/*-

 * Copyright (c) 2006 Verdens Gang AS

 * Copyright (c) 2006-2015 Varnish Software AS

 * All rights reserved.

 *

 * Author: Poul-Henning Kamp <phk@phk.freebsd.dk>

 *

 * SPDX-License-Identifier: BSD-2-Clause

 *

 * Redistribution and use in source and binary forms, with or without

 * modification, are permitted provided that the following conditions

 * are met:

 * 1. Redistributions of source code must retain the above copyright

 *    notice, this list of conditions and the following disclaimer.

 * 2. Redistributions in binary form must reproduce the above copyright

 *    notice, this list of conditions and the following disclaimer in the

 *    documentation and/or other materials provided with the distribution.

 *

 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND

 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE

 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE

 * ARE DISCLAIMED.  IN NO EVENT SHALL AUTHOR OR CONTRIBUTORS BE LIABLE

 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL

 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS

 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)

 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT

 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY

 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF

 * SUCH DAMAGE.

 *

 */

#ifdef VRT_H_INCLUDED

#  error "vrt.h included before cache.h - they are exclusive"

#endif

#ifdef CACHE_H_INCLUDED

#  error "cache.h included multiple times"

#endif

#include <math.h>

#include <pthread.h>

#include <stdarg.h>

#include <sys/types.h>

#include <sys/uio.h>

#include "vdef.h"

#include "vrt.h"

#define CACHE_H_INCLUDED  // After vrt.h include.

#include "miniobj.h"

#include "vas.h"

#include "vqueue.h"

#include "vtree.h"

#include "vapi/vsl_int.h"

/*--------------------------------------------------------------------*/

struct vxids {

  uint64_t  vxid;

};

typedef struct vxids vxid_t;

#define NO_VXID ((struct vxids){0})

#define IS_NO_VXID(x) ((x).vxid == 0)

#define VXID_TAG(x) ((uintmax_t)((x).vxid & (VSL_CLIENTMARKER|VSL_BACKENDMARKER)))

#define VXID(u) ((uintmax_t)((u.vxid) & VSL_IDENTMASK))

#define IS_SAME_VXID(x, y) ((x).vxid == (y).vxid)

/*--------------------------------------------------------------------*/

struct body_status {

  const char    *name;

  int     nbr;

  int     avail;

  int     length_known;

};

#define BODYSTATUS(U, l, n, a, k) extern const struct body_status BS_##U[1];

#include "tbl/body_status.h"

typedef const struct body_status *body_status_t;

/*--------------------------------------------------------------------*/

struct stream_close {

  unsigned    magic;

#define STREAM_CLOSE_MAGIC  0xc879c93d

  int     idx;

  unsigned    is_err;

  const char    *name;

  const char    *desc;

};

    extern const struct stream_close SC_NULL[1];

#define SESS_CLOSE(nm, stat, err, desc) \

    extern const struct stream_close SC_##nm[1];

#include "tbl/sess_close.h"

/*--------------------------------------------------------------------

 * Indices into http->hd[]

 */

enum {

#define SLTH(tag, ind, req, resp, sdesc, ldesc) ind,

#include "tbl/vsl_tags_http.h"

};

/*--------------------------------------------------------------------*/

struct ban;

struct ban_proto;

struct cli;

struct http_conn;

struct listen_sock;

struct mempool;

struct objcore;

struct objhead;

struct pool;

struct req_step;

struct sess;

struct transport;

struct vcf;

struct VSC_lck;

struct VSC_main;

struct VSC_main_wrk;

struct worker;

struct worker_priv;

#define DIGEST_LEN    32

/*--------------------------------------------------------------------*/

struct lock { void *priv; };  // Opaque

/*--------------------------------------------------------------------

 * Workspace structure for quick memory allocation.

 */

#define WS_ID_SIZE 4

struct ws {

  unsigned    magic;

#define WS_MAGIC    0x35fac554

  char      id[WS_ID_SIZE]; /* identity */

  char      *s;   /* (S)tart of buffer */

  char      *f;   /* (F)ree/front pointer */

  char      *r;   /* (R)eserved length */

  char      *e;   /* (E)nd of buffer */

};

/*--------------------------------------------------------------------

 *

 */

enum well_known_method {

#define WKM(wk, bit) WKM_##wk = 1U << bit,

#include "tbl/well_known_methods.h"

#undef WKM

};

struct http {

  unsigned    magic;

#define HTTP_MAGIC    0x6428b5c9

  uint16_t    shd;    /* Size of hd space */

  txt     *hd;

  unsigned char   *hdf;

#define HDF_FILTER    (1 << 0)  /* Filtered by Connection */

  /* NB: ->nhd and below zeroed/initialized by http_Teardown */

  uint16_t    nhd;    /* Next free hd */

  enum VSL_tag_e    logtag;   /* Must be SLT_*Method */

  struct vsl_log    *vsl;

  struct ws   *ws;

  uint16_t    status;

  uint8_t     protover;

  enum well_known_method  wkm;

};

/*--------------------------------------------------------------------*/

struct acct_req {

#define ACCT(foo) uint64_t  foo;

