chromedp/cdp/network/network.go

1398 lines
33 KiB
Go

// Package network provides the Chrome Debugging Protocol
// commands, types, and events for the Network domain.
//
// Network domain allows tracking network activities of the page. It exposes
// information about http, file, data and other requests and responses, their
// headers, bodies, timing, etc.
//
// Generated by the chromedp-gen command.
package network
// AUTOGENERATED. DO NOT EDIT.
import (
"context"
"encoding/base64"
cdp "github.com/knq/chromedp/cdp"
"github.com/mailru/easyjson"
)
// EnableParams enables network tracking, network events will now be
// delivered to the client.
type EnableParams struct {
MaxTotalBufferSize int64 `json:"maxTotalBufferSize,omitempty"` // Buffer size in bytes to use when preserving network payloads (XHRs, etc).
MaxResourceBufferSize int64 `json:"maxResourceBufferSize,omitempty"` // Per-resource buffer size in bytes to use when preserving network payloads (XHRs, etc).
}
// Enable enables network tracking, network events will now be delivered to
// the client.
//
// parameters:
func Enable() *EnableParams {
return &EnableParams{}
}
// WithMaxTotalBufferSize buffer size in bytes to use when preserving network
// payloads (XHRs, etc).
func (p EnableParams) WithMaxTotalBufferSize(maxTotalBufferSize int64) *EnableParams {
p.MaxTotalBufferSize = maxTotalBufferSize
return &p
}
// WithMaxResourceBufferSize per-resource buffer size in bytes to use when
// preserving network payloads (XHRs, etc).
func (p EnableParams) WithMaxResourceBufferSize(maxResourceBufferSize int64) *EnableParams {
p.MaxResourceBufferSize = maxResourceBufferSize
return &p
}
// Do executes Network.enable against the provided context and
// target handler.
func (p *EnableParams) Do(ctxt context.Context, h cdp.Handler) (err error) {
if ctxt == nil {
ctxt = context.Background()
}
// marshal
buf, err := easyjson.Marshal(p)
if err != nil {
return err
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkEnable, easyjson.RawMessage(buf))
// read response
select {
case res := <-ch:
if res == nil {
return cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
return nil
case error:
return v
}
case <-ctxt.Done():
return ctxt.Err()
}
return cdp.ErrUnknownResult
}
// DisableParams disables network tracking, prevents network events from
// being sent to the client.
type DisableParams struct{}
// Disable disables network tracking, prevents network events from being sent
// to the client.
func Disable() *DisableParams {
return &DisableParams{}
}
// Do executes Network.disable against the provided context and
// target handler.
func (p *DisableParams) Do(ctxt context.Context, h cdp.Handler) (err error) {
if ctxt == nil {
ctxt = context.Background()
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkDisable, cdp.Empty)
// read response
select {
case res := <-ch:
if res == nil {
return cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
return nil
case error:
return v
}
case <-ctxt.Done():
return ctxt.Err()
}
return cdp.ErrUnknownResult
}
// SetUserAgentOverrideParams allows overriding user agent with the given
// string.
type SetUserAgentOverrideParams struct {
UserAgent string `json:"userAgent"` // User agent to use.
}
// SetUserAgentOverride allows overriding user agent with the given string.
//
// parameters:
// userAgent - User agent to use.
func SetUserAgentOverride(userAgent string) *SetUserAgentOverrideParams {
return &SetUserAgentOverrideParams{
UserAgent: userAgent,
}
}
// Do executes Network.setUserAgentOverride against the provided context and
// target handler.
func (p *SetUserAgentOverrideParams) Do(ctxt context.Context, h cdp.Handler) (err error) {
if ctxt == nil {
ctxt = context.Background()
}
// marshal
buf, err := easyjson.Marshal(p)
if err != nil {
return err
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkSetUserAgentOverride, easyjson.RawMessage(buf))
// read response
select {
case res := <-ch:
if res == nil {
return cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
return nil
case error:
return v
}
case <-ctxt.Done():
return ctxt.Err()
}
return cdp.ErrUnknownResult
}
// SetExtraHTTPHeadersParams specifies whether to always send extra HTTP
// headers with the requests from this page.
type SetExtraHTTPHeadersParams struct {
Headers *Headers `json:"headers"` // Map with extra HTTP headers.
