Mercurial > urweb
view src/c/urweb.c @ 547:8e615bb605c9
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author | Adam Chlipala <adamc@hcoop.net> |
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date | Sun, 07 Dec 2008 10:59:14 -0500 |
parents | ae03d09043c1 |
children | 6daa59a55c43 |
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#define _XOPEN_SOURCE #include <stdlib.h> #include <stdio.h> #include <string.h> #include <strings.h> #include <ctype.h> #include <setjmp.h> #include <stdarg.h> #include "types.h" uw_unit uw_unit_v = {}; #define ERROR_BUF_LEN 1024 typedef struct regions { struct regions *next; } regions; typedef struct { void (*func)(void*); void *arg; } cleanup; struct uw_context { char *headers, *headers_end; char *outHeaders, *outHeaders_front, *outHeaders_back; char *page, *page_front, *page_back; char *heap, *heap_front, *heap_back; char **inputs; void *db; jmp_buf jmp_buf; regions *regions; cleanup *cleanup, *cleanup_front, *cleanup_back; char error_message[ERROR_BUF_LEN]; }; extern int uw_inputs_len; uw_context uw_init(size_t outHeaders_len, size_t page_len, size_t heap_len) { uw_context ctx = malloc(sizeof(struct uw_context)); ctx->headers = ctx->headers_end = NULL; ctx->outHeaders_front = ctx->outHeaders = malloc(outHeaders_len); ctx->outHeaders_back = ctx->outHeaders_front + outHeaders_len; ctx->heap_front = ctx->heap = malloc(heap_len); ctx->page_front = ctx->page = malloc(page_len); ctx->page_back = ctx->page_front + page_len; ctx->heap_front = ctx->heap = malloc(heap_len); ctx->heap_back = ctx->heap_front + heap_len; ctx->inputs = calloc(uw_inputs_len, sizeof(char *)); ctx->db = NULL; ctx->regions = NULL; ctx->cleanup_front = ctx->cleanup_back = ctx->cleanup = malloc(0); ctx->error_message[0] = 0; return ctx; } void uw_set_db(uw_context ctx, void *db) { ctx->db = db; } void *uw_get_db(uw_context ctx) { return ctx->db; } void uw_free(uw_context ctx) { free(ctx->outHeaders); free(ctx->page); free(ctx->heap); free(ctx->inputs); free(ctx->cleanup); free(ctx); } void uw_reset_keep_request(uw_context ctx) { ctx->outHeaders_front = ctx->outHeaders; ctx->page_front = ctx->page; ctx->heap_front = ctx->heap; ctx->regions = NULL; ctx->cleanup_front = ctx->cleanup; ctx->error_message[0] = 0; } void uw_reset_keep_error_message(uw_context ctx) { ctx->outHeaders_front = ctx->outHeaders; ctx->page_front = ctx->page; ctx->heap_front = ctx->heap; ctx->regions = NULL; ctx->cleanup_front = ctx->cleanup; } void uw_reset(uw_context ctx) { uw_reset_keep_request(ctx); memset(ctx->inputs, 0, uw_inputs_len * sizeof(char *)); } void uw_db_init(uw_context); void uw_handle(uw_context, char *); failure_kind uw_begin_init(uw_context ctx) { int r = setjmp(ctx->jmp_buf); if (r == 0) uw_db_init(ctx); return r; } void uw_set_headers(uw_context ctx, char *headers) { char *s = headers, *s2; ctx->headers = headers; while (s2 = strchr(s, '\r')) { s = s2; if (s[1] == 0) break; *s = 0; s += 2; } ctx->headers_end = s; } failure_kind uw_begin(uw_context ctx, char *path) { int r = setjmp(ctx->jmp_buf); if (r == 0) uw_handle(ctx, path); return r; } __attribute__((noreturn)) void uw_error(uw_context ctx, failure_kind fk, const char *fmt, ...) { cleanup *cl; va_list ap; va_start(ap, fmt); vsnprintf(ctx->error_message, ERROR_BUF_LEN, fmt, ap); for (cl = ctx->cleanup; cl < ctx->cleanup_front; ++cl) cl->func(cl->arg); ctx->cleanup_front = ctx->cleanup; longjmp(ctx->jmp_buf, fk); } void uw_push_cleanup(uw_context ctx, void (*func)(void *), void *arg) { if (ctx->cleanup_front >= ctx->cleanup_back) { int len = ctx->cleanup_back - ctx->cleanup, newLen; if (len == 0) newLen = 1; else newLen = len * 2; ctx->cleanup = realloc(ctx->cleanup, newLen * sizeof(cleanup)); ctx->cleanup_front = ctx->cleanup + len; ctx->cleanup_back = ctx->cleanup + newLen; } ctx->cleanup_front->func = func; ctx->cleanup_front->arg = arg; ++ctx->cleanup_front; } void uw_pop_cleanup(uw_context ctx) { if (ctx->cleanup_front == ctx->cleanup) uw_error(ctx, FATAL, "Attempt to pop from empty cleanup action stack"); --ctx->cleanup_front; ctx->cleanup_front->func(ctx->cleanup_front->arg); } char *uw_error_message(uw_context ctx) { return ctx->error_message; } int uw_input_num(char*); void uw_set_input(uw_context ctx, char *name, char *value) { int n = uw_input_num(name); if (n < 0) uw_error(ctx, FATAL, "Bad input name %s", name); if (n >= uw_inputs_len) uw_error(ctx, FATAL, "For input name %s, index %d is out of range", name, n); ctx->inputs[n] = value; //printf("[%d] %s = %s\n", n, name, value); } char *uw_get_input(uw_context ctx, int n) { if (n < 0) uw_error(ctx, FATAL, "Negative input index %d", n); if (n >= uw_inputs_len) uw_error(ctx, FATAL, "Out-of-bounds input index %d", n); //printf("[%d] = %s\n", n, ctx->inputs[n]); return ctx->inputs[n]; } char *uw_get_optional_input(uw_context ctx, int n) { if (n < 0) uw_error(ctx, FATAL, "Negative input index %d", n); if (n >= uw_inputs_len) uw_error(ctx, FATAL, "Out-of-bounds input index %d", n); //printf("[%d] = %s\n", n, ctx->inputs[n]); return (ctx->inputs[n] == NULL ? "" : ctx->inputs[n]); } static void uw_check_heap(uw_context ctx, size_t extra) { if (ctx->heap_back - ctx->heap_front < extra) { size_t desired = ctx->heap_front - ctx->heap + extra, next; char *new_heap; next = ctx->heap_back - ctx->heap; if (next == 0) next = 1; for (; next < desired; next *= 2); new_heap = realloc(ctx->heap, next); ctx->heap_front = new_heap + (ctx->heap_front - ctx->heap); ctx->heap_back = new_heap + next; if (new_heap != ctx->heap) { ctx->heap = new_heap; uw_error(ctx, UNLIMITED_RETRY, "Couldn't allocate new heap chunk contiguously"); } ctx->heap = new_heap; } } void *uw_malloc(uw_context ctx, size_t len) { void *result; uw_check_heap(ctx, len); result = ctx->heap_front; ctx->heap_front += len; return result; } void uw_begin_region(uw_context ctx) { regions *r = (regions *) ctx->heap_front; uw_check_heap(ctx, sizeof(regions)); ctx->heap_front += sizeof(regions); r->next = ctx->regions; ctx->regions = r; } void uw_end_region(uw_context ctx) { regions *r = ctx->regions; if (r == NULL) uw_error(ctx, FATAL, "Region stack underflow"); ctx->heap_front = (char *) r; ctx->regions = r->next; } void uw_memstats(uw_context ctx) { printf("Headers: %d/%d\n", ctx->outHeaders_front - ctx->outHeaders, ctx->outHeaders_back - ctx->outHeaders); printf("Page: %d/%d\n", ctx->page_front - ctx->page, ctx->page_back - ctx->page); printf("Heap: %d/%d\n", ctx->heap_front - ctx->heap, ctx->heap_back - ctx->heap); } int uw_really_send(int sock, const void *buf, size_t len) { while (len > 0) { size_t n = send(sock, buf, len, 0); if (n < 0) return n; buf += n; len -= n; } return 0; } int uw_send(uw_context ctx, int sock) { int n = uw_really_send(sock, ctx->outHeaders, ctx->outHeaders_front - ctx->outHeaders); if (n < 0) return n; n = uw_really_send(sock, "\r\n", 2); if (n < 0) return n; return uw_really_send(sock, ctx->page, ctx->page_front - ctx->page); } static void uw_check_headers(uw_context ctx, size_t extra) { size_t desired = ctx->outHeaders_front - ctx->outHeaders + extra, next; char *new_outHeaders; next = ctx->outHeaders_back - ctx->outHeaders; if (next < desired) { if (next == 0) next = 1; for (; next < desired; next *= 2); new_outHeaders = realloc(ctx->outHeaders, next); ctx->outHeaders_front = new_outHeaders + (ctx->outHeaders_front - ctx->outHeaders); ctx->outHeaders_back = new_outHeaders + next; ctx->outHeaders = new_outHeaders; } } void uw_write_header(uw_context ctx, uw_Basis_string s) { int len = strlen(s); uw_check_headers(ctx, len + 1); strcpy(ctx->outHeaders_front, s); ctx->outHeaders_front += len; *ctx->outHeaders_front = 0; } static void uw_check(uw_context ctx, size_t extra) { size_t desired = ctx->page_front - ctx->page + extra, next; char *new_page; next = ctx->page_back - ctx->page; if (next < desired) { if (next == 0) next = 1; for (; next < desired; next *= 2); new_page = realloc(ctx->page, next); ctx->page_front = new_page + (ctx->page_front - ctx->page); ctx->page_back = new_page + next; ctx->page = new_page; } } static void uw_writec_unsafe(uw_context ctx, char c) { *(ctx->page_front)++ = c; } void uw_writec(uw_context ctx, char c) { uw_check(ctx, 1); uw_writec_unsafe(ctx, c); } static void uw_write_unsafe(uw_context ctx, const char* s) { int len = strlen(s); memcpy(ctx->page_front, s, len); ctx->page_front += len; } void uw_write(uw_context ctx, const char* s) { uw_check(ctx, strlen(s) + 1); uw_write_unsafe(ctx, s); *ctx->page_front = 0; } char *uw_Basis_attrifyInt(uw_context ctx, uw_Basis_int n) { char *result; int len; uw_check_heap(ctx, INTS_MAX); result = ctx->heap_front; sprintf(result, "%lld%n", n, &len); ctx->heap_front += len+1; return result; } char *uw_Basis_attrifyFloat(uw_context ctx, uw_Basis_float n) { char *result; int len; uw_check_heap(ctx, FLOATS_MAX); result = ctx->heap_front; sprintf(result, "%g%n", n, &len); ctx->heap_front += len+1; return result; } char *uw_Basis_attrifyString(uw_context ctx, uw_Basis_string s) { int len = strlen(s); char *result, *p; uw_check_heap(ctx, len * 6 + 1); result = p = ctx->heap_front; for (; *s; s++) { char