#include "tbl/acct_fields_req.h"

};

/*--------------------------------------------------------------------*/

struct acct_bereq {

#define ACCT(foo) uint64_t  foo;

#include "tbl/acct_fields_bereq.h"

};

/*--------------------------------------------------------------------*/

struct vsl_log {

  uint16_t    magic;

#define VSL_LOG_MAGIC   0x9f34

  uint16_t    flags;

#define VSL_LOG_F_MALLOCED  1

  unsigned    wlr;

  uint32_t    *wlb, *wlp, *wle;

  vxid_t      wid;

};

/*--------------------------------------------------------------------*/

VRBT_HEAD(vrt_privs, vrt_priv);

/* Worker pool stuff -------------------------------------------------*/

typedef void task_func_t(struct worker *wrk, void *priv);

struct pool_task {

  VTAILQ_ENTRY(pool_task)   list;

  task_func_t     *func;

  void        *priv;

};

/*

 * tasks are taken off the queues in this order

 *

 * TASK_QUEUE_{REQ|STR} are new req's (H1/H2), and subject to queue limit.

 *

 * TASK_QUEUE_RUSH is req's returning from waiting list

 *

 * NOTE: When changing the number of classes, update places marked with

 * TASK_QUEUE_RESERVE in params.h

 */

enum task_prio {

  TASK_QUEUE_BO,

  TASK_QUEUE_RUSH,

  TASK_QUEUE_REQ,

  TASK_QUEUE_STR,

  TASK_QUEUE_VCA,

  TASK_QUEUE_BG,

  TASK_QUEUE__END

};

#define TASK_QUEUE_HIGHEST_PRIORITY TASK_QUEUE_BO

#define TASK_QUEUE_RESERVE TASK_QUEUE_BG

#define TASK_QUEUE_LIMITED(prio) \

  (prio == TASK_QUEUE_REQ || prio == TASK_QUEUE_STR)

/*--------------------------------------------------------------------*/

struct worker {

  unsigned    magic;

#define WORKER_MAGIC    0x6391adcf

  int     strangelove;

  struct worker_priv  *wpriv;

  struct pool   *pool;

  struct VSC_main_wrk *stats;

  struct vsl_log    *vsl;   // borrowed from req/bo

  struct pool_task  task[1];

  vtim_real   lastused;

  pthread_cond_t    cond;

  struct ws   aws[1];

  unsigned    cur_method;

  unsigned    seen_methods;

  struct wrk_vpi    *vpi;

};

/* Stored object -----------------------------------------------------

 * This is just to encapsulate the fields owned by the stevedore

 */

struct storeobj {

  const struct stevedore  *stevedore;

  void      *priv;

  uint64_t    priv2;

};

/* Busy Objcore structure --------------------------------------------

 *

 */

/*

 * The macro-states we expose outside the fetch code

 */

enum boc_state_e {

#define BOC_STATE(U, l)       BOS_##U,

#include "tbl/boc_state.h"

};

// cache_obj.h vai notify

struct vai_qe;

VSLIST_HEAD(vai_q_head, vai_qe);

struct boc {

  unsigned    magic;

#define BOC_MAGIC   0x70c98476

  unsigned    refcount;

  struct lock   mtx;

  pthread_cond_t    cond;

  void      *stevedore_priv;

  enum boc_state_e  state;

  uint8_t     *vary;

  uint64_t    fetched_so_far;

  uint64_t    delivered_so_far;

  uint64_t    transit_buffer;

  struct vai_q_head vai_q_head;

};

/* Object core structure ---------------------------------------------

 * Objects have sideways references in the binary heap and the LRU list

 * and we want to avoid paging in a lot of objects just to move them up

 * or down the binheap or to move a unrelated object on the LRU list.

 * To avoid this we use a proxy object, objcore, to hold the relevant

 * housekeeping fields parts of an object.

 */

enum obj_attr {

#define OBJ_FIXATTR(U, l, s)  OA_##U,

#define OBJ_VARATTR(U, l) OA_##U,

#define OBJ_AUXATTR(U, l) OA_##U,

#include "tbl/obj_attr.h"

        OA__MAX,

};

enum obj_flags {

#define OBJ_FLAG(U, l, v)       OF_##U = v,

#include "tbl/obj_attr.h"

};

enum oc_flags {

#define OC_FLAG(U, l, v)  OC_F_##U = v,

#include "tbl/oc_flags.h"

};

#define OC_F_TRANSIENT (OC_F_PRIVATE | OC_F_HFM | OC_F_HFP)

enum oc_exp_flags {

#define OC_EXP_FLAG(U, l, v)  OC_EF_##U = v,

#include "tbl/oc_exp_flags.h"

};

struct objcore {

  unsigned    magic;

#define OBJCORE_MAGIC   0x4d301302

  int     refcnt;

  struct storeobj   stobj[1];

  struct objhead    *objhead;

  struct boc    *boc;

  vtim_real   timer_when;

  VCL_INT     hits;

  vtim_real   t_origin;

  float     ttl;

  float     grace;

  float     keep;

  uint8_t     flags;

  uint8_t     exp_flags;

  uint16_t    oa_present;

  unsigned    timer_idx;  // XXX 4Gobj limit

  unsigned    waitinglist_gen;

  vtim_real   last_lru;

  VTAILQ_ENTRY(objcore) hsh_list;

  VTAILQ_ENTRY(objcore) lru_list;

  VTAILQ_ENTRY(objcore) ban_list;

  VSTAILQ_ENTRY(objcore)  exp_list;

  struct ban    *ban;

};

/* Busy Object structure ---------------------------------------------

 *

 * The busyobj structure captures the aspects of an object related to,

 * and while it is being fetched from the backend.