}
// SetExtraHTTPHeaders specifies whether to always send extra HTTP headers
// with the requests from this page.
//
// parameters:
// headers - Map with extra HTTP headers.
func SetExtraHTTPHeaders(headers *Headers) *SetExtraHTTPHeadersParams {
return &SetExtraHTTPHeadersParams{
Headers: headers,
}
}
// Do executes Network.setExtraHTTPHeaders against the provided context and
// target handler.
func (p *SetExtraHTTPHeadersParams) Do(ctxt context.Context, h cdp.Handler) (err error) {
if ctxt == nil {
ctxt = context.Background()
}
// marshal
buf, err := easyjson.Marshal(p)
if err != nil {
return err
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkSetExtraHTTPHeaders, easyjson.RawMessage(buf))
// read response
select {
case res := <-ch:
if res == nil {
return cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
return nil
case error:
return v
}
case <-ctxt.Done():
return ctxt.Err()
}
return cdp.ErrUnknownResult
}
// GetResponseBodyParams returns content served for the given request.
type GetResponseBodyParams struct {
RequestID RequestID `json:"requestId"` // Identifier of the network request to get content for.
}
// GetResponseBody returns content served for the given request.
//
// parameters:
// requestID - Identifier of the network request to get content for.
func GetResponseBody(requestID RequestID) *GetResponseBodyParams {
return &GetResponseBodyParams{
RequestID: requestID,
}
}
// GetResponseBodyReturns return values.
type GetResponseBodyReturns struct {
Body string `json:"body,omitempty"` // Response body.
Base64encoded bool `json:"base64Encoded,omitempty"` // True, if content was sent as base64.
}
// Do executes Network.getResponseBody against the provided context and
// target handler.
//
// returns:
// body - Response body.
func (p *GetResponseBodyParams) Do(ctxt context.Context, h cdp.Handler) (body []byte, err error) {
if ctxt == nil {
ctxt = context.Background()
}
// marshal
buf, err := easyjson.Marshal(p)
if err != nil {
return nil, err
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkGetResponseBody, easyjson.RawMessage(buf))
// read response
select {
case res := <-ch:
if res == nil {
return nil, cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
// unmarshal
var r GetResponseBodyReturns
err = easyjson.Unmarshal(v, &r)
if err != nil {
return nil, cdp.ErrInvalidResult
}
// decode
var dec []byte
if r.Base64encoded {
dec, err = base64.StdEncoding.DecodeString(r.Body)
if err != nil {
return nil, err
}
} else {
dec = []byte(r.Body)
}
return dec, nil
case error:
return nil, v
}
case <-ctxt.Done():
return nil, ctxt.Err()
}
return nil, cdp.ErrUnknownResult
}
// AddBlockedURLParams blocks specific URL from loading.
type AddBlockedURLParams struct {
URL string `json:"url"` // URL to block.
}
// AddBlockedURL blocks specific URL from loading.
//
// parameters:
// url - URL to block.
func AddBlockedURL(url string) *AddBlockedURLParams {
return &AddBlockedURLParams{
URL: url,
}
}
// Do executes Network.addBlockedURL against the provided context and
// target handler.
func (p *AddBlockedURLParams) Do(ctxt context.Context, h cdp.Handler) (err error) {
if ctxt == nil {
ctxt = context.Background()
}
// marshal
buf, err := easyjson.Marshal(p)
if err != nil {
return err
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkAddBlockedURL, easyjson.RawMessage(buf))
// read response
select {
case res := <-ch:
if res == nil {
return cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
return nil
case error:
return v
}
case <-ctxt.Done():
return ctxt.Err()
}
return cdp.ErrUnknownResult
}
// RemoveBlockedURLParams cancels blocking of a specific URL from loading.
type RemoveBlockedURLParams struct {
URL string `json:"url"` // URL to stop blocking.
