], fn, fn_data)) == NULL) {
closesocket(sp[0]);
closesocket(sp[1]);
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sp[0] = sp[1] = MG_INVALID_SOCKET;
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} else {
tomgaddr(&usa[0], &c->rem, false);
MG_DEBUG(("%lu %p pipe %lu", c->id, c->fd, (unsigned long) sp[0]));
}
return (int) sp[0];
}
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static bool can_read(const struct mg_connection *c) {
return c->is_full == false;
}
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static bool can_write(const struct mg_connection *c) {
return c->is_connecting || (c->send.len > 0 && c->is_tls_hs == 0);
}
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static bool skip_iotest(const struct mg_connection *c) {
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return (c->is_closing || c->is_resolving || FD(c) == MG_INVALID_SOCKET) ||
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(can_read(c) == false && can_write(c) == false);
}
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static void mg_iotest(struct mg_mgr *mgr, int ms) {
#if MG_ENABLE_FREERTOS_TCP
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struct mg_connection *c;
for (c = mgr->conns; c != NULL; c = c->next) {
c->is_readable = c->is_writable = 0;
if (skip_iotest(c)) continue;
if (can_read(c))
FreeRTOS_FD_SET(c->fd, mgr->ss, eSELECT_READ | eSELECT_EXCEPT);
if (can_write(c)) FreeRTOS_FD_SET(c->fd, mgr->ss, eSELECT_WRITE);
}
FreeRTOS_select(mgr->ss, pdMS_TO_TICKS(ms));
for (c = mgr->conns; c != NULL; c = c->next) {
EventBits_t bits = FreeRTOS_FD_ISSET(c->fd, mgr->ss);
c->is_readable = bits & (eSELECT_READ | eSELECT_EXCEPT) ? 1U : 0;
c->is_writable = bits & eSELECT_WRITE ? 1U : 0;
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FreeRTOS_FD_CLR(c->fd, mgr->ss,
eSELECT_READ | eSELECT_EXCEPT | eSELECT_WRITE);
}
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#elif MG_ENABLE_EPOLL
size_t max = 1;
for (struct mg_connection *c = mgr->conns; c != NULL; c = c->next) {
c->is_readable = c->is_writable = 0;
if (mg_tls_pending(c) > 0) ms = 1, c->is_readable = 1;
if (can_write(c)) MG_EPOLL_MOD(c, 1);
max++;
}
struct epoll_event *evs = (struct epoll_event *) alloca(max * sizeof(evs[0]));
int n = epoll_wait(mgr->epoll_fd, evs, (int) max, ms);
for (int i = 0; i < n; i++) {
struct mg_connection *c = (struct mg_connection *) evs[i].data.ptr;
if (evs[i].events & EPOLLERR) {
mg_error(c, "socket error");
} else if (c->is_readable == 0) {
bool rd = evs[i].events & (EPOLLIN | EPOLLHUP);
bool wr = evs[i].events & EPOLLOUT;
c->is_readable = can_read(c) && rd ? 1U : 0;
c->is_writable = can_write(c) && wr ? 1U : 0;
}
}
(void) skip_iotest;
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#elif MG_ENABLE_POLL
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nfds_t n = 0;
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for (struct mg_connection *c = mgr->conns; c != NULL; c = c->next) n++;
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struct pollfd *fds = (struct pollfd *) alloca(n * sizeof(fds[0]));
memset(fds, 0, n * sizeof(fds[0]));
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n = 0;
for (struct mg_connection *c = mgr->conns; c != NULL; c = c->next) {
c->is_readable = c->is_writable = 0;
if (skip_iotest(c)) {
// Socket not valid, ignore
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} else if (mg_tls_pending(c) > 0) {
ms = 1; // Don't wait if TLS is ready
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} else {
fds[n].fd = FD(c);
if (can_read(c)) fds[n].events |= POLLIN;
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if (can_write(c)) fds[n].events |= POLLOUT;
n++;
}
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}
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// MG_INFO(("poll n=%d ms=%d", (int) n, ms));
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if (poll(fds, n, ms) < 0) {
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#if MG_ARCH == MG_ARCH_WIN32
if (n == 0) Sleep(ms); // On Windows, poll fails if no sockets
#endif
memset(fds, 0, n * sizeof(fds[0]));
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}
n = 0;
for (struct mg_connection *c = mgr->conns; c != NULL; c = c->next) {
if (skip_iotest(c)) {
// Socket not valid, ignore
} else if (mg_tls_pending(c) > 0) {
c->is_readable = 1;
} else {
if (fds[n].revents & POLLERR) {
mg_error(c, "socket error");
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} else {
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c->is_readable =
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(unsigned) (fds[n].revents & (POLLIN | POLLHUP) ? 1 : 0);
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c->is_writable = (unsigned) (fds[n].revents & POLLOUT ? 1 : 0);
}
n++;
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}
}
#else
struct timeval tv = {ms / 1000, (ms % 1000) * 1000}, tv_zero = {0, 0};
struct mg_connection *c;
fd_set rset, wset, eset;
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MG_SOCKET_TYPE maxfd = 0;
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int rc;
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FD_ZERO(&rset);
FD_ZERO(&wset);
FD_ZERO(&eset);
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for (c = mgr->conns; c != NULL; c = c->next) {
c->is_readable = c->is_writable = 0;
if (skip_iotest(c)) continue;
FD_SET(FD(c), &eset);
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if (can_read(c)) FD_SET(FD(c), &rset);
if (can_write(c)) FD_SET(FD(c), &wset);
if (mg_tls_pending(c) > 0) tv = tv_zero;
if (FD(c) > maxfd) maxfd = FD(c);
}
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if ((rc = select((int) maxfd + 1, &rset, &wset, &eset, &tv)) < 0) {
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#if MG_ARCH == MG_ARCH_WIN32
if (maxfd == 0) Sleep(ms); // On Windows, select fails if no sockets
#else
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MG_ERROR(("select: %d %d", rc, MG_SOCKET_ERRNO));
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#endif
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FD_ZERO(&rset);
FD_ZERO(&wset);
FD_ZERO(&eset);
}
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for (c = mgr->conns; c != NULL; c = c->next) {
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if (FD(c) != MG_INVALID_SOCKET && FD_ISSET(FD(c), &eset)) {
mg_error(c, "socket error");
} else {
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c->is_readable = FD(c) != MG_INVALID_SOCKET && FD_ISSET(FD(c), &rset);
c->is_writable = FD(c) != MG_INVALID_SOCKET && FD_ISSET(FD(c), &wset);
if (mg_tls_pending(c) > 0) c->is_readable = 1;
}
}
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#endif
}
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void mg_mgr_poll(struct mg_mgr *mgr, int ms) {
struct mg_connection *c, *tmp;
uint64_t now;
mg_iotest(mgr, ms);
now = mg_millis();
mg_timer_poll(&mgr->timers, now);
for (c = mgr->conns; c != NULL; c = tmp) {
bool is_resp = c->is_resp;
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tmp = c->next;
mg_call(c, MG_EV_POLL, &now);
if (is_resp && !c->is_resp) {
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long n = 0;
mg_call(c, MG_EV_READ, &n);
}
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MG_VERBOSE(("%lu %c%c %c%c%c%c%c", c->id, c->is_readable ? 'r' : '-',
c->is_writable ? 'w' : '-', c->is_tls ? 'T' : 't',
c->is_connecting ? 'C' : 'c', c->is_tls_hs ? 'H' : 'h',
c->is_resolving ? 'R' : 'r', c->is_closing ? 'C' : 'c'));
if (c->is_resolving || c->is_closing) {
// Do nothing
} else if (c->is_listening && c->is_udp == 0) {
if (c->is_readable) accept_conn(mgr, c);
} else if (c->is_connecting) {
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if (c->is_readable || c->is_writable) connect_conn(c);
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} else if (c->is_tls_hs) {
if ((c->is_readable || c->is_writable)) mg_tls_handshake(c);
} else {
if (c->is_readable) read_conn(c);
if (c->is_writable) write_conn(c);
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}
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if (c->is_draining && c->send.len == 0) c->is_closing = 1;
if (c->is_closing) close_conn(c);
}
}
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#endif
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#ifdef MG_ENABLE_LINES
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#line 1 "src/ssi.c"
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#endif
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#ifndef MG_MAX_SSI_DEPTH
#define MG_MAX_SSI_DEPTH 5
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#endif
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#ifndef MG_SSI_BUFSIZ
#define MG_SSI_BUFSIZ 1024
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#endif
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#if MG_ENABLE_SSI
static char *mg_ssi(const char *path, const char *root, int depth) {
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struct mg_iobuf b = {NULL, 0, 0, MG_IO_SIZE};
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FILE *fp = fopen(path, "rb");
if (fp != NULL) {
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char buf[MG_SSI_BUFSIZ], arg[sizeof(buf)];
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int ch, intag = 0;
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size_t len = 0;
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buf[0] = arg[0] = '\0';
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while ((ch = fgetc(fp)) != EOF) {
if (intag && ch == '>' && buf[len - 1] == '-' && buf[len - 2] == '-') {
buf[len++] = (char) (ch & 0xff);
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buf[len] = '\0';
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if (sscanf(buf, "<!--#include file=\"%[^\"]", arg)) {
char tmp[MG_PATH_MAX + MG_SSI_BUFSIZ + 10],
*p = (char *) path + strlen(path), *data;
while (p > path && p[-1] != MG_DIRSEP && p[-1] != '/') p--;
mg_snprintf(tmp, sizeof(tmp), "%.*s%s", (int) (p - path), path, arg);
if (depth < MG_MAX_SSI_DEPTH &&
(data = mg_ssi(tmp, root, depth + 1)) != NULL) {
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mg_iobuf_add(&b, b.len, data, strlen(data));
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free(data);
} else {
MG_ERROR(("%s: file=%s error or too deep", path, arg));
}
} else if (sscanf(buf, "<!--#include virtual=\"%[^\"]", arg)) {
char tmp[MG_PATH_MAX + MG_SSI_BUFSIZ + 10], *data;
mg_snprintf(tmp, sizeof(tmp), "%s%s", root, arg);
if (depth < MG_MAX_SSI_DEPTH &&
(data = mg_ssi(tmp, root, depth + 1)) != NULL) {
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mg_iobuf_add(&b, b.len, data, strlen(data));
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free(data);
} else {
MG_ERROR(("%s: virtual=%s error or too deep", path, arg));
}
} else {
// Unknown SSI tag
MG_ERROR(("Unknown SSI tag: %.*s", (int) len, buf));
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mg_iobuf_add(&b, b.len, buf, len);
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}
intag = 0;
len = 0;
} else if (ch == '<') {
intag = 1;
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if (len > 0) mg_iobuf_add(&b, b.len, buf, len);
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len = 0;
buf[len++] = (char) (ch & 0xff);
} else if (intag) {
if (len == 5 && strncmp(buf, "<!--#", 5) != 0) {
intag = 0;
} else if (len >= sizeof(buf) - 2) {
MG_ERROR(("%s: SSI tag is too large", path));
len = 0;
}
buf[len++] = (char) (ch & 0xff);
} else {
buf[len++] = (char) (ch & 0xff);
if (len >= sizeof(buf)) {
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mg_iobuf_add(&b, b.len, buf, len);
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len = 0;
}
}
}
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if (len > 0) mg_iobuf_add(&b, b.len, buf, len);
if (b.len > 0) mg_iobuf_add(&b, b.len, "", 1); // nul-terminate
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fclose(fp);
}
(void) depth;
(void) root;
return (char *) b.buf;
}
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void mg_http_serve_ssi(struct mg_connection *c, const char *root,
const char *fullpath) {
const char *headers = "Content-Type: text/html; charset=utf-8\r\n";
char *data = mg_ssi(fullpath, root, 0);
mg_http_reply(c, 200, headers, "%s", data == NULL ? "" : data);
free(data);
}
#else
void mg_http_serve_ssi(struct mg_connection *c, const char *root,
const char *fullpath) {
mg_http_reply(c, 501, NULL, "SSI not enabled");
(void) root, (void) fullpath;
}
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#endif
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#ifdef MG_ENABLE_LINES
#line 1 "src/str.c"
#endif
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struct mg_str mg_str_s(const char *s) {
struct mg_str str = {s, s == NULL ? 0 : strlen(s)};
return str;
}
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struct mg_str mg_str_n(const char *s, size_t n) {
struct mg_str str = {s, n};
return str;
}
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int mg_lower(const char *s) {
int c = *s;
if (c >= 'A' && c <= 'Z') c += 'a' - 'A';
return c;
}
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int mg_ncasecmp(const char *s1, const char *s2, size_t len) {
int diff = 0;
if (len > 0) do {
diff = mg_lower(s1++) - mg_lower(s2++);
} while (diff == 0 && s1[-1] != '\0' && --len > 0);
return diff;
}
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int mg_casecmp(const char *s1, const char *s2) {
return mg_ncasecmp(s1, s2, (size_t) ~0);
}
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int mg_vcmp(const struct mg_str *s1, const char *s2) {
size_t n2 = strlen(s2), n1 = s1->len;
int r = strncmp(s1->ptr, s2, (n1 < n2) ? n1 : n2);
if (r == 0) return (int) (n1 - n2);
return r;
}
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int mg_vcasecmp(const struct mg_str *str1, const char *str2) {
size_t n2 = strlen(str2), n1 = str1->len;
int r = mg_ncasecmp(str1->ptr, str2, (n1 < n2) ? n1 : n2);
if (r == 0) return (int) (n1 - n2);
return r;
}
struct mg_str mg_strdup(const struct mg_str s) {
struct mg_str r = {NULL, 0};
if (s.len > 0 && s.ptr != NULL) {
char *sc = (char *) calloc(1, s.len + 1);
if (sc != NULL) {
memcpy(sc, s.ptr, s.len);
sc[s.len] = '\0';
r.ptr = sc;
r.len = s.len;
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}
}
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return r;
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}
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int mg_strcmp(const struct mg_str str1, const struct mg_str str2) {
size_t i = 0;
while (i < str1.len && i < str2.len) {
int c1 = str1.ptr[i];
int c2 = str2.ptr[i];
if (c1 < c2) return -1;
if (c1 > c2) return 1;
i++;
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}
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if (i < str1.len) return 1;
if (i < str2.len) return -1;
return 0;
}
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const char *mg_strstr(const struct mg_str haystack,
const struct mg_str needle) {
size_t i;
if (needle.len > haystack.len) return NULL;
for (i = 0; i <= haystack.len - needle.len; i++) {
if (memcmp(haystack.ptr + i, needle.ptr, needle.len) == 0) {
return haystack.ptr + i;
}
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}
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return NULL;
}
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static bool is_space(int c) {
return c == ' ' || c == '\r' || c == '\n' || c == '\t';
}
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struct mg_str mg_strstrip(struct mg_str s) {
while (s.len > 0 && is_space((int) *s.ptr)) s.ptr++, s.len--;
while (s.len > 0 && is_space((int) *(s.ptr + s.len - 1))) s.len--;
return s;
}
bool mg_match(struct mg_str s, struct mg_str p, struct mg_str *caps) {
size_t i = 0, j = 0, ni = 0, nj = 0;
if (caps) caps->ptr = NULL, caps->len = 0;
while (i < p.len || j < s.len) {
if (i < p.len && j < s.len && (p.ptr[i] == '?' || s.ptr[j] == p.ptr[i])) {
if (caps == NULL) {
} else if (p.ptr[i] == '?') {
caps->ptr = &s.ptr[j], caps->len = 1; // Finalize `?` cap
caps++, caps->ptr = NULL, caps->len = 0; // Init next cap
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} else if (caps->ptr != NULL && caps->len == 0) {
caps->len = (size_t) (&s.ptr[j] - caps->ptr); // Finalize current cap
caps++, caps->len = 0, caps->ptr = NULL; // Init next cap
}
i++, j++;
} else if (i < p.len && (p.ptr[i] == '*' || p.ptr[i] == '#')) {
if (caps && !caps->ptr) caps->len = 0, caps->ptr = &s.ptr[j]; // Init cap
ni = i++, nj = j + 1;
} else if (nj > 0 && nj <= s.len && (p.ptr[ni] == '#' || s.ptr[j] != '/')) {
i = ni, j = nj;
if (caps && caps->ptr == NULL && caps->len == 0) {