 *

 * One of these aspects will be how much has been fetched, which

 * streaming delivery will make use of.

 */

enum director_state_e {

  DIR_S_NULL = 0,

  DIR_S_HDRS = 1,

  DIR_S_BODY = 2,

};

struct busyobj {

  unsigned    magic;

#define BUSYOBJ_MAGIC   0x23b95567

  char      *end;

  unsigned    max_retries;

  unsigned    retries;

  struct req    *req;

  struct sess   *sp;

  struct worker   *wrk;

  /* beresp.body */

  struct vfp_ctx    *vfc;

  const char    *vfp_filter_list;

  /* bereq.body */

  const char    *vdp_filter_list;

  struct ws   ws[1];

  uintptr_t   ws_bo;

  struct http   *bereq0;

  struct http   *bereq;

  struct http   *beresp;

  struct objcore    *bereq_body;

  struct objcore    *stale_oc;

  struct objcore    *fetch_objcore;

  const char    *no_retry;

  struct http_conn  *htc;

  struct pool_task  fetch_task[1];

  const char    *err_reason;

  enum director_state_e director_state;

  uint16_t    err_code;

#define BERESP_FLAG(l, r, w, f, d) unsigned l:1;

#define BEREQ_FLAG(l, r, w, d) BERESP_FLAG(l, r, w, 0, d)

#include "tbl/bereq_flags.h"

#include "tbl/beresp_flags.h"

  /* Timeouts */

  vtim_dur    connect_timeout;

  vtim_dur    first_byte_timeout;

  vtim_dur    between_bytes_timeout;

  vtim_dur    task_deadline;

  /* Timers */

  vtim_real   t_first;  /* First timestamp logged */

  vtim_real   t_resp;   /* response received */

  vtim_real   t_prev;   /* Previous timestamp logged */

  /* Acct */

  struct acct_bereq acct;

  const struct stevedore  *storage;

  const struct director *director_req;

  const struct director *director_resp;

  struct vcl    *vcl;

  struct vsl_log    vsl[1];

  uint8_t     digest[DIGEST_LEN];

  struct vrt_privs  privs[1];

  const char    *client_identity;

};

#define BUSYOBJ_TMO(bo, pfx, tmo)         \

  (isnan((bo)->tmo) ? cache_param->pfx##tmo : (bo)->tmo)

extern const char *retry_disabled;

/*--------------------------------------------------------------------*/

struct reqtop {

  unsigned    magic;

#define REQTOP_MAGIC    0x57fbda52

  struct req    *topreq;

  struct vcl    *vcl0;

  struct vrt_privs  privs[1];

};

struct req {

  unsigned    magic;

#define REQ_MAGIC   0xfb4abf6d

  unsigned    esi_level;

  body_status_t   req_body_status;

  stream_close_t    doclose;

  unsigned    restarts;

  unsigned    max_restarts;

  unsigned    waitinglist_gen;

  const struct req_step *req_step;

  struct reqtop   *top; /* esi_level == 0 request */

  uint16_t    err_code;

#define REQ_FLAG(l, r, w, d) unsigned l:1;

#include "tbl/req_flags.h"

  const char    *err_reason;

  struct sess   *sp;

  struct worker   *wrk;

  struct pool_task  task[1];

  const struct transport  *transport;

  void      *transport_priv;

  VTAILQ_ENTRY(req) w_list;

  struct objcore    *body_oc;

  /* Built Vary string == workspace reservation */

  uint8_t     *vary_b;

  uint8_t     *vary_e;

  uint8_t     digest[DIGEST_LEN];

  vtim_dur    d_ttl;

  vtim_dur    d_grace;

  const struct stevedore  *storage;

  const struct director *director_hint;

  struct vcl    *vcl;

  uintptr_t   ws_req;   /* WS above request data */

  /* Timestamps */

  vtim_real   t_first;  /* First timestamp logged */

  vtim_real   t_prev;   /* Previous timestamp logged */

  vtim_real   t_req;    /* Headers complete */

  vtim_real   t_resp;   /* Entry to last deliver/synth */

  struct http_conn  *htc;

  struct vfp_ctx    *vfc;

  const char    *client_identity;

  /* HTTP request */

  struct http   *http;

  struct http   *http0;

  /* HTTP response */

  struct http   *resp;

  intmax_t    resp_len;

  struct ws   ws[1];

  struct objcore    *objcore;

  struct objcore    *stale_oc;

  struct boc    *boc;   /* valid during cnt_transmit */

  /* resp.body */

  struct vdp_ctx    *vdc;

  const char    *vdp_filter_list;

  /* req.body */

  const char    *vfp_filter_list;

  /* Transaction VSL buffer */

  struct vsl_log    vsl[1];

  /* Temporary accounting */

  struct acct_req   acct;

  struct vrt_privs  privs[1];

  struct vcf    *vcf;

};

#define IS_TOPREQ(req) ((req)->top->topreq == (req))

/*--------------------------------------------------------------------

 * Struct sess is a high memory-load structure because sessions typically

 * hang around the waiter for relatively long time.

