Mercurial > urweb
view src/c/fastcgi.c @ 1916:e2345c438f08
Postgres: print SQLSTATE on DML failure, to help figure out when new special cases should be added
author | Adam Chlipala <adam@chlipala.net> |
---|---|
date | Wed, 27 Nov 2013 15:42:24 -0500 |
parents | 3d922a28370b |
children | 6745eafff617 |
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#include "config.h" #include <stdio.h> #include <string.h> #include <stdlib.h> #include <sys/types.h> #include <sys/socket.h> #include <netdb.h> #include <netinet/in.h> #include <unistd.h> #include <signal.h> #include <stdarg.h> #include <ctype.h> #include <pthread.h> #include "urweb.h" #include "request.h" #include "queue.h" #include "fastcgi.h" extern uw_app uw_application; typedef struct { unsigned char version; unsigned char type; unsigned char requestIdB1; unsigned char requestIdB0; unsigned char contentLengthB1; unsigned char contentLengthB0; unsigned char paddingLength; unsigned char reserved; unsigned char contentData[65535]; } FCGI_Record; typedef struct { FCGI_Record r; int sock; } FCGI_Output; typedef struct { FCGI_Record r; int available, used, sock; } FCGI_Input; static FCGI_Output *fastcgi_output() { FCGI_Output *o = malloc(sizeof(FCGI_Output)); o->r.version = FCGI_VERSION_1; o->r.paddingLength = 0; o->r.reserved = 0; return o; } static FCGI_Input *fastcgi_input() { FCGI_Input *i = malloc(sizeof(FCGI_Input)); i->available = i->used = 0; return i; } static void fastcgi_input_reset(FCGI_Input *i) { i->available = i->used = 0; } static int fastcgi_send(FCGI_Output *o, unsigned char type, unsigned short contentLength) { o->r.type = type; o->r.requestIdB1 = o->r.requestIdB0 = 0; o->r.contentLengthB1 = contentLength >> 8; o->r.contentLengthB0 = contentLength & 255; return uw_really_send(o->sock, &o->r, sizeof(o->r) - 65535 + contentLength); } static FCGI_Record *fastcgi_recv(FCGI_Input *i) { if (i->used > 0) { memmove((void*)&i->r, (void*)&i->r + i->used, i->available - i->used); i->available -= i->used; i->used = 0; } while (1) { ssize_t n; if (i->available >= sizeof(FCGI_Record) - 65535 && i->available >= sizeof(FCGI_Record) - 65535 + ((i->r.contentLengthB1 << 8) | i->r.contentLengthB0) + i->r.paddingLength) { i->used = sizeof(FCGI_Record) - 65535 + ((i->r.contentLengthB1 << 8) | i->r.contentLengthB0) + i->r.paddingLength; return &i->r; } n = recv(i->sock, (void*)&i->r + i->available, sizeof(i->r) - i->available, 0); if (n <= 0) return NULL; i->available += n; } } static void on_success(uw_context ctx) { } static void on_failure(uw_context ctx) { uw_write_header(ctx, "Status: 500 Internal Server Error\r\n"); } static int write_stdout(void *data, const char *buf, size_t len) { FCGI_Output *o = (FCGI_Output *)data; while (len > 0) { size_t len2 = len; if (len2 > 65535) len2 = 65535; memcpy(o->r.contentData, buf, len2); if (fastcgi_send(o, FCGI_STDOUT, len2)) { fprintf(stderr, "fastcgi_send() failed in write_stdout().\n"); return -1; } buf += len2; len -= len2; } return 0; } #include <errno.h> static void write_stderr(FCGI_Output *o, const char *fmt, ...) { int len; va_list ap; va_start(ap, fmt); len = vsnprintf((char *)o->r.contentData, 65535, fmt, ap); if (len < 0) fprintf(stderr, "vsnprintf() failed in write_stderr().\n"); else if (fastcgi_send(o, FCGI_STDERR, len)) fprintf(stderr, "fastcgi_send() failed in write_stderr().\n"); } static void close_stream(FCGI_Output *o, unsigned char type) { if (fastcgi_send(o, type, 0)) fprintf(stderr, "fastcgi_send() failed in close_stream().