}
// RemoveBlockedURL cancels blocking of a specific URL from loading.
//
// parameters:
// url - URL to stop blocking.
func RemoveBlockedURL(url string) *RemoveBlockedURLParams {
return &RemoveBlockedURLParams{
URL: url,
}
}
// Do executes Network.removeBlockedURL against the provided context and
// target handler.
func (p *RemoveBlockedURLParams) Do(ctxt context.Context, h cdp.Handler) (err error) {
if ctxt == nil {
ctxt = context.Background()
}
// marshal
buf, err := easyjson.Marshal(p)
if err != nil {
return err
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkRemoveBlockedURL, easyjson.RawMessage(buf))
// read response
select {
case res := <-ch:
if res == nil {
return cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
return nil
case error:
return v
}
case <-ctxt.Done():
return ctxt.Err()
}
return cdp.ErrUnknownResult
}
// ReplayXHRParams this method sends a new XMLHttpRequest which is identical
// to the original one. The following parameters should be identical: method,
// url, async, request body, extra headers, withCredentials attribute, user,
// password.
type ReplayXHRParams struct {
RequestID RequestID `json:"requestId"` // Identifier of XHR to replay.
}
// ReplayXHR this method sends a new XMLHttpRequest which is identical to the
// original one. The following parameters should be identical: method, url,
// async, request body, extra headers, withCredentials attribute, user,
// password.
//
// parameters:
// requestID - Identifier of XHR to replay.
func ReplayXHR(requestID RequestID) *ReplayXHRParams {
return &ReplayXHRParams{
RequestID: requestID,
}
}
// Do executes Network.replayXHR against the provided context and
// target handler.
func (p *ReplayXHRParams) Do(ctxt context.Context, h cdp.Handler) (err error) {
if ctxt == nil {
ctxt = context.Background()
}
// marshal
buf, err := easyjson.Marshal(p)
if err != nil {
return err
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkReplayXHR, easyjson.RawMessage(buf))
// read response
select {
case res := <-ch:
if res == nil {
return cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
return nil
case error:
return v
}
case <-ctxt.Done():
return ctxt.Err()
}
return cdp.ErrUnknownResult
}
// SetMonitoringXHREnabledParams toggles monitoring of XMLHttpRequest. If
// true, console will receive messages upon each XHR issued.
type SetMonitoringXHREnabledParams struct {
Enabled bool `json:"enabled"` // Monitoring enabled state.
}
// SetMonitoringXHREnabled toggles monitoring of XMLHttpRequest. If true,
// console will receive messages upon each XHR issued.
//
// parameters:
// enabled - Monitoring enabled state.
func SetMonitoringXHREnabled(enabled bool) *SetMonitoringXHREnabledParams {
return &SetMonitoringXHREnabledParams{
Enabled: enabled,
}
}
// Do executes Network.setMonitoringXHREnabled against the provided context and
// target handler.
func (p *SetMonitoringXHREnabledParams) Do(ctxt context.Context, h cdp.Handler) (err error) {
if ctxt == nil {
ctxt = context.Background()
}
// marshal
buf, err := easyjson.Marshal(p)
if err != nil {
return err
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkSetMonitoringXHREnabled, easyjson.RawMessage(buf))
// read response
select {
case res := <-ch:
if res == nil {
return cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
return nil
case error:
return v
}
case <-ctxt.Done():
return ctxt.Err()
}
return cdp.ErrUnknownResult
}
// CanClearBrowserCacheParams tells whether clearing browser cache is
// supported.
type CanClearBrowserCacheParams struct{}
// CanClearBrowserCache tells whether clearing browser cache is supported.
func CanClearBrowserCache() *CanClearBrowserCacheParams {
return &CanClearBrowserCacheParams{}
}
// CanClearBrowserCacheReturns return values.
type CanClearBrowserCacheReturns struct {
Result bool `json:"result,omitempty"` // True if browser cache can be cleared.