caps--, caps->len = 0; // Restart previous cap
}
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} else {
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return false;
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}
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}
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if (caps && caps->ptr && caps->len == 0) {
caps->len = (size_t) (&s.ptr[j] - caps->ptr);
}
return true;
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}
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bool mg_globmatch(const char *s1, size_t n1, const char *s2, size_t n2) {
return mg_match(mg_str_n(s2, n2), mg_str_n(s1, n1), NULL);
}
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static size_t mg_nce(const char *s, size_t n, size_t ofs, size_t *koff,
size_t *klen, size_t *voff, size_t *vlen, char delim) {
size_t kvlen, kl;
for (kvlen = 0; ofs + kvlen < n && s[ofs + kvlen] != delim;) kvlen++;
for (kl = 0; kl < kvlen && s[ofs + kl] != '=';) kl++;
if (koff != NULL) *koff = ofs;
if (klen != NULL) *klen = kl;
if (voff != NULL) *voff = kl < kvlen ? ofs + kl + 1 : 0;
if (vlen != NULL) *vlen = kl < kvlen ? kvlen - kl - 1 : 0;
ofs += kvlen + 1;
return ofs > n ? n : ofs;
}
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bool mg_split(struct mg_str *s, struct mg_str *k, struct mg_str *v, char sep) {
size_t koff = 0, klen = 0, voff = 0, vlen = 0, off = 0;
if (s->ptr == NULL || s->len == 0) return 0;
off = mg_nce(s->ptr, s->len, 0, &koff, &klen, &voff, &vlen, sep);
if (k != NULL) *k = mg_str_n(s->ptr + koff, klen);
if (v != NULL) *v = mg_str_n(s->ptr + voff, vlen);
*s = mg_str_n(s->ptr + off, s->len - off);
return off > 0;
}
bool mg_commalist(struct mg_str *s, struct mg_str *k, struct mg_str *v) {
return mg_split(s, k, v, ',');
}
char *mg_hex(const void *buf, size_t len, char *to) {
const unsigned char *p = (const unsigned char *) buf;
const char *hex = "0123456789abcdef";
size_t i = 0;
for (; len--; p++) {
to[i++] = hex[p[0] >> 4];
to[i++] = hex[p[0] & 0x0f];
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}
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to[i] = '\0';
return to;
}
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static unsigned char mg_unhex_nimble(unsigned char c) {
return (c >= '0' && c <= '9') ? (unsigned char) (c - '0')
: (c >= 'A' && c <= 'F') ? (unsigned char) (c - '7')
: (unsigned char) (c - 'W');
}
unsigned long mg_unhexn(const char *s, size_t len) {
unsigned long i = 0, v = 0;
for (i = 0; i < len; i++) v <<= 4, v |= mg_unhex_nimble(((uint8_t *) s)[i]);
return v;
}
void mg_unhex(const char *buf, size_t len, unsigned char *to) {
size_t i;
for (i = 0; i < len; i += 2) {
to[i >> 1] = (unsigned char) mg_unhexn(&buf[i], 2);
}
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}
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uint64_t mg_tou64(struct mg_str str) {
uint64_t result = 0;
size_t i = 0;
while (i < str.len && (str.ptr[i] == ' ' || str.ptr[i] == '\t')) i++;
while (i < str.len && str.ptr[i] >= '0' && str.ptr[i] <= '9') {
result *= 10;
result += (unsigned) (str.ptr[i] - '0');
i++;
}
return result;
}
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int64_t mg_to64(struct mg_str str) {
int64_t result = 0, neg = 1, max = 922337203685477570 /* INT64_MAX/10-10 */;
size_t i = 0;
while (i < str.len && (str.ptr[i] == ' ' || str.ptr[i] == '\t')) i++;
if (i < str.len && str.ptr[i] == '-') neg = -1, i++;
while (i < str.len && str.ptr[i] >= '0' && str.ptr[i] <= '9') {
if (result > max) return 0;
result *= 10;
result += (str.ptr[i] - '0');
i++;
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}
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return result * neg;
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}
char *mg_remove_double_dots(char *s) {
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char *saved = s, *p = s;
while (*s != '\0') {
*p++ = *s++;
if (s[-1] == '/' || s[-1] == '\\') {
while (s[0] != '\0') {
if (s[0] == '/' || s[0] == '\\') {
s++;
} else if (s[0] == '.' && s[1] == '.' &&
(s[2] == '/' || s[2] == '\\')) {
s += 2;
} else {
break;
}
}
}
}
*p = '\0';
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return saved;
}
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#ifdef MG_ENABLE_LINES
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#line 1 "src/timer.c"
#endif
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#define MG_TIMER_CALLED 4
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void mg_timer_init(struct mg_timer **head, struct mg_timer *t, uint64_t ms,
unsigned flags, void (*fn)(void *), void *arg) {
t->id = 0, t->period_ms = ms, t->expire = 0;
t->flags = flags, t->fn = fn, t->arg = arg, t->next = *head;
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*head = t;
}
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void mg_timer_free(struct mg_timer **head, struct mg_timer *t) {
while (*head && *head != t) head = &(*head)->next;
if (*head) *head = t->next;
}
// t: expiration time, prd: period, now: current time. Return true if expired
bool mg_timer_expired(uint64_t *t, uint64_t prd, uint64_t now) {
if (now + prd < *t) *t = 0; // Time wrapped? Reset timer
if (*t == 0) *t = now + prd; // Firt poll? Set expiration
if (*t > now) return false; // Not expired yet, return
*t = (now - *t) > prd ? now + prd : *t + prd; // Next expiration time
return true; // Expired, return true
}
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void mg_timer_poll(struct mg_timer **head, uint64_t now_ms) {
struct mg_timer *t, *tmp;
for (t = *head; t != NULL; t = tmp) {
bool once = t->expire == 0 && (t->flags & MG_TIMER_RUN_NOW) &&
!(t->flags & MG_TIMER_CALLED); // Handle MG_TIMER_NOW only once
bool expired = mg_timer_expired(&t->expire, t->period_ms, now_ms);
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tmp = t->next;
if (!once && !expired) continue;
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if ((t->flags & MG_TIMER_REPEAT) || !(t->flags & MG_TIMER_CALLED)) {
t->fn(t->arg);
}
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t->flags |= MG_TIMER_CALLED;
}
}
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#ifdef MG_ENABLE_LINES
#line 1 "src/tls_dummy.c"
#endif
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#if !MG_ENABLE_MBEDTLS && !MG_ENABLE_OPENSSL && !MG_ENABLE_CUSTOM_TLS
void mg_tls_init(struct mg_connection *c, const struct mg_tls_opts *opts) {
(void) opts;
mg_error(c, "TLS is not enabled");
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}
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void mg_tls_handshake(struct mg_connection *c) {
(void) c;
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}
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void mg_tls_free(struct mg_connection *c) {
(void) c;
}
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long mg_tls_recv(struct mg_connection *c, void *buf, size_t len) {
return c == NULL || buf == NULL || len == 0 ? 0 : -1;
}
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long mg_tls_send(struct mg_connection *c, const void *buf, size_t len) {
return c == NULL || buf == NULL || len == 0 ? 0 : -1;
}
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size_t mg_tls_pending(struct mg_connection *c) {
(void) c;
return 0;
}
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#endif
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#ifdef MG_ENABLE_LINES
#line 1 "src/tls_mbed.c"
#endif
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#if MG_ENABLE_MBEDTLS
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#if defined(MBEDTLS_VERSION_NUMBER) && MBEDTLS_VERSION_NUMBER >= 0x03000000
#define MGRNG , rng_get, NULL
#else
#define MGRNG
#endif
void mg_tls_free(struct mg_connection *c) {
struct mg_tls *tls = (struct mg_tls *) c->tls;
if (tls != NULL) {
free(tls->cafile);
mbedtls_ssl_free(&tls->ssl);
mbedtls_pk_free(&tls->pk);
mbedtls_x509_crt_free(&tls->ca);
mbedtls_x509_crt_free(&tls->cert);
mbedtls_ssl_config_free(&tls->conf);
free(tls);
c->tls = NULL;
}
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}
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static int mg_net_send(void *ctx, const unsigned char *buf, size_t len) {
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long n = mg_io_send((struct mg_connection *) ctx, buf, len);
MG_VERBOSE(("%lu n=%ld", ((struct mg_connection *) ctx)->id, n));
if (n == MG_IO_WAIT) return MBEDTLS_ERR_SSL_WANT_WRITE;
if (n == MG_IO_RESET) return MBEDTLS_ERR_NET_CONN_RESET;
if (n == MG_IO_ERR) return MBEDTLS_ERR_NET_SEND_FAILED;
return (int) n;
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}
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static int mg_net_recv(void *ctx, unsigned char *buf, size_t len) {
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long n = mg_io_recv((struct mg_connection *) ctx, buf, len);
MG_VERBOSE(("%lu n=%ld", ((struct mg_connection *) ctx)->id, n));
if (n == MG_IO_WAIT) return MBEDTLS_ERR_SSL_WANT_WRITE;
if (n == MG_IO_RESET) return MBEDTLS_ERR_NET_CONN_RESET;
if (n == MG_IO_ERR) return MBEDTLS_ERR_NET_RECV_FAILED;
return (int) n;
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}
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void mg_tls_handshake(struct mg_connection *c) {
struct mg_tls *tls = (struct mg_tls *) c->tls;
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int rc = mbedtls_ssl_handshake(&tls->ssl);
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if (rc == 0) { // Success
MG_DEBUG(("%lu success", c->id));
c->is_tls_hs = 0;
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mg_call(c, MG_EV_TLS_HS, NULL);
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} else if (rc == MBEDTLS_ERR_SSL_WANT_READ ||
rc == MBEDTLS_ERR_SSL_WANT_WRITE) { // Still pending
MG_VERBOSE(("%lu pending, %d%d %d (-%#x)", c->id, c->is_connecting,
c->is_tls_hs, rc, -rc));
} else {
mg_error(c, "TLS handshake: -%#x", -rc); // Error
}
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}
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static int mbed_rng(void *ctx, unsigned char *buf, size_t len) {
mg_random(buf, len);
(void) ctx;
return 0;
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}
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static void debug_cb(void *c, int lev, const char *s, int n, const char *s2) {
n = (int) strlen(s2) - 1;
MG_VERBOSE(("%lu %d %.*s", ((struct mg_connection *) c)->id, lev, n, s2));
(void) s;
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}
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#if defined(MBEDTLS_VERSION_NUMBER) && MBEDTLS_VERSION_NUMBER >= 0x03000000
static int rng_get(void *p_rng, unsigned char *buf, size_t len) {
(void) p_rng;
mg_random(buf, len);
return 0;
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}
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#endif
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static struct mg_str mg_loadfile(struct mg_fs *fs, const char *path) {
size_t n = 0;
if (path[0] == '-') return mg_str(path);
char *p = mg_file_read(fs, path, &n);
return mg_str_n(p, n);
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}
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void mg_tls_init(struct mg_connection *c, const struct mg_tls_opts *opts) {
struct mg_fs *fs = opts->fs == NULL ? &mg_fs_posix : opts->fs;
struct mg_tls *tls = (struct mg_tls *) calloc(1, sizeof(*tls));
int rc = 0;
c->tls = tls;
if (c->tls == NULL) {
mg_error(c, "TLS OOM");
goto fail;
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}
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MG_DEBUG(("%lu Setting TLS", c->id));
mbedtls_ssl_init(&tls->ssl);
mbedtls_ssl_config_init(&tls->conf);
mbedtls_x509_crt_init(&tls->ca);
mbedtls_x509_crt_init(&tls->cert);
mbedtls_pk_init(&tls->pk);
mbedtls_ssl_conf_dbg(&tls->conf, debug_cb, c);
#if defined(MG_MBEDTLS_DEBUG_LEVEL)
mbedtls_debug_set_threshold(MG_MBEDTLS_DEBUG_LEVEL);
#endif
if ((rc = mbedtls_ssl_config_defaults(
&tls->conf,
c->is_client ? MBEDTLS_SSL_IS_CLIENT : MBEDTLS_SSL_IS_SERVER,
MBEDTLS_SSL_TRANSPORT_STREAM, MBEDTLS_SSL_PRESET_DEFAULT)) != 0) {
mg_error(c, "tls defaults %#x", -rc);
goto fail;
2022-02-11 19:02:06 +08:00
}
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mbedtls_ssl_conf_rng(&tls->conf, mbed_rng, c);
if (opts->ca == NULL || strcmp(opts->ca, "*") == 0) {
mbedtls_ssl_conf_authmode(&tls->conf, MBEDTLS_SSL_VERIFY_NONE);
} else if (opts->ca != NULL && opts->ca[0] != '\0') {
#if defined(MBEDTLS_X509_CA_CHAIN_ON_DISK)
tls->cafile = strdup(opts->ca);
rc = mbedtls_ssl_conf_ca_chain_file(&tls->conf, tls->cafile, NULL);
if (rc != 0) {
mg_error(c, "parse on-disk chain(%s) err %#x", tls->cafile, -rc);
goto fail;
}
#else
struct mg_str s = mg_loadfile(fs, opts->ca);
rc = mbedtls_x509_crt_parse(&tls->ca, (uint8_t *) s.ptr, s.len + 1);
if (opts->ca[0] != '-') free((char *) s.ptr);
if (rc != 0) {
mg_error(c, "parse(%s) err %#x", opts->ca, -rc);
goto fail;
}
mbedtls_ssl_conf_ca_chain(&tls->conf, &tls->ca, NULL);
#endif
if (opts->srvname.len > 0) {
2022-08-13 22:37:55 +08:00
char *x = mg_mprintf("%.*s", (int) opts->srvname.len, opts->srvname.ptr);
mbedtls_ssl_set_hostname(&tls->ssl, x);
free(x);
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}
mbedtls_ssl_conf_authmode(&tls->conf, MBEDTLS_SSL_VERIFY_REQUIRED);
}
if (opts->cert != NULL && opts->cert[0] != '\0') {
struct mg_str s = mg_loadfile(fs, opts->cert);
const char *key = opts->certkey == NULL ? opts->cert : opts->certkey;
rc = mbedtls_x509_crt_parse(&tls->cert, (uint8_t *) s.ptr, s.len + 1);
if (opts->cert[0] != '-') free((char *) s.ptr);
if (rc != 0) {
mg_error(c, "parse(%s) err %#x", opts->cert, -rc);
goto fail;
}
s = mg_loadfile(fs, key);
rc = mbedtls_pk_parse_key(&tls->pk, (uint8_t *) s.ptr, s.len + 1, NULL,
0 MGRNG);
if (key[0] != '-') free((char *) s.ptr);
if (rc != 0) {
mg_error(c, "tls key(%s) %#x", key, -rc);
goto fail;
}
rc = mbedtls_ssl_conf_own_cert(&tls->conf, &tls->cert, &tls->pk);
if (rc != 0) {
mg_error(c, "own cert %#x", -rc);
goto fail;
}
}
if ((rc = mbedtls_ssl_setup(&tls->ssl, &tls->conf)) != 0) {
mg_error(c, "setup err %#x", -rc);
goto fail;
}
c->tls = tls;
c->is_tls = 1;
c->is_tls_hs = 1;
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mbedtls_ssl_set_bio(&tls->ssl, c, mg_net_send, mg_net_recv, 0);
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if (c->is_client && c->is_resolving == 0 && c->is_connecting == 0) {
mg_tls_handshake(c);
}
return;
fail:
mg_tls_free(c);
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}
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size_t mg_tls_pending(struct mg_connection *c) {
struct mg_tls *tls = (struct mg_tls *) c->tls;
return tls == NULL ? 0 : mbedtls_ssl_get_bytes_avail(&tls->ssl);
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}
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long mg_tls_recv(struct mg_connection *c, void *buf, size_t len) {
struct mg_tls *tls = (struct mg_tls *) c->tls;
long n = mbedtls_ssl_read(&tls->ssl, (unsigned char *) buf, len);
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if (n == MBEDTLS_ERR_SSL_WANT_READ || n == MBEDTLS_ERR_SSL_WANT_WRITE)
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return MG_IO_WAIT;
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if (n <= 0) return MG_IO_ERR;
return n;
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}
long mg_tls_send(struct mg_connection *c, const void *buf, size_t len) {
struct mg_tls *tls = (struct mg_tls *) c->tls;
long n = mbedtls_ssl_write(&tls->ssl, (unsigned char *) buf, len);
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if (n == MBEDTLS_ERR_SSL_WANT_READ || n == MBEDTLS_ERR_SSL_WANT_WRITE)
return MG_IO_WAIT;
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if (n <= 0) return MG_IO_ERR;
return n;
}
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#endif
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#ifdef MG_ENABLE_LINES
#line 1 "src/tls_openssl.c"
#endif
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#if MG_ENABLE_OPENSSL
static int mg_tls_err(struct mg_tls *tls, int res) {
int err = SSL_get_error(tls->ssl, res);
// We've just fetched the last error from the queue.
// Now we need to clear the error queue. If we do not, then the following
// can happen (actually reported):
// - A new connection is accept()-ed with cert error (e.g. self-signed cert)
// - Since all accept()-ed connections share listener's context,
// - *ALL* SSL accepted connection report read error on the next poll cycle.
// Thus a single errored connection can close all the rest, unrelated ones.
// Clearing the error keeps the shared SSL_CTX in an OK state.