 *

 * The size goal for struct sess + struct memitem is <512 bytes

 *

 * Getting down to the next relevant size (<256 bytes because of how malloc

 * works, is not realistic without a lot of code changes.

 */

enum sess_attr {

#define SESS_ATTR(UP, low, typ, len)  SA_##UP,

#include "tbl/sess_attr.h"

  SA_LAST

};

struct sess {

  unsigned    magic;

#define SESS_MAGIC    0x2c2f9c5a

  uint16_t    sattr[SA_LAST];

  struct listen_sock  *listen_sock;

  int     refcnt;

  int     fd;

  vxid_t      vxid;

  struct lock   mtx;

  struct pool   *pool;

  struct ws   ws[1];

  vtim_real   t_open;   /* fd accepted */

  vtim_real   t_idle;   /* fd accepted or resp sent */

  vtim_dur    timeout_idle;

  vtim_dur    timeout_linger;

  vtim_dur    send_timeout;

  vtim_dur    idle_send_timeout;

};

#define SESS_TMO(sp, tmo)         \

  (isnan((sp)->tmo) ? cache_param->tmo : (sp)->tmo)

/* Prototypes etc ----------------------------------------------------*/

/* cache_ban.c */

/* for constructing bans */

struct ban_proto *BAN_Build(void);

const char *BAN_AddTest(struct ban_proto *,

    const char *, const char *, const char *);

const char *BAN_Commit(struct ban_proto *b);

void BAN_Abandon(struct ban_proto *b);

/* cache_cli.c [CLI] */

extern pthread_t cli_thread;

#define IS_CLI() (pthread_equal(pthread_self(), cli_thread))

#define ASSERT_CLI() do {assert(IS_CLI());} while (0)

/* cache_http.c */

unsigned HTTP_estimate(unsigned nhttp);

void HTTP_Clone(struct http *to, const struct http * const fm);

void HTTP_Dup(struct http *to, const struct http * const fm);

struct http *HTTP_create(void *p, uint16_t nhttp, unsigned);

const char *http_Status2Reason(unsigned, const char **);

int http_IsHdr(const txt *hh, hdr_t hdr);

unsigned http_EstimateWS(const struct http *fm, unsigned how);

void http_PutResponse(struct http *to, const char *proto, uint16_t status,

    const char *response);

void http_FilterReq(struct http *to, const struct http *fm, unsigned how);

void HTTP_Encode(const struct http *fm, uint8_t *, unsigned len, unsigned how);

int HTTP_Decode(struct http *to, const uint8_t *fm);

void http_ForceHeader(struct http *to, hdr_t, const char *val);

void http_AppendHeader(struct http *to, hdr_t, const char *val);

void http_PrintfHeader(struct http *to, const char *fmt, ...)

    v_printflike_(2, 3);

void http_TimeHeader(struct http *to, const char *fmt, vtim_real now);

const char * http_ViaHeader(void);

void http_Proto(struct http *to);

void http_SetHeader(struct http *to, const char *header);

void http_SetH(struct http *to, unsigned n, const char *header);

void http_ForceField(struct http *to, unsigned n, const char *t);

void HTTP_Setup(struct http *, struct ws *, struct vsl_log *, enum VSL_tag_e);

void http_Teardown(struct http *ht);

int http_GetHdr(const struct http *hp, hdr_t, const char **ptr);

int http_GetHdrToken(const struct http *hp, hdr_t,

    const char *token, const char **pb, const char **pe);

int http_GetHdrField(const struct http *hp, hdr_t,

    const char *field, const char **ptr);

double http_GetHdrQ(const struct http *hp, hdr_t, const char *field);

ssize_t http_GetContentLength(const struct http *hp);

ssize_t http_GetContentRange(const struct http *hp, ssize_t *lo, ssize_t *hi);

const char * http_GetRange(const struct http *hp, ssize_t *lo, ssize_t *hi,

    ssize_t len);

uint16_t http_GetStatus(const struct http *hp);

int http_IsStatus(const struct http *hp, int);

void http_SetStatus(struct http *to, uint16_t status, const char *reason);

const char *http_GetMethod(const struct http *hp);

int http_HdrIs(const struct http *hp, hdr_t, const char *val);

void http_CopyHome(const struct http *hp);

void http_Unset(struct http *hp, hdr_t);

unsigned http_CountHdr(const struct http *hp, hdr_t);

void http_CollectHdr(struct http *hp, hdr_t);

void http_CollectHdrSep(struct http *hp, hdr_t, const char *sep);

void http_VSL_log(const struct http *hp);

void HTTP_Merge(struct worker *, struct objcore *, struct http *to);

uint16_t HTTP_GetStatusPack(struct worker *, struct objcore *oc);

int HTTP_IterHdrPack(struct worker *, struct objcore *, const char **);