}
// Do executes Network.canClearBrowserCache against the provided context and
// target handler.
//
// returns:
// result - True if browser cache can be cleared.
func (p *CanClearBrowserCacheParams) Do(ctxt context.Context, h cdp.Handler) (result bool, err error) {
if ctxt == nil {
ctxt = context.Background()
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkCanClearBrowserCache, cdp.Empty)
// read response
select {
case res := <-ch:
if res == nil {
return false, cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
// unmarshal
var r CanClearBrowserCacheReturns
err = easyjson.Unmarshal(v, &r)
if err != nil {
return false, cdp.ErrInvalidResult
}
return r.Result, nil
case error:
return false, v
}
case <-ctxt.Done():
return false, ctxt.Err()
}
return false, cdp.ErrUnknownResult
}
// ClearBrowserCacheParams clears browser cache.
type ClearBrowserCacheParams struct{}
// ClearBrowserCache clears browser cache.
func ClearBrowserCache() *ClearBrowserCacheParams {
return &ClearBrowserCacheParams{}
}
// Do executes Network.clearBrowserCache against the provided context and
// target handler.
func (p *ClearBrowserCacheParams) Do(ctxt context.Context, h cdp.Handler) (err error) {
if ctxt == nil {
ctxt = context.Background()
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkClearBrowserCache, cdp.Empty)
// read response
select {
case res := <-ch:
if res == nil {
return cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
return nil
case error:
return v
}
case <-ctxt.Done():
return ctxt.Err()
}
return cdp.ErrUnknownResult
}
// CanClearBrowserCookiesParams tells whether clearing browser cookies is
// supported.
type CanClearBrowserCookiesParams struct{}
// CanClearBrowserCookies tells whether clearing browser cookies is
// supported.
func CanClearBrowserCookies() *CanClearBrowserCookiesParams {
return &CanClearBrowserCookiesParams{}
}
// CanClearBrowserCookiesReturns return values.
type CanClearBrowserCookiesReturns struct {
Result bool `json:"result,omitempty"` // True if browser cookies can be cleared.
}
// Do executes Network.canClearBrowserCookies against the provided context and
// target handler.
//
// returns:
// result - True if browser cookies can be cleared.
func (p *CanClearBrowserCookiesParams) Do(ctxt context.Context, h cdp.Handler) (result bool, err error) {
if ctxt == nil {
ctxt = context.Background()
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkCanClearBrowserCookies, cdp.Empty)
// read response
select {
case res := <-ch:
if res == nil {
return false, cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
// unmarshal
var r CanClearBrowserCookiesReturns
err = easyjson.Unmarshal(v, &r)
if err != nil {
return false, cdp.ErrInvalidResult
}
return r.Result, nil
case error:
return false, v
}
case <-ctxt.Done():
return false, ctxt.Err()
}
return false, cdp.ErrUnknownResult
}
// ClearBrowserCookiesParams clears browser cookies.
type ClearBrowserCookiesParams struct{}
// ClearBrowserCookies clears browser cookies.
func ClearBrowserCookies() *ClearBrowserCookiesParams {
return &ClearBrowserCookiesParams{}
}
// Do executes Network.clearBrowserCookies against the provided context and
// target handler.
func (p *ClearBrowserCookiesParams) Do(ctxt context.Context, h cdp.Handler) (err error) {
if ctxt == nil {
ctxt = context.Background()
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkClearBrowserCookies, cdp.Empty)
// read response
select {
case res := <-ch:
if res == nil {
return cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
return nil
case error:
return v
}
case <-ctxt.Done():
return ctxt.Err()
}
return cdp.ErrUnknownResult
}
// GetCookiesParams returns all browser cookies for the current URL.
// Depending on the backend support, will return detailed cookie information in
// the cookies field.
type GetCookiesParams struct {
Urls []string `json:"urls,omitempty"` // The list of URLs for which applicable cookies will be fetched
}
// GetCookies returns all browser cookies for the current URL. Depending on
// the backend support, will return detailed cookie information in the cookies
// field.