c = *s; if (c == '"') { strcpy(p, """); p += 6; } else if (c == '&') { strcpy(p, "&"); p += 5; } else if (isprint(c)) *p++ = c; else { int len2; sprintf(p, "&#%d;%n", c, &len2); p += len2; } } *p++ = 0; ctx->heap_front = p; return result; } static void uw_Basis_attrifyInt_w_unsafe(uw_context ctx, uw_Basis_int n) { int len; sprintf(ctx->page_front, "%lld%n", n, &len); ctx->page_front += len; } uw_unit uw_Basis_attrifyInt_w(uw_context ctx, uw_Basis_int n) { uw_check(ctx, INTS_MAX); uw_Basis_attrifyInt_w_unsafe(ctx, n); return uw_unit_v; } uw_unit uw_Basis_attrifyFloat_w(uw_context ctx, uw_Basis_float n) { int len; uw_check(ctx, FLOATS_MAX); sprintf(ctx->page_front, "%g%n", n, &len); ctx->page_front += len; return uw_unit_v; } uw_unit uw_Basis_attrifyString_w(uw_context ctx, uw_Basis_string s) { uw_check(ctx, strlen(s) * 6); for (; *s; s++) { char c = *s; if (c == '"') uw_write_unsafe(ctx, """); else if (c == '&') uw_write_unsafe(ctx, "&"); else if (isprint(c)) uw_writec_unsafe(ctx, c); else { uw_write_unsafe(ctx, "&#"); uw_Basis_attrifyInt_w_unsafe(ctx, c); uw_writec_unsafe(ctx, ';'); } } return uw_unit_v; } char *uw_Basis_urlifyInt(uw_context ctx, uw_Basis_int n) { int len; char *r; uw_check_heap(ctx, INTS_MAX); r = ctx->heap_front; sprintf(r, "%lld%n", n, &len); ctx->heap_front += len+1; return r; } char *uw_Basis_urlifyFloat(uw_context ctx, uw_Basis_float n) { int len; char *r; uw_check_heap(ctx, FLOATS_MAX); r = ctx->heap_front; sprintf(r, "%g%n", n, &len); ctx->heap_front += len+1; return r; } char *uw_Basis_urlifyString(uw_context ctx, uw_Basis_string s) { char *r, *p; uw_check_heap(ctx, strlen(s) * 3 + 1); for (r = p = ctx->heap_front; *s; s++) { char c = *s; if (c == ' ') *p++ = '+'; else if (isalnum(c)) *p++ = c; else { sprintf(p, "%%%02X", c); p += 3; } } *p++ = 0; ctx->heap_front = p; return r; } char *uw_Basis_urlifyBool(uw_context ctx, uw_Basis_bool b) { if (b == uw_Basis_False) return "0"; else return "1"; } static void uw_Basis_urlifyInt_w_unsafe(uw_context ctx, uw_Basis_int n) { int len; sprintf(ctx->page_front, "%lld%n", n, &len); ctx->page_front += len; } uw_unit uw_Basis_urlifyInt_w(uw_context ctx, uw_Basis_int n) { uw_check(ctx, INTS_MAX); uw_Basis_urlifyInt_w_unsafe(ctx, n); return uw_unit_v; } uw_unit uw_Basis_urlifyFloat_w(uw_context ctx, uw_Basis_float n) { int len; uw_check(ctx, FLOATS_MAX); sprintf(ctx->page_front, "%g%n", n, &len); ctx->page_front += len; return uw_unit_v; } uw_Basis_string uw_Basis_urlifyTime(uw_context ctx, uw_Basis_time t) { return uw_Basis_urlifyInt(ctx, t); } uw_unit uw_Basis_urlifyString_w(uw_context ctx, uw_Basis_string s) { uw_check(ctx, strlen(s) * 3); for (; *s; s++) { char c = *s; if (c == ' ') uw_writec_unsafe(ctx, '+'); else if (isalnum(c)) uw_writec_unsafe(ctx, c); else { sprintf(ctx->page_front, "%%%02X", c); ctx->page_front += 3; } } return uw_unit_v; } uw_unit uw_Basis_urlifyBool_w(uw_context ctx, uw_Basis_bool b) { if (b == uw_Basis_False) uw_writec(ctx, '0'); else uw_writec(ctx, '1'); return uw_unit_v; } static char *uw_unurlify_advance(char *s) { char *new_s = strchr(s, '/'); if (new_s) *new_s++ = 0; else new_s = strchr(s, 0); return new_s; } uw_Basis_int uw_Basis_unurlifyInt(uw_context ctx, char **s) { char *new_s = uw_unurlify_advance(*s); uw_Basis_int r; r = atoll(*s); *s = new_s; return r; } uw_Basis_float uw_Basis_unurlifyFloat(uw_context ctx, char **s) { char *new_s = uw_unurlify_advance(*s); uw_Basis_float r; r = atof(*s); *s = new_s; return r; } uw_Basis_time uw_Basis_unurlifyTime(uw_context ctx, char **s) { return uw_Basis_unurlifyInt(ctx, s); } static uw_Basis_string uw_unurlifyString_to(uw_context ctx, char *r, char *s) { char *s1, *s2; int n; for (s1 = r, s2 = s; *s2; ++s1, ++s2) { char c = *s2; switch (c) { case '+': *s1 = ' '; break; case '%': if (s2[1] == 0) uw_error(ctx, FATAL, "Missing first character of escaped URL byte"); if (s2[2] == 0) uw_error(ctx, FATAL, "Missing second character of escaped URL byte"); if (sscanf(s2+1, "%02X", &n) != 1) uw_error(ctx, FATAL, "Invalid escaped URL byte starting at: %s", s2); *s1 = n; s2 += 2; break; default: *s1 = c; } } *s1++ = 0; return s1; } uw_Basis_bool uw_Basis_unurlifyBool(uw_context ctx, char **s) { char *new_s = uw_unurlify_advance(*s); uw_Basis_bool r; if (*s[0] == 0 || !strcmp(*s, "0") || !strcmp(*s, "off")) r = uw_Basis_False; else r = uw_Basis_True; *s = new_s; return r; } uw_Basis_string uw_Basis_unurlifyString(uw_context ctx, char **s) { char *new_s = uw_unurlify_advance(*s); char *r, *s1, *s2; int len, n; len = strlen(*s); uw_check_heap(ctx, len + 1); r = ctx->heap_front; ctx->heap_front = uw_unurlifyString_to(ctx, ctx->heap_front, *s); *s = new_s; return r; } char *uw_Basis_htmlifyInt(uw_context ctx, uw_Basis_int n) { int len; char *r; uw_check_heap(ctx, INTS_MAX); r = ctx->heap_front; sprintf(r, "%lld%n", n, &len); ctx->heap_front += len+1; return r; } uw_unit uw_Basis_htmlifyInt_w(uw_context ctx, uw_Basis_int n) { int len; uw_check(ctx, INTS_MAX); sprintf(ctx->page_front, "%lld%n", n, &len); ctx->page_front += len; return uw_unit_v; } char *uw_Basis_htmlifyFloat(uw_context ctx, uw_Basis_float n) { int len; char *r; uw_check_heap(ctx, FLOATS_MAX); r = ctx->heap_front; sprintf(r, "%g%n", n, &len); ctx->heap_front += len+1; return r; } uw_unit uw_Basis_htmlifyFloat_w(uw_context ctx, uw_Basis_float n) { int len; uw_check(ctx, FLOATS_MAX); sprintf(ctx->page_front, "%g%n", n, &len); ctx->page_front += len; return uw_unit_v; } char *uw_Basis_htmlifyString(uw_context ctx, uw_Basis_string s) { char *r, *s2; uw_check_heap(ctx, strlen(s) * 5 + 1); for (r = s2 = ctx->heap_front; *s; s++) { char c = *s; switch (c) { case '<': strcpy(s2, "<"); s2 += 4; break; case '&': strcpy(s2, "&"); s2 += 5; break; default: if (isprint(c)) *s2++ = c; else { int len2; sprintf(s2, "&#%d;%n", c, &len2); s2 += len2; } } } *s2++ = 0; ctx->heap_front = s2; return r; } uw_unit uw_Basis_htmlifyString_w(uw_context ctx, uw_Basis_string s) { uw_check(ctx, strlen(s) * 6); for (; *s; s++) { char c = *s; switch (c) { case '<': uw_write_unsafe(ctx, "<"); break; case '&': uw_write_unsafe(ctx, "&"); break; default: if (isprint(c)) uw_writec_unsafe(ctx, c); else { uw_write_unsafe(ctx, "&#"); uw_Basis_attrifyInt_w_unsafe(ctx, c); uw_writec_unsafe(ctx, ';'); } } } return uw_unit_v; } uw_Basis_string uw_Basis_htmlifyBool(uw_context ctx, uw_Basis_bool b) { if (b == uw_Basis_False) return "False"; else return "True"; } uw_unit uw_Basis_htmlifyBool_w(uw_context ctx, uw_Basis_bool b) { if (b == uw_Basis_False) { uw_check(ctx, 6); strcpy(ctx->page_front, "False"); ctx->page_front += 5; } else { uw_check(ctx, 5); strcpy(ctx->page_front, "True"); ctx->page_front += 4; } return uw_unit_v; } #define TIME_FMT "%x %X" #define TIME_FMT_PG "%Y-%m-%d %T" uw_Basis_string uw_Basis_htmlifyTime(uw_context ctx, uw_Basis_time t) { size_t len; char *r; struct tm stm; if (localtime_r(&t, &stm)) { uw_check_heap(ctx, TIMES_MAX); r = ctx->heap_front; len = strftime(r, TIMES_MAX, TIME_FMT, &stm); ctx->heap_front += len+1; return r; } else return "<i>Invalid time</i>"; } uw_unit uw_Basis_htmlifyTime_w(uw_context ctx, uw_Basis_time t) { size_t len; char *r; struct tm stm; if (localtime_r(&t, &stm)) { uw_check(ctx, TIMES_MAX); r = ctx->page_front; len = strftime(r, TIMES_MAX, TIME_FMT, &stm); ctx->page_front += len; } else { uw_check(ctx, 20); strcpy(ctx->page_front, "<i>Invalid time</i>"); ctx->page_front += 19; } return uw_unit_v; } uw_Basis_string uw_Basis_strcat(uw_context ctx, uw_Basis_string s1, uw_Basis_string s2) { int len = strlen(s1) + strlen(s2) + 1; char *s; uw_check_heap(ctx, len); s = ctx->heap_front; strcpy(s, s1); strcat(s, s2); ctx->heap_front += len; return s; } uw_Basis_string uw_Basis_strdup(uw_context ctx, uw_Basis_string s1) { int len = strlen(s1) + 1; char *s; uw_check_heap(ctx, len); s = ctx->heap_front; strcpy(s, s1); ctx->heap_front += len; return s; } uw_Basis_string uw_Basis_maybe_strdup(uw_context ctx, uw_Basis_string s1) { if (s1) return uw_Basis_strdup(ctx, s1); else return NULL; } char *uw_Basis_sqlifyInt(uw_context ctx, uw_Basis_int n) { int len; char *r; uw_check_heap(ctx, INTS_MAX + 6); r = ctx->heap_front; sprintf(r, "%lld::int8%n", n, &len); ctx->heap_front += len+1; return r; } char *uw_Basis_sqlifyIntN(uw_context ctx, uw_Basis_int *n) { if (n == NULL) return "NULL"; else return uw_Basis_sqlifyInt(ctx, *n); } char *uw_Basis_sqlifyFloat(uw_context ctx, uw_Basis_float n) { int len; char *r; uw_check_heap(ctx, FLOATS_MAX + 8); r = ctx->heap_front; sprintf(r, "%g::float8%n", n, &len); ctx->heap_front += len+1; return r; } char *uw_Basis_sqlifyFloatN(uw_context ctx, uw_Basis_float *n) { if (n == NULL) return "NULL"; else return uw_Basis_sqlifyFloat(ctx, *n); } uw_Basis_string uw_Basis_sqlifyString(uw_context ctx, uw_Basis_string s) { char *r, *s2; uw_check_heap(ctx, strlen(s) * 2 + 10); r = s2 = ctx->heap_front; *s2++ = 'E'; *s2++ = '\''; for (; *s; s++) { char c = *s; switch (c) { case '\'': strcpy(s2, "\\'"); s2 += 2; break; case '\\': strcpy(s2, "\\\\"); s2 += 2; break; default: if (isprint(c)) *s2++ = c; else { sprintf(s2, "\\%3o", c); s2 += 