#define HTTP_FOREACH_PACK(wrk, oc, ptr) \

   for ((ptr) = NULL; HTTP_IterHdrPack(wrk, oc, &(ptr));)

const char *HTTP_GetHdrPack(struct worker *, struct objcore *, hdr_t);

stream_close_t http_DoConnection(struct http *hp, stream_close_t sc_close);

int http_IsFiltered(const struct http *hp, unsigned u, unsigned how);

void http_SetWellKnownMethod(struct http *hp);

#define HTTPH_R_PASS    (1 << 0)  /* Request (c->b) in pass mode */

#define HTTPH_R_FETCH   (1 << 1)  /* Request (c->b) for fetch */

#define HTTPH_A_INS   (1 << 2)  /* Response (b->o) for insert */

#define HTTPH_A_PASS    (1 << 3)  /* Response (b->o) for pass */

#define HTTPH_C_SPECIFIC  (1 << 4)  /* Connection-specific */

#define HTTPH(a, b, c) extern hdr_t b;

#include "tbl/http_headers.h"

extern hdr_t H__Status;

extern hdr_t H__Proto;

extern hdr_t H__Reason;

// rfc7233,l,1207,1208

#define http_tok_eq(s1, s2)   (!vct_casecmp(s1, s2))

#define http_tok_at(s1, s2, l)    (!vct_caselencmp(s1, s2, l))

#define http_ctok_at(s, cs)   (!vct_caselencmp(s, cs, sizeof(cs) - 1))

// rfc7230,l,1037,1038

#define http_scheme_at(str, tok)  http_ctok_at(str, #tok "://")

// rfc7230,l,1144,1144

// rfc7231,l,1156,1158

#define http_method_eq(check, wkm)  ((check & wkm) == wkm)

#define http_method_among(check, wkms)  ((check & (wkms)) != 0)

// rfc7230,l,1222,1222

// rfc7230,l,2848,2848

// rfc7231,l,3883,3885

// rfc7234,l,1339,1340

// rfc7234,l,1418,1419

#define http_hdr_eq(s1, s2)   http_tok_eq(s1, s2)

#define http_hdr_at(s1, s2, l)    http_tok_at(s1, s2, l)

// rfc7230,l,1952,1952

// rfc7231,l,604,604

#define http_coding_eq(str, tok)  http_tok_eq(str, #tok)

// rfc7231,l,1864,1864

#define http_expect_eq(str, tok)  http_tok_eq(str, #tok)

// rfc7233,l,1207,1208

#define http_range_at(str, tok, l)  http_tok_at(str, #tok, l)

/* cache_lck.c */

/* Internal functions, call only through macros below */

void Lck__Lock(struct lock *lck, const char *p,  int l);

void Lck__Unlock(struct lock *lck, const char *p,  int l);

int Lck__Trylock(struct lock *lck, const char *p,  int l);

void Lck__New(struct lock *lck, struct VSC_lck *, const char *);

int Lck__Held(const struct lock *lck);

int Lck__Owned(const struct lock *lck);

extern pthread_mutexattr_t mtxattr_errorcheck;

/* public interface: */

void Lck_Delete(struct lock *lck);

int Lck_CondWaitUntil(pthread_cond_t *, struct lock *, vtim_real when);

int Lck_CondWait(pthread_cond_t *, struct lock *);

int Lck_CondWaitTimeout(pthread_cond_t *, struct lock *, vtim_dur timeout);

#define Lck_New(a, b) Lck__New(a, b, #b)

#define Lck_Lock(a) Lck__Lock(a, __func__, __LINE__)

#define Lck_Unlock(a) Lck__Unlock(a, __func__, __LINE__)

#define Lck_Trylock(a) Lck__Trylock(a, __func__, __LINE__)

#define Lck_AssertHeld(a)   \

  do {        \

    assert(Lck__Held(a)); \

    assert(Lck__Owned(a));  \

  } while (0)

struct VSC_lck *Lck_CreateClass(struct vsc_seg **, const char *);

void Lck_DestroyClass(struct vsc_seg **);

#define LOCK(nam) extern struct VSC_lck *lck_##nam;

#include "tbl/locks.h"

/* cache_obj.c */

int ObjHasAttr(struct worker *, struct objcore *, enum obj_attr);

const void *ObjGetAttr(struct worker *, struct objcore *, enum obj_attr,

    ssize_t *len);

typedef int objiterate_f(void *priv, unsigned flush,

    const void *ptr, ssize_t len);