//
// parameters:
func GetCookies() *GetCookiesParams {
return &GetCookiesParams{}
}
// WithUrls the list of URLs for which applicable cookies will be fetched.
func (p GetCookiesParams) WithUrls(urls []string) *GetCookiesParams {
p.Urls = urls
return &p
}
// GetCookiesReturns return values.
type GetCookiesReturns struct {
Cookies []*Cookie `json:"cookies,omitempty"` // Array of cookie objects.
}
// Do executes Network.getCookies against the provided context and
// target handler.
//
// returns:
// cookies - Array of cookie objects.
func (p *GetCookiesParams) Do(ctxt context.Context, h cdp.Handler) (cookies []*Cookie, err error) {
if ctxt == nil {
ctxt = context.Background()
}
// marshal
buf, err := easyjson.Marshal(p)
if err != nil {
return nil, err
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkGetCookies, easyjson.RawMessage(buf))
// read response
select {
case res := <-ch:
if res == nil {
return nil, cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
// unmarshal
var r GetCookiesReturns
err = easyjson.Unmarshal(v, &r)
if err != nil {
return nil, cdp.ErrInvalidResult
}
return r.Cookies, nil
case error:
return nil, v
}
case <-ctxt.Done():
return nil, ctxt.Err()
}
return nil, cdp.ErrUnknownResult
}
// GetAllCookiesParams returns all browser cookies. Depending on the backend
// support, will return detailed cookie information in the cookies field.
type GetAllCookiesParams struct{}
// GetAllCookies returns all browser cookies. Depending on the backend
// support, will return detailed cookie information in the cookies field.
func GetAllCookies() *GetAllCookiesParams {
return &GetAllCookiesParams{}
}
// GetAllCookiesReturns return values.
type GetAllCookiesReturns struct {
Cookies []*Cookie `json:"cookies,omitempty"` // Array of cookie objects.
}
// Do executes Network.getAllCookies against the provided context and
// target handler.
//
// returns:
// cookies - Array of cookie objects.
func (p *GetAllCookiesParams) Do(ctxt context.Context, h cdp.Handler) (cookies []*Cookie, err error) {
if ctxt == nil {
ctxt = context.Background()
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkGetAllCookies, cdp.Empty)
// read response
select {
case res := <-ch:
if res == nil {
return nil, cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
// unmarshal
var r GetAllCookiesReturns
err = easyjson.Unmarshal(v, &r)
if err != nil {
return nil, cdp.ErrInvalidResult
}
return r.Cookies, nil
case error:
return nil, v
}
case <-ctxt.Done():
return nil, ctxt.Err()
}
return nil, cdp.ErrUnknownResult
}
// DeleteCookieParams deletes browser cookie with given name, domain and
// path.
type DeleteCookieParams struct {
CookieName string `json:"cookieName"` // Name of the cookie to remove.
URL string `json:"url"` // URL to match cooke domain and path.
}
// DeleteCookie deletes browser cookie with given name, domain and path.
//
// parameters:
// cookieName - Name of the cookie to remove.
// url - URL to match cooke domain and path.
func DeleteCookie(cookieName string, url string) *DeleteCookieParams {
return &DeleteCookieParams{
CookieName: cookieName,
URL: url,
}
}
// Do executes Network.deleteCookie against the provided context and
// target handler.
func (p *DeleteCookieParams) Do(ctxt context.Context, h cdp.Handler) (err error) {
if ctxt == nil {
ctxt = context.Background()
}
// marshal
buf, err := easyjson.Marshal(p)
if err != nil {
return err
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkDeleteCookie, easyjson.RawMessage(buf))
// read response
select {
case res := <-ch:
if res == nil {
return cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
return nil
case error:
return v
}
case <-ctxt.Done():
return ctxt.Err()
}
return cdp.ErrUnknownResult
}
// SetCookieParams sets a cookie with the given cookie data; may overwrite
// equivalent cookies if they exist.
type SetCookieParams struct {
URL string `json:"url"` // The request-URI to associate with the setting of the cookie. This value can affect the default domain and path values of the created cookie.