4; } } } strcpy(s2, "'::text"); ctx->heap_front = s2 + 8; return r; } uw_Basis_string uw_Basis_sqlifyStringN(uw_context ctx, uw_Basis_string s) { if (s == NULL) return "NULL"; else return uw_Basis_sqlifyString(ctx, s); } char *uw_Basis_sqlifyBool(uw_context ctx, uw_Basis_bool b) { if (b == uw_Basis_False) return "FALSE"; else return "TRUE"; } char *uw_Basis_sqlifyBoolN(uw_context ctx, uw_Basis_bool *b) { if (b == NULL) return "NULL"; else return uw_Basis_sqlifyBool(ctx, *b); } char *uw_Basis_sqlifyTime(uw_context ctx, uw_Basis_time t) { size_t len; char *r; struct tm stm; if (localtime_r(&t, &stm)) { uw_check_heap(ctx, TIMES_MAX); r = ctx->heap_front; len = strftime(r, TIMES_MAX, TIME_FMT, &stm); ctx->heap_front += len+1; return r; } else return "<Invalid time>"; } char *uw_Basis_sqlifyTimeN(uw_context ctx, uw_Basis_time *t) { if (t == NULL) return "NULL"; else return uw_Basis_sqlifyTime(ctx, *t); } char *uw_Basis_ensqlBool(uw_Basis_bool b) { static uw_Basis_int true = 1; static uw_Basis_int false = 0; if (b == uw_Basis_False) return (char *)&false; else return (char *)&true; } uw_Basis_string uw_Basis_intToString(uw_context ctx, uw_Basis_int n) { int len; char *r; uw_check_heap(ctx, INTS_MAX); r = ctx->heap_front; sprintf(r, "%lld%n", n, &len); ctx->heap_front += len+1; return r; } uw_Basis_string uw_Basis_floatToString(uw_context ctx, uw_Basis_float n) { int len; char *r; uw_check_heap(ctx, FLOATS_MAX); r = ctx->heap_front; sprintf(r, "%g%n", n, &len); ctx->heap_front += len+1; return r; } uw_Basis_string uw_Basis_boolToString(uw_context ctx, uw_Basis_bool b) { if (b == uw_Basis_False) return "False"; else return "True"; } uw_Basis_string uw_Basis_timeToString(uw_context ctx, uw_Basis_time t) { size_t len; char *r; struct tm stm; if (localtime_r(&t, &stm)) { uw_check_heap(ctx, TIMES_MAX); r = ctx->heap_front; len = strftime(r, TIMES_MAX, TIME_FMT, &stm); ctx->heap_front += len+1; return r; } else return "<Invalid time>"; } uw_Basis_int *uw_Basis_stringToInt(uw_context ctx, uw_Basis_string s) { char *endptr; uw_Basis_int n = strtoll(s, &endptr, 10); if (*s != '\0' && *endptr == '\0') { uw_Basis_int *r = uw_malloc(ctx, sizeof(uw_Basis_int)); *r = n; return r; } else return NULL; } uw_Basis_float *uw_Basis_stringToFloat(uw_context ctx, uw_Basis_string s) { char *endptr; uw_Basis_float n = strtod(s, &endptr); if (*s != '\0' && *endptr == '\0') { uw_Basis_float *r = uw_malloc(ctx, sizeof(uw_Basis_float)); *r = n; return r; } else return NULL; } uw_Basis_bool *uw_Basis_stringToBool(uw_context ctx, uw_Basis_string s) { static uw_Basis_bool true = uw_Basis_True; static uw_Basis_bool false = uw_Basis_False; if (!strcasecmp (s, "True")) return &true; else if (!strcasecmp (s, "False")) return &false; else return NULL; } uw_Basis_time *uw_Basis_stringToTime(uw_context ctx, uw_Basis_string s) { char *dot = strchr(s, '.'), *end = strchr(s, 0); struct tm stm; if (dot) { *dot = 0; if (strptime(s, TIME_FMT_PG, &stm) == end) { *dot = '.'; uw_Basis_time *r = uw_malloc(ctx, sizeof(uw_Basis_time)); *r = mktime(&stm); return