#define OBJ_ITER_FLUSH  0x01

#define OBJ_ITER_END  0x02

int ObjIterate(struct worker *, struct objcore *,

    void *priv, objiterate_f *func, int final);

vxid_t ObjGetXID(struct worker *, struct objcore *);

uint64_t ObjGetLen(struct worker *, struct objcore *);

int ObjGetDouble(struct worker *, struct objcore *, enum obj_attr, double *);

int ObjGetU64(struct worker *, struct objcore *, enum obj_attr, uint64_t *);

int ObjCheckFlag(struct worker *, struct objcore *, enum obj_flags of);

/*====================================================================

 * ObjVAI...(): Asynchronous Iteration

 *

 * see comments in cache_obj.c for usage

 */

typedef void *vai_hdl;

typedef void vai_notify_cb(vai_hdl, void *priv);

/*

 * VSCARAB: Varnish SCatter ARAy of Buffers:

 *

 * an array of viovs, elsewhere also called an siov or sarray

 */

struct viov {

  uint64_t  lease;

  struct iovec  iov;

};

struct vscarab {

  unsigned  magic;

#define VSCARAB_MAGIC 0x05ca7ab0

  unsigned  flags;

#define VSCARAB_F_END 1 // last viov is last overall

  unsigned  capacity;

  unsigned  used;

  struct viov s[] v_counted_by_(capacity);

};

// VFLA: starting generic container-with-flexible-array-member macros

// aka "struct hack"

//

// type : struct name

// name : a pointer to struct type

// mag  : the magic value for this VFLA

// cptr : pointer to container struct (aka "head")

// fam  : member name of the flexible array member

// cap  : capacity

//

// common properties of all VFLAs:

// - are a miniobj (have magic as the first element)

// - capacity member is the fam capacity

// - used member is the number of fam elements used

//

// VFLA_SIZE ignores the cap == 0 case, we assert in _INIT

// offsetoff ref: https://gustedt.wordpress.com/2011/03/14/flexible-array-member/

//lint -emacro(413, VFLA_SIZE)

//lint -emacro(545, VFLA_SIZE) bsd offsetof() seems to be using &

#define VFLA_SIZE(type, fam, cap) (offsetof(struct type, fam) + \

  (cap) * sizeof(((struct type *)0)->fam[0]))

#define VFLA_INIT_(type, cptr, mag, fam, cap, save) do {  \

  unsigned save = (cap);          \

  AN(save);           \

  memset((cptr), 0, VFLA_SIZE(type, fam, save));    \

  (cptr)->magic = (mag);          \

  (cptr)->capacity = (save);        \

} while (0)

#define VFLA_INIT(type, cptr, mag, fam, cap)      \

  VFLA_INIT_(type, cptr, mag, fam, cap, VUNIQ_NAME(save))

// declare, allocate and initialize a local VFLA

// the additional VLA buf declaration avoids

// "Variable-sized object may not be initialized"

#define VFLA_LOCAL_(type, name, mag, fam, cap, bufname)       \

  char bufname[VFLA_SIZE(type, fam, cap)];        \

  struct type *name = (void *)bufname;          \

  VFLA_INIT(type, name, mag, fam, cap)

#define VFLA_LOCAL(type, name, mag, fam, cap)         \

  VFLA_LOCAL_(type, name, mag, fam, cap, VUNIQ_NAME(buf))

// malloc and initialize a VFLA

#define VFLA_ALLOC(type, name, mag, fam, cap) do {      \

  (name) = malloc(VFLA_SIZE(type, fam, cap));     \

  if ((name) != NULL)           \

    VFLA_INIT(type, name, mag, fam, cap);     \

} while(0)

#define VFLA_FOREACH(var, cptr, fam)            \

  for (var = &(cptr)->fam[0];           \

       (var = (var < &(cptr)->fam[(cptr)->used] ? var : NULL)) != NULL; \

       var++)

// continue iterating after a break of a _FOREACH

#define VFLA_FOREACH_RESUME(var, cptr, fam)         \

  for (;                  \

       var != NULL &&             \

         (var = (var < &(cptr)->fam[(cptr)->used] ? var : NULL)) != NULL; \

       var++)

#define VFLA_GET(cptr, fam) ((cptr)->used < (cptr)->capacity ? &(cptr)->fam[(cptr)->used++] : NULL)

// asserts sufficient capacity

#define VFLA_ADD(cptr, fam, val) do {           \

  assert((cptr)->used < (cptr)->capacity);        \

  (cptr)->fam[(cptr)->used++] = (val);          \

} while(0)

#define VSCARAB_SIZE(cap) VFLA_SIZE(vscarab, s, cap)

#define VSCARAB_INIT(scarab, cap) VFLA_INIT(vscarab, scarab, VSCARAB_MAGIC, s, cap)

#define VSCARAB_LOCAL(scarab, cap) VFLA_LOCAL(vscarab, scarab, VSCARAB_MAGIC, s, cap)

#define VSCARAB_ALLOC(scarab, cap) VFLA_ALLOC(vscarab, scarab, VSCARAB_MAGIC, s, cap)

#define VSCARAB_FOREACH(var, scarab) VFLA_FOREACH(var, scarab, s)

#define VSCARAB_FOREACH_RESUME(var, scarab) VFLA_FOREACH_RESUME(var, scarab, s)

#define VSCARAB_GET(scarab) VFLA_GET(scarab, s)

#define VSCARAB_ADD(scarab, val) VFLA_ADD(scarab, s, val)

//lint -emacro(64, VSCARAB_ADD_IOV_NORET) weird flexelint bug?