Name string `json:"name"` // The name of the cookie.
Value string `json:"value"` // The value of the cookie.
Domain string `json:"domain,omitempty"` // If omitted, the cookie becomes a host-only cookie.
Path string `json:"path,omitempty"` // Defaults to the path portion of the url parameter.
Secure bool `json:"secure,omitempty"` // Defaults ot false.
HTTPOnly bool `json:"httpOnly,omitempty"` // Defaults to false.
SameSite CookieSameSite `json:"sameSite,omitempty"` // Defaults to browser default behavior.
ExpirationDate cdp.Timestamp `json:"expirationDate,omitempty"` // If omitted, the cookie becomes a session cookie.
}
// SetCookie sets a cookie with the given cookie data; may overwrite
// equivalent cookies if they exist.
//
// parameters:
// url - The request-URI to associate with the setting of the cookie. This value can affect the default domain and path values of the created cookie.
// name - The name of the cookie.
// value - The value of the cookie.
func SetCookie(url string, name string, value string) *SetCookieParams {
return &SetCookieParams{
URL: url,
Name: name,
Value: value,
}
}
// WithDomain if omitted, the cookie becomes a host-only cookie.
func (p SetCookieParams) WithDomain(domain string) *SetCookieParams {
p.Domain = domain
return &p
}
// WithPath defaults to the path portion of the url parameter.
func (p SetCookieParams) WithPath(path string) *SetCookieParams {
p.Path = path
return &p
}
// WithSecure defaults ot false.
func (p SetCookieParams) WithSecure(secure bool) *SetCookieParams {
p.Secure = secure
return &p
}
// WithHTTPOnly defaults to false.
func (p SetCookieParams) WithHTTPOnly(httpOnly bool) *SetCookieParams {
p.HTTPOnly = httpOnly
return &p
}
// WithSameSite defaults to browser default behavior.
func (p SetCookieParams) WithSameSite(sameSite CookieSameSite) *SetCookieParams {
p.SameSite = sameSite
return &p
}
// WithExpirationDate if omitted, the cookie becomes a session cookie.
func (p SetCookieParams) WithExpirationDate(expirationDate cdp.Timestamp) *SetCookieParams {
p.ExpirationDate = expirationDate
return &p
}
// SetCookieReturns return values.
type SetCookieReturns struct {
Success bool `json:"success,omitempty"` // True if successfully set cookie.
}
// Do executes Network.setCookie against the provided context and
// target handler.
//
// returns:
// success - True if successfully set cookie.
func (p *SetCookieParams) Do(ctxt context.Context, h cdp.Handler) (success bool, err error) {
if ctxt == nil {
ctxt = context.Background()
}
// marshal
buf, err := easyjson.Marshal(p)
if err != nil {
return false, err
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkSetCookie, easyjson.RawMessage(buf))
// read response
select {
case res := <-ch:
if res == nil {
return false, cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
// unmarshal
var r SetCookieReturns
err = easyjson.Unmarshal(v, &r)
if err != nil {
return false, cdp.ErrInvalidResult
}
return r.Success, nil
case error:
return false, v
}
case <-ctxt.Done():
return false, ctxt.Err()
}
return false, cdp.ErrUnknownResult
}
// CanEmulateNetworkConditionsParams tells whether emulation of network
// conditions is supported.
type CanEmulateNetworkConditionsParams struct{}
// CanEmulateNetworkConditions tells whether emulation of network conditions
// is supported.
func CanEmulateNetworkConditions() *CanEmulateNetworkConditionsParams {
return &CanEmulateNetworkConditionsParams{}
}
// CanEmulateNetworkConditionsReturns return values.
type CanEmulateNetworkConditionsReturns struct {
Result bool `json:"result,omitempty"` // True if emulation of network conditions is supported.