\n"); } static void log_error(void *data, const char *fmt, ...) { FCGI_Output *o = (FCGI_Output *)data; va_list ap; va_start(ap, fmt); if (o) { int len = vsnprintf((char *)o->r.contentData, 65535, fmt, ap); if (len < 0) fprintf(stderr, "vsnprintf() failed in log_error().\n"); else if (fastcgi_send(o, FCGI_STDERR, len)) fprintf(stderr, "fastcgi_send() failed in log_error().\n"); } else vfprintf(stderr, fmt, ap); } static void log_debug(void *data, const char *fmt, ...) { FCGI_Output *o = (FCGI_Output *)data; va_list ap; va_start(ap, fmt); if (o) { strcpy((char *)o->r.contentData, "DEBUG: "); int len = vsnprintf((char *)o->r.contentData + 7, 65535 - 7, fmt, ap); if (len < 0) fprintf(stderr, "vsnprintf() failed in log_debug().\n"); else if (fastcgi_send(o, FCGI_STDERR, len + 7)) { len += 7; if (len >= 65535) len = 65534; o->r.contentData[len] = 0; fputs((char *)o->r.contentData, stderr); fflush(stderr); } } else vfprintf(stderr, fmt, ap); } typedef struct { char *name, *value; unsigned name_len, value_len; } nvp; static char *search_nvps(nvp *nvps, const char *h) { for (; nvps->name[0]; ++nvps) if (!strcmp(h, nvps->name)) return nvps->value; return NULL; } typedef struct { nvp *nvps; char *uppercased; int n_nvps, uppercased_len; } headers; static char *get_header(void *data, const char *h) { headers *hs = (headers *)data; size_t len = strlen(h); char *s; const char *saved_h = h; if (len > hs->uppercased_len) { hs->uppercased_len = len; hs->uppercased = realloc(hs->uppercased, len + 6); } strcpy(hs->uppercased, "HTTP_"); for (s = hs->uppercased+5; *h; ++h) *s++ = *h == '-' ? '_' : toupper((int)*h); *s = 0; if (!strcasecmp(saved_h, "Content-length") || !strcasecmp(saved_h, "Content-type")) { if ((s = search_nvps(hs->nvps, hs->uppercased + 5))) return s; } return search_nvps(hs->nvps, hs->uppercased); } static char *get_env(void *data, const char *h) { headers *hs = (headers *)data; return search_nvps(hs->nvps, h); } static int read_funny_len(unsigned char **buf, int *len) { if (*len <= 0) return -1; if ((*buf)[0] >> 7 == 0) { int r = (*buf)[0]; ++*buf; --*len; return r; } else if (*len < 4) return -1; else { int r = (((*buf)[0] & 0x7f) << 24) + ((*buf)[1] << 16) + ((*buf)[2] << 8) + (*buf)[3]; *buf += 4; *len -= 4; return r; } } static int read_nvp(unsigned char **buf, int len, nvp *nv) { int nameLength, valueLength; if ((nameLength = read_funny_len(buf, &len)) < 0) return -1; if ((valueLength = read_funny_len(buf, &len)) < 0) return -2; if (len < nameLength + valueLength) return -3; if (nameLength+1 > nv->name_len) { nv->name_len = nameLength+1; nv->name = realloc(nv->name, nv->name_len); } if (valueLength+1 > nv->value_len) { nv->value_len = valueLength+1; nv->value = realloc(nv->value, nv->value_len); } memcpy(nv->name, *buf, nameLength); nv->name[nameLength] = 0; memcpy(nv->value, *buf + nameLength, valueLength); nv->value[valueLength] = 0; *buf += nameLength + valueLength; return 0; } static int fastcgi_close_with(FCGI_Output *out, request_result rr) { FCGI_EndRequestBody *erb = (FCGI_EndRequestBody *)out->r.contentData; close_stream(out, FCGI_STDOUT); close_stream(out, FCGI_STDERR); if (rr == SERVED) erb->appStatusB3 = erb->appStatusB2 = erb->appStatusB1 = erb->appStatusB0 = 0; else erb->appStatusB3 = erb->appStatusB2 = erb->appStatusB1 = erb->appStatusB0 = 0xFF; erb->protocolStatus = FCGI_REQUEST_COMPLETE; fastcgi_send(out, FCGI_END_REQUEST, sizeof(FCGI_EndRequestBody)); return close(out->sock); } static int fastcgi_close(int sock) { FCGI_Output out; out.sock = sock; out.r.version = FCGI_VERSION_1; out.r.paddingLength = 0; out.r.reserved = 0; return fastcgi_close_with(&out, SERVED); } int fastcgi_send_normal(int sock, const void *buf, ssize_t len) { FCGI_Output out; out.sock = sock; out.r.version = FCGI_VERSION_1; out.r.paddingLength = 0; out.r.reserved = 0; return write_stdout(&out, buf, len); } static void *worker(void *data) { FCGI_Input *in = fastcgi_input(); FCGI_Output *out = fastcgi_output(); uw_context ctx = uw_request_new_context(*(int *)data, &uw_application, out, log_error, log_debug); uw_request_context rc = uw_new_request_context(); headers hs; size_t body_size = 0; char *body = malloc(0); size_t path_size = 0; char *path_buf = malloc(0); hs.uppercased = malloc(0); hs.uppercased_len = 0; hs.nvps = malloc(sizeof(nvp)); hs.n_nvps = 1; hs.nvps[0].name = malloc(1); hs.nvps[0].name_len = 1; hs.nvps[0].value = malloc(0); hs.nvps[0].value_len = 0; while (1) { FCGI_Record *r; size_t used_nvps = 0; int body_len, body_read; char *s; char *method, *path, *path_info, *query_string; in->sock = out->sock = uw_dequeue(); if (!(r = fastcgi_recv(in))) { fprintf(stderr, "Error receiving initial message\n"); goto done; } if (r->type != FCGI_BEGIN_REQUEST) { write_stderr(out, "First message is not BEGIN_REQUEST\n"); goto done; } else if (r->contentData[1] != FCGI_RESPONDER) { write_stderr(out, "Request is for a role besides RESPONDER\n"); goto done; } while (1) { unsigned char *buf; int len; if (!(r = fastcgi_recv(in))) { write_stderr(out, "Error receiving environment variables\n"); goto done; } if (r->type != FCGI_PARAMS) { write_stderr(out, "Expected FCGI_PARAMS but got %d\n", r->type); goto done; } if (r->contentLengthB1 == 0 && r->contentLengthB0 == 0) break; len = (r->contentLengthB1 << 8) | r->contentLengthB0; for (buf = r->contentData; buf < r->contentData + len; ) { if (used_nvps == hs.n_nvps-1) { ++hs.n_nvps; hs.nvps = realloc(hs.nvps, hs.n_nvps * sizeof(nvp)); hs.nvps[hs.n_nvps-1].name = malloc(1); hs.nvps[hs.n_nvps-1].value = malloc(0); hs.nvps[hs.n_nvps-1].name_len = 1; hs.nvps[hs.n_nvps-1].value_len = 0; } if (read_nvp(&buf, len - (buf - r->contentData), &hs.nvps[used_nvps]) < 0) { write_stderr(out, "Error reading FCGI_PARAMS name-value pair\n"); goto done; } //write_stderr(out, "PARAM: %s -> %s\n", hs.nvps[used_nvps].name, hs.nvps[used_nvps].value); ++used_nvps; } } hs.nvps[used_nvps].name[0] = 0; if ((s = get_header(&hs, "Content-Length"))) { body_len = atoi(s); if (body_len < 0) { write_stderr(out, "Invalid Content-Length\n"); goto done; } } else body_len = 0; if (body_len+1 > body_size) { body_size = body_len+1; body = realloc(body, body_size); } for (body_read = 0; body_read < body_len; ) { int this_len; if (!(r = fastcgi_recv(in))) { write_stderr(out, "Error receiving STDIN\n"); goto done; } if (r->type != FCGI_STDIN) { write_stderr(out, "Expected FCGI_STDIN but got %d\n", r->type); goto done; } if (r->contentLengthB1 == 0 && r->contentLengthB0 == 0) { write_stderr(out, "End of STDIN\n"); break; } this_len = (r->contentLengthB1 << 8) | r->contentLengthB0; if (body_read + this_len > body_len) { write_stderr(out, "Too much STDIN\n"); goto done; } memcpy(&body[body_read], r->contentData, this_len); body_read += this_len; } body[body_read] = 0; if (!(method = search_nvps(hs.nvps, "REQUEST_METHOD"))) { write_stderr(out, "REQUEST_METHOD not set\n"); goto done; } if (!