#define VSCARAB_ADD_IOV_NORET(scarab, vec)          \

  VSCARAB_ADD(scarab, ((struct viov){.lease = VAI_LEASE_NORET, .iov = (vec)}))

#define VSCARAB_LAST(scarab) ((scarab)->used > 0 ?        \

  &(scarab)->s[(scarab)->used - 1] : NULL)

#define VSCARAB_CHECK(scarab) do {            \

  CHECK_OBJ(scarab, VSCARAB_MAGIC);         \

  assert((scarab)->used <= (scarab)->capacity);       \

} while(0)

#define VSCARAB_CHECK_NOTNULL(scarab) do {          \

  AN(scarab);               \

  VSCARAB_CHECK(scarab);              \

} while(0)

/*

 * VSCARET: Varnish SCatter Array Return

 *

 * an array of leases obtained from a vscarab

 */

struct vscaret {

  unsigned  magic;

#define VSCARET_MAGIC 0x9c1f3d7b

  unsigned  capacity;

  unsigned  used;

  uint64_t  lease[] v_counted_by_(capacity);

};

#define VSCARET_SIZE(cap) VFLA_SIZE(vscaret, lease, cap)

#define VSCARET_INIT(scaret, cap) VFLA_INIT(vscaret, scaret, VSCARET_MAGIC, lease, cap)

#define VSCARET_LOCAL(scaret, cap) VFLA_LOCAL(vscaret, scaret, VSCARET_MAGIC, lease, cap)

#define VSCARET_ALLOC(scaret, cap) VFLA_ALLOC(vscaret, scaret, VSCARET_MAGIC, lease, cap)

#define VSCARET_FOREACH(var, scaret) VFLA_FOREACH(var, scaret, lease)

#define VSCARET_GET(scaret) VFLA_GET(scaret, lease)

#define VSCARET_ADD(scaret, val) VFLA_ADD(scaret, lease, val)

#define VSCARET_CHECK(scaret) do {            \

  CHECK_OBJ(scaret, VSCARET_MAGIC);         \

  assert(scaret->used <= scaret->capacity);       \

} while(0)

#define VSCARET_CHECK_NOTNULL(scaret) do {          \

  AN(scaret);               \

  VSCARET_CHECK(scaret);              \

} while(0)

/*

 * VSCARABs can contain leases which are not to be returned to storage, for

 * example static data or fragments of larger leases to be returned later. For

 * these cases, use this magic value as the lease. This is deliberately not 0 to

 * catch oversights.

 */

#define VAI_LEASE_NORET ((uint64_t)0x8)

vai_hdl ObjVAIinit(struct worker *, struct objcore *, struct ws *,

    vai_notify_cb *, void *);

int ObjVAIlease(struct worker *, vai_hdl, struct vscarab *);

int ObjVAIbuffer(struct worker *, vai_hdl, struct vscarab *);

void ObjVAIreturn(struct worker *, vai_hdl, struct vscaret *);

void ObjVAInotify(struct worker *, vai_hdl);

void ObjVAIfini(struct worker *, vai_hdl *);

/* cache_req_body.c */

ssize_t VRB_Iterate(struct worker *, struct vsl_log *, struct req *,

    objiterate_f *func, void *priv);

/* cache_session.c [SES] */

#define SESS_ATTR(UP, low, typ, len)          \

  int SES_Get_##low(const struct sess *sp, typ **dst);

#include "tbl/sess_attr.h"

const char *SES_Get_String_Attr(const struct sess *sp, enum sess_attr a);

/* cache_shmlog.c */

void VSLv(enum VSL_tag_e tag, vxid_t vxid, const char *fmt, va_list va);

void VSL(enum VSL_tag_e tag, vxid_t vxid, const char *fmt, ...)

    v_printflike_(3, 4);

void VSLs(enum VSL_tag_e tag, vxid_t vxid, const struct strands *s);

void VSLbv(struct vsl_log *, enum VSL_tag_e tag, const char *fmt, va_list va);

void VSLb(struct vsl_log *, enum VSL_tag_e tag, const char *fmt, ...)

    v_printflike_(3, 4);

void VSLbt(struct vsl_log *, enum VSL_tag_e tag, txt t);

void VSLbs(struct vsl_log *, enum VSL_tag_e tag, const struct strands *s);

void VSLb_ts(struct vsl_log *, const char *event, vtim_real first,

    vtim_real *pprev, vtim_real now);

void VSLb_bin(struct vsl_log *, enum VSL_tag_e, ssize_t, const void*);

int VSL_tag_is_masked(enum VSL_tag_e tag);

static inline void

VSLb_ts_req(struct req *req, const char *event, vtim_real now)

{

  if (isnan(req->t_first) || req->t_first == 0.)

    req->t_first = req->t_prev = now;

  VSLb_ts(req->vsl, event, req->t_first, &req->t_prev, now);