2022-06-10 16:38:36 +08:00
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if (err != 0) ERR_print_errors_fp(stderr);
ERR_clear_error();
if (err == SSL_ERROR_WANT_READ) return 0;
if (err == SSL_ERROR_WANT_WRITE) return 0;
return err;
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}
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void mg_tls_init(struct mg_connection *c, const struct mg_tls_opts *opts) {
struct mg_tls *tls = (struct mg_tls *) calloc(1, sizeof(*tls));
const char *id = "mongoose";
static unsigned char s_initialised = 0;
int rc;
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if (tls == NULL) {
mg_error(c, "TLS OOM");
goto fail;
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}
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if (!s_initialised) {
SSL_library_init();
s_initialised++;
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}
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MG_DEBUG(("%lu Setting TLS, CA: %s, cert: %s, key: %s", c->id,
opts->ca == NULL ? "null" : opts->ca,
opts->cert == NULL ? "null" : opts->cert,
opts->certkey == NULL ? "null" : opts->certkey));
tls->ctx = c->is_client ? SSL_CTX_new(SSLv23_client_method())
: SSL_CTX_new(SSLv23_server_method());
if ((tls->ssl = SSL_new(tls->ctx)) == NULL) {
mg_error(c, "SSL_new");
goto fail;
}
SSL_set_session_id_context(tls->ssl, (const uint8_t *) id,
(unsigned) strlen(id));
// Disable deprecated protocols
SSL_set_options(tls->ssl, SSL_OP_NO_SSLv2);
SSL_set_options(tls->ssl, SSL_OP_NO_SSLv3);
SSL_set_options(tls->ssl, SSL_OP_NO_TLSv1);
SSL_set_options(tls->ssl, SSL_OP_NO_TLSv1_1);
#ifdef MG_ENABLE_OPENSSL_NO_COMPRESSION
SSL_set_options(tls->ssl, SSL_OP_NO_COMPRESSION);
#endif
#ifdef MG_ENABLE_OPENSSL_CIPHER_SERVER_PREFERENCE
SSL_set_options(tls->ssl, SSL_OP_CIPHER_SERVER_PREFERENCE);
#endif
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if (opts->ca != NULL && opts->ca[0] != '\0') {
SSL_set_verify(tls->ssl, SSL_VERIFY_PEER | SSL_VERIFY_FAIL_IF_NO_PEER_CERT,
NULL);
if ((rc = SSL_CTX_load_verify_locations(tls->ctx, opts->ca, NULL)) != 1) {
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mg_error(c, "load('%s') %d err %d", opts->ca, rc, mg_tls_err(tls, rc));
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goto fail;
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}
}
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if (opts->cert != NULL && opts->cert[0] != '\0') {
const char *key = opts->certkey;
if (key == NULL) key = opts->cert;
if ((rc = SSL_use_certificate_file(tls->ssl, opts->cert, 1)) != 1) {
mg_error(c, "Invalid SSL cert, err %d", mg_tls_err(tls, rc));
goto fail;
} else if ((rc = SSL_use_PrivateKey_file(tls->ssl, key, 1)) != 1) {
mg_error(c, "Invalid SSL key, err %d", mg_tls_err(tls, rc));
goto fail;
#if OPENSSL_VERSION_NUMBER > 0x10100000L
} else if ((rc = SSL_use_certificate_chain_file(tls->ssl, opts->cert)) !=
1) {
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mg_error(c, "Invalid chain, err %d", mg_tls_err(tls, rc));
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goto fail;
#endif
} else {
SSL_set_mode(tls->ssl, SSL_MODE_ACCEPT_MOVING_WRITE_BUFFER);
#if OPENSSL_VERSION_NUMBER > 0x10002000L
SSL_set_ecdh_auto(tls->ssl, 1);
#endif
}
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}
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if (opts->ciphers != NULL) SSL_set_cipher_list(tls->ssl, opts->ciphers);
#if OPENSSL_VERSION_NUMBER >= 0x10100000L
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if (opts->srvname.len > 0) {
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char *s = mg_mprintf("%.*s", (int) opts->srvname.len, opts->srvname.ptr);
SSL_set1_host(tls->ssl, s);
free(s);
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}
#endif
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c->tls = tls;
c->is_tls = 1;
c->is_tls_hs = 1;
if (c->is_client && c->is_resolving == 0 && c->is_connecting == 0) {
mg_tls_handshake(c);
}
MG_DEBUG(("%lu SSL %s OK", c->id, c->is_accepted ? "accept" : "client"));
return;
fail:
c->is_closing = 1;
free(tls);
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}
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void mg_tls_handshake(struct mg_connection *c) {
struct mg_tls *tls = (struct mg_tls *) c->tls;
int rc;
SSL_set_fd(tls->ssl, (int) (size_t) c->fd);
rc = c->is_client ? SSL_connect(tls->ssl) : SSL_accept(tls->ssl);
if (rc == 1) {
MG_DEBUG(("%lu success", c->id));
c->is_tls_hs = 0;
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mg_call(c, MG_EV_TLS_HS, NULL);
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} else {
int code = mg_tls_err(tls, rc);
if (code != 0) mg_error(c, "tls hs: rc %d, err %d", rc, code);
}
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}
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void mg_tls_free(struct mg_connection *c) {
struct mg_tls *tls = (struct mg_tls *) c->tls;
if (tls == NULL) return;
SSL_free(tls->ssl);
SSL_CTX_free(tls->ctx);
free(tls);
c->tls = NULL;
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}
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size_t mg_tls_pending(struct mg_connection *c) {
struct mg_tls *tls = (struct mg_tls *) c->tls;
return tls == NULL ? 0 : (size_t) SSL_pending(tls->ssl);
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}
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long mg_tls_recv(struct mg_connection *c, void *buf, size_t len) {
struct mg_tls *tls = (struct mg_tls *) c->tls;
int n = SSL_read(tls->ssl, buf, (int) len);
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if (n < 0 && mg_tls_err(tls, n) == 0) return MG_IO_WAIT;
if (n <= 0) return MG_IO_ERR;
return n;
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}
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2022-06-12 00:29:45 +08:00
long mg_tls_send(struct mg_connection *c, const void *buf, size_t len) {
struct mg_tls *tls = (struct mg_tls *) c->tls;
int n = SSL_write(tls->ssl, buf, (int) len);
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if (n < 0 && mg_tls_err(tls, n) == 0) return MG_IO_WAIT;
if (n <= 0) return MG_IO_ERR;
return n;
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}
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#endif
2022-06-10 16:38:36 +08:00
2020-12-05 19:26:32 +08:00
#ifdef MG_ENABLE_LINES
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#line 1 "src/url.c"
#endif
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struct url {
size_t key, user, pass, host, port, uri, end;
};
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int mg_url_is_ssl(const char *url) {
return strncmp(url, "wss:", 4) == 0 || strncmp(url, "https:", 6) == 0 ||
strncmp(url, "mqtts:", 6) == 0 || strncmp(url, "ssl:", 4) == 0 ||
strncmp(url, "tls:", 4) == 0;
}
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static struct url urlparse(const char *url) {
size_t i;
struct url u;
memset(&u, 0, sizeof(u));
for (i = 0; url[i] != '\0'; i++) {
2022-07-10 22:41:11 +08:00
if (url[i] == '/' && i > 0 && u.host == 0 && url[i - 1] == '/') {
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u.host = i + 1;
u.port = 0;
} else if (url[i] == ']') {
u.port = 0; // IPv6 URLs, like http://[::1]/bar
} else if (url[i] == ':' && u.port == 0 && u.uri == 0) {
u.port = i + 1;
2022-07-10 22:41:11 +08:00
} else if (url[i] == '@' && u.user == 0 && u.pass == 0 && u.uri == 0) {
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u.user = u.host;
u.pass = u.port;
u.host = i + 1;
u.port = 0;
2022-07-10 22:41:11 +08:00
} else if (url[i] == '/' && u.host && u.uri == 0) {
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u.uri = i;
}
}
u.end = i;
#if 0
printf("[%s] %d %d %d %d %d\n", url, u.user, u.pass, u.host, u.port, u.uri);
#endif
return u;
}
2022-05-15 21:29:34 +08:00
2022-06-12 00:29:45 +08:00
struct mg_str mg_url_host(const char *url) {
struct url u = urlparse(url);
size_t n = u.port ? u.port - u.host - 1
: u.uri ? u.uri - u.host
: u.end - u.host;
struct mg_str s = mg_str_n(url + u.host, n);
return s;
}
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const char *mg_url_uri(const char *url) {
struct url u = urlparse(url);
return u.uri ? url + u.uri : "/";
}
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unsigned short mg_url_port(const char *url) {
struct url u = urlparse(url);
unsigned short port = 0;
if (strncmp(url, "http:", 5) == 0 || strncmp(url, "ws:", 3) == 0) port = 80;
if (strncmp(url, "wss:", 4) == 0 || strncmp(url, "https:", 6) == 0)
port = 443;
if (strncmp(url, "mqtt:", 5) == 0) port = 1883;
if (strncmp(url, "mqtts:", 6) == 0) port = 8883;
if (u.port) port = (unsigned short) atoi(url + u.port);
return port;
}
struct mg_str mg_url_user(const char *url) {
struct url u = urlparse(url);
struct mg_str s = mg_str("");
if (u.user && (u.pass || u.host)) {
size_t n = u.pass ? u.pass - u.user - 1 : u.host - u.user - 1;
s = mg_str_n(url + u.user, n);
}
return s;
}
struct mg_str mg_url_pass(const char *url) {
struct url u = urlparse(url);
struct mg_str s = mg_str_n("", 0UL);
if (u.pass && u.host) {
size_t n = u.host - u.pass - 1;
s = mg_str_n(url + u.pass, n);
}
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return s;
}
2020-12-05 19:26:32 +08:00
#ifdef MG_ENABLE_LINES
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#line 1 "src/util.c"
#endif
#if MG_ENABLE_CUSTOM_RANDOM
#else
void mg_random(void *buf, size_t len) {
bool done = false;
unsigned char *p = (unsigned char *) buf;
#if MG_ARCH == MG_ARCH_ESP32
while (len--) *p++ = (unsigned char) (esp_random() & 255);
done = true;
#elif MG_ARCH == MG_ARCH_WIN32
#elif MG_ARCH == MG_ARCH_UNIX
FILE *fp = fopen("/dev/urandom", "rb");
if (fp != NULL) {
if (fread(buf, 1, len, fp) == len) done = true;
fclose(fp);
}
#endif
// If everything above did not work, fallback to a pseudo random generator
while (!done && len--) *p++ = (unsigned char) (rand() & 255);
}
2020-12-05 19:26:32 +08:00
#endif
char *mg_random_str(char *buf, size_t len) {
size_t i;
mg_random(buf, len);
for (i = 0; i < len; i++) {
uint8_t c = ((uint8_t *) buf)[i] % 62U;
2022-07-04 18:43:52 +08:00
buf[i] = i == len - 1 ? (char) '\0' // 0-terminate last byte
: c < 26 ? (char) ('a' + c) // lowercase
: c < 52 ? (char) ('A' + c - 26) // uppercase
: (char) ('0' + c - 52); // numeric
}
return buf;
}
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uint32_t mg_ntohl(uint32_t net) {
uint8_t data[4] = {0, 0, 0, 0};
memcpy(&data, &net, sizeof(data));
return (((uint32_t) data[3]) << 0) | (((uint32_t) data[2]) << 8) |
(((uint32_t) data[1]) << 16) | (((uint32_t) data[0]) << 24);
}
2022-06-12 00:29:45 +08:00
uint16_t mg_ntohs(uint16_t net) {
uint8_t data[2] = {0, 0};
memcpy(&data, &net, sizeof(data));
return (uint16_t) ((uint16_t) data[1] | (((uint16_t) data[0]) << 8));
}
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uint32_t mg_crc32(uint32_t crc, const char *buf, size_t len) {
int i;
crc = ~crc;
while (len--) {
crc ^= *(unsigned char *) buf++;
for (i = 0; i < 8; i++) crc = crc & 1 ? (crc >> 1) ^ 0xedb88320 : crc >> 1;
}
return ~crc;
}
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static int isbyte(int n) {
return n >= 0 && n <= 255;
}
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static int parse_net(const char *spec, uint32_t *net, uint32_t *mask) {
int n, a, b, c, d, slash = 32, len = 0;
if ((sscanf(spec, "%d.%d.%d.%d/%d%n", &a, &b, &c, &d, &slash, &n) == 5 ||
sscanf(spec, "%d.%d.%d.%d%n", &a, &b, &c, &d, &n) == 4) &&
isbyte(a) && isbyte(b) && isbyte(c) && isbyte(d) && slash >= 0 &&
slash < 33) {
len = n;
*net = ((uint32_t) a << 24) | ((uint32_t) b << 16) | ((uint32_t) c << 8) |
(uint32_t) d;
*mask = slash ? (uint32_t) (0xffffffffU << (32 - slash)) : (uint32_t) 0;
}
return len;
}
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int mg_check_ip_acl(struct mg_str acl, uint32_t remote_ip) {
struct mg_str k, v;
int allowed = acl.len == 0 ? '+' : '-'; // If any ACL is set, deny by default
while (mg_commalist(&acl, &k, &v)) {
uint32_t net, mask;
if (k.ptr[0] != '+' && k.ptr[0] != '-') return -1;
if (parse_net(&k.ptr[1], &net, &mask) == 0) return -2;
if ((mg_ntohl(remote_ip) & mask) == net) allowed = k.ptr[0];
}
return allowed == '+';
}
2022-06-12 00:29:45 +08:00
#if MG_ENABLE_CUSTOM_MILLIS
#else
uint64_t mg_millis(void) {
#if MG_ARCH == MG_ARCH_WIN32
return GetTickCount();
#elif MG_ARCH == MG_ARCH_RP2040
return time_us_64() / 1000;
2022-06-12 00:29:45 +08:00
#elif MG_ARCH == MG_ARCH_ESP32
return esp_timer_get_time() / 1000;
#elif MG_ARCH == MG_ARCH_ESP8266 || MG_ARCH == MG_ARCH_FREERTOS
2022-06-12 00:29:45 +08:00
return xTaskGetTickCount() * portTICK_PERIOD_MS;
#elif MG_ARCH == MG_ARCH_AZURERTOS
return tx_time_get() * (1000 /* MS per SEC */ / TX_TIMER_TICKS_PER_SECOND);
2022-10-24 22:48:54 +08:00
#elif MG_ARCH == MG_ARCH_TIRTOS
return (uint64_t) Clock_getTicks();
#elif MG_ARCH == MG_ARCH_ZEPHYR
return (uint64_t) k_uptime_get();
#elif MG_ARCH == MG_ARCH_UNIX && defined(__APPLE__)
// Apple CLOCK_MONOTONIC_RAW is equivalent to CLOCK_BOOTTIME on linux
// Apple CLOCK_UPTIME_RAW is equivalent to CLOCK_MONOTONIC_RAW on linux
return clock_gettime_nsec_np(CLOCK_UPTIME_RAW) / 1000000;
2022-06-12 00:29:45 +08:00
#elif MG_ARCH == MG_ARCH_UNIX
struct timespec ts = {0, 0};
// See #1615 - prefer monotonic clock
#if defined(CLOCK_MONOTONIC_RAW)
// Raw hardware-based time that is not subject to NTP adjustment
clock_gettime(CLOCK_MONOTONIC_RAW, &ts);
#elif defined(CLOCK_MONOTONIC)
// Affected by the incremental adjustments performed by adjtime and NTP
clock_gettime(CLOCK_MONOTONIC, &ts);
#else
// Affected by discontinuous jumps in the system time and by the incremental
// adjustments performed by adjtime and NTP
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clock_gettime(CLOCK_REALTIME, &ts);
#endif
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return ((uint64_t) ts.tv_sec * 1000 + (uint64_t) ts.tv_nsec / 1000000);
#elif defined(ARDUINO)
return (uint64_t) millis();
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#else
return (uint64_t) (time(NULL) * 1000);
#endif
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}
#endif
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#ifdef MG_ENABLE_LINES
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#line 1 "src/ws.c"
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#endif
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struct ws_msg {
uint8_t flags;
size_t header_len;
size_t data_len;
};
size_t mg_ws_vprintf(struct mg_connection *c, int op, const char *fmt,
va_list *ap) {
size_t len = c->send.len;
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size_t n = mg_vxprintf(mg_pfn_iobuf, &c->send, fmt, ap);
mg_ws_wrap(c, c->send.len - len, op);
return n;
}
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size_t mg_ws_printf(struct mg_connection *c, int op, const char *fmt, ...) {
size_t len = 0;
va_list ap;
va_start(ap, fmt);
len = mg_ws_vprintf(c, op, fmt, &ap);
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va_end(ap);
return len;
}
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static void ws_handshake(struct mg_connection *c, const struct mg_str *wskey,
const struct mg_str *wsproto, const char *fmt,
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va_list *ap) {
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const char *magic = "258EAFA5-E914-47DA-95CA-C5AB0DC85B11";
unsigned char sha[20], b64_sha[30];
mg_sha1_ctx sha_ctx;
mg_sha1_init(&sha_ctx);
mg_sha1_update(&sha_ctx, (unsigned char *) wskey->ptr, wskey->len);
mg_sha1_update(&sha_ctx, (unsigned char *) magic, 36);
mg_sha1_final(sha, &sha_ctx);
mg_base64_encode(sha, sizeof(sha), (char *) b64_sha);
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mg_xprintf(mg_pfn_iobuf, &c->send,
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"HTTP/1.1 101 Switching Protocols\r\n"
"Upgrade: websocket\r\n"
"Connection: Upgrade\r\n"
"Sec-WebSocket-Accept: %s\r\n",
b64_sha);
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if (fmt != NULL) mg_vxprintf(mg_pfn_iobuf, &c->send, fmt, ap);
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if (wsproto != NULL) {
mg_printf(c, "Sec-WebSocket-Protocol: %.*s\r\n", (int) wsproto->len,
wsproto->ptr);
}
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mg_send(c, "\r\n", 2);
}
static uint32_t be32(const uint8_t *p) {
return (((uint32_t) p[3]) << 0) | (((uint32_t) p[2]) << 8) |
(((uint32_t) p[1]) << 16) | (((uint32_t) p[0]) << 24);
}