r; } else { *dot = '.'; return NULL; } } else { if (strptime(s, TIME_FMT_PG, &stm) == end) { uw_Basis_time *r = uw_malloc(ctx, sizeof(uw_Basis_time)); *r = mktime(&stm); return r; } else if (strptime(s, TIME_FMT, &stm) == end) { uw_Basis_time *r = uw_malloc(ctx, sizeof(uw_Basis_time)); *r = mktime(&stm); return r; } else return NULL; } } uw_Basis_int uw_Basis_stringToInt_error(uw_context ctx, uw_Basis_string s) { char *endptr; uw_Basis_int n = strtoll(s, &endptr, 10); if (*s != '\0' && *endptr == '\0') return n; else uw_error(ctx, FATAL, "Can't parse int: %s", s); } uw_Basis_float uw_Basis_stringToFloat_error(uw_context ctx, uw_Basis_string s) { char *endptr; uw_Basis_float n = strtod(s, &endptr); if (*s != '\0' && *endptr == '\0') return n; else uw_error(ctx, FATAL, "Can't parse float: %s", s); } uw_Basis_bool uw_Basis_stringToBool_error(uw_context ctx, uw_Basis_string s) { if (!strcasecmp(s, "T") || !strcasecmp (s, "True")) return uw_Basis_True; else if (!strcasecmp(s, "F") || !strcasecmp (s, "False")) return uw_Basis_False; else uw_error(ctx, FATAL, "Can't parse bool: %s", s); } uw_Basis_time uw_Basis_stringToTime_error(uw_context ctx, uw_Basis_string s) { char *dot = strchr(s, '.'), *end = strchr(s, 0); struct tm stm = {}; if (dot) { *dot = 0; if (strptime(s, TIME_FMT_PG, &stm)) { *dot = '.'; return mktime(&stm); } else { *dot = '.'; uw_error(ctx, FATAL, "Can't parse time: %s", s); } } else { if (strptime(s, TIME_FMT_PG, &stm) == end) return mktime(&stm); else if (strptime(s, TIME_FMT, &stm) == end) return mktime(&stm); else uw_error(ctx, FATAL, "Can't parse time: %s", s); } } uw_Basis_string uw_Basis_requestHeader(uw_context ctx, uw_Basis_string h) { int len = strlen(h); char *s = ctx->headers, *p; while (p = strchr(s, ':')) { if (p - s == len && !strncasecmp(s, h, len)) { return p + 2; } else { if ((s = strchr(p, 0)) && s < ctx->headers_end) s += 2; else return NULL; } } } uw_Basis_string uw_Basis_get_cookie(uw_context ctx, uw_Basis_string c) { int len = strlen(c); char *s = ctx->headers, *p = ctx->outHeaders; while (p = strstr(p, "\nSet-Cookie: ")) { char *p2; p += 13; p2 = strchr(p, '='); if (p2) { size_t sz = strcspn(p2+1, ";\r\n"); if (!strncasecmp(p, c, p2 - p)) { char *ret = uw_malloc(ctx, sz + 1); memcpy(ret, p2+1, sz); ret[sz] = 0; return ret; } } } while (p = strchr(s, ':')) { if (!strncasecmp(s, "Cookie: ", 8)) { p += 2; while (1) { if (!strncmp(p, c, len) && p + len < ctx->headers_end && p[len] == '=') return p + 1 + len; else if (p = strchr(p, ';')) p += 2; else if ((s = strchr(s, 0)) && s < ctx->headers_end) { s += 2; break; } else return NULL; } } else { if ((s = strchr(p, 0)) && s < ctx->headers_end) s += 2; else return NULL; } } } uw_unit uw_Basis_set_cookie(uw_context ctx, uw_Basis_string prefix, uw_Basis_string c, uw_Basis_string v) { uw_write_header(ctx, "Set-Cookie: "); uw_write_header(ctx, c); uw_write_header(ctx, "="); uw_write_header(ctx, v); uw_write_header(ctx, "; path="); uw_write_header(ctx, prefix); uw_write_header(ctx, "\r\n"); return uw_unit_v; }