}
// Do executes Network.canEmulateNetworkConditions against the provided context and
// target handler.
//
// returns:
// result - True if emulation of network conditions is supported.
func (p *CanEmulateNetworkConditionsParams) Do(ctxt context.Context, h cdp.Handler) (result bool, err error) {
if ctxt == nil {
ctxt = context.Background()
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkCanEmulateNetworkConditions, cdp.Empty)
// read response
select {
case res := <-ch:
if res == nil {
return false, cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
// unmarshal
var r CanEmulateNetworkConditionsReturns
err = easyjson.Unmarshal(v, &r)
if err != nil {
return false, cdp.ErrInvalidResult
}
return r.Result, nil
case error:
return false, v
}
case <-ctxt.Done():
return false, ctxt.Err()
}
return false, cdp.ErrUnknownResult
}
// EmulateNetworkConditionsParams activates emulation of network conditions.
type EmulateNetworkConditionsParams struct {
Offline bool `json:"offline"` // True to emulate internet disconnection.
Latency float64 `json:"latency"` // Additional latency (ms).
DownloadThroughput float64 `json:"downloadThroughput"` // Maximal aggregated download throughput.
UploadThroughput float64 `json:"uploadThroughput"` // Maximal aggregated upload throughput.
ConnectionType ConnectionType `json:"connectionType,omitempty"` // Connection type if known.
}
// EmulateNetworkConditions activates emulation of network conditions.
//
// parameters:
// offline - True to emulate internet disconnection.
// latency - Additional latency (ms).
// downloadThroughput - Maximal aggregated download throughput.
// uploadThroughput - Maximal aggregated upload throughput.
func EmulateNetworkConditions(offline bool, latency float64, downloadThroughput float64, uploadThroughput float64) *EmulateNetworkConditionsParams {
return &EmulateNetworkConditionsParams{
Offline: offline,
Latency: latency,
DownloadThroughput: downloadThroughput,
UploadThroughput: uploadThroughput,
}
}
// WithConnectionType connection type if known.
func (p EmulateNetworkConditionsParams) WithConnectionType(connectionType ConnectionType) *EmulateNetworkConditionsParams {
p.ConnectionType = connectionType
return &p
}
// Do executes Network.emulateNetworkConditions against the provided context and
// target handler.
func (p *EmulateNetworkConditionsParams) Do(ctxt context.Context, h cdp.Handler) (err error) {
if ctxt == nil {
ctxt = context.Background()
}
// marshal
buf, err := easyjson.Marshal(p)
if err != nil {
return err
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkEmulateNetworkConditions, easyjson.RawMessage(buf))
// read response
select {
case res := <-ch:
if res == nil {
return cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
return nil
case error:
return v
}
case <-ctxt.Done():
return ctxt.Err()
}
return cdp.ErrUnknownResult
}
// SetCacheDisabledParams toggles ignoring cache for each request. If true,
// cache will not be used.
type SetCacheDisabledParams struct {
CacheDisabled bool `json:"cacheDisabled"` // Cache disabled state.
}
// SetCacheDisabled toggles ignoring cache for each request. If true, cache
// will not be used.
//
// parameters:
// cacheDisabled - Cache disabled state.
func SetCacheDisabled(cacheDisabled bool) *SetCacheDisabledParams {
return &SetCacheDisabledParams{
CacheDisabled: cacheDisabled,
}
}
// Do executes Network.setCacheDisabled against the provided context and
// target handler.
func (p *SetCacheDisabledParams) Do(ctxt context.Context, h cdp.Handler) (err error) {
if ctxt == nil {
ctxt = context.Background()
}
// marshal
buf, err := easyjson.Marshal(p)
if err != nil {
return err
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkSetCacheDisabled, easyjson.RawMessage(buf))
// read response
select {
case res := <-ch:
if res == nil {
return cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
return nil
case error:
return v
}
case <-ctxt.Done():
return ctxt.Err()
}
return cdp.ErrUnknownResult
}
// SetBypassServiceWorkerParams toggles ignoring of service worker for each
// request.
type SetBypassServiceWorkerParams struct {
Bypass bool `json:"bypass"` // Bypass service worker and load from network.