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static size_t ws_process(uint8_t *buf, size_t len, struct ws_msg *msg) {
size_t i, n = 0, mask_len = 0;
memset(msg, 0, sizeof(*msg));
if (len >= 2) {
n = buf[1] & 0x7f; // Frame length
mask_len = buf[1] & 128 ? 4 : 0; // last bit is a mask bit
msg->flags = buf[0];
if (n < 126 && len >= mask_len) {
msg->data_len = n;
msg->header_len = 2 + mask_len;
} else if (n == 126 && len >= 4 + mask_len) {
msg->header_len = 4 + mask_len;
msg->data_len = (((size_t) buf[2]) << 8) | buf[3];
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} else if (len >= 10 + mask_len) {
msg->header_len = 10 + mask_len;
msg->data_len =
(size_t) (((uint64_t) be32(buf + 2) << 32) + be32(buf + 6));
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}
}
// Sanity check, and integer overflow protection for the boundary check below
// data_len should not be larger than 1 Gb
if (msg->data_len > 1024 * 1024 * 1024) return 0;
if (msg->header_len + msg->data_len > len) return 0;
if (mask_len > 0) {
uint8_t *p = buf + msg->header_len, *m = p - mask_len;
for (i = 0; i < msg->data_len; i++) p[i] ^= m[i & 3];
}
return msg->header_len + msg->data_len;
}
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static size_t mkhdr(size_t len, int op, bool is_client, uint8_t *buf) {
size_t n = 0;
buf[0] = (uint8_t) (op | 128);
if (len < 126) {
buf[1] = (unsigned char) len;
n = 2;
} else if (len < 65536) {
uint16_t tmp = mg_htons((uint16_t) len);
buf[1] = 126;
memcpy(&buf[2], &tmp, sizeof(tmp));
n = 4;
} else {
uint32_t tmp;
buf[1] = 127;
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tmp = mg_htonl((uint32_t) (((uint64_t) len) >> 32));
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memcpy(&buf[2], &tmp, sizeof(tmp));
tmp = mg_htonl((uint32_t) (len & 0xffffffffU));
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memcpy(&buf[6], &tmp, sizeof(tmp));
n = 10;
}
if (is_client) {
buf[1] |= 1 << 7; // Set masking flag
mg_random(&buf[n], 4);
n += 4;
}
return n;
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}
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static void mg_ws_mask(struct mg_connection *c, size_t len) {
if (c->is_client && c->send.buf != NULL) {
size_t i;
uint8_t *p = c->send.buf + c->send.len - len, *mask = p - 4;
for (i = 0; i < len; i++) p[i] ^= mask[i & 3];
}
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}
size_t mg_ws_send(struct mg_connection *c, const void *buf, size_t len,
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int op) {
uint8_t header[14];
size_t header_len = mkhdr(len, op, c->is_client, header);
mg_send(c, header, header_len);
MG_VERBOSE(("WS out: %d [%.*s]", (int) len, (int) len, buf));
mg_send(c, buf, len);
mg_ws_mask(c, len);
return header_len + len;
}
static bool mg_ws_client_handshake(struct mg_connection *c) {
int n = mg_http_get_request_len(c->recv.buf, c->recv.len);
if (n < 0) {
mg_error(c, "not http"); // Some just, not an HTTP request
} else if (n > 0) {
if (n < 15 || memcmp(c->recv.buf + 9, "101", 3) != 0) {
mg_error(c, "handshake error");
} else {
struct mg_http_message hm;
mg_http_parse((char *) c->recv.buf, c->recv.len, &hm);
c->is_websocket = 1;
mg_call(c, MG_EV_WS_OPEN, &hm);
}
mg_iobuf_del(&c->recv, 0, (size_t) n);
} else {
return true; // Request is not yet received, quit event handler
}
return false; // Continue event handler
}
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static void mg_ws_cb(struct mg_connection *c, int ev, void *ev_data,
void *fn_data) {
struct ws_msg msg;
size_t ofs = (size_t) c->pfn_data;
// assert(ofs < c->recv.len);
if (ev == MG_EV_READ) {
if (c->is_client && !c->is_websocket && mg_ws_client_handshake(c)) return;
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while (ws_process(c->recv.buf + ofs, c->recv.len - ofs, &msg) > 0) {
char *s = (char *) c->recv.buf + ofs + msg.header_len;
struct mg_ws_message m = {{s, msg.data_len}, msg.flags};
size_t len = msg.header_len + msg.data_len;
uint8_t final = msg.flags & 128, op = msg.flags & 15;
// MG_VERBOSE ("fin %d op %d len %d [%.*s]", final, op,
// (int) m.data.len, (int) m.data.len, m.data.ptr));
switch (op) {
case WEBSOCKET_OP_CONTINUE:
mg_call(c, MG_EV_WS_CTL, &m);
break;
case WEBSOCKET_OP_PING:
MG_DEBUG(("%s", "WS PONG"));
mg_ws_send(c, s, msg.data_len, WEBSOCKET_OP_PONG);
mg_call(c, MG_EV_WS_CTL, &m);
break;
case WEBSOCKET_OP_PONG:
mg_call(c, MG_EV_WS_CTL, &m);
break;
case WEBSOCKET_OP_TEXT:
case WEBSOCKET_OP_BINARY:
if (final) mg_call(c, MG_EV_WS_MSG, &m);
break;
case WEBSOCKET_OP_CLOSE:
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MG_DEBUG(("%lu WS CLOSE", c->id));
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mg_call(c, MG_EV_WS_CTL, &m);
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// Echo the payload of the received CLOSE message back to the sender
mg_ws_send(c, m.data.ptr, m.data.len, WEBSOCKET_OP_CLOSE);
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c->is_draining = 1;
break;
default:
// Per RFC6455, close conn when an unknown op is recvd
mg_error(c, "unknown WS op %d", op);
break;
}
// Handle fragmented frames: strip header, keep in c->recv
if (final == 0 || op == 0) {
if (op) ofs++, len--, msg.header_len--; // First frame
mg_iobuf_del(&c->recv, ofs, msg.header_len); // Strip header
len -= msg.header_len;
ofs += len;
c->pfn_data = (void *) ofs;
// MG_INFO(("FRAG %d [%.*s]", (int) ofs, (int) ofs, c->recv.buf));
}
// Remove non-fragmented frame
if (final && op) mg_iobuf_del(&c->recv, ofs, len);
// Last chunk of the fragmented frame
if (final && !op) {
m.flags = c->recv.buf[0];
m.data = mg_str_n((char *) &c->recv.buf[1], (size_t) (ofs - 1));
mg_call(c, MG_EV_WS_MSG, &m);
mg_iobuf_del(&c->recv, 0, ofs);
ofs = 0;
c->pfn_data = NULL;
}
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}
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}
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(void) fn_data;
(void) ev_data;
}
struct mg_connection *mg_ws_connect(struct mg_mgr *mgr, const char *url,
mg_event_handler_t fn, void *fn_data,
const char *fmt, ...) {
struct mg_connection *c = mg_connect(mgr, url, fn, fn_data);
if (c != NULL) {
char nonce[16], key[30];
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struct mg_str host = mg_url_host(url);
mg_random(nonce, sizeof(nonce));
mg_base64_encode((unsigned char *) nonce, sizeof(nonce), key);
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mg_xprintf(mg_pfn_iobuf, &c->send,
"GET %s HTTP/1.1\r\n"
"Upgrade: websocket\r\n"
"Host: %.*s\r\n"
"Connection: Upgrade\r\n"
"Sec-WebSocket-Version: 13\r\n"
"Sec-WebSocket-Key: %s\r\n",
mg_url_uri(url), (int) host.len, host.ptr, key);
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if (fmt != NULL) {
va_list ap;
va_start(ap, fmt);
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mg_vxprintf(mg_pfn_iobuf, &c->send, fmt, &ap);
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va_end(ap);
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}
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mg_xprintf(mg_pfn_iobuf, &c->send, "\r\n");
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c->pfn = mg_ws_cb;
c->pfn_data = NULL;
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}
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return c;
}
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void mg_ws_upgrade(struct mg_connection *c, struct mg_http_message *hm,
const char *fmt, ...) {
struct mg_str *wskey = mg_http_get_header(hm, "Sec-WebSocket-Key");
c->pfn = mg_ws_cb;
c->pfn_data = NULL;
if (wskey == NULL) {
mg_http_reply(c, 426, "", "WS upgrade expected\n");
c->is_draining = 1;
} else {
struct mg_str *wsproto = mg_http_get_header(hm, "Sec-WebSocket-Protocol");
va_list ap;
va_start(ap, fmt);
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ws_handshake(c, wskey, wsproto, fmt, &ap);
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va_end(ap);
c->is_websocket = 1;
c->is_resp = 0;
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mg_call(c, MG_EV_WS_OPEN, hm);
}
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}
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size_t mg_ws_wrap(struct mg_connection *c, size_t len, int op) {
uint8_t header[14], *p;
size_t header_len = mkhdr(len, op, c->is_client, header);
// NOTE: order of operations is important!
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mg_iobuf_add(&c->send, c->send.len, NULL, header_len);
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p = &c->send.buf[c->send.len - len]; // p points to data
memmove(p, p - header_len, len); // Shift data
memcpy(p - header_len, header, header_len); // Prepend header
mg_ws_mask(c, len); // Mask data
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return c->send.len;
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}
#ifdef MG_ENABLE_LINES
#line 1 "mip/driver_stm32.c"
#endif
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#if MG_ENABLE_MIP && \
(!defined(MG_ENABLE_DRIVER_TM4C) || MG_ENABLE_DRIVER_TM4C == 0)
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struct stm32_eth {
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volatile uint32_t MACCR, MACFFR, MACHTHR, MACHTLR, MACMIIAR, MACMIIDR, MACFCR,
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MACVLANTR, RESERVED0[2], MACRWUFFR, MACPMTCSR, RESERVED1, MACDBGR, MACSR,
MACIMR, MACA0HR, MACA0LR, MACA1HR, MACA1LR, MACA2HR, MACA2LR, MACA3HR,
MACA3LR, RESERVED2[40], MMCCR, MMCRIR, MMCTIR, MMCRIMR, MMCTIMR,
RESERVED3[14], MMCTGFSCCR, MMCTGFMSCCR, RESERVED4[5], MMCTGFCR,
RESERVED5[10], MMCRFCECR, MMCRFAECR, RESERVED6[10], MMCRGUFCR,
RESERVED7[334], PTPTSCR, PTPSSIR, PTPTSHR, PTPTSLR, PTPTSHUR, PTPTSLUR,
PTPTSAR, PTPTTHR, PTPTTLR, RESERVED8, PTPTSSR, PTPPPSCR, RESERVED9[564],
DMABMR, DMATPDR, DMARPDR, DMARDLAR, DMATDLAR, DMASR, DMAOMR, DMAIER,
DMAMFBOCR, DMARSWTR, RESERVED10[8], DMACHTDR, DMACHRDR, DMACHTBAR,
DMACHRBAR;
};
#undef ETH
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#define ETH ((struct stm32_eth *) (uintptr_t) 0x40028000)
#undef BIT
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#define BIT(x) ((uint32_t) 1 << (x))
#define ETH_PKT_SIZE 1540 // Max frame size
#define ETH_DESC_CNT 4 // Descriptors count
#define ETH_DS 4 // Descriptor size (words)
static uint32_t s_rxdesc[ETH_DESC_CNT][ETH_DS]; // RX descriptors
static uint32_t s_txdesc[ETH_DESC_CNT][ETH_DS]; // TX descriptors
static uint8_t s_rxbuf[ETH_DESC_CNT][ETH_PKT_SIZE]; // RX ethernet buffers
static uint8_t s_txbuf[ETH_DESC_CNT][ETH_PKT_SIZE]; // TX ethernet buffers
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static struct mip_if *s_ifp; // MIP interface
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enum { PHY_ADDR = 0, PHY_BCR = 0, PHY_BSR = 1 }; // PHY constants
static uint32_t eth_read_phy(uint8_t addr, uint8_t reg) {
ETH->MACMIIAR &= (7 << 2);
ETH->MACMIIAR |= ((uint32_t) addr << 11) | ((uint32_t) reg << 6);
ETH->MACMIIAR |= BIT(0);
while (ETH->MACMIIAR & BIT(0)) (void) 0;
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return ETH->MACMIIDR;
}
static void eth_write_phy(uint8_t addr, uint8_t reg, uint32_t val) {
ETH->MACMIIDR = val;
ETH->MACMIIAR &= (7 << 2);
ETH->MACMIIAR |= ((uint32_t) addr << 11) | ((uint32_t) reg << 6) | BIT(1);
ETH->MACMIIAR |= BIT(0);
while (ETH->MACMIIAR & BIT(0)) (void) 0;
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}
static uint32_t get_hclk(void) {
struct rcc {
volatile uint32_t CR, PLLCFGR, CFGR;
} *rcc = (struct rcc *) 0x40023800;
uint32_t clk = 0, hsi = 16000000 /* 16 MHz */, hse = 8000000 /* 8MHz */;
if (rcc->CFGR & (1 << 2)) {
clk = hse;
} else if (rcc->CFGR & (1 << 3)) {
uint32_t vco, m, n, p;
m = (rcc->PLLCFGR & (0x3f << 0)) >> 0;
n = (rcc->PLLCFGR & (0x1ff << 6)) >> 6;
p = (((rcc->PLLCFGR & (3 << 16)) >> 16) + 1) * 2;
clk = (rcc->PLLCFGR & (1 << 22)) ? hse : hsi;
vco = (uint32_t) ((uint64_t) clk * n / m);
clk = vco / p;
} else {
clk = hsi;
}
uint32_t hpre = (rcc->CFGR & (15 << 4)) >> 4;
if (hpre < 8) return clk;
uint8_t ahbptab[8] = {1, 2, 3, 4, 6, 7, 8, 9}; // log2(div)
return ((uint32_t) clk) >> ahbptab[hpre - 8];
}
// Guess CR from HCLK. MDC clock is generated from HCLK (AHB); as per 802.3,
// it must not exceed 2.5MHz As the AHB clock can be (and usually is) derived
// from the HSI (internal RC), and it can go above specs, the datasheets
// specify a range of frequencies and activate one of a series of dividers to
// keep the MDC clock safely below 2.5MHz. We guess a divider setting based on
// HCLK with a +5% drift. If the user uses a different clock from our
// defaults, needs to set the macros on top Valid for STM32F74xxx/75xxx
// (38.8.1) and STM32F42xxx/43xxx (33.8.1) (both 4.5% worst case drift)
static int guess_mdc_cr(void) {
uint8_t crs[] = {2, 3, 0, 1, 4, 5}; // ETH->MACMIIAR::CR values
uint8_t div[] = {16, 26, 42, 62, 102, 124}; // Respective HCLK dividers
uint32_t hclk = get_hclk(); // Guess system HCLK
int result = -1; // Invalid CR value
if (hclk < 25000000) {
MG_ERROR(("HCLK too low"));
} else {
for (int i = 0; i < 6; i++) {
if (hclk / div[i] <= 2375000UL /* 2.5MHz - 5% */) {
result = crs[i];
break;
}
}
if (result < 0) MG_ERROR(("HCLK too high"));
}
MG_DEBUG(("HCLK: %u, CR: %d", hclk, result));
return result;
}
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static bool mip_driver_stm32_init(struct mip_if *ifp) {
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struct mip_driver_stm32_data *d = (struct mip_driver_stm32_data *) ifp->driver_data;
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s_ifp = ifp;
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// Init RX descriptors
for (int i = 0; i < ETH_DESC_CNT; i++) {
s_rxdesc[i][0] = BIT(31); // Own
s_rxdesc[i][1] = sizeof(s_rxbuf[i]) | BIT(14); // 2nd address chained
s_rxdesc[i][2] = (uint32_t) (uintptr_t) s_rxbuf[i]; // Point to data buffer
s_rxdesc[i][3] =
(uint32_t) (uintptr_t) s_rxdesc[(i + 1) % ETH_DESC_CNT]; // Chain
}
// Init TX descriptors
for (int i = 0; i < ETH_DESC_CNT; i++) {
s_txdesc[i][2] = (uint32_t) (uintptr_t) s_txbuf[i]; // Buf pointer
s_txdesc[i][3] =
(uint32_t) (uintptr_t) s_txdesc[(i + 1) % ETH_DESC_CNT]; // Chain
}
ETH->DMABMR |= BIT(0); // Software reset
while ((ETH->DMABMR & BIT(0)) != 0) (void) 0; // Wait until done
// Set MDC clock divider. If user told us the value, use it. Otherwise, guess
int cr = (d == NULL || d->mdc_cr < 0) ? guess_mdc_cr() : d->mdc_cr;
ETH->MACMIIAR = ((uint32_t) cr & 7) << 2;
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// NOTE(cpq): we do not use extended descriptor bit 7, and do not use
// hardware checksum. Therefore, descriptor size is 4, not 8
// ETH->DMABMR = BIT(13) | BIT(16) | BIT(22) | BIT(23) | BIT(25);
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ETH->MACIMR = BIT(3) | BIT(9); // Mask timestamp & PMT IT
ETH->MACFCR = BIT(7); // Disable zero quarta pause
// ETH->MACFFR = BIT(31); // Receive all
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eth_write_phy(PHY_ADDR, PHY_BCR, BIT(15)); // Reset PHY
eth_write_phy(PHY_ADDR, PHY_BCR, BIT(12)); // Set autonegotiation
ETH->DMARDLAR = (uint32_t) (uintptr_t) s_rxdesc; // RX descriptors
ETH->DMATDLAR = (uint32_t) (uintptr_t) s_txdesc; // RX descriptors
ETH->DMAIER = BIT(6) | BIT(16); // RIE, NISE
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ETH->MACCR = BIT(2) | BIT(3) | BIT(11) | BIT(14); // RE, TE, Duplex, Fast
ETH->DMAOMR = BIT(1) | BIT(13) | BIT(21) | BIT(25); // SR, ST, TSF, RSF
// MAC address filtering
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ETH->MACA0HR = ((uint32_t) ifp->mac[5] << 8U) | ifp->mac[4];
ETH->MACA0LR = (uint32_t) (ifp->mac[3] << 24) |
((uint32_t) ifp->mac[2] << 16) |
((uint32_t) ifp->mac[1] << 8) | ifp->mac[0];
return true;
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}
static uint32_t s_txno;
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static size_t mip_driver_stm32_tx(const void *buf, size_t len, struct mip_if *ifp) {
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if (len > sizeof(s_txbuf[s_txno])) {
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MG_ERROR(("Frame too big, %ld", (long) len));
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len = 0; // Frame is too big
} else if ((s_txdesc[s_txno][0] & BIT(31))) {
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MG_ERROR(("No free descriptors"));
// printf("D0 %lx SR %lx\n", (long) s_txdesc[0][0], (long) ETH->DMASR);
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len = 0; // All descriptors are busy, fail