(path = search_nvps(hs.nvps, "SCRIPT_NAME"))) { write_stderr(out, "SCRIPT_NAME not set\n"); goto done; } if ((path_info = search_nvps(hs.nvps, "PATH_INFO"))) { int len1 = strlen(path), len2 = strlen(path_info); int len = len1 + len2 + 1; if (len > path_size) { path_size = len; path_buf = realloc(path_buf, path_size); } sprintf(path_buf, "%s%s", path, path_info); path = path_buf; } if (!(query_string = search_nvps(hs.nvps, "QUERY_STRING"))) query_string = ""; uw_set_headers(ctx, get_header, &hs); uw_set_env(ctx, get_env, &hs); { request_result rr; rr = uw_request(rc, ctx, method, path, query_string, body, body_read, on_success, on_failure, out, log_error, log_debug, in->sock, fastcgi_send_normal, fastcgi_close); if (rr == KEEP_OPEN) goto done2; uw_output(ctx, write_stdout, out); fastcgi_close_with(out, rr); goto done2; } done: close(in->sock); done2: fastcgi_input_reset(in); uw_reset(ctx); } return NULL; } static void help(char *cmd) { printf("Usage: %s [-t <thread-count>]\n", cmd); } static void sigint(int signum) { printf("Exiting....\n"); exit(0); } static loggers ls = {&uw_application, NULL, log_error, log_debug}; int main(int argc, char *argv[]) { // The skeleton for this function comes from Beej's sockets tutorial. struct sockaddr_in their_addr; // connector's address information socklen_t sin_size; int nthreads = 1, i, *names, opt; char *fwsa = getenv("FCGI_WEB_SERVER_ADDRS"), *nthreads_s = getenv("URWEB_NUM_THREADS"); if (nthreads_s) { nthreads = atoi(nthreads_s); if (nthreads <= 0) { fprintf(stderr, "Bad URWEB_NUM_THREADS value\n"); return 1; } } signal(SIGINT, sigint); signal(SIGPIPE, SIG_IGN); signal(SIGUSR1, sigint); signal(SIGTERM, sigint); while ((opt = getopt(argc, argv, "ht:")) != -1) { switch (opt) { case '?': fprintf(stderr, "Unknown command-line option"); help(argv[0]); return 1; case 'h': help(argv[0]); return 0; case 't': nthreads = atoi(optarg); if (nthreads <= 0) { fprintf(stderr, "Invalid thread count\n"); help(argv[0]); return 1; } break; default: fprintf(stderr, "Unexpected getopt() behavior\n"); return 1; } } uw_set_on_success(""); uw_request_init(&uw_application, NULL, log_error, log_debug); names = calloc(nthreads, sizeof(int)); sin_size = sizeof their_addr; { pthread_t thread; if (pthread_create_big(&thread, NULL, client_pruner, &ls)) { fprintf(stderr, "Error creating pruner thread\n"); return 1; } } for (i = 0; i < nthreads; ++i) { pthread_t thread; names[i] = i; if (pthread_create_big(&thread, NULL, worker, &names[i])) { fprintf(stderr, "Error creating worker thread #%d\n", i); return 1; } } while (1) { int new_fd = accept(FCGI_LISTENSOCK_FILENO, (struct sockaddr *)&their_addr, &sin_size); if (new_fd < 0) { fprintf(stderr, "Socket accept failed\n"); return 1; } if (fwsa) { char host[100], matched = 0; char *ips, *sep; if (getnameinfo((struct sockaddr *)&their_addr, sin_size, host, sizeof host, NULL, 0, NI_NUMERICHOST)) { fprintf(stderr, "Remote IP determination failed\n"); return 1; } for (ips = fwsa; (sep = strchr(ips, ',')); ips = sep+1) { if (!strncmp(ips, host, sep - ips)) { matched = 1; break; } } if (!matched && strcmp(ips, host)) { fprintf(stderr, "Remote address is not in FCGI_WEB_SERVER_ADDRS"); return 1; } } uw_enqueue(new_fd); } } void *uw_init_client_data() { return NULL; } void uw_free_client_data(void *data) { } void uw_copy_client_data(void *dst, void *src) { } void uw_do_expunge(uw_context ctx, uw_Basis_client cli, void *data) { if (uw_get_app(ctx)->db_begin(ctx)) uw_error(ctx, FATAL, "Error running SQL BEGIN"); uw_get_app(ctx)->expunger(ctx, cli); uw_commit(ctx); } void uw_post_expunge(uw_context ctx, void *data) { } int uw_supports_direct_status = 0;