}
// SetBypassServiceWorker toggles ignoring of service worker for each
// request.
//
// parameters:
// bypass - Bypass service worker and load from network.
func SetBypassServiceWorker(bypass bool) *SetBypassServiceWorkerParams {
return &SetBypassServiceWorkerParams{
Bypass: bypass,
}
}
// Do executes Network.setBypassServiceWorker against the provided context and
// target handler.
func (p *SetBypassServiceWorkerParams) Do(ctxt context.Context, h cdp.Handler) (err error) {
if ctxt == nil {
ctxt = context.Background()
}
// marshal
buf, err := easyjson.Marshal(p)
if err != nil {
return err
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkSetBypassServiceWorker, easyjson.RawMessage(buf))
// read response
select {
case res := <-ch:
if res == nil {
return cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
return nil
case error:
return v
}
case <-ctxt.Done():
return ctxt.Err()
}
return cdp.ErrUnknownResult
}
// SetDataSizeLimitsForTestParams for testing.
type SetDataSizeLimitsForTestParams struct {
MaxTotalSize int64 `json:"maxTotalSize"` // Maximum total buffer size.
MaxResourceSize int64 `json:"maxResourceSize"` // Maximum per-resource size.
}
// SetDataSizeLimitsForTest for testing.
//
// parameters:
// maxTotalSize - Maximum total buffer size.
// maxResourceSize - Maximum per-resource size.
func SetDataSizeLimitsForTest(maxTotalSize int64, maxResourceSize int64) *SetDataSizeLimitsForTestParams {
return &SetDataSizeLimitsForTestParams{
MaxTotalSize: maxTotalSize,
MaxResourceSize: maxResourceSize,
}
}
// Do executes Network.setDataSizeLimitsForTest against the provided context and
// target handler.
func (p *SetDataSizeLimitsForTestParams) Do(ctxt context.Context, h cdp.Handler) (err error) {
if ctxt == nil {
ctxt = context.Background()
}
// marshal
buf, err := easyjson.Marshal(p)
if err != nil {
return err
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkSetDataSizeLimitsForTest, easyjson.RawMessage(buf))
// read response
select {
case res := <-ch:
if res == nil {
return cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
return nil
case error:
return v
}
case <-ctxt.Done():
return ctxt.Err()
}
return cdp.ErrUnknownResult
}
// GetCertificateParams returns the DER-encoded certificate.
type GetCertificateParams struct {
Origin string `json:"origin"` // Origin to get certificate for.
}
// GetCertificate returns the DER-encoded certificate.
//
// parameters:
// origin - Origin to get certificate for.
func GetCertificate(origin string) *GetCertificateParams {
return &GetCertificateParams{
Origin: origin,
}
}
// GetCertificateReturns return values.
type GetCertificateReturns struct {
TableNames []string `json:"tableNames,omitempty"`
}
// Do executes Network.getCertificate against the provided context and
// target handler.
//
// returns:
// tableNames
func (p *GetCertificateParams) Do(ctxt context.Context, h cdp.Handler) (tableNames []string, err error) {
if ctxt == nil {
ctxt = context.Background()
}
// marshal
buf, err := easyjson.Marshal(p)
if err != nil {
return nil, err
}
// execute
ch := h.Execute(ctxt, cdp.CommandNetworkGetCertificate, easyjson.RawMessage(buf))
// read response
select {
case res := <-ch:
if res == nil {
return nil, cdp.ErrChannelClosed
}
switch v := res.(type) {
case easyjson.RawMessage:
// unmarshal
var r GetCertificateReturns
err = easyjson.Unmarshal(v, &r)
if err != nil {
return nil, cdp.ErrInvalidResult
}
return r.TableNames, nil
case error:
return nil, v
}
case <-ctxt.Done():
return nil, ctxt.Err()
}
return nil, cdp.ErrUnknownResult
}