} else {
memcpy(s_txbuf[s_txno], buf, len); // Copy data
s_txdesc[s_txno][1] = (uint32_t) len; // Set data len
s_txdesc[s_txno][0] = BIT(20) | BIT(28) | BIT(29) | BIT(30); // Chain,FS,LS
s_txdesc[s_txno][0] |= BIT(31); // Set OWN bit - let DMA take over
if (++s_txno >= ETH_DESC_CNT) s_txno = 0;
}
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ETH->DMASR = BIT(2) | BIT(5); // Clear any prior TBUS/TUS
ETH->DMATPDR = 0; // and resume
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return len;
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(void) ifp;
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}
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static bool mip_driver_stm32_up(struct mip_if *ifp) {
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uint32_t bsr = eth_read_phy(PHY_ADDR, PHY_BSR);
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(void) ifp;
return bsr & BIT(2) ? 1 : 0;
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}
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void ETH_IRQHandler(void);
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static uint32_t s_rxno;
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void ETH_IRQHandler(void) {
qp_mark(QP_IRQTRIGGERED, 0);
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if (ETH->DMASR & BIT(6)) { // Frame received, loop
ETH->DMASR = BIT(16) | BIT(6); // Clear flag
for (uint32_t i = 0; i < 10; i++) { // read as they arrive but not forever
if (s_rxdesc[s_rxno][0] & BIT(31)) break; // exit when done
if (((s_rxdesc[s_rxno][0] & (BIT(8) | BIT(9))) == (BIT(8) | BIT(9))) &&
!(s_rxdesc[s_rxno][0] & BIT(15))) { // skip partial/errored frames
uint32_t len = ((s_rxdesc[s_rxno][0] >> 16) & (BIT(14) - 1));
// printf("%lx %lu %lx %.8lx\n", s_rxno, len, s_rxdesc[s_rxno][0],
// ETH->DMASR);
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mip_rxcb(s_rxbuf[s_rxno], len > 4 ? len - 4 : len, s_ifp);
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}
s_rxdesc[s_rxno][0] = BIT(31);
if (++s_rxno >= ETH_DESC_CNT) s_rxno = 0;
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}
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}
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ETH->DMASR = BIT(7); // Clear possible RBUS while processing
ETH->DMARPDR = 0; // and resume RX
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}
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struct mip_driver mip_driver_stm32 = {
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mip_driver_stm32_init, mip_driver_stm32_tx, NULL, mip_driver_stm32_up};
#endif
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#ifdef MG_ENABLE_LINES
#line 1 "mip/driver_tm4c.c"
#endif
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#if MG_ENABLE_MIP && defined(MG_ENABLE_DRIVER_TM4C) && MG_ENABLE_DRIVER_TM4C
struct tm4c_emac {
volatile uint32_t EMACCFG, EMACFRAMEFLTR, EMACHASHTBLH, EMACHASHTBLL,
EMACMIIADDR, EMACMIIDATA, EMACFLOWCTL, EMACVLANTG, RESERVED0, EMACSTATUS,
EMACRWUFF, EMACPMTCTLSTAT, RESERVED1[2], EMACRIS, EMACIM, EMACADDR0H,
EMACADDR0L, EMACADDR1H, EMACADDR1L, EMACADDR2H, EMACADDR2L, EMACADDR3H,
EMACADDR3L, RESERVED2[31], EMACWDOGTO, RESERVED3[8], EMACMMCCTRL,
EMACMMCRXRIS, EMACMMCTXRIS, EMACMMCRXIM, EMACMMCTXIM, RESERVED4,
EMACTXCNTGB, RESERVED5[12], EMACTXCNTSCOL, EMACTXCNTMCOL, RESERVED6[4],
EMACTXOCTCNTG, RESERVED7[6], EMACRXCNTGB, RESERVED8[4], EMACRXCNTCRCERR,
EMACRXCNTALGNERR, RESERVED9[10], EMACRXCNTGUNI, RESERVED10[239],
EMACVLNINCREP, EMACVLANHASH, RESERVED11[93], EMACTIMSTCTRL, EMACSUBSECINC,
EMACTIMSEC, EMACTIMNANO, EMACTIMSECU, EMACTIMNANOU, EMACTIMADD,
EMACTARGSEC, EMACTARGNANO, EMACHWORDSEC, EMACTIMSTAT, EMACPPSCTRL,
RESERVED12[12], EMACPPS0INTVL, EMACPPS0WIDTH, RESERVED13[294],
EMACDMABUSMOD, EMACTXPOLLD, EMACRXPOLLD, EMACRXDLADDR, EMACTXDLADDR,
EMACDMARIS, EMACDMAOPMODE, EMACDMAIM, EMACMFBOC, EMACRXINTWDT,
RESERVED14[8], EMACHOSTXDESC, EMACHOSRXDESC, EMACHOSTXBA, EMACHOSRXBA,
RESERVED15[218], EMACPP, EMACPC, EMACCC, RESERVED16, EMACEPHYRIS,
EMACEPHYIM, EMACEPHYIMSC;
};
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#undef EMAC
#define EMAC ((struct tm4c_emac *) (uintptr_t) 0x400EC000)
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#undef BIT
#define BIT(x) ((uint32_t) 1 << (x))
#define ETH_PKT_SIZE 1540 // Max frame size
#define ETH_DESC_CNT 4 // Descriptors count
#define ETH_DS 4 // Descriptor size (words)
static uint32_t s_rxdesc[ETH_DESC_CNT][ETH_DS]; // RX descriptors
static uint32_t s_txdesc[ETH_DESC_CNT][ETH_DS]; // TX descriptors
static uint8_t s_rxbuf[ETH_DESC_CNT][ETH_PKT_SIZE]; // RX ethernet buffers
static uint8_t s_txbuf[ETH_DESC_CNT][ETH_PKT_SIZE]; // TX ethernet buffers
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static struct mip_if *s_ifp; // MIP interface
enum { EPHY_ADDR = 0, EPHYBMCR = 0, EPHYBMSR = 1 }; // PHY constants
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static inline void tm4cspin(volatile uint32_t count) {
while (count--) (void) 0;
}
static uint32_t emac_read_phy(uint8_t addr, uint8_t reg) {
EMAC->EMACMIIADDR &= (0xf << 2);
EMAC->EMACMIIADDR |= ((uint32_t) addr << 11) | ((uint32_t) reg << 6);
EMAC->EMACMIIADDR |= BIT(0);
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while (EMAC->EMACMIIADDR & BIT(0)) tm4cspin(1);
return EMAC->EMACMIIDATA;
}
static void emac_write_phy(uint8_t addr, uint8_t reg, uint32_t val) {
EMAC->EMACMIIDATA = val;
EMAC->EMACMIIADDR &= (0xf << 2);
EMAC->EMACMIIADDR |= ((uint32_t) addr << 11) | ((uint32_t) reg << 6) | BIT(1);
EMAC->EMACMIIADDR |= BIT(0);
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while (EMAC->EMACMIIADDR & BIT(0)) tm4cspin(1);
}
static uint32_t get_sysclk(void) {
struct sysctl {
volatile uint32_t DONTCARE0[44], RSCLKCFG, DONTCARE1[43], PLLFREQ0,
PLLFREQ1;
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} *sysctl = (struct sysctl *) 0x400FE000;
uint32_t clk = 0, piosc = 16000000 /* 16 MHz */, mosc = 25000000 /* 25MHz */;
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if (sysctl->RSCLKCFG & (1 << 28)) { // USEPLL
uint32_t fin, vco, mdiv, n, q, psysdiv;
uint32_t pllsrc = (sysctl->RSCLKCFG & (0xf << 24)) >> 24;
if (pllsrc == 0) {
clk = piosc;
} else if (pllsrc == 3) {
clk = mosc;
} else {
MG_ERROR(("Unsupported clock source"));
}
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q = (sysctl->PLLFREQ1 & (0x1f << 8)) >> 8;
n = (sysctl->PLLFREQ1 & (0x1f << 0)) >> 0;
fin = clk / ((q + 1) * (n + 1));
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mdiv = (sysctl->PLLFREQ0 & (0x3ff << 0)) >>
0; // mint + (mfrac / 1024); MFRAC not supported
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psysdiv = (sysctl->RSCLKCFG & (0x3f << 0)) >> 0;
vco = (uint32_t) ((uint64_t) fin * mdiv);
return vco / (psysdiv + 1);
}
uint32_t oscsrc = (sysctl->RSCLKCFG & (0xf << 20)) >> 20;
if (oscsrc == 0) {
clk = piosc;
} else if (oscsrc == 3) {
clk = mosc;
} else {
MG_ERROR(("Unsupported clock source"));
}
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uint32_t osysdiv = (sysctl->RSCLKCFG & (0xf << 16)) >> 16;
return clk / (osysdiv + 1);
}
// Guess CR from SYSCLK. MDC clock is generated from SYSCLK (AHB); as per
// 802.3, it must not exceed 2.5MHz (also 20.4.2.6) As the AHB clock can be
// derived from the PIOSC (internal RC), and it can go above specs, the
// datasheets specify a range of frequencies and activate one of a series of
// dividers to keep the MDC clock safely below 2.5MHz. We guess a divider
// setting based on SYSCLK with a +5% drift. If the user uses a different clock
// from our defaults, needs to set the macros on top Valid for TM4C129x (20.7)
// (4.5% worst case drift)
// The PHY receives the main oscillator (MOSC) (20.3.1)
static int guess_mdc_cr(void) {
uint8_t crs[] = {2, 3, 0, 1}; // EMAC->MACMIIAR::CR values
uint8_t div[] = {16, 26, 42, 62}; // Respective HCLK dividers
uint32_t sysclk = get_sysclk(); // Guess system SYSCLK
int result = -1; // Invalid CR value
if (sysclk < 25000000) {
MG_ERROR(("SYSCLK too low"));
} else {
for (int i = 0; i < 4; i++) {
if (sysclk / div[i] <= 2375000UL /* 2.5MHz - 5% */) {
result = crs[i];
break;
}
}
if (result < 0) MG_ERROR(("SYSCLK too high"));
}
MG_DEBUG(("SYSCLK: %u, CR: %d", sysclk, result));
return result;
}
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static bool mip_driver_tm4c_init(struct mip_if *ifp) {
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struct mip_driver_tm4c_data *d = (struct mip_driver_tm4c_data *) ifp->driver_data;
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s_ifp = ifp;
// Init RX descriptors
for (int i = 0; i < ETH_DESC_CNT; i++) {
s_rxdesc[i][0] = BIT(31); // Own
s_rxdesc[i][1] = sizeof(s_rxbuf[i]) | BIT(14); // 2nd address chained
s_rxdesc[i][2] = (uint32_t) (uintptr_t) s_rxbuf[i]; // Point to data buffer
s_rxdesc[i][3] =
(uint32_t) (uintptr_t) s_rxdesc[(i + 1) % ETH_DESC_CNT]; // Chain
// MG_DEBUG(("%d %p", i, s_rxdesc[i]));
}
// Init TX descriptors
for (int i = 0; i < ETH_DESC_CNT; i++) {
s_txdesc[i][2] = (uint32_t) (uintptr_t) s_txbuf[i]; // Buf pointer
s_txdesc[i][3] =
(uint32_t) (uintptr_t) s_txdesc[(i + 1) % ETH_DESC_CNT]; // Chain
}
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EMAC->EMACDMABUSMOD |= BIT(0); // Software reset
while ((EMAC->EMACDMABUSMOD & BIT(0)) != 0) tm4cspin(1); // Wait until done
// Set MDC clock divider. If user told us the value, use it. Otherwise, guess
int cr = (d == NULL || d->mdc_cr < 0) ? guess_mdc_cr() : d->mdc_cr;
EMAC->EMACMIIADDR = ((uint32_t) cr & 0xf) << 2;
// NOTE(cpq): we do not use extended descriptor bit 7, and do not use
// hardware checksum. Therefore, descriptor size is 4, not 8
// EMAC->EMACDMABUSMOD = BIT(13) | BIT(16) | BIT(22) | BIT(23) | BIT(25);
EMAC->EMACIM = BIT(3) | BIT(9); // Mask timestamp & PMT IT
EMAC->EMACFLOWCTL = BIT(7); // Disable zero-quanta pause
// EMAC->EMACFRAMEFLTR = BIT(31); // Receive all
// EMAC->EMACPC defaults to internal PHY (EPHY) in MMI mode
emac_write_phy(EPHY_ADDR, EPHYBMCR, BIT(15)); // Reset internal PHY (EPHY)
emac_write_phy(EPHY_ADDR, EPHYBMCR, BIT(12)); // Set autonegotiation
EMAC->EMACRXDLADDR = (uint32_t) (uintptr_t) s_rxdesc; // RX descriptors
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EMAC->EMACTXDLADDR = (uint32_t) (uintptr_t) s_txdesc; // TX descriptors
EMAC->EMACDMAIM = BIT(6) | BIT(16); // RIE, NIE
EMAC->EMACCFG = BIT(2) | BIT(3) | BIT(11) | BIT(14); // RE, TE, Duplex, Fast
EMAC->EMACDMAOPMODE =
BIT(1) | BIT(13) | BIT(21) | BIT(25); // SR, ST, TSF, RSF
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EMAC->EMACADDR0H = ((uint32_t) ifp->mac[5] << 8U) | ifp->mac[4];
EMAC->EMACADDR0L = (uint32_t) (ifp->mac[3] << 24) |
((uint32_t) ifp->mac[2] << 16) |
((uint32_t) ifp->mac[1] << 8) | ifp->mac[0];
// NOTE(scaprile) There are 3 additional slots for filtering, disabled by
// default. This also applies to the STM32 driver (at least for F7)
return true;
}
static uint32_t s_txno;
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static size_t mip_driver_tm4c_tx(const void *buf, size_t len, struct mip_if *ifp) {
if (len > sizeof(s_txbuf[s_txno])) {
MG_ERROR(("Frame too big, %ld", (long) len));
len = 0; // fail
} else if ((s_txdesc[s_txno][0] & BIT(31))) {
MG_ERROR(("No descriptors available"));
// printf("D0 %lx SR %lx\n", (long) s_txdesc[0][0], (long)
// EMAC->EMACDMARIS);
len = 0; // fail
} else {
memcpy(s_txbuf[s_txno], buf, len); // Copy data
s_txdesc[s_txno][1] = (uint32_t) len; // Set data len
s_txdesc[s_txno][0] =
BIT(20) | BIT(28) | BIT(29) | BIT(30); // Chain,FS,LS,IC
s_txdesc[s_txno][0] |= BIT(31); // Set OWN bit - let DMA take over
if (++s_txno >= ETH_DESC_CNT) s_txno = 0;
}
EMAC->EMACDMARIS = BIT(2) | BIT(5); // Clear any prior TU/UNF
EMAC->EMACTXPOLLD = 0; // and resume
return len;
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(void) ifp;
}
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static bool mip_driver_tm4c_up(struct mip_if *ifp) {
uint32_t bmsr = emac_read_phy(EPHY_ADDR, EPHYBMSR);
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(void) ifp;
return (bmsr & BIT(2)) ? 1 : 0;
}
void EMAC0_IRQHandler(void);
static uint32_t s_rxno;
void EMAC0_IRQHandler(void) {
qp_mark(QP_IRQTRIGGERED, 0);
if (EMAC->EMACDMARIS & BIT(6)) { // Frame received, loop
EMAC->EMACDMARIS = BIT(16) | BIT(6); // Clear flag
for (uint32_t i = 0; i < 10; i++) { // read as they arrive but not forever
if (s_rxdesc[s_rxno][0] & BIT(31)) break; // exit when done
if (((s_rxdesc[s_rxno][0] & (BIT(8) | BIT(9))) == (BIT(8) | BIT(9))) &&
!(s_rxdesc[s_rxno][0] & BIT(15))) { // skip partial/errored frames
uint32_t len = ((s_rxdesc[s_rxno][0] >> 16) & (BIT(14) - 1));
// printf("%lx %lu %lx %.8lx\n", s_rxno, len, s_rxdesc[s_rxno][0],
// EMAC->EMACDMARIS);
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mip_rxcb(s_rxbuf[s_rxno], len > 4 ? len - 4 : len, s_ifp);
}
s_rxdesc[s_rxno][0] = BIT(31);
if (++s_rxno >= ETH_DESC_CNT) s_rxno = 0;
}
}
EMAC->EMACDMARIS = BIT(7); // Clear possible RU while processing
EMAC->EMACRXPOLLD = 0; // and resume RX
}
struct mip_driver mip_driver_tm4c = {mip_driver_tm4c_init, mip_driver_tm4c_tx,
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NULL, mip_driver_tm4c_up};
#endif
#ifdef MG_ENABLE_LINES
#line 1 "mip/driver_w5500.c"
#endif
#if MG_ENABLE_MIP
enum { W5500_CR = 0, W5500_S0 = 1, W5500_TX0 = 2, W5500_RX0 = 3 };
static void w5500_txn(struct mip_spi *s, uint8_t block, uint16_t addr, bool wr,
void *buf, size_t len) {
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uint8_t *p = (uint8_t *) buf;
uint8_t cmd[] = {(uint8_t) (addr >> 8), (uint8_t) (addr & 255),
(uint8_t) ((block << 3) | (wr ? 4 : 0))};
s->begin(s->spi);
for (size_t i = 0; i < sizeof(cmd); i++) s->txn(s->spi, cmd[i]);
for (size_t i = 0; i < len; i++) {
uint8_t r = s->txn(s->spi, p[i]);
if (!wr) p[i] = r;
}
s->end(s->spi);
}
// clang-format off
static void w5500_wn(struct mip_spi *s, uint8_t block, uint16_t addr, void *buf, size_t len) { w5500_txn(s, block, addr, true, buf, len); }
static void w5500_w1(struct mip_spi *s, uint8_t block, uint16_t addr, uint8_t val) { w5500_wn(s, block, addr, &val, 1); }
static void w5500_w2(struct mip_spi *s, uint8_t block, uint16_t addr, uint16_t val) { uint8_t buf[2] = {(uint8_t) (val >> 8), (uint8_t) (val & 255)}; w5500_wn(s, block, addr, buf, sizeof(buf)); }
static void w5500_rn(struct mip_spi *s, uint8_t block, uint16_t addr, void *buf, size_t len) { w5500_txn(s, block, addr, false, buf, len); }
static uint8_t w5500_r1(struct mip_spi *s, uint8_t block, uint16_t addr) { uint8_t r = 0; w5500_rn(s, block, addr, &r, 1); return r; }
static uint16_t w5500_r2(struct mip_spi *s, uint8_t block, uint16_t addr) { uint8_t buf[2] = {0, 0}; w5500_rn(s, block, addr, buf, sizeof(buf)); return (uint16_t) ((buf[0] << 8) | buf[1]); }
// clang-format on
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static size_t w5500_rx(void *buf, size_t buflen, struct mip_if *ifp) {
struct mip_spi *s = (struct mip_spi *) ifp->driver_data;
uint16_t r = 0, n = 0, len = (uint16_t) buflen, n2; // Read recv len
while ((n2 = w5500_r2(s, W5500_S0, 0x26)) > n) n = n2; // Until it is stable
// printf("RSR: %d\n", (int) n);
if (n > 0) {
uint16_t ptr = w5500_r2(s, W5500_S0, 0x28); // Get read pointer
n = w5500_r2(s, W5500_RX0, ptr); // Read frame length
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if (n <= len + 2 && n > 1) {
r = (uint16_t) (n - 2);
w5500_rn(s, W5500_RX0, (uint16_t) (ptr + 2), buf, r);
}
w5500_w2(s, W5500_S0, 0x28, (uint16_t) (ptr + n)); // Advance read pointer
w5500_w1(s, W5500_S0, 1, 0x40); // Sock0 CR -> RECV
// printf(" RX_RD: tot=%u n=%u r=%u\n", n2, n, r);
}
return r;
}
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static size_t w5500_tx(const void *buf, size_t buflen, struct mip_if *ifp) {
struct mip_spi *s = (struct mip_spi *) ifp->driver_data;
uint16_t n = 0, len = (uint16_t) buflen;
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while (n < len) n = w5500_r2(s, W5500_S0, 0x20); // Wait for space
uint16_t ptr = w5500_r2(s, W5500_S0, 0x24); // Get write pointer
w5500_wn(s, W5500_TX0, ptr, (void *) buf, len); // Write data
w5500_w2(s, W5500_S0, 0x24, (uint16_t) (ptr + len)); // Advance write pointer
w5500_w1(s, W5500_S0, 1, 0x20); // Sock0 CR -> SEND
for (int i = 0; i < 40; i++) {
uint8_t ir = w5500_r1(s, W5500_S0, 2); // Read S0 IR
if (ir == 0) continue;
// printf("IR %d, len=%d, free=%d, ptr %d\n", ir, (int) len, (int) n, ptr);
w5500_w1(s, W5500_S0, 2, ir); // Write S0 IR: clear it!
if (ir & 8) len = 0; // Timeout. Report error
if (ir & (16 | 8)) break; // Stop on SEND_OK or timeout
}
return len;
}
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static bool w5500_init(struct mip_if *ifp) {
struct mip_spi *s = (struct mip_spi *) ifp->driver_data;
s->end(s->spi);
w5500_w1(s, W5500_CR, 0, 0x80); // Reset chip: CR -> 0x80
w5500_w1(s, W5500_CR, 0x2e, 0); // CR PHYCFGR -> reset
w5500_w1(s, W5500_CR, 0x2e, 0xf8); // CR PHYCFGR -> set
// w5500_wn(s, W5500_CR, 9, s->mac, 6); // Set source MAC
w5500_w1(s, W5500_S0, 0x1e, 16); // Sock0 RX buf size
w5500_w1(s, W5500_S0, 0x1f, 16); // Sock0 TX buf size
w5500_w1(s, W5500_S0, 0, 4); // Sock0 MR -> MACRAW
w5500_w1(s, W5500_S0, 1, 1); // Sock0 CR -> OPEN
return w5500_r1(s, W5500_S0, 3) == 0x42; // Sock0 SR == MACRAW
}
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static bool w5500_up(struct mip_if *ifp) {
struct mip_spi *spi = (struct mip_spi *) ifp->driver_data;
uint8_t phycfgr = w5500_r1(spi, W5500_CR, 0x2e);
return phycfgr & 1; // Bit 0 of PHYCFGR is LNK (0 - down, 1 - up)
}
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struct mip_driver mip_driver_w5500 = {w5500_init, w5500_tx, w5500_rx, w5500_up};
#endif
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#ifdef MG_ENABLE_LINES
#line 1 "mip/mip.c"
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#endif
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#if MG_ENABLE_MIP
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#define MIP_ETHEMERAL_PORT 49152
#define U16(ptr) ((((uint16_t) (ptr)[0]) << 8) | (ptr)[1])
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#define PDIFF(a, b) ((size_t) (((char *) (b)) - ((char *) (a))))
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#ifndef MIP_QSIZE
#define MIP_QSIZE (16 * 1024) // Queue size
#endif
#ifndef MIP_TCP_KEEPALIVE_MS
#define MIP_TCP_KEEPALIVE_MS 45000 // TCP keep-alive period, ms
#endif
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#define MIP_TCP_ACK_MS 150 // Timeout for ACKing
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struct connstate {
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uint32_t seq, ack; // TCP seq/ack counters
uint64_t timer; // TCP keep-alive / ACK timer
uint8_t mac[6]; // Peer MAC address
uint8_t ttype; // Timer type. 0: ack, 1: keep-alive
#define MIP_TTYPE_KEEPALIVE 0 // Connection is idle for long, send keepalive
#define MIP_TTYPE_ACK 1 // Peer sent us data, we have to ack it soon
uint8_t tmiss; // Number of keep-alive misses
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struct mg_iobuf raw; // For TLS only. Incoming raw data
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};
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#pragma pack(push, 1)
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struct lcp {
uint8_t addr, ctrl, proto[2], code, id, len[2];
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};
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struct eth {
uint8_t dst[6]; // Destination MAC address
uint8_t src[6]; // Source MAC address
uint16_t type; // Ethernet type
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};
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struct ip {
uint8_t ver; // Version
uint8_t tos; // Unused
uint16_t len; // Length
uint16_t id; // Unused
uint16_t frag; // Fragmentation
uint8_t ttl; // Time to live
uint8_t proto; // Upper level protocol
uint16_t csum; // Checksum
uint32_t src; // Source IP
uint32_t dst; // Destination IP
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};
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struct ip6 {
uint8_t ver; // Version
uint8_t opts[3]; // Options
uint16_t len; // Length
uint8_t proto; // Upper level protocol
uint8_t ttl; // Time to live
uint8_t src[16]; // Source IP
uint8_t dst[16]; // Destination IP
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};
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struct icmp {
uint8_t type;
uint8_t code;
uint16_t csum;
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};
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struct arp {
uint16_t fmt; // Format of hardware address
uint16_t pro; // Format of protocol address
uint8_t hlen; // Length of hardware address
uint8_t plen; // Length of protocol address
uint16_t op; // Operation
uint8_t sha[6]; // Sender hardware address
uint32_t spa; // Sender protocol address
uint8_t tha[6]; // Target hardware address
uint32_t tpa; // Target protocol address
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};
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struct tcp {
uint16_t sport; // Source port
uint16_t dport; // Destination port
uint32_t seq; // Sequence number
uint32_t ack; // Acknowledgement number
uint8_t off; // Data offset
uint8_t flags; // TCP flags
#define TH_FIN 0x01
#define TH_SYN 0x02
#define TH_RST 0x04
#define TH_PUSH 0x08
#define TH_ACK 0x10
#define TH_URG 0x20
#define TH_ECE 0x40
#define TH_CWR 0x80
uint16_t win; // Window
uint16_t csum; // Checksum
uint16_t urp; // Urgent pointer
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};
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struct udp {
uint16_t sport; // Source port
uint16_t dport; // Destination port
uint16_t len; // UDP length
uint16_t csum; // UDP checksum
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};
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struct dhcp {
uint8_t op, htype, hlen, hops;
uint32_t xid;
uint16_t secs, flags;
uint32_t ciaddr, yiaddr, siaddr, giaddr;
uint8_t hwaddr[208];
uint32_t magic;
uint8_t options[32];
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};
#pragma pack(pop)
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struct pkt {
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struct mg_str raw; // Raw packet data
struct mg_str pay; // Payload data
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struct eth *eth;
struct llc *llc;
struct arp *arp;
struct ip *ip;
struct ip6 *ip6;
struct icmp *icmp;
struct tcp *tcp;
struct udp *udp;
struct dhcp *dhcp;
};
static void q_copyin(struct queue *q, const uint8_t *buf, size_t len,
size_t head) {
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size_t left = q->len - head;
memcpy(&q->buf[head], buf, left < len ? left : len);
if (left < len) memcpy(q->buf, &buf[left], len - left);
}
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static void q_copyout(struct queue *q, uint8_t *buf, size_t len, size_t tail) {
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size_t left = q->len - tail;
memcpy(buf, &q->buf[tail], left < len ? left : len);
if (left < len) memcpy(&buf[left], q->buf, len - left);
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}
static bool q_write(struct queue *q, const void *buf, size_t len) {
bool success = false;
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size_t left = (q->len - q->head + q->tail - 1) % q->len;
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if (len + sizeof(size_t) <= left) {
q_copyin(q, (uint8_t *) &len, sizeof(len), q->head);
q_copyin(q, (uint8_t *) buf, len, (q->head + sizeof(size_t)) % q->len);
q->head = (q->head + sizeof(len) + len) % q->len;
success = true;
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}
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return success;
}
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#ifdef MIP_QPROFILE
static inline size_t q_space(struct queue *q) {
return q->tail > q->head ? q->tail - q->head : q->tail + (q->len - q->head);
}
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#endif
static inline size_t q_avail(struct queue *q) {
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size_t n = 0;
if (q->tail != q->head) q_copyout(q, (uint8_t *) &n, sizeof(n), q->tail);
return n;
}
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static size_t q_read(struct queue *q, void *buf) {
size_t n = q_avail(q);
if (n > 0) {
q_copyout(q, (uint8_t *) buf, n, (q->tail + sizeof(n)) % q->len);
q->tail = (q->tail + sizeof(n) + n) % q->len;
}
return n;
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}
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static struct mg_str mkstr(void *buf, size_t len) {
struct mg_str str = {(char *) buf, len};
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return str;
}
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static void mkpay(struct pkt *pkt, void *p) {
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pkt->pay = mkstr(p, (size_t) (&pkt->raw.ptr[pkt->raw.len] - (char *) p));
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}
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static uint32_t csumup(uint32_t sum, const void *buf, size_t len) {
const uint8_t *p = (const uint8_t *) buf;
for (size_t i = 0; i < len; i++) sum += i & 1 ? p[i] : (uint32_t) (p[i] << 8);
return sum;
}
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static uint16_t csumfin(uint32_t sum) {
while (sum >> 16) sum = (sum & 0xffff) + (sum >> 16);
return mg_htons(~sum & 0xffff);
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}
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static uint16_t ipcsum(const void *buf, size_t len) {
uint32_t sum = csumup(0, buf, len);
return csumfin(sum);
}
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// ARP cache is organised as a doubly linked list. A successful cache lookup
// moves an entry to the head of the list. New entries are added by replacing
// the last entry in the list with a new IP/MAC.
// ARP cache format: | prev | next | Entry0 | Entry1 | .... | EntryN |
// ARP entry format: | prev | next | IP (4bytes) | MAC (6bytes) |
// prev and next are 1-byte offsets in the cache, so cache size is max 256 bytes
// ARP entry size is 12 bytes
static void arp_cache_init(uint8_t *p, int n, int size) {
for (int i = 0; i < n; i++) p[2 + i * size] = (uint8_t) (2 + (i - 1) * size);
for (int i = 0; i < n; i++) p[3 + i * size] = (uint8_t) (2 + (i + 1) * size);
p[0] = p[2] = (uint8_t) (2 + (n - 1) * size);
p[1] = p[3 + (n - 1) * size] = 2;
}
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#if 0
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static inline void arp_cache_dump(const uint8_t *p) {
MG_INFO(("ARP cache:"));
for (uint8_t i = 0, j = p[1]; i < MIP_ARP_ENTRIES; i++, j = p[j + 1]) {
MG_INFO((" %I -> %A", 4, &p[j + 2], &p[j + 6]));
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}
}
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#endif
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static const uint8_t bcastmac[6] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF};
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static uint8_t *arp_cache_find(struct mip_if *ifp, uint32_t ip) {
uint8_t *p = ifp->arp_cache;
if (ip == 0) return NULL;
// use broadcast MAC for local and global broadcast IP
if (ip == 0xffffffffU || ip == (ifp->ip | ~ifp->mask))
return (uint8_t *) bcastmac;
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for (uint8_t i = 0, j = p[1]; i < MIP_ARP_ENTRIES; i++, j = p[j + 1]) {
if (memcmp(p + j + 2, &ip, sizeof(ip)) == 0) {
p[1] = j, p[0] = p[j]; // Found entry! Point list head to us
// MG_DEBUG(("ARP find: %I @ %A", 4, &ip, &p[j + 6]));
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return p + j + 6; // And return MAC address
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}
}
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return NULL;
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}
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static void arp_cache_add(struct mip_if *ifp, uint32_t ip, uint8_t mac[6]) {
uint8_t *p = ifp->arp_cache;
if (ip == 0 || ip == ~0U) return; // Bad IP
if (arp_cache_find(ifp, ip) != NULL) return; // Already exists, do nothing
memcpy(p + p[0] + 2, &ip, sizeof(ip)); // Replace last entry: IP address
memcpy(p + p[0] + 6, mac, 6); // And MAC address
p[1] = p[0], p[0] = p[p[1]]; // Point list head to us
MG_DEBUG(("ARP cache: added %I @ %A", 4, &ip, mac));
}
static size_t ether_output(struct mip_if *ifp, size_t len) {
// size_t min = 64; // Pad short frames to 64 bytes (minimum Ethernet size)
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// if (len < min) memset(ifp->tx.ptr + len, 0, min - len), len = min;
// mg_hexdump(ifp->tx.ptr, len);
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return ifp->driver->tx(ifp->tx.ptr, len, ifp);
}
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static void arp_ask(struct mip_if *ifp, uint32_t ip) {
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struct eth *eth = (struct eth *) ifp->tx.ptr;
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struct arp *arp = (struct arp *) (eth + 1);
memset(eth->dst, 255, sizeof(eth->dst));
memcpy(eth->src, ifp->mac, sizeof(eth->src));
eth->type = mg_htons(0x806);
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memset(arp, 0, sizeof(*arp));
arp->fmt = mg_htons(1), arp->pro = mg_htons(0x800), arp->hlen = 6,
arp->plen = 4;
arp->op = mg_htons(1), arp->tpa = ip, arp->spa = ifp->ip;
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memcpy(arp->sha, ifp->mac, sizeof(arp->sha));
ether_output(ifp, PDIFF(eth, arp + 1));
}
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static void onstatechange(struct mip_if *ifp) {
if (ifp->state == MIP_STATE_READY) {
MG_INFO(("READY, IP: %I", 4, &ifp->ip));
MG_INFO((" GW: %I", 4, &ifp->gw));
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if (ifp->lease_expire > ifp->now) {
MG_INFO(
(" Lease: %lld sec", (ifp->lease_expire - ifp->now) / 1000));
}
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arp_ask(ifp, ifp->gw);
} else if (ifp->state == MIP_STATE_UP) {
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MG_ERROR(("Link up"));
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} else if (ifp->state == MIP_STATE_DOWN) {
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MG_ERROR(("Link down"));
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}
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}
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static struct ip *tx_ip(struct mip_if *ifp, uint8_t proto, uint32_t ip_src,
uint32_t ip_dst, size_t plen) {
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struct eth *eth = (struct eth *) ifp->tx.ptr;
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struct ip *ip = (struct ip *) (eth + 1);
uint8_t *mac = arp_cache_find(ifp, ip_dst); // Dst IP in ARP cache ?