}

Unexecuted instantiation: cache_ws_emu.c:VSLb_ts_req

Unexecuted instantiation: cache_ws_common.c:VSLb_ts_req

Unexecuted instantiation: cache_esi_parse.c:VSLb_ts_req

Unexecuted instantiation: esi_parse_fuzzer.c:VSLb_ts_req

static inline void

VSLb_ts_busyobj(struct busyobj *bo, const char *event, vtim_real now)

{

  if (isnan(bo->t_first) || bo->t_first == 0.)

    bo->t_first = bo->t_prev = now;

  VSLb_ts(bo->vsl, event, bo->t_first, &bo->t_prev, now);

}

Unexecuted instantiation: cache_ws_emu.c:VSLb_ts_busyobj

Unexecuted instantiation: cache_ws_common.c:VSLb_ts_busyobj

Unexecuted instantiation: cache_esi_parse.c:VSLb_ts_busyobj

Unexecuted instantiation: esi_parse_fuzzer.c:VSLb_ts_busyobj

/* cache_vcl.c */

const char *VCL_Name(const struct vcl *);

/* cache_wrk.c */

typedef void *bgthread_t(struct worker *, void *priv);

void WRK_BgThread(pthread_t *thr, const char *name, bgthread_t *func,

    void *priv);

/* cache_ws.c */

void WS_Init(struct ws *ws, const char *id, void *space, unsigned len);

unsigned WS_ReserveSize(struct ws *, unsigned);

unsigned WS_ReserveAll(struct ws *);

void WS_Release(struct ws *ws, unsigned bytes);

void WS_ReleaseP(struct ws *ws, const char *ptr);

void WS_Assert(const struct ws *ws);

void WS_Reset(struct ws *ws, uintptr_t);

void *WS_Alloc(struct ws *ws, unsigned bytes);

void *WS_Copy(struct ws *ws, const void *str, int len);

uintptr_t WS_Snapshot(struct ws *ws);

int WS_Allocated(const struct ws *ws, const void *ptr, ssize_t len);

unsigned WS_Dump(const struct ws *ws, char, size_t off, void *buf, size_t len);

static inline void *

WS_Reservation(const struct ws *ws)

{

  WS_Assert(ws);

  AN(ws->r);

  AN(ws->f);

  return (ws->f);

}

Unexecuted instantiation: cache_ws_emu.c:WS_Reservation

Unexecuted instantiation: cache_ws_common.c:WS_Reservation

Unexecuted instantiation: cache_esi_parse.c:WS_Reservation

Unexecuted instantiation: esi_parse_fuzzer.c:WS_Reservation

static inline unsigned

WS_ReservationSize(const struct ws *ws)

{

  AN(ws->r);

  return (ws->r - ws->f);

}

Unexecuted instantiation: cache_ws_emu.c:WS_ReservationSize

Unexecuted instantiation: cache_ws_common.c:WS_ReservationSize

Unexecuted instantiation: cache_esi_parse.c:WS_ReservationSize

Unexecuted instantiation: esi_parse_fuzzer.c:WS_ReservationSize

static inline unsigned

WS_ReserveLumps(struct ws *ws, size_t sz)

{

  AN(sz);

  return (WS_ReserveAll(ws) / sz);

}

Unexecuted instantiation: cache_ws_emu.c:WS_ReserveLumps

Unexecuted instantiation: cache_ws_common.c:WS_ReserveLumps

Unexecuted instantiation: cache_esi_parse.c:WS_ReserveLumps

Unexecuted instantiation: esi_parse_fuzzer.c:WS_ReserveLumps

/* cache_ws_common.c */

void WS_MarkOverflow(struct ws *ws);

int WS_Overflowed(const struct ws *ws);

const char *WS_Printf(struct ws *ws, const char *fmt, ...) v_printflike_(2, 3);

void WS_VSB_new(struct vsb *, struct ws *);

char *WS_VSB_finish(struct vsb *, struct ws *, size_t *);

/* WS utility */

#define WS_TASK_ALLOC_OBJ(ctx, ptr, magic) do {     \

  ptr = WS_Alloc((ctx)->ws, sizeof *(ptr));   \

  if ((ptr) == NULL)          \

    VRT_fail(ctx, "Out of workspace for " #magic);  \

  else              \

    INIT_OBJ(ptr, magic);       \

} while(0)

/* cache_rfc2616.c */

void RFC2616_Ttl(struct busyobj *, vtim_real now, vtim_real *t_origin,

    float *ttl, float *grace, float *keep);

unsigned RFC2616_Req_Gzip(const struct http *);

int RFC2616_Do_Cond(const struct req *sp);

void RFC2616_Weaken_Etag(struct http *hp);

void RFC2616_Vary_AE(struct http *hp);

const char * RFC2616_Strong_LM(const struct http *hp, struct worker *wrk,

    struct objcore *oc);

/*

 * We want to cache the most recent timestamp in wrk->lastused to avoid

 * extra timestamps in cache_pool.c.  Hide this detail with a macro

 */

#define W_TIM_real(w) ((w)->lastused = VTIM_real())