if (!mac && ((ip_dst & ifp->mask) == (ifp->ip & ifp->mask)))
arp_ask(ifp, ip_dst); // Same net, lookup
if (!mac) mac = arp_cache_find(ifp, ifp->gw); // Use gateway MAC
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if (!mac) arp_ask(ifp, ifp->gw); // Not found? lookup
if (mac) memcpy(eth->dst, mac, sizeof(eth->dst)); // Found? Use it
if (!mac) memset(eth->dst, 255, sizeof(eth->dst)); // No? Use broadcast
memcpy(eth->src, ifp->mac, sizeof(eth->src)); // TODO(cpq): ARP lookup
eth->type = mg_htons(0x800);
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memset(ip, 0, sizeof(*ip));
ip->ver = 0x45; // Version 4, header length 5 words
ip->frag = 0x40; // Don't fragment
ip->len = mg_htons((uint16_t) (sizeof(*ip) + plen));
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ip->ttl = 64;
ip->proto = proto;
ip->src = ip_src;
ip->dst = ip_dst;
ip->csum = ipcsum(ip, sizeof(*ip));
return ip;
}
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static void tx_udp(struct mip_if *ifp, uint32_t ip_src, uint16_t sport,
uint32_t ip_dst, uint16_t dport, const void *buf,
size_t len) {
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struct ip *ip = tx_ip(ifp, 17, ip_src, ip_dst, len + sizeof(struct udp));
struct udp *udp = (struct udp *) (ip + 1);
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// MG_DEBUG(("UDP XX LEN %d %d", (int) len, (int) ifp->tx.len));
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udp->sport = sport;
udp->dport = dport;
udp->len = mg_htons((uint16_t) (sizeof(*udp) + len));
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udp->csum = 0;
uint32_t cs = csumup(0, udp, sizeof(*udp));
cs = csumup(cs, buf, len);
cs = csumup(cs, &ip->src, sizeof(ip->src));
cs = csumup(cs, &ip->dst, sizeof(ip->dst));
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cs += (uint32_t) (ip->proto + sizeof(*udp) + len);
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udp->csum = csumfin(cs);
memmove(udp + 1, buf, len);
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// MG_DEBUG(("UDP LEN %d %d", (int) len, (int) ifp->frame_len));
ether_output(ifp, sizeof(struct eth) + sizeof(*ip) + sizeof(*udp) + len);
}
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static void tx_dhcp(struct mip_if *ifp, uint32_t src, uint32_t dst,
uint8_t *opts, size_t optslen) {
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struct dhcp dhcp = {1, 1, 6, 0, 0, 0, 0, 0, 0, 0, 0, {0}, 0, {0}};
dhcp.magic = mg_htonl(0x63825363);
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memcpy(&dhcp.hwaddr, ifp->mac, sizeof(ifp->mac));
memcpy(&dhcp.xid, ifp->mac + 2, sizeof(dhcp.xid));
memcpy(&dhcp.options, opts, optslen);
tx_udp(ifp, src, mg_htons(68), dst, mg_htons(67), &dhcp, sizeof(dhcp));
}
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static void tx_dhcp_request(struct mip_if *ifp, uint32_t src, uint32_t dst) {
uint8_t opts[] = {
53, 1, 3, // Type: DHCP request
55, 2, 1, 3, // GW and mask
12, 3, 'm', 'i', 'p', // Host name: "mip"
54, 4, 0, 0, 0, 0, // DHCP server ID
50, 4, 0, 0, 0, 0, // Requested IP
255 // End of options
};
memcpy(opts + 14, &dst, sizeof(dst));
memcpy(opts + 20, &src, sizeof(src));
tx_dhcp(ifp, src, dst, opts, sizeof(opts));
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}
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static void tx_dhcp_discover(struct mip_if *ifp) {
uint8_t opts[] = {
53, 1, 1, // Type: DHCP discover
55, 2, 1, 3, // Parameters: ip, mask
255 // End of options
};
tx_dhcp(ifp, 0, 0xffffffff, opts, sizeof(opts));
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MG_DEBUG(("DHCP discover sent"));
}
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static void rx_arp(struct mip_if *ifp, struct pkt *pkt) {
if (pkt->arp->op == mg_htons(1) && pkt->arp->tpa == ifp->ip) {
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// ARP request. Make a response, then send
MG_DEBUG(("ARP op %d %I: %I?", mg_ntohs(pkt->arp->op), 4, &pkt->arp->spa, 4,
&pkt->arp->tpa));
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struct eth *eth = (struct eth *) ifp->tx.ptr;
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struct arp *arp = (struct arp *) (eth + 1);
memcpy(eth->dst, pkt->eth->src, sizeof(eth->dst));
memcpy(eth->src, ifp->mac, sizeof(eth->src));
eth->type = mg_htons(0x806);
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*arp = *pkt->arp;
arp->op = mg_htons(2);
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memcpy(arp->tha, pkt->arp->sha, sizeof(pkt->arp->tha));
memcpy(arp->sha, ifp->mac, sizeof(pkt->arp->sha));
arp->tpa = pkt->arp->spa;
arp->spa = ifp->ip;
MG_DEBUG(("ARP response: we're %I", 4, &ifp->ip));
ether_output(ifp, PDIFF(eth, arp + 1));
} else if (pkt->arp->op == mg_htons(2)) {
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if (memcmp(pkt->arp->tha, ifp->mac, sizeof(pkt->arp->tha)) != 0) return;
// MG_INFO(("ARP RESPONSE"));
arp_cache_add(ifp, pkt->arp->spa, pkt->arp->sha);
}
}
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static void rx_icmp(struct mip_if *ifp, struct pkt *pkt) {
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// MG_DEBUG(("ICMP %d", (int) len));
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if (pkt->icmp->type == 8 && pkt->ip != NULL && pkt->ip->dst == ifp->ip) {
size_t hlen = sizeof(struct eth) + sizeof(struct ip) + sizeof(struct icmp);
size_t space = ifp->tx.len - hlen, plen = pkt->pay.len;
if (plen > space) plen = space;
struct ip *ip =
tx_ip(ifp, 1, ifp->ip, pkt->ip->src, sizeof(struct icmp) + plen);
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struct icmp *icmp = (struct icmp *) (ip + 1);
memset(icmp, 0, sizeof(*icmp)); // Set csum to 0
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memcpy(icmp + 1, pkt->pay.ptr, plen); // Copy RX payload to TX
icmp->csum = ipcsum(icmp, sizeof(*icmp) + plen);
ether_output(ifp, hlen + plen);
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}
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}
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static void rx_dhcp_client(struct mip_if *ifp, struct pkt *pkt) {
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uint32_t ip = 0, gw = 0, mask = 0;
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uint8_t *p = pkt->dhcp->options,
*end = (uint8_t *) &pkt->raw.ptr[pkt->raw.len];
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if (end < (uint8_t *) (pkt->dhcp + 1)) return;
while (p + 1 < end && p[0] != 255) { // Parse options
if (p[0] == 1 && p[1] == sizeof(ifp->mask) && p + 6 < end) { // Mask
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memcpy(&mask, p + 2, sizeof(mask));
} else if (p[0] == 3 && p[1] == sizeof(ifp->gw) && p + 6 < end) { // GW
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memcpy(&gw, p + 2, sizeof(gw));
ip = pkt->dhcp->yiaddr;
} else if (p[0] == 51 && p[1] == 4 && p + 6 < end) { // Lease
uint32_t lease = 0;
memcpy(&lease, p + 2, sizeof(lease));
ifp->lease_expire = ifp->now + mg_ntohl(lease) * 1000;
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}
p += p[1] + 2;
}
if (ip && mask && gw && ifp->ip == 0) {
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arp_cache_add(ifp, pkt->dhcp->siaddr, ((struct eth *) pkt->raw.ptr)->src);
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ifp->ip = ip, ifp->gw = gw, ifp->mask = mask;
ifp->state = MIP_STATE_READY;
onstatechange(ifp);
tx_dhcp_request(ifp, ip, pkt->dhcp->siaddr);
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}
}
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// Simple DHCP server that assigns a next IP address: ifp->ip + 1
static void rx_dhcp_server(struct mip_if *ifp, struct pkt *pkt) {
uint8_t op = 0, *p = pkt->dhcp->options,
*end = (uint8_t *) &pkt->raw.ptr[pkt->raw.len];
if (end < (uint8_t *) (pkt->dhcp + 1)) return;
// struct dhcp *req = pkt->dhcp;
struct dhcp res = {2, 1, 6, 0, 0, 0, 0, 0, 0, 0, 0, {0}, 0, {0}};
res.yiaddr = ifp->ip;
((uint8_t *) (&res.yiaddr))[3]++; // Offer our IP + 1
while (p + 1 < end && p[0] != 255) { // Parse options
if (p[0] == 53 && p[1] == 1 && p + 2 < end) { // Message type
op = p[2];
}
p += p[1] + 2;
}
if (op == 1 || op == 3) { // DHCP Discover or DHCP Request
uint8_t msg = op == 1 ? 2 : 5; // Message type: DHCP OFFER or DHCP ACK
uint8_t opts[] = {
53, 1, msg, // Message type
1, 4, 0, 0, 0, 0, // Subnet mask
54, 4, 0, 0, 0, 0, // Server ID
12, 3, 'm', 'i', 'p', // Host name: "mip"
51, 4, 255, 255, 255, 255, // Lease time
255 // End of options
};
memcpy(&res.hwaddr, pkt->dhcp->hwaddr, 6);
memcpy(opts + 5, &ifp->mask, sizeof(ifp->mask));
memcpy(opts + 11, &ifp->ip, sizeof(ifp->ip));
memcpy(&res.options, opts, sizeof(opts));
res.magic = pkt->dhcp->magic;
res.xid = pkt->dhcp->xid;
arp_cache_add(ifp, res.yiaddr, pkt->eth->src);
tx_udp(ifp, ifp->ip, mg_htons(67), op == 1 ? ~0U : res.yiaddr, mg_htons(68),
&res, sizeof(res));
}
}
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static struct mg_connection *getpeer(struct mg_mgr *mgr, struct pkt *pkt,
bool lsn) {
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struct mg_connection *c = NULL;
for (c = mgr->conns; c != NULL; c = c->next) {
if (c->is_udp && pkt->udp && c->loc.port == pkt->udp->dport) break;
if (!c->is_udp && pkt->tcp && c->loc.port == pkt->tcp->dport &&
lsn == c->is_listening && (lsn || c->rem.port == pkt->tcp->sport))
break;
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}
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return c;
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}
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static void rx_udp(struct mip_if *ifp, struct pkt *pkt) {
struct mg_connection *c = getpeer(ifp->mgr, pkt, true);
if (c == NULL) {
// No UDP listener on this port. Should send ICMP, but keep silent.
} else if (c != NULL) {
c->rem.port = pkt->udp->sport;
c->rem.ip = pkt->ip->src;
if (c->recv.len >= MG_MAX_RECV_SIZE) {
mg_error(c, "max_recv_buf_size reached");
} else if (c->recv.size - c->recv.len < pkt->pay.len &&
!mg_iobuf_resize(&c->recv, c->recv.len + pkt->pay.len)) {
mg_error(c, "oom");
} else {
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memcpy(&c->recv.buf[c->recv.len], pkt->pay.ptr, pkt->pay.len);
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c->recv.len += pkt->pay.len;
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mg_call(c, MG_EV_READ, &pkt->pay.len);
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}
}
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}
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static size_t tx_tcp(struct mip_if *ifp, uint32_t dst_ip, uint8_t flags,
uint16_t sport, uint16_t dport, uint32_t seq, uint32_t ack,
const void *buf, size_t len) {
struct ip *ip = tx_ip(ifp, 6, ifp->ip, dst_ip, sizeof(struct tcp) + len);
struct tcp *tcp = (struct tcp *) (ip + 1);
memset(tcp, 0, sizeof(*tcp));
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if (buf != NULL && len) memmove(tcp + 1, buf, len);
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tcp->sport = sport;
tcp->dport = dport;
tcp->seq = seq;
tcp->ack = ack;
tcp->flags = flags;
tcp->win = mg_htons(8192);
tcp->off = (uint8_t) (sizeof(*tcp) / 4 << 4);
uint32_t cs = 0;
uint16_t n = (uint16_t) (sizeof(*tcp) + len);
uint8_t pseudo[] = {0, ip->proto, (uint8_t) (n >> 8), (uint8_t) (n & 255)};
cs = csumup(cs, tcp, n);
cs = csumup(cs, &ip->src, sizeof(ip->src));
cs = csumup(cs, &ip->dst, sizeof(ip->dst));
cs = csumup(cs, pseudo, sizeof(pseudo));
tcp->csum = csumfin(cs);
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return ether_output(ifp, PDIFF(ifp->tx.ptr, tcp + 1) + len);
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}
static size_t tx_tcp_pkt(struct mip_if *ifp, struct pkt *pkt, uint8_t flags,
uint32_t seq, const void *buf, size_t len) {
uint32_t delta = (pkt->tcp->flags & (TH_SYN | TH_FIN)) ? 1 : 0;
return tx_tcp(ifp, pkt->ip->src, flags, pkt->tcp->dport, pkt->tcp->sport, seq,
mg_htonl(mg_ntohl(pkt->tcp->seq) + delta), buf, len);
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}
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static struct mg_connection *accept_conn(struct mg_connection *lsn,
struct pkt *pkt) {
struct mg_connection *c = mg_alloc_conn(lsn->mgr);
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struct connstate *s = (struct connstate *) (c + 1);
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s->seq = mg_ntohl(pkt->tcp->ack), s->ack = mg_ntohl(pkt->tcp->seq);
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s->timer = ((struct mip_if *) c->mgr->priv)->now + MIP_TCP_KEEPALIVE_MS;
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c->rem.ip = pkt->ip->src;
c->rem.port = pkt->tcp->sport;
MG_DEBUG(
("%lu accepted %I:%hu", c->id, 4, &c->rem.ip, mg_ntohs(c->rem.port)));
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LIST_ADD_HEAD(struct mg_connection, &lsn->mgr->conns, c);
c->is_accepted = 1;
c->is_hexdumping = lsn->is_hexdumping;
c->pfn = lsn->pfn;
c->loc = lsn->loc;
c->pfn_data = lsn->pfn_data;
c->fn = lsn->fn;
c->fn_data = lsn->fn_data;
mg_call(c, MG_EV_OPEN, NULL);
mg_call(c, MG_EV_ACCEPT, NULL);
return c;
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}
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static void settmout(struct mg_connection *c, uint8_t type) {
struct mip_if *ifp = (struct mip_if *) c->mgr->priv;
struct connstate *s = (struct connstate *) (c + 1);
unsigned n = type == MIP_TTYPE_ACK ? MIP_TCP_ACK_MS : MIP_TCP_KEEPALIVE_MS;
s->timer = ifp->now + n;
s->ttype = type;
MG_VERBOSE(("%lu %d -> %llx", c->id, type, s->timer));
}
long mg_io_send(struct mg_connection *c, const void *buf, size_t len) {
struct mip_if *ifp = (struct mip_if *) c->mgr->priv;
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struct connstate *s = (struct connstate *) (c + 1);
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size_t max_headers_len = 14 + 24 /* max IP */ + 60 /* max TCP */;
if (len + max_headers_len > ifp->tx.len) len = ifp->tx.len - max_headers_len;
if (tx_tcp(ifp, c->rem.ip, TH_PUSH | TH_ACK, c->loc.port, c->rem.port,
mg_htonl(s->seq), mg_htonl(s->ack), buf, len) > 0) {
s->seq += (uint32_t) len;
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settmout(c, MIP_TTYPE_KEEPALIVE);
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} else {
return MG_IO_ERR;
}
return (long) len;
}
long mg_io_recv(struct mg_connection *c, void *buf, size_t len) {
struct connstate *s = (struct connstate *) (c + 1);
if (s->raw.len == 0) return MG_IO_WAIT;
if (len > s->raw.len) len = s->raw.len;
memcpy(buf, s->raw.buf, len);
mg_iobuf_del(&s->raw, 0, len);
MG_DEBUG(("%lu", len));
return (long) len;
}
static void read_conn(struct mg_connection *c, struct pkt *pkt) {
struct connstate *s = (struct connstate *) (c + 1);
struct mg_iobuf *io = c->is_tls ? &s->raw : &c->recv;
uint32_t seq = mg_ntohl(pkt->tcp->seq);
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s->raw.align = c->recv.align;
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if (pkt->tcp->flags & TH_FIN) {
s->ack = mg_htonl(pkt->tcp->seq) + 1, s->seq = mg_htonl(pkt->tcp->ack);
c->is_closing = 1;
} else if (pkt->pay.len == 0) {
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// TODO(cpq): handle this peer's ACK
} else if (seq != s->ack) {
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// TODO(cpq): peer sent us SEQ which we don't expect. Retransmit rather
// than close this connection
mg_error(c, "SEQ != ACK: %x %x", seq, s->ack);
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} else if (io->size - io->len < pkt->pay.len &&
!mg_iobuf_resize(io, io->len + pkt->pay.len)) {
mg_error(c, "oom");
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} else {
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// Copy TCP payload into the IO buffer. If the connection is plain text, we
// copy to c->recv. If the connection is TLS, this data is encrypted,
// therefore we copy that encrypted data to the s->raw iobuffer instead,
// and then call mg_tls_recv() to decrypt it. NOTE: mg_tls_recv() will
// call back mg_io_recv() which grabs raw data from s->raw
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memcpy(&io->buf[io->len], pkt->pay.ptr, pkt->pay.len);
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io->len += pkt->pay.len;
MG_DEBUG(("%lu SEQ %x -> %x", c->id, mg_htonl(pkt->tcp->seq), s->ack));
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s->ack = (uint32_t) (mg_htonl(pkt->tcp->seq) + pkt->pay.len);
#if 0
// Send ACK immediately
MG_DEBUG((" imm ACK", c->id, mg_htonl(pkt->tcp->seq), s->ack));
tx_tcp((struct mip_if *) c->mgr->priv, c->rem.ip, TH_ACK, c->loc.port,
c->rem.port, mg_htonl(s->seq), mg_htonl(s->ack), "", 0);
#else
// Advance ACK counter and setup a timer to send an ACK back
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settmout(c, MIP_TTYPE_ACK);
#endif
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if (c->is_tls) {
// TLS connection. Make room for decrypted data in c->recv
io = &c->recv;
if (io->size - io->len < pkt->pay.len &&
!mg_iobuf_resize(io, io->len + pkt->pay.len)) {
mg_error(c, "oom");
} else {
// Decrypt data directly into c->recv
long n = mg_tls_recv(c, &io->buf[io->len], io->size - io->len);
if (n == MG_IO_ERR) {
mg_error(c, "TLS recv error");
} else if (n > 0) {
// Decrypted successfully - trigger MG_EV_READ
io->len += (size_t) n;
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mg_call(c, MG_EV_READ, &n);
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}
}
} else {
// Plain text connection, data is already in c->recv, trigger MG_EV_READ
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mg_call(c, MG_EV_READ, &pkt->pay.len);
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}
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}
}
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static void rx_tcp(struct mip_if *ifp, struct pkt *pkt) {
struct mg_connection *c = getpeer(ifp->mgr, pkt, false);
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struct connstate *s = c == NULL ? NULL : (struct connstate *) (c + 1);
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if (c != NULL && s->ttype == MIP_TTYPE_KEEPALIVE) {
s->tmiss = 0; // Reset missed keep-alive counter
settmout(c, MIP_TTYPE_KEEPALIVE); // Advance keep-alive timer
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}
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#if 0
MG_INFO(("%lu %hhu %d", c ? c->id : 0, pkt->tcp->flags, (int) pkt->pay.len));
#endif
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if (c != NULL && c->is_connecting && pkt->tcp->flags & (TH_SYN | TH_ACK)) {
s->seq = mg_ntohl(pkt->tcp->ack), s->ack = mg_ntohl(pkt->tcp->seq) + 1;
tx_tcp_pkt(ifp, pkt, TH_ACK, pkt->tcp->ack, NULL, 0);
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c->is_connecting = 0; // Client connected
mg_call(c, MG_EV_CONNECT, NULL); // Let user know
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} else if (c != NULL && c->is_connecting) {
tx_tcp_pkt(ifp, pkt, TH_RST | TH_ACK, pkt->tcp->ack, NULL, 0);
} else if (c != NULL) {
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#if 0
MG_DEBUG(("%lu %d %I:%hu -> %I:%hu", c->id, (int) pkt->raw.len,
4, &pkt->ip->src, mg_ntohs(pkt->tcp->sport),
4, &pkt->ip->dst, mg_ntohs(pkt->tcp->dport)));
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mg_hexdump(pkt->pay.buf, pkt->pay.len);
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#endif
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read_conn(c, pkt);
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} else if ((c = getpeer(ifp->mgr, pkt, true)) == NULL) {
tx_tcp_pkt(ifp, pkt, TH_RST | TH_ACK, pkt->tcp->ack, NULL, 0);
} else if (pkt->tcp->flags & TH_SYN) {
// Use peer's source port as ISN, in order to recognise the handshake
uint32_t isn = mg_htonl((uint32_t) mg_ntohs(pkt->tcp->sport));
tx_tcp_pkt(ifp, pkt, TH_SYN | TH_ACK, isn, NULL, 0);
} else if (pkt->tcp->flags & TH_FIN) {
tx_tcp_pkt(ifp, pkt, TH_FIN | TH_ACK, pkt->tcp->ack, NULL, 0);
} else if (mg_htonl(pkt->tcp->ack) == mg_htons(pkt->tcp->sport) + 1U) {
accept_conn(c, pkt);
} else {
// MG_DEBUG(("dropped silently.."));
}
}
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static void rx_ip(struct mip_if *ifp, struct pkt *pkt) {
// MG_DEBUG(("IP %d", (int) pkt->pay.len));
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if (pkt->ip->proto == 1) {
pkt->icmp = (struct icmp *) (pkt->ip + 1);
if (pkt->pay.len < sizeof(*pkt->icmp)) return;
mkpay(pkt, pkt->icmp + 1);
rx_icmp(ifp, pkt);
} else if (pkt->ip->proto == 17) {
pkt->udp = (struct udp *) (pkt->ip + 1);
if (pkt->pay.len < sizeof(*pkt->udp)) return;
mkpay(pkt, pkt->udp + 1);
if (pkt->udp->dport == mg_htons(68)) {
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pkt->dhcp = (struct dhcp *) (pkt->udp + 1);
mkpay(pkt, pkt->dhcp + 1);
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rx_dhcp_client(ifp, pkt);
} else if (ifp->enable_dhcp_server && pkt->udp->dport == mg_htons(67)) {
pkt->dhcp = (struct dhcp *) (pkt->udp + 1);
mkpay(pkt, pkt->dhcp + 1);
rx_dhcp_server(ifp, pkt);
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} else {
rx_udp(ifp, pkt);
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}
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} else if (pkt->ip->proto == 6) {
pkt->tcp = (struct tcp *) (pkt->ip + 1);
if (pkt->pay.len < sizeof(*pkt->tcp)) return;
mkpay(pkt, pkt->tcp + 1);
uint16_t iplen = mg_ntohs(pkt->ip->len);
uint16_t off = (uint16_t) (sizeof(*pkt->ip) + ((pkt->tcp->off >> 4) * 4U));
if (iplen >= off) pkt->pay.len = (size_t) (iplen - off);
rx_tcp(ifp, pkt);
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}
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}
static void rx_ip6(struct mip_if *ifp, struct pkt *pkt) {
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// MG_DEBUG(("IP %d", (int) len));
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if (pkt->ip6->proto == 1 || pkt->ip6->proto == 58) {
pkt->icmp = (struct icmp *) (pkt->ip6 + 1);
if (pkt->pay.len < sizeof(*pkt->icmp)) return;
mkpay(pkt, pkt->icmp + 1);
rx_icmp(ifp, pkt);
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} else if (pkt->ip6->proto == 17) {
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pkt->udp = (struct udp *) (pkt->ip6 + 1);
if (pkt->pay.len < sizeof(*pkt->udp)) return;
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// MG_DEBUG((" UDP %u %u -> %u", len, mg_htons(udp->sport),
// mg_htons(udp->dport)));
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mkpay(pkt, pkt->udp + 1);
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}
}
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static void mip_rx(struct mip_if *ifp, void *buf, size_t len) {
const uint8_t broadcast[] = {255, 255, 255, 255, 255, 255};
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struct pkt pkt;
memset(&pkt, 0, sizeof(pkt));
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pkt.raw.ptr = (char *) buf;
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pkt.raw.len = len;
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pkt.eth = (struct eth *) buf;
if (pkt.raw.len < sizeof(*pkt.eth)) return; // Truncated - runt?
if (memcmp(pkt.eth->dst, ifp->mac, sizeof(pkt.eth->dst)) != 0 &&
memcmp(pkt.eth->dst, broadcast, sizeof(pkt.eth->dst)) != 0) {
// Not for us. Drop silently
} else if (pkt.eth->type == mg_htons(0x806)) {
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pkt.arp = (struct arp *) (pkt.eth + 1);
if (sizeof(*pkt.eth) + sizeof(*pkt.arp) > pkt.raw.len) return; // Truncated
rx_arp(ifp, &pkt);
} else if (pkt.eth->type == mg_htons(0x86dd)) {
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pkt.ip6 = (struct ip6 *) (pkt.eth + 1);
if (pkt.raw.len < sizeof(*pkt.eth) + sizeof(*pkt.ip6)) return; // Truncated
if ((pkt.ip6->ver >> 4) != 0x6) return; // Not IP
mkpay(&pkt, pkt.ip6 + 1);
rx_ip6(ifp, &pkt);
} else if (pkt.eth->type == mg_htons(0x800)) {
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pkt.ip = (struct ip *) (pkt.eth + 1);
if (pkt.raw.len < sizeof(*pkt.eth) + sizeof(*pkt.ip)) return; // Truncated
// Truncate frame to what IP header tells us
if ((size_t) mg_ntohs(pkt.ip->len) + sizeof(struct eth) < pkt.raw.len) {
pkt.raw.len = (size_t) mg_ntohs(pkt.ip->len) + sizeof(struct eth);
}
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if (pkt.raw.len < sizeof(*pkt.eth) + sizeof(*pkt.ip)) return; // Truncated
if ((pkt.ip->ver >> 4) != 4) return; // Not IP
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mkpay(&pkt, pkt.ip + 1);
rx_ip(ifp, &pkt);
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} else {
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MG_DEBUG((" Unknown eth type %x", mg_htons(pkt.eth->type)));
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}
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}
static void mip_poll(struct mip_if *ifp, uint64_t uptime_ms) {
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if (ifp == NULL || ifp->driver == NULL) return;
bool expired_1000ms = mg_timer_expired(&ifp->timer_1000ms, 1000, uptime_ms);
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ifp->now = uptime_ms;
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// Handle physical interface up/down status
if (expired_1000ms && ifp->driver->up) {
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bool up = ifp->driver->up(ifp);
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bool current = ifp->state != MIP_STATE_DOWN;
if (up != current) {
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ifp->state = up == false ? MIP_STATE_DOWN
: ifp->enable_dhcp_client ? MIP_STATE_UP
: MIP_STATE_READY;
if (!up && ifp->enable_dhcp_client) ifp->ip = 0;
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onstatechange(ifp);
}
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}
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if (ifp->state == MIP_STATE_DOWN) return;
// if (expired_1000ms) arp_cache_dump(ifp->arp_cache);
if (ifp->ip == 0 && expired_1000ms) {
tx_dhcp_discover(ifp); // If IP not configured, send DHCP
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} else if (ifp->enable_dhcp_client == false && expired_1000ms && ifp->gw &&
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arp_cache_find(ifp, ifp->gw) == NULL) {
arp_ask(ifp, ifp->gw); // If GW's MAC address in not in ARP cache
}
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// Read data from the network
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size_t len = ifp->queue.len > 0
? q_read(&ifp->queue, (void *) ifp->rx.ptr)
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: ifp->driver->rx((void *) ifp->rx.ptr, ifp->rx.len, ifp);
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qp_mark(QP_FRAMEPOPPED, (int) q_space(&ifp->queue));
mip_rx(ifp, (void *) ifp->rx.ptr, len);
qp_mark(QP_FRAMEDONE, (int) q_space(&ifp->queue));
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// Process timeouts
for (struct mg_connection *c = ifp->mgr->conns; c != NULL; c = c->next) {
if (c->is_udp || c->is_listening) continue;
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if (c->is_connecting || c->is_resolving) continue;
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struct connstate *s = (struct connstate *) (c + 1);
if (uptime_ms > s->timer) {
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if (s->ttype == MIP_TTYPE_ACK) {
MG_DEBUG(("%lu ack %x %x", c->id, s->seq, s->ack));
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tx_tcp(ifp, c->rem.ip, TH_ACK, c->loc.port, c->rem.port,
mg_htonl(s->seq), mg_htonl(s->ack), "", 0);
} else {
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MG_DEBUG(("%lu keepalive", c->id));
tx_tcp(ifp, c->rem.ip, TH_ACK, c->loc.port, c->rem.port,
mg_htonl(s->seq - 1), mg_htonl(s->ack), "", 0);
if (s->tmiss++ > 2) mg_error(c, "keepalive");
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}
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settmout(c, MIP_TTYPE_KEEPALIVE);
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}
}
#ifdef MIP_QPROFILE
qp_log();
#endif
}
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// This function executes in interrupt context, thus it should copy data
// somewhere fast. Note that newlib's malloc is not thread safe, thus use
// our lock-free queue with preallocated buffer to copy data and return asap
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void mip_rxcb(void *buf, size_t len, struct mip_if *ifp) {
if (q_write(&ifp->queue, buf, len)) {
qp_mark(QP_FRAMEPUSHED, (int) q_space(&ifp->queue));
} else {
ifp->dropped++;
qp_mark(QP_FRAMEDROPPED, ifp->dropped);
MG_ERROR(("dropped %d", (int) len));
}
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}
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void mip_init(struct mg_mgr *mgr, struct mip_if *ifp) {
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if (ifp->driver->init && !ifp->driver->init(ifp)) {
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MG_ERROR(("driver init failed"));
} else {
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size_t maxpktsize = 1540;
ifp->rx.ptr = (char *) calloc(1, maxpktsize), ifp->rx.len = maxpktsize;
ifp->tx.ptr = (char *) calloc(1, maxpktsize), ifp->tx.len = maxpktsize;
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if (ifp->driver->rx == NULL && ifp->queue.len == 0) ifp->queue.len = 8192;
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if (ifp->queue.len) ifp->queue.buf = (uint8_t *) calloc(1, ifp->queue.len);
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ifp->timer_1000ms = mg_millis();
arp_cache_init(ifp->arp_cache, MIP_ARP_ENTRIES, 12);
mgr->priv = ifp;
ifp->mgr = mgr;
mgr->extraconnsize = sizeof(struct connstate);
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if (ifp->ip == 0) ifp->enable_dhcp_client = true;
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#ifdef MIP_QPROFILE
qp_init();
#endif
}
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}
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void mip_free(struct mip_if *ifp) {
free((char *) ifp->rx.ptr);
free((char *) ifp->tx.ptr);
}
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int mg_mkpipe(struct mg_mgr *m, mg_event_handler_t fn, void *d, bool udp) {
(void) m, (void) fn, (void) d, (void) udp;
MG_ERROR(("Not implemented"));
return -1;
}
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#if 0
static uint16_t mkeport(void) {
uint16_t a = 0, b = mg_millis() & 0xffffU, c = MIP_ETHEMERAL_PORT;
mg_random(&a, sizeof(a));
c += (a ^ b) % (0xffffU - MIP_ETHEMERAL_PORT);
return c;
}
#endif
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void mg_connect_resolved(struct mg_connection *c) {
struct mip_if *ifp = (struct mip_if *) c->mgr->priv;
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c->is_resolving = 0;
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if (ifp->eport < MIP_ETHEMERAL_PORT) ifp->eport = MIP_ETHEMERAL_PORT;
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c->loc.ip = ifp->ip;
c->loc.port = mg_htons(ifp->eport++);
MG_DEBUG(("%lu %I:%hu->%I:%hu", c->id, 4, &c->loc.ip, mg_ntohs(c->loc.port),
4, &c->rem.ip, mg_ntohs(c->rem.port)));
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mg_call(c, MG_EV_RESOLVE, NULL);
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if (c->is_udp) {
mg_call(c, MG_EV_CONNECT, NULL);
} else {
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uint32_t isn = mg_htonl((uint32_t) mg_ntohs(c->loc.port));
tx_tcp(ifp, c->rem.ip, TH_SYN, c->loc.port, c->rem.port, isn, 0, NULL, 0);
c->is_connecting = 1;
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}
}
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bool mg_open_listener(struct mg_connection *c, const char *url) {
c->loc.port = mg_htons(mg_url_port(url));
return true;
}
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static void write_conn(struct mg_connection *c) {
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long len = c->is_tls ? mg_tls_send(c, c->send.buf, c->send.len)
: mg_io_send(c, c->send.buf, c->send.len);
if (len > 0) {
mg_iobuf_del(&c->send, 0, (size_t) len);
mg_call(c, MG_EV_WRITE, &len);
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}
}
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static void close_conn(struct mg_connection *c) {
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struct connstate *s = (struct connstate *) (c + 1);
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mg_iobuf_free(&s->raw); // For TLS connections, release raw data
if (c->is_udp == false && c->is_listening == false) { // For TCP conns,
struct mip_if *ifp = (struct mip_if *) c->mgr->priv; // send TCP FIN
tx_tcp(ifp, c->rem.ip, TH_FIN | TH_ACK, c->loc.port, c->rem.port,
mg_htonl(s->seq), mg_htonl(s->ack), NULL, 0);
}
mg_close_conn(c);
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}
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static bool can_write(struct mg_connection *c) {
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return c->is_connecting == 0 && c->is_resolving == 0 && c->send.len > 0 &&
c->is_tls_hs == 0;
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}
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void mg_mgr_poll(struct mg_mgr *mgr, int ms) {
struct mg_connection *c, *tmp;
uint64_t now = mg_millis();
mip_poll((struct mip_if *) mgr->priv, now);
mg_timer_poll(&mgr->timers, now);
for (c = mgr->conns; c != NULL; c = tmp) {
tmp = c->next;
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mg_call(c, MG_EV_POLL, &now);
MG_VERBOSE(("%lu .. %c%c%c%c%c", c->id, c->is_tls ? 'T' : 't',
c->is_connecting ? 'C' : 'c', c->is_tls_hs ? 'H' : 'h',
c->is_resolving ? 'R' : 'r', c->is_closing ? 'C' : 'c'));
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if (c->is_tls_hs) mg_tls_handshake(c);
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if (can_write(c)) write_conn(c);
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if (c->is_draining && c->send.len == 0) c->is_closing = 1;
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if (c->is_closing) close_conn(c);
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}
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(void) ms;
}
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bool mg_send(struct mg_connection *c, const void *buf, size_t len) {
struct mip_if *ifp = (struct mip_if *) c->mgr->priv;
bool res = false;
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if (ifp->ip == 0 || ifp->state != MIP_STATE_READY) {
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mg_error(c, "net down");
} else if (c->is_udp) {
tx_udp(ifp, ifp->ip, c->loc.port, c->rem.ip, c->rem.port, buf, len);
res = true;
} else {
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res = mg_iobuf_add(&c->send, c->send.len, buf, len);
}
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return res;
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}
#ifdef MIP_QPROFILE
#pragma pack(push, 1)
struct qpentry {
uint32_t timestamp;
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uint16_t type;
uint16_t len;
};
#pragma pack(pop)
static struct queue qp;
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// This is called from IRQ and main contexts; two producers, single consumer
// TODO(scaprile): avoid concurrency issues (2 queues ?)
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void qp_mark(unsigned int type, int len) {
static bool ovf = false;
static uint16_t irq_ctr = 0, drop_ctr = 0;
struct qpentry e = {.timestamp = (uint32_t) mg_millis(),
.type = (uint16_t) type,
.len = (uint16_t) len};
if (type == QP_IRQTRIGGERED) e.len = ++irq_ctr;
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if (ovf) {
e.type = (uint16_t) QP_QUEUEOVF;
e.len = drop_ctr;
}
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ovf = !q_write(&qp, &e, sizeof(e));
}
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void qp_log(void) {
struct qpentry e;
const char *titles[] = {"IRQ ", "PUSH", "POP ", "DONE", "DROP", "OVFL"};
for (int i = 0; i < 10 && q_read(&qp, &e); i++) {
MG_INFO(("%lx %s %u", e.timestamp, titles[e.type], e.len));
}
}
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void qp_init(void) {
qp.len = 500 * (sizeof(size_t) + sizeof(struct qpentry));
qp.buf = calloc(1, qp.len); // THERE IS NO FREE
}
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#endif // MIP_QPROFILE
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#endif // MG_